mirror of https://github.com/cheat/cheat.git
484 lines
12 KiB
Go
484 lines
12 KiB
Go
package chroma
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import (
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"fmt"
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"os"
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"path/filepath"
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"regexp"
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"sort"
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"strings"
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"sync"
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"time"
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"unicode/utf8"
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"github.com/dlclark/regexp2"
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)
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// A Rule is the fundamental matching unit of the Regex lexer state machine.
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type Rule struct {
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Pattern string
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Type Emitter
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Mutator Mutator
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}
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// Words creates a regex that matches any of the given literal words.
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func Words(prefix, suffix string, words ...string) string {
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sort.Slice(words, func(i, j int) bool {
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return len(words[j]) < len(words[i])
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})
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for i, word := range words {
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words[i] = regexp.QuoteMeta(word)
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}
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return prefix + `(` + strings.Join(words, `|`) + `)` + suffix
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}
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// Tokenise text using lexer, returning tokens as a slice.
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func Tokenise(lexer Lexer, options *TokeniseOptions, text string) ([]Token, error) {
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var out []Token
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it, err := lexer.Tokenise(options, text)
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if err != nil {
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return nil, err
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}
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for t := it(); t != EOF; t = it() {
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out = append(out, t)
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}
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return out, nil
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}
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// Rules maps from state to a sequence of Rules.
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type Rules map[string][]Rule
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// Rename clones rules then a rule.
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func (r Rules) Rename(oldRule, newRule string) Rules {
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r = r.Clone()
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r[newRule] = r[oldRule]
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delete(r, oldRule)
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return r
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}
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// Clone returns a clone of the Rules.
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func (r Rules) Clone() Rules {
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out := map[string][]Rule{}
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for key, rules := range r {
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out[key] = make([]Rule, len(rules))
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copy(out[key], rules)
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}
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return out
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}
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// Merge creates a clone of "r" then merges "rules" into the clone.
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func (r Rules) Merge(rules Rules) Rules {
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out := r.Clone()
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for k, v := range rules.Clone() {
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out[k] = v
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}
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return out
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}
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// MustNewLexer creates a new Lexer with deferred rules generation or panics.
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func MustNewLexer(config *Config, rules func() Rules) *RegexLexer {
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lexer, err := NewLexer(config, rules)
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if err != nil {
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panic(err)
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}
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return lexer
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}
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// NewLexer creates a new regex-based Lexer.
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//
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// "rules" is a state machine transition map. Each key is a state. Values are sets of rules
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// that match input, optionally modify lexer state, and output tokens.
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func NewLexer(config *Config, rulesFunc func() Rules) (*RegexLexer, error) {
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if config == nil {
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config = &Config{}
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}
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for _, glob := range append(config.Filenames, config.AliasFilenames...) {
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_, err := filepath.Match(glob, "")
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if err != nil {
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return nil, fmt.Errorf("%s: %q is not a valid glob: %w", config.Name, glob, err)
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}
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}
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r := &RegexLexer{
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config: config,
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fetchRulesFunc: func() (Rules, error) { return rulesFunc(), nil },
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}
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// One-off code to generate XML lexers in the Chroma source tree.
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// var nameCleanRe = regexp.MustCompile(`[^-+A-Za-z0-9_]`)
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// name := strings.ToLower(nameCleanRe.ReplaceAllString(config.Name, "_"))
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// data, err := Marshal(r)
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// if err != nil {
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// if errors.Is(err, ErrNotSerialisable) {
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// fmt.Fprintf(os.Stderr, "warning: %q: %s\n", name, err)
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// return r, nil
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// }
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// return nil, err
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// }
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// _, file, _, ok := runtime.Caller(2)
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// if !ok {
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// panic("??")
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// }
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// fmt.Println(file)
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// if strings.Contains(file, "/lexers/") {
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// dir := filepath.Join(filepath.Dir(file), "embedded")
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// err = os.MkdirAll(dir, 0700)
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// if err != nil {
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// return nil, err
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// }
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// filename := filepath.Join(dir, name) + ".xml"
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// fmt.Println(filename)
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// err = ioutil.WriteFile(filename, data, 0600)
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// if err != nil {
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// return nil, err
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// }
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// }
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return r, nil
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}
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// Trace enables debug tracing.
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func (r *RegexLexer) Trace(trace bool) *RegexLexer {
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r.trace = trace
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return r
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}
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// A CompiledRule is a Rule with a pre-compiled regex.
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//
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// Note that regular expressions are lazily compiled on first use of the lexer.
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type CompiledRule struct {
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Rule
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Regexp *regexp2.Regexp
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flags string
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}
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// CompiledRules is a map of rule name to sequence of compiled rules in that rule.
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type CompiledRules map[string][]*CompiledRule
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// LexerState contains the state for a single lex.
