mirror of
https://github.com/ceph/ceph-csi.git
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5a66991bb3
updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
427 lines
11 KiB
Go
427 lines
11 KiB
Go
// Copyright (c) 2012-2022 The ANTLR Project. All rights reserved.
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// Use of this file is governed by the BSD 3-clause license that
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// can be found in the LICENSE.txt file in the project root.
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package antlr
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import (
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"fmt"
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"strconv"
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)
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// A lexer is recognizer that draws input symbols from a character stream.
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// lexer grammars result in a subclass of this object. A Lexer object
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// uses simplified Match() and error recovery mechanisms in the interest
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// of speed.
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///
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type Lexer interface {
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TokenSource
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Recognizer
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Emit() Token
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SetChannel(int)
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PushMode(int)
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PopMode() int
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SetType(int)
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SetMode(int)
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}
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type BaseLexer struct {
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*BaseRecognizer
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Interpreter ILexerATNSimulator
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TokenStartCharIndex int
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TokenStartLine int
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TokenStartColumn int
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ActionType int
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Virt Lexer // The most derived lexer implementation. Allows virtual method calls.
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input CharStream
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factory TokenFactory
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tokenFactorySourcePair *TokenSourceCharStreamPair
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token Token
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hitEOF bool
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channel int
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thetype int
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modeStack IntStack
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mode int
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text string
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}
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func NewBaseLexer(input CharStream) *BaseLexer {
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lexer := new(BaseLexer)
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lexer.BaseRecognizer = NewBaseRecognizer()
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lexer.input = input
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lexer.factory = CommonTokenFactoryDEFAULT
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lexer.tokenFactorySourcePair = &TokenSourceCharStreamPair{lexer, input}
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lexer.Virt = lexer
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lexer.Interpreter = nil // child classes must populate it
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// The goal of all lexer rules/methods is to create a token object.
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// l is an instance variable as multiple rules may collaborate to
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// create a single token. NextToken will return l object after
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// Matching lexer rule(s). If you subclass to allow multiple token
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// emissions, then set l to the last token to be Matched or
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// something non nil so that the auto token emit mechanism will not
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// emit another token.
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lexer.token = nil
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// What character index in the stream did the current token start at?
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// Needed, for example, to get the text for current token. Set at
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// the start of NextToken.
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lexer.TokenStartCharIndex = -1
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// The line on which the first character of the token resides///
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lexer.TokenStartLine = -1
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// The character position of first character within the line///
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lexer.TokenStartColumn = -1
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// Once we see EOF on char stream, next token will be EOF.
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// If you have DONE : EOF then you see DONE EOF.
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lexer.hitEOF = false
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// The channel number for the current token///
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lexer.channel = TokenDefaultChannel
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// The token type for the current token///
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lexer.thetype = TokenInvalidType
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lexer.modeStack = make([]int, 0)
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lexer.mode = LexerDefaultMode
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// You can set the text for the current token to override what is in
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// the input char buffer. Use setText() or can set l instance var.
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// /
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lexer.text = ""
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return lexer
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}
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const (
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LexerDefaultMode = 0
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LexerMore = -2
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LexerSkip = -3
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)
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//goland:noinspection GoUnusedConst
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const (
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LexerDefaultTokenChannel = TokenDefaultChannel
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LexerHidden = TokenHiddenChannel
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LexerMinCharValue = 0x0000
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LexerMaxCharValue = 0x10FFFF
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)
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func (b *BaseLexer) Reset() {
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// wack Lexer state variables
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if b.input != nil {
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b.input.Seek(0) // rewind the input
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}
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b.token = nil
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b.thetype = TokenInvalidType
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b.channel = TokenDefaultChannel
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b.TokenStartCharIndex = -1
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b.TokenStartColumn = -1
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b.TokenStartLine = -1
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b.text = ""
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b.hitEOF = false
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b.mode = LexerDefaultMode
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b.modeStack = make([]int, 0)
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b.Interpreter.reset()
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}
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func (b *BaseLexer) GetInterpreter() ILexerATNSimulator {
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return b.Interpreter
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}
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func (b *BaseLexer) GetInputStream() CharStream {
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return b.input
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}
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func (b *BaseLexer) GetSourceName() string {
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return b.GrammarFileName
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}
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func (b *BaseLexer) SetChannel(v int) {
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b.channel = v
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}
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func (b *BaseLexer) GetTokenFactory() TokenFactory {
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return b.factory
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}
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func (b *BaseLexer) setTokenFactory(f TokenFactory) {
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b.factory = f
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}
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func (b *BaseLexer) safeMatch() (ret int) {
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defer func() {
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if e := recover(); e != nil {
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if re, ok := e.(RecognitionException); ok {
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b.notifyListeners(re) // Report error
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b.Recover(re)
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ret = LexerSkip // default
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}
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}
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}()
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return b.Interpreter.Match(b.input, b.mode)
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}
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// NextToken returns a token from the lexer input source i.e., Match a token on the source char stream.
