mirror of
https://github.com/ceph/ceph-csi.git
synced 2024-11-10 00:10:20 +00:00
5a66991bb3
updating the kubernetes release to the latest in main go.mod Signed-off-by: Madhu Rajanna <madhupr007@gmail.com>
701 lines
19 KiB
Go
701 lines
19 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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type Parser interface {
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Recognizer
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GetInterpreter() *ParserATNSimulator
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GetTokenStream() TokenStream
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GetTokenFactory() TokenFactory
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GetParserRuleContext() ParserRuleContext
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SetParserRuleContext(ParserRuleContext)
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Consume() Token
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GetParseListeners() []ParseTreeListener
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GetErrorHandler() ErrorStrategy
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SetErrorHandler(ErrorStrategy)
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GetInputStream() IntStream
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GetCurrentToken() Token
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GetExpectedTokens() *IntervalSet
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NotifyErrorListeners(string, Token, RecognitionException)
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IsExpectedToken(int) bool
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GetPrecedence() int
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GetRuleInvocationStack(ParserRuleContext) []string
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}
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type BaseParser struct {
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*BaseRecognizer
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Interpreter *ParserATNSimulator
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BuildParseTrees bool
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input TokenStream
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errHandler ErrorStrategy
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precedenceStack IntStack
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ctx ParserRuleContext
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tracer *TraceListener
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parseListeners []ParseTreeListener
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_SyntaxErrors int
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}
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// NewBaseParser contains all the parsing support code to embed in parsers. Essentially most of it is error
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// recovery stuff.
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//
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//goland:noinspection GoUnusedExportedFunction
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func NewBaseParser(input TokenStream) *BaseParser {
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p := new(BaseParser)
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p.BaseRecognizer = NewBaseRecognizer()
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// The input stream.
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p.input = nil
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// The error handling strategy for the parser. The default value is a new
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// instance of {@link DefaultErrorStrategy}.
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p.errHandler = NewDefaultErrorStrategy()
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p.precedenceStack = make([]int, 0)
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p.precedenceStack.Push(0)
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// The ParserRuleContext object for the currently executing rule.
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// p.is always non-nil during the parsing process.
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p.ctx = nil
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// Specifies whether the parser should construct a parse tree during
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// the parsing process. The default value is {@code true}.
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p.BuildParseTrees = true
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// When setTrace(true) is called, a reference to the
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// TraceListener is stored here, so it can be easily removed in a
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// later call to setTrace(false). The listener itself is
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// implemented as a parser listener so p.field is not directly used by
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// other parser methods.
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p.tracer = nil
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// The list of ParseTreeListener listeners registered to receive
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// events during the parse.
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p.parseListeners = nil
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// The number of syntax errors Reported during parsing. p.value is
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// incremented each time NotifyErrorListeners is called.
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p._SyntaxErrors = 0
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p.SetInputStream(input)
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return p
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}
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// This field maps from the serialized ATN string to the deserialized [ATN] with
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// bypass alternatives.
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//
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// [ATNDeserializationOptions.isGenerateRuleBypassTransitions]
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//
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//goland:noinspection GoUnusedGlobalVariable
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var bypassAltsAtnCache = make(map[string]int)
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// reset the parser's state//
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func (p *BaseParser) reset() {
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if p.input != nil {
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p.input.Seek(0)
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}
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p.errHandler.reset(p)
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p.ctx = nil
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p._SyntaxErrors = 0
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p.SetTrace(nil)
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p.precedenceStack = make([]int, 0)
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p.precedenceStack.Push(0)
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if p.Interpreter != nil {
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p.Interpreter.reset()
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}
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}
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func (p *BaseParser) GetErrorHandler() ErrorStrategy {
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return p.errHandler
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}
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func (p *BaseParser) SetErrorHandler(e ErrorStrategy) {
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p.errHandler = e
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}
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// Match current input symbol against {@code ttype}. If the symbol type
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// Matches, {@link ANTLRErrorStrategy//ReportMatch} and {@link //consume} are
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// called to complete the Match process.
