mirror of
https://github.com/superseriousbusiness/gotosocial.git
synced 2024-12-28 01:56:30 +00:00
fd8a724e77
* bump go swagger version * bump swagger version
509 lines
11 KiB
Go
509 lines
11 KiB
Go
// Copyright 2015 go-swagger maintainers
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package swag
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import (
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"bytes"
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"sync"
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"unicode"
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"unicode/utf8"
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)
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type (
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splitter struct {
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initialisms []string
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initialismsRunes [][]rune
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initialismsUpperCased [][]rune // initialisms cached in their trimmed, upper-cased version
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postSplitInitialismCheck bool
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}
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splitterOption func(*splitter)
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initialismMatch struct {
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body []rune
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start, end int
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complete bool
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}
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initialismMatches []initialismMatch
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)
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type (
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// memory pools of temporary objects.
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//
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// These are used to recycle temporarily allocated objects
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// and relieve the GC from undue pressure.
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matchesPool struct {
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*sync.Pool
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}
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buffersPool struct {
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*sync.Pool
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}
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lexemsPool struct {
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*sync.Pool
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}
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splittersPool struct {
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*sync.Pool
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}
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)
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var (
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// poolOfMatches holds temporary slices for recycling during the initialism match process
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poolOfMatches = matchesPool{
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Pool: &sync.Pool{
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New: func() any {
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s := make(initialismMatches, 0, maxAllocMatches)
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return &s
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},
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},
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}
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poolOfBuffers = buffersPool{
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Pool: &sync.Pool{
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New: func() any {
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return new(bytes.Buffer)
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},
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},
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}
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poolOfLexems = lexemsPool{
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Pool: &sync.Pool{
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New: func() any {
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s := make([]nameLexem, 0, maxAllocMatches)
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return &s
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},
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},
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}
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poolOfSplitters = splittersPool{
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Pool: &sync.Pool{
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New: func() any {
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s := newSplitter()
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return &s
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},
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},
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}
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)
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// nameReplaceTable finds a word representation for special characters.
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func nameReplaceTable(r rune) (string, bool) {
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switch r {
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case '@':
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return "At ", true
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case '&':
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return "And ", true
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case '|':
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return "Pipe ", true
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case '$':
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return "Dollar ", true
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case '!':
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return "Bang ", true
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case '-':
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return "", true
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case '_':
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return "", true
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default:
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return "", false
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}
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}
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// split calls the splitter.
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//
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// Use newSplitter for more control and options
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func split(str string) []string {
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s := poolOfSplitters.BorrowSplitter()
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lexems := s.split(str)
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result := make([]string, 0, len(*lexems))
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for _, lexem := range *lexems {
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result = append(result, lexem.GetOriginal())
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}
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poolOfLexems.RedeemLexems(lexems)
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poolOfSplitters.RedeemSplitter(s)
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return result
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}
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func newSplitter(options ...splitterOption) splitter {
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s := splitter{
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postSplitInitialismCheck: false,
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initialisms: initialisms,
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initialismsRunes: initialismsRunes,
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initialismsUpperCased: initialismsUpperCased,
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}
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for _, option := range options {
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option(&s)
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}
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return s
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}
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// withPostSplitInitialismCheck allows to catch initialisms after main split process
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func withPostSplitInitialismCheck(s *splitter) {
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s.postSplitInitialismCheck = true
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}
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func (p matchesPool) BorrowMatches() *initialismMatches {
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s := p.Get().(*initialismMatches)
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*s = (*s)[:0] // reset slice, keep allocated capacity
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return s
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}
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func (p buffersPool) BorrowBuffer(size int) *bytes.Buffer {
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s := p.Get().(*bytes.Buffer)
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s.Reset()
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if s.Cap() < size {
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s.Grow(size)
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}
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return s
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}