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func (b *BaseLexer) NextToken() Token {
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if b.input == nil {
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panic("NextToken requires a non-nil input stream.")
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}
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tokenStartMarker := b.input.Mark()
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// previously in finally block
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defer func() {
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// make sure we release marker after Match or
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// unbuffered char stream will keep buffering
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b.input.Release(tokenStartMarker)
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}()
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for {
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if b.hitEOF {
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b.EmitEOF()
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return b.token
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}
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b.token = nil
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b.channel = TokenDefaultChannel
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b.TokenStartCharIndex = b.input.Index()
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b.TokenStartColumn = b.Interpreter.GetCharPositionInLine()
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b.TokenStartLine = b.Interpreter.GetLine()
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b.text = ""
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continueOuter := false
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for {
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b.thetype = TokenInvalidType
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ttype := b.safeMatch()
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if b.input.LA(1) == TokenEOF {
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b.hitEOF = true
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}
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if b.thetype == TokenInvalidType {
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b.thetype = ttype
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}
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if b.thetype == LexerSkip {
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continueOuter = true
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break
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}
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if b.thetype != LexerMore {
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break
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}
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}
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if continueOuter {
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continue
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}
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if b.token == nil {
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b.Virt.Emit()
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}
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return b.token
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}
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}
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// Skip instructs the lexer to Skip creating a token for current lexer rule
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// and look for another token. [NextToken] knows to keep looking when
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// a lexer rule finishes with token set to [SKIPTOKEN]. Recall that
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// if token==nil at end of any token rule, it creates one for you
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// and emits it.
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func (b *BaseLexer) Skip() {
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b.thetype = LexerSkip
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}
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func (b *BaseLexer) More() {
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b.thetype = LexerMore
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}
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// SetMode changes the lexer to a new mode. The lexer will use this mode from hereon in and the rules for that mode
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// will be in force.
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func (b *BaseLexer) SetMode(m int) {
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b.mode = m
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}
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// PushMode saves the current lexer mode so that it can be restored later. See [PopMode], then sets the
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// current lexer mode to the supplied mode m.
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func (b *BaseLexer) PushMode(m int) {
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if runtimeConfig.lexerATNSimulatorDebug {
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fmt.Println("pushMode " + strconv.Itoa(m))
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}
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b.modeStack.Push(b.mode)
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b.mode = m
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}
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// PopMode restores the lexer mode saved by a call to [PushMode]. It is a panic error if there is no saved mode to
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// return to.
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func (b *BaseLexer) PopMode() int {
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if len(b.modeStack) == 0 {
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panic("Empty Stack")
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}
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if runtimeConfig.lexerATNSimulatorDebug {
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fmt.Println("popMode back to " + fmt.Sprint(b.modeStack[0:len(b.modeStack)-1]))
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}
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i, _ := b.modeStack.Pop()
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b.mode = i
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return b.mode
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}
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func (b *BaseLexer) inputStream() CharStream {
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return b.input
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}
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// SetInputStream resets the lexer input stream and associated lexer state.
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func (b *BaseLexer) SetInputStream(input CharStream) {
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b.input = nil
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b.tokenFactorySourcePair = &TokenSourceCharStreamPair{b, b.input}
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b.Reset()
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b.input = input
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b.tokenFactorySourcePair = &TokenSourceCharStreamPair{b, b.input}
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}
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func (b *BaseLexer) GetTokenSourceCharStreamPair() *TokenSourceCharStreamPair {
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return b.tokenFactorySourcePair
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}
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// EmitToken by default does not support multiple emits per [NextToken] invocation
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// for efficiency reasons. Subclass and override this func, [NextToken],
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// and [GetToken] (to push tokens into a list and pull from that list
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// rather than a single variable as this implementation does).