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//
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// <p>If the symbol type does not Match,
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// {@link ANTLRErrorStrategy//recoverInline} is called on the current error
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// strategy to attempt recovery. If {@link //getBuildParseTree} is
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// {@code true} and the token index of the symbol returned by
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// {@link ANTLRErrorStrategy//recoverInline} is -1, the symbol is added to
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// the parse tree by calling {@link ParserRuleContext//addErrorNode}.</p>
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//
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// @param ttype the token type to Match
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// @return the Matched symbol
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// @panics RecognitionException if the current input symbol did not Match
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// {@code ttype} and the error strategy could not recover from the
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// mismatched symbol
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func (p *BaseParser) Match(ttype int) Token {
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t := p.GetCurrentToken()
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if t.GetTokenType() == ttype {
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p.errHandler.ReportMatch(p)
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p.Consume()
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} else {
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t = p.errHandler.RecoverInline(p)
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if p.HasError() {
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return nil
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}
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if p.BuildParseTrees && t.GetTokenIndex() == -1 {
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// we must have conjured up a new token during single token
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// insertion if it's not the current symbol
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p.ctx.AddErrorNode(t)
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}
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}
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return t
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}
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// Match current input symbol as a wildcard. If the symbol type Matches
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// (i.e. has a value greater than 0), {@link ANTLRErrorStrategy//ReportMatch}
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// and {@link //consume} are called to complete the Match process.
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//
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// <p>If the symbol type does not Match,
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// {@link ANTLRErrorStrategy//recoverInline} is called on the current error
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// strategy to attempt recovery. If {@link //getBuildParseTree} is
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// {@code true} and the token index of the symbol returned by
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// {@link ANTLRErrorStrategy//recoverInline} is -1, the symbol is added to
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// the parse tree by calling {@link ParserRuleContext//addErrorNode}.</p>
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//
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// @return the Matched symbol
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// @panics RecognitionException if the current input symbol did not Match
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// a wildcard and the error strategy could not recover from the mismatched
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// symbol
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func (p *BaseParser) MatchWildcard() Token {
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t := p.GetCurrentToken()
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if t.GetTokenType() > 0 {
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p.errHandler.ReportMatch(p)
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p.Consume()
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} else {
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t = p.errHandler.RecoverInline(p)
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if p.BuildParseTrees && t.GetTokenIndex() == -1 {
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// we must have conjured up a new token during single token
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// insertion if it's not the current symbol
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p.ctx.AddErrorNode(t)
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}
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}
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return t
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}
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func (p *BaseParser) GetParserRuleContext() ParserRuleContext {
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return p.ctx
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}
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func (p *BaseParser) SetParserRuleContext(v ParserRuleContext) {
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p.ctx = v
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}
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func (p *BaseParser) GetParseListeners() []ParseTreeListener {
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if p.parseListeners == nil {
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return make([]ParseTreeListener, 0)
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}
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return p.parseListeners
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}
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// AddParseListener registers listener to receive events during the parsing process.
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//
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// To support output-preserving grammar transformations (including but not
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// limited to left-recursion removal, automated left-factoring, and
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// optimized code generation), calls to listener methods during the parse
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// may differ substantially from calls made by
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// [ParseTreeWalker.DEFAULT] used after the parse is complete. In
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// particular, rule entry and exit events may occur in a different order
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// during the parse than after the parser. In addition, calls to certain
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// rule entry methods may be omitted.
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//
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// With the following specific exceptions, calls to listener events are
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// deterministic, i.e. for identical input the calls to listener
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// methods will be the same.
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//
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// - Alterations to the grammar used to generate code may change the
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// behavior of the listener calls.
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// - Alterations to the command line options passed to ANTLR 4 when
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// generating the parser may change the behavior of the listener calls.
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// - Changing the version of the ANTLR Tool used to generate the parser
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// may change the behavior of the listener calls.
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func (p *BaseParser) AddParseListener(listener ParseTreeListener) {
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if listener == nil {
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panic("listener")
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}
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if p.parseListeners == nil {
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p.parseListeners = make([]ParseTreeListener, 0)
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}
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p.parseListeners = append(p.parseListeners, listener)
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}
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// RemoveParseListener removes listener from the list of parse listeners.
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//
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// If listener is nil or has not been added as a parse
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// listener, this func does nothing.
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func (p *BaseParser) RemoveParseListener(listener ParseTreeListener) {
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if p.parseListeners != nil {
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idx := -1
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for i, v := range p.parseListeners {
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if v == listener {
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idx = i
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break
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}
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}
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if idx == -1 {
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return
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}
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// remove the listener from the slice
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p.parseListeners = append(p.parseListeners[0:idx], p.parseListeners[idx+1:]...)
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if len(p.parseListeners) == 0 {
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p.parseListeners = nil
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}
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}
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}
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// Remove all parse listeners.
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func (p *BaseParser) removeParseListeners() {
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p.parseListeners = nil
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}
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// TriggerEnterRuleEvent notifies all parse listeners of an enter rule event.
