mirror of https://github.com/cheat/cheat.git
219 lines
6.3 KiB
Go
219 lines
6.3 KiB
Go
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package chroma
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import (
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"fmt"
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)
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// An Emitter takes group matches and returns tokens.
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type Emitter interface {
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// Emit tokens for the given regex groups.
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Emit(groups []string, state *LexerState) Iterator
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}
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// SerialisableEmitter is an Emitter that can be serialised and deserialised to/from JSON.
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type SerialisableEmitter interface {
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Emitter
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EmitterKind() string
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}
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// EmitterFunc is a function that is an Emitter.
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type EmitterFunc func(groups []string, state *LexerState) Iterator
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// Emit tokens for groups.
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func (e EmitterFunc) Emit(groups []string, state *LexerState) Iterator {
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return e(groups, state)
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}
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type Emitters []Emitter
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type byGroupsEmitter struct {
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Emitters
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}
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// ByGroups emits a token for each matching group in the rule's regex.
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func ByGroups(emitters ...Emitter) Emitter {
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return &byGroupsEmitter{Emitters: emitters}
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}
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func (b *byGroupsEmitter) EmitterKind() string { return "bygroups" }
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func (b *byGroupsEmitter) Emit(groups []string, state *LexerState) Iterator {
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iterators := make([]Iterator, 0, len(groups)-1)
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if len(b.Emitters) != len(groups)-1 {
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iterators = append(iterators, Error.Emit(groups, state))
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// panic(errors.Errorf("number of groups %q does not match number of emitters %v", groups, emitters))
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} else {
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for i, group := range groups[1:] {
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if b.Emitters[i] != nil {
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iterators = append(iterators, b.Emitters[i].Emit([]string{group}, state))
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}
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}
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}
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return Concaterator(iterators...)
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}
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// ByGroupNames emits a token for each named matching group in the rule's regex.
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func ByGroupNames(emitters map[string]Emitter) Emitter {
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return EmitterFunc(func(groups []string, state *LexerState) Iterator {
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iterators := make([]Iterator, 0, len(state.NamedGroups)-1)
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if len(state.NamedGroups)-1 == 0 {
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if emitter, ok := emitters[`0`]; ok {
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iterators = append(iterators, emitter.Emit(groups, state))
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} else {
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iterators = append(iterators, Error.Emit(groups, state))
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}
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} else {
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ruleRegex := state.Rules[state.State][state.Rule].Regexp
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for i := 1; i < len(state.NamedGroups); i++ {
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groupName := ruleRegex.GroupNameFromNumber(i)
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group := state.NamedGroups[groupName]
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if emitter, ok := emitters[groupName]; ok {
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if emitter != nil {
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iterators = append(iterators, emitter.Emit([]string{group}, state))
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}
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} else {
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iterators = append(iterators, Error.Emit([]string{group}, state))
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}
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}
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}
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return Concaterator(iterators...)
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})
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}
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// UsingByGroup emits tokens for the matched groups in the regex using a
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// sublexer. Used when lexing code blocks where the name of a sublexer is
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// contained within the block, for example on a Markdown text block or SQL
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// language block.
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//
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// An attempt to load the sublexer will be made using the captured value from
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// the text of the matched sublexerNameGroup. If a sublexer matching the
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// sublexerNameGroup is available, then tokens for the matched codeGroup will
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// be emitted using the sublexer. Otherwise, if no sublexer is available, then
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// tokens will be emitted from the passed emitter.
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//
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// Example:
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//
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// var Markdown = internal.Register(MustNewLexer(
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// &Config{
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// Name: "markdown",
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// Aliases: []string{"md", "mkd"},
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// Filenames: []string{"*.md", "*.mkd", "*.markdown"},
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// MimeTypes: []string{"text/x-markdown"},
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// },
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// Rules{
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// "root": {
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// {"^(```)(\\w+)(\\n)([\\w\\W]*?)(^```$)",
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// UsingByGroup(
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// 2, 4,
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// String, String, String, Text, String,
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// ),
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// nil,
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// },
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// },
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// },
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// ))
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//
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// See the lexers/markdown.go for the complete example.
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//
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// Note: panic's if the number of emitters does not equal the number of matched
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// groups in the regex.
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func UsingByGroup(sublexerNameGroup, codeGroup int, emitters ...Emitter) Emitter {
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return &usingByGroup{
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SublexerNameGroup: sublexerNameGroup,
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CodeGroup: codeGroup,
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Emitters: emitters,
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}
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}
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type usingByGroup struct {
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SublexerNameGroup int `xml:"sublexer_name_group"`
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CodeGroup int `xml:"code_group"`
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Emitters Emitters `xml:"emitters"`
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}
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func (u *usingByGroup) EmitterKind() string { return "usingbygroup" }
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func (u *usingByGroup) Emit(groups []string, state *LexerState) Iterator {
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// bounds check
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if len(u.Emitters) != len(groups)-1 {
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panic("UsingByGroup expects number of emitters to be the same as len(groups)-1")
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}
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// grab sublexer
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sublexer := state.Registry.Get(groups[u.SublexerNameGroup])
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// build iterators
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iterators := make([]Iterator, len(groups)-1)
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for i, group := range groups[1:] {
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if i == u.CodeGroup-1 && sublexer != nil {
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var err error
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iterators[i], err = sublexer.Tokenise(nil, groups[u.CodeGroup])
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if err != nil {
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panic(err)
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}
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} else if u.Emitters[i] != nil {
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iterators[i] = u.Emitters[i].Emit([]string{group}, state)
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}
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}
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return Concaterator(iterators...)
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}
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// UsingLexer returns an Emitter that uses a given Lexer for parsing and emitting.
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//
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// This Emitter is not serialisable.
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func UsingLexer(lexer Lexer) Emitter {
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return EmitterFunc(func(groups []string, _ *LexerState) Iterator {
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it, err := lexer.Tokenise(&TokeniseOptions{State: "root", Nested: true}, groups[0])
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if err != nil {
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panic(err)
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}
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return it
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})
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}
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type usingEmitter struct {
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Lexer string `xml:"lexer,attr"`
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}
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func (u *usingEmitter) EmitterKind() string { return "using" }
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func (u *usingEmitter) Emit(groups []string, state *LexerState) Iterator {
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if state.Registry == nil {
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panic(fmt.Sprintf("no LexerRegistry available for Using(%q)", u.Lexer))
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}
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lexer := state.Registry.Get(u.Lexer)
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if lexer == nil {
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panic(fmt.Sprintf("no such lexer %q", u.Lexer))
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}
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it, err := lexer.Tokenise(&TokeniseOptions{State: "root", Nested: true}, groups[0])
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if err != nil {
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panic(err)
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}
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return it
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}
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// Using returns an Emitter that uses a given Lexer reference for parsing and emitting.
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//
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// The referenced lexer must be stored in the same LexerRegistry.
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func Using(lexer string) Emitter {
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return &usingEmitter{Lexer: lexer}
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}
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type usingSelfEmitter struct {
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State string `xml:"state,attr"`
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}
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func (u *usingSelfEmitter) EmitterKind() string { return "usingself" }
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func (u *usingSelfEmitter) Emit(groups []string, state *LexerState) Iterator {
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it, err := state.Lexer.Tokenise(&TokeniseOptions{State: u.State, Nested: true}, groups[0])
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if err != nil {
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panic(err)
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}
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return it
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}
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// UsingSelf is like Using, but uses the current Lexer.
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func UsingSelf(stateName string) Emitter {
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return &usingSelfEmitter{stateName}
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}
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