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type LexerState struct {
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Lexer *RegexLexer
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Registry *LexerRegistry
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Text []rune
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Pos int
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Rules CompiledRules
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Stack []string
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State string
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Rule int
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// Group matches.
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Groups []string
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// Named Group matches.
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NamedGroups map[string]string
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// Custum context for mutators.
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MutatorContext map[interface{}]interface{}
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iteratorStack []Iterator
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options *TokeniseOptions
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newlineAdded bool
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}
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// Set mutator context.
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func (l *LexerState) Set(key interface{}, value interface{}) {
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l.MutatorContext[key] = value
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}
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// Get mutator context.
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func (l *LexerState) Get(key interface{}) interface{} {
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return l.MutatorContext[key]
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}
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// Iterator returns the next Token from the lexer.
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func (l *LexerState) Iterator() Token { // nolint: gocognit
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end := len(l.Text)
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if l.newlineAdded {
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end--
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}
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for l.Pos < end && len(l.Stack) > 0 {
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// Exhaust the iterator stack, if any.
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for len(l.iteratorStack) > 0 {
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n := len(l.iteratorStack) - 1
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t := l.iteratorStack[n]()
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if t == EOF {
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l.iteratorStack = l.iteratorStack[:n]
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continue
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}
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return t
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}
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l.State = l.Stack[len(l.Stack)-1]
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if l.Lexer.trace {
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fmt.Fprintf(os.Stderr, "%s: pos=%d, text=%q\n", l.State, l.Pos, string(l.Text[l.Pos:]))
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}
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selectedRule, ok := l.Rules[l.State]
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if !ok {
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panic("unknown state " + l.State)
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}
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ruleIndex, rule, groups, namedGroups := matchRules(l.Text, l.Pos, selectedRule)
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// No match.
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if groups == nil {
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// From Pygments :\
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//
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// If the RegexLexer encounters a newline that is flagged as an error token, the stack is
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// emptied and the lexer continues scanning in the 'root' state. This can help producing
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// error-tolerant highlighting for erroneous input, e.g. when a single-line string is not
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// closed.
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if l.Text[l.Pos] == '\n' && l.State != l.options.State {
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l.Stack = []string{l.options.State}
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continue
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}
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l.Pos++
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return Token{Error, string(l.Text[l.Pos-1 : l.Pos])}
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}
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l.Rule = ruleIndex
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l.Groups = groups
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l.NamedGroups = namedGroups
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l.Pos += utf8.RuneCountInString(groups[0])
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if rule.Mutator != nil {
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if err := rule.Mutator.Mutate(l); err != nil {
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panic(err)
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}
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}
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if rule.Type != nil {
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l.iteratorStack = append(l.iteratorStack, rule.Type.Emit(l.Groups, l))
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}
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}
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// Exhaust the IteratorStack, if any.
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// Duplicate code, but eh.
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for len(l.iteratorStack) > 0 {
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n := len(l.iteratorStack) - 1
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t := l.iteratorStack[n]()
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if t == EOF {
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l.iteratorStack = l.iteratorStack[:n]
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continue
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}
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return t
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}
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// If we get to here and we still have text, return it as an error.
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if l.Pos != len(l.Text) && len(l.Stack) == 0 {
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value := string(l.Text[l.Pos:])
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l.Pos = len(l.Text)
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return Token{Type: Error, Value: value}
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}
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return EOF
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}
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// RegexLexer is the default lexer implementation used in Chroma.
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type RegexLexer struct {
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registry *LexerRegistry // The LexerRegistry this Lexer is associated with, if any.
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config *Config
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analyser func(text string) float32
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trace bool
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mu sync.Mutex
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compiled bool
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rawRules Rules
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rules map[string][]*CompiledRule
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fetchRulesFunc func() (Rules, error)
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compileOnce sync.Once
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}
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func (r *RegexLexer) String() string {
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return r.config.Name
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}
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// Rules in the Lexer.
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func (r *RegexLexer) Rules() (Rules, error) {
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if err := r.needRules(); err != nil {
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return nil, err
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}
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return r.rawRules, nil
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}
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// SetRegistry the lexer will use to lookup other lexers if necessary.
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func (r *RegexLexer) SetRegistry(registry *LexerRegistry) Lexer {
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r.registry = registry
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return r
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}
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// SetAnalyser sets the analyser function used to perform content inspection.
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func (r *RegexLexer) SetAnalyser(analyser func(text string) float32) Lexer {
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r.analyser = analyser
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return r
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}
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// AnalyseText scores how likely a fragment of text is to match this lexer, between 0.0 and 1.0.
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func (r *RegexLexer) AnalyseText(text string) float32 {
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if r.analyser != nil {
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return r.analyser(text)
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}
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return 0
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}
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// SetConfig replaces the Config for this Lexer.
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func (r *RegexLexer) SetConfig(config *Config) *RegexLexer {
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r.config = config
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return r
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}
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// Config returns the Config for this Lexer.