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func (p lexemsPool) BorrowLexems() *[]nameLexem {
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s := p.Get().(*[]nameLexem)
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*s = (*s)[:0] // reset slice, keep allocated capacity
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return s
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}
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func (p splittersPool) BorrowSplitter(options ...splitterOption) *splitter {
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s := p.Get().(*splitter)
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s.postSplitInitialismCheck = false // reset options
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for _, apply := range options {
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apply(s)
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}
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return s
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}
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func (p matchesPool) RedeemMatches(s *initialismMatches) {
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p.Put(s)
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}
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func (p buffersPool) RedeemBuffer(s *bytes.Buffer) {
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p.Put(s)
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}
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func (p lexemsPool) RedeemLexems(s *[]nameLexem) {
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p.Put(s)
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}
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func (p splittersPool) RedeemSplitter(s *splitter) {
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p.Put(s)
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}
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func (m initialismMatch) isZero() bool {
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return m.start == 0 && m.end == 0
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}
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func (s splitter) split(name string) *[]nameLexem {
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nameRunes := []rune(name)
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matches := s.gatherInitialismMatches(nameRunes)
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if matches == nil {
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return poolOfLexems.BorrowLexems()
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}
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return s.mapMatchesToNameLexems(nameRunes, matches)
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}
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func (s splitter) gatherInitialismMatches(nameRunes []rune) *initialismMatches {
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var matches *initialismMatches
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for currentRunePosition, currentRune := range nameRunes {
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// recycle these allocations as we loop over runes
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// with such recycling, only 2 slices should be allocated per call
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// instead of o(n).
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newMatches := poolOfMatches.BorrowMatches()
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// check current initialism matches
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if matches != nil { // skip first iteration
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for _, match := range *matches {
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if keepCompleteMatch := match.complete; keepCompleteMatch {
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*newMatches = append(*newMatches, match)
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continue
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}
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// drop failed match
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currentMatchRune := match.body[currentRunePosition-match.start]
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if currentMatchRune != currentRune {
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continue
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}
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// try to complete ongoing match
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if currentRunePosition-match.start == len(match.body)-1 {
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// we are close; the next step is to check the symbol ahead
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// if it is a small letter, then it is not the end of match
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// but beginning of the next word
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if currentRunePosition < len(nameRunes)-1 {
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nextRune := nameRunes[currentRunePosition+1]
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if newWord := unicode.IsLower(nextRune); newWord {
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// oh ok, it was the start of a new word
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continue
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}
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}
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match.complete = true
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match.end = currentRunePosition
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}
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*newMatches = append(*newMatches, match)
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}
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}
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// check for new initialism matches
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for i := range s.initialisms {
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initialismRunes := s.initialismsRunes[i]
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if initialismRunes[0] == currentRune {
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*newMatches = append(*newMatches, initialismMatch{
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start: currentRunePosition,
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body: initialismRunes,
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complete: false,
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})
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}
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}
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if matches != nil {
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poolOfMatches.RedeemMatches(matches)
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}
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matches = newMatches
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}
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// up to the caller to redeem this last slice
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return matches
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}
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func (s splitter) mapMatchesToNameLexems(nameRunes []rune, matches *initialismMatches) *[]nameLexem {
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nameLexems := poolOfLexems.BorrowLexems()
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var lastAcceptedMatch initialismMatch
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for _, match := range *matches {
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if !match.complete {
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continue
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}
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if firstMatch := lastAcceptedMatch.isZero(); firstMatch {
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s.appendBrokenDownCasualString(nameLexems, nameRunes[:match.start])
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*nameLexems = append(*nameLexems, s.breakInitialism(string(match.body)))
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lastAcceptedMatch = match
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continue
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}
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if overlappedMatch := match.start <= lastAcceptedMatch.end; overlappedMatch {
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continue
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}
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middle := nameRunes[lastAcceptedMatch.end+1 : match.start]
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s.appendBrokenDownCasualString(nameLexems, middle)
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*nameLexems = append(*nameLexems, s.breakInitialism(string(match.body)))
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lastAcceptedMatch = match
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}
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// we have not found any accepted matches
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if lastAcceptedMatch.isZero() {
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*nameLexems = (*nameLexems)[:0]
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s.appendBrokenDownCasualString(nameLexems, nameRunes)
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} else if lastAcceptedMatch.end+1 != len(nameRunes) {
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rest := nameRunes[lastAcceptedMatch.end+1:]
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s.appendBrokenDownCasualString(nameLexems, rest)
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}
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poolOfMatches.RedeemMatches(matches)
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return nameLexems
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}