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func (b *BaseLexer) EmitToken(token Token) {
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b.token = token
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}
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// Emit is the standard method called to automatically emit a token at the
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// outermost lexical rule. The token object should point into the
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// char buffer start..stop. If there is a text override in 'text',
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// use that to set the token's text. Override this method to emit
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// custom [Token] objects or provide a new factory.
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// /
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func (b *BaseLexer) Emit() Token {
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t := b.factory.Create(b.tokenFactorySourcePair, b.thetype, b.text, b.channel, b.TokenStartCharIndex, b.GetCharIndex()-1, b.TokenStartLine, b.TokenStartColumn)
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b.EmitToken(t)
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return t
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}
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// EmitEOF emits an EOF token. By default, this is the last token emitted
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func (b *BaseLexer) EmitEOF() Token {
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cpos := b.GetCharPositionInLine()
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lpos := b.GetLine()
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eof := b.factory.Create(b.tokenFactorySourcePair, TokenEOF, "", TokenDefaultChannel, b.input.Index(), b.input.Index()-1, lpos, cpos)
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b.EmitToken(eof)
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return eof
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}
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// GetCharPositionInLine returns the current position in the current line as far as the lexer is concerned.
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func (b *BaseLexer) GetCharPositionInLine() int {
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return b.Interpreter.GetCharPositionInLine()
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}
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func (b *BaseLexer) GetLine() int {
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return b.Interpreter.GetLine()
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}
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func (b *BaseLexer) GetType() int {
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return b.thetype
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}
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func (b *BaseLexer) SetType(t int) {
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b.thetype = t
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}
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// GetCharIndex returns the index of the current character of lookahead
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func (b *BaseLexer) GetCharIndex() int {
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return b.input.Index()
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}
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// GetText returns the text Matched so far for the current token or any text override.
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func (b *BaseLexer) GetText() string {
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if b.text != "" {
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return b.text
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}
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return b.Interpreter.GetText(b.input)
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}
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// SetText sets the complete text of this token; it wipes any previous changes to the text.
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func (b *BaseLexer) SetText(text string) {
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b.text = text
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}
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// GetATN returns the ATN used by the lexer.
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func (b *BaseLexer) GetATN() *ATN {
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return b.Interpreter.ATN()
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}
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// GetAllTokens returns a list of all [Token] objects in input char stream.
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// Forces a load of all tokens that can be made from the input char stream.
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//
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// Does not include EOF token.
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func (b *BaseLexer) GetAllTokens() []Token {
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vl := b.Virt
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tokens := make([]Token, 0)
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t := vl.NextToken()
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for t.GetTokenType() != TokenEOF {
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tokens = append(tokens, t)
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t = vl.NextToken()
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}
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return tokens
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}
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func (b *BaseLexer) notifyListeners(e RecognitionException) {
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start := b.TokenStartCharIndex
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stop := b.input.Index()
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text := b.input.GetTextFromInterval(NewInterval(start, stop))
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msg := "token recognition error at: '" + text + "'"
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listener := b.GetErrorListenerDispatch()
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listener.SyntaxError(b, nil, b.TokenStartLine, b.TokenStartColumn, msg, e)
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}
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func (b *BaseLexer) getErrorDisplayForChar(c rune) string {
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if c == TokenEOF {
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return "<EOF>"
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} else if c == '\n' {
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return "\\n"
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} else if c == '\t' {
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return "\\t"
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} else if c == '\r' {
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return "\\r"
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} else {
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return string(c)
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}
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}
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func (b *BaseLexer) getCharErrorDisplay(c rune) string {
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return "'" + b.getErrorDisplayForChar(c) + "'"
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}
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// Recover can normally Match any char in its vocabulary after Matching
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// a token, so here we do the easy thing and just kill a character and hope
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// it all works out. You can instead use the rule invocation stack
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// to do sophisticated error recovery if you are in a fragment rule.
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//
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// In general, lexers should not need to recover and should have rules that cover any eventuality, such as
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// a character that makes no sense to the recognizer.
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func (b *BaseLexer) Recover(re RecognitionException) {
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if b.input.LA(1) != TokenEOF {
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if _, ok := re.(*LexerNoViableAltException); ok {
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// Skip a char and try again
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b.Interpreter.Consume(b.input)
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} else {
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// TODO: Do we lose character or line position information?
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b.input.Consume()
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}
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}
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}
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