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func (r *RegexLexer) Config() *Config {
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return r.config
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}
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// Regex compilation is deferred until the lexer is used. This is to avoid significant init() time costs.
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func (r *RegexLexer) maybeCompile() (err error) {
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r.mu.Lock()
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defer r.mu.Unlock()
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if r.compiled {
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return nil
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}
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for state, rules := range r.rules {
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for i, rule := range rules {
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if rule.Regexp == nil {
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pattern := "(?:" + rule.Pattern + ")"
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if rule.flags != "" {
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pattern = "(?" + rule.flags + ")" + pattern
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}
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pattern = `\G` + pattern
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rule.Regexp, err = regexp2.Compile(pattern, 0)
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if err != nil {
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return fmt.Errorf("failed to compile rule %s.%d: %s", state, i, err)
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}
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rule.Regexp.MatchTimeout = time.Millisecond * 250
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}
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}
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}
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restart:
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seen := map[LexerMutator]bool{}
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for state := range r.rules {
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for i := 0; i < len(r.rules[state]); i++ {
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rule := r.rules[state][i]
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if compile, ok := rule.Mutator.(LexerMutator); ok {
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if seen[compile] {
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return fmt.Errorf("saw mutator %T twice; this should not happen", compile)
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}
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seen[compile] = true
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if err := compile.MutateLexer(r.rules, state, i); err != nil {
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return err
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}
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// Process the rules again in case the mutator added/removed rules.
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//
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// This sounds bad, but shouldn't be significant in practice.
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goto restart
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}
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}
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}
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r.compiled = true
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return nil
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}
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func (r *RegexLexer) fetchRules() error {
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rules, err := r.fetchRulesFunc()
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if err != nil {
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return fmt.Errorf("%s: failed to compile rules: %w", r.config.Name, err)
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}
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if _, ok := rules["root"]; !ok {
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return fmt.Errorf("no \"root\" state")
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}
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compiledRules := map[string][]*CompiledRule{}
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for state, rules := range rules {
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compiledRules[state] = nil
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for _, rule := range rules {
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flags := ""
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if !r.config.NotMultiline {
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flags += "m"
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}
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if r.config.CaseInsensitive {
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flags += "i"
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}
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if r.config.DotAll {
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flags += "s"
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}
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compiledRules[state] = append(compiledRules[state], &CompiledRule{Rule: rule, flags: flags})
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}
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}
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r.rawRules = rules
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r.rules = compiledRules
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return nil
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}
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func (r *RegexLexer) needRules() error {
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var err error
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if r.fetchRulesFunc != nil {
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r.compileOnce.Do(func() {
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err = r.fetchRules()
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})
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}
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if err := r.maybeCompile(); err != nil {
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return err
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}
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return err
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}
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// Tokenise text using lexer, returning an iterator.
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func (r *RegexLexer) Tokenise(options *TokeniseOptions, text string) (Iterator, error) {
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err := r.needRules()
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if err != nil {
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return nil, err
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}
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if options == nil {
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options = defaultOptions
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}
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if options.EnsureLF {
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text = ensureLF(text)
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}
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newlineAdded := false
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if !options.Nested && r.config.EnsureNL && !strings.HasSuffix(text, "\n") {
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text += "\n"
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newlineAdded = true
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}
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state := &LexerState{
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Registry: r.registry,
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newlineAdded: newlineAdded,
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options: options,
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Lexer: r,
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Text: []rune(text),
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Stack: []string{options.State},
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Rules: r.rules,
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MutatorContext: map[interface{}]interface{}{},
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}
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return state.Iterator, nil
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}
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// MustRules is like Rules() but will panic on error.
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func (r *RegexLexer) MustRules() Rules {
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rules, err := r.Rules()
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if err != nil {
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panic(err)
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}
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return rules
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}
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func matchRules(text []rune, pos int, rules []*CompiledRule) (int, *CompiledRule, []string, map[string]string) {
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for i, rule := range rules {
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match, err := rule.Regexp.FindRunesMatchStartingAt(text, pos)
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if match != nil && err == nil && match.Index == pos {
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groups := []string{}
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namedGroups := make(map[string]string)
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for _, g := range match.Groups() {
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namedGroups[g.Name] = g.String()
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groups = append(groups, g.String())
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}
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return i, rule, groups, namedGroups
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}
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}
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return 0, &CompiledRule{}, nil, nil
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}
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// replace \r and \r\n with \n
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// same as strings.ReplaceAll but more efficient
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func ensureLF(text string) string {
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buf := make([]byte, len(text))
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var j int
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for i := 0; i < len(text); i++ {
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c := text[i]
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if c == '\r' {
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if i < len(text)-1 && text[i+1] == '\n' {
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continue
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}
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c = '\n'
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}
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buf[j] = c
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j++
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}
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return string(buf[:j])
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}
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