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func (s splitter) breakInitialism(original string) nameLexem {
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return newInitialismNameLexem(original, original)
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}
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func (s splitter) appendBrokenDownCasualString(segments *[]nameLexem, str []rune) {
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currentSegment := poolOfBuffers.BorrowBuffer(len(str)) // unlike strings.Builder, bytes.Buffer initial storage can reused
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defer func() {
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poolOfBuffers.RedeemBuffer(currentSegment)
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}()
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addCasualNameLexem := func(original string) {
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*segments = append(*segments, newCasualNameLexem(original))
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}
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addInitialismNameLexem := func(original, match string) {
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*segments = append(*segments, newInitialismNameLexem(original, match))
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}
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var addNameLexem func(string)
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if s.postSplitInitialismCheck {
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addNameLexem = func(original string) {
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for i := range s.initialisms {
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if isEqualFoldIgnoreSpace(s.initialismsUpperCased[i], original) {
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addInitialismNameLexem(original, s.initialisms[i])
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return
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}
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}
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addCasualNameLexem(original)
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}
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} else {
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addNameLexem = addCasualNameLexem
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}
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for _, rn := range str {
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if replace, found := nameReplaceTable(rn); found {
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if currentSegment.Len() > 0 {
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addNameLexem(currentSegment.String())
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currentSegment.Reset()
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}
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if replace != "" {
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addNameLexem(replace)
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}
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continue
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}
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if !unicode.In(rn, unicode.L, unicode.M, unicode.N, unicode.Pc) {
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if currentSegment.Len() > 0 {
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addNameLexem(currentSegment.String())
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currentSegment.Reset()
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}
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continue
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}
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if unicode.IsUpper(rn) {
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if currentSegment.Len() > 0 {
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addNameLexem(currentSegment.String())
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}
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currentSegment.Reset()
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}
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currentSegment.WriteRune(rn)
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}
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if currentSegment.Len() > 0 {
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addNameLexem(currentSegment.String())
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}
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}
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// isEqualFoldIgnoreSpace is the same as strings.EqualFold, but
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// it ignores leading and trailing blank spaces in the compared
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// string.
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//
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// base is assumed to be composed of upper-cased runes, and be already
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// trimmed.
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//
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// This code is heavily inspired from strings.EqualFold.
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func isEqualFoldIgnoreSpace(base []rune, str string) bool {
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var i, baseIndex int
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// equivalent to b := []byte(str), but without data copy
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b := hackStringBytes(str)
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for i < len(b) {
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if c := b[i]; c < utf8.RuneSelf {
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// fast path for ASCII
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if c != ' ' && c != '\t' {
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break
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}
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i++
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continue
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}
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// unicode case
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r, size := utf8.DecodeRune(b[i:])
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if !unicode.IsSpace(r) {
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break
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}
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i += size
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}
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if i >= len(b) {
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return len(base) == 0
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}
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for _, baseRune := range base {
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if i >= len(b) {
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break
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}
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if c := b[i]; c < utf8.RuneSelf {
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// single byte rune case (ASCII)
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if baseRune >= utf8.RuneSelf {
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return false
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}
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baseChar := byte(baseRune)
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if c != baseChar &&
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!('a' <= c && c <= 'z' && c-'a'+'A' == baseChar) {
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return false
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}
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baseIndex++
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i++
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continue
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}
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// unicode case
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r, size := utf8.DecodeRune(b[i:])
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if unicode.ToUpper(r) != baseRune {
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return false
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}
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baseIndex++
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i += size
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}
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if baseIndex != len(base) {
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return false
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}
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// all passed: now we should only have blanks
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for i < len(b) {
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if c := b[i]; c < utf8.RuneSelf {
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// fast path for ASCII
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if c != ' ' && c != '\t' {
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return false
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}
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i++
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continue
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}
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// unicode case
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r, size := utf8.DecodeRune(b[i:])
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if !unicode.IsSpace(r) {
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return false
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}
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i += size
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}
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return true
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}
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