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func (p *BaseParser) TriggerEnterRuleEvent() {
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if p.parseListeners != nil {
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ctx := p.ctx
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for _, listener := range p.parseListeners {
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listener.EnterEveryRule(ctx)
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ctx.EnterRule(listener)
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}
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}
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}
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// TriggerExitRuleEvent notifies any parse listeners of an exit rule event.
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func (p *BaseParser) TriggerExitRuleEvent() {
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if p.parseListeners != nil {
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// reverse order walk of listeners
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ctx := p.ctx
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l := len(p.parseListeners) - 1
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for i := range p.parseListeners {
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listener := p.parseListeners[l-i]
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ctx.ExitRule(listener)
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listener.ExitEveryRule(ctx)
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}
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}
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}
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func (p *BaseParser) GetInterpreter() *ParserATNSimulator {
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return p.Interpreter
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}
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func (p *BaseParser) GetATN() *ATN {
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return p.Interpreter.atn
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}
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func (p *BaseParser) GetTokenFactory() TokenFactory {
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return p.input.GetTokenSource().GetTokenFactory()
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}
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// setTokenFactory is used to tell our token source and error strategy about a new way to create tokens.
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func (p *BaseParser) setTokenFactory(factory TokenFactory) {
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p.input.GetTokenSource().setTokenFactory(factory)
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}
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// GetATNWithBypassAlts - the ATN with bypass alternatives is expensive to create, so we create it
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// lazily.
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func (p *BaseParser) GetATNWithBypassAlts() {
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// TODO - Implement this?
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panic("Not implemented!")
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// serializedAtn := p.getSerializedATN()
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// if (serializedAtn == nil) {
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// panic("The current parser does not support an ATN with bypass alternatives.")
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// }
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// result := p.bypassAltsAtnCache[serializedAtn]
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// if (result == nil) {
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// deserializationOptions := NewATNDeserializationOptions(nil)
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// deserializationOptions.generateRuleBypassTransitions = true
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// result = NewATNDeserializer(deserializationOptions).deserialize(serializedAtn)
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// p.bypassAltsAtnCache[serializedAtn] = result
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// }
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// return result
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}
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// The preferred method of getting a tree pattern. For example, here's a
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// sample use:
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//
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// <pre>
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// ParseTree t = parser.expr()
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// ParseTreePattern p = parser.compileParseTreePattern("<ID>+0",
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// MyParser.RULE_expr)
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// ParseTreeMatch m = p.Match(t)
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// String id = m.Get("ID")
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// </pre>
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//goland:noinspection GoUnusedParameter
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func (p *BaseParser) compileParseTreePattern(pattern, patternRuleIndex, lexer Lexer) {
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panic("NewParseTreePatternMatcher not implemented!")
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//
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// if (lexer == nil) {
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// if (p.GetTokenStream() != nil) {
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// tokenSource := p.GetTokenStream().GetTokenSource()
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// if _, ok := tokenSource.(ILexer); ok {
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// lexer = tokenSource
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// }
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// }
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// }
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// if (lexer == nil) {
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// panic("Parser can't discover a lexer to use")
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// }
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// m := NewParseTreePatternMatcher(lexer, p)
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// return m.compile(pattern, patternRuleIndex)
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}
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func (p *BaseParser) GetInputStream() IntStream {
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return p.GetTokenStream()
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}
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func (p *BaseParser) SetInputStream(input TokenStream) {
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p.SetTokenStream(input)
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}
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func (p *BaseParser) GetTokenStream() TokenStream {
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return p.input
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}
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// SetTokenStream installs input as the token stream and resets the parser.
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func (p *BaseParser) SetTokenStream(input TokenStream) {
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p.input = nil
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p.reset()
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p.input = input
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}
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// GetCurrentToken returns the current token at LT(1).
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//
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// [Match] needs to return the current input symbol, which gets put
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// into the label for the associated token ref e.g., x=ID.
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func (p *BaseParser) GetCurrentToken() Token {
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return p.input.LT(1)
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}
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func (p *BaseParser) NotifyErrorListeners(msg string, offendingToken Token, err RecognitionException) {
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if offendingToken == nil {
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offendingToken = p.GetCurrentToken()
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}
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p._SyntaxErrors++
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line := offendingToken.GetLine()
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column := offendingToken.GetColumn()
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listener := p.GetErrorListenerDispatch()
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listener.SyntaxError(p, offendingToken, line, column, msg, err)
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}
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func (p *BaseParser) Consume() Token {
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o := p.GetCurrentToken()
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if o.GetTokenType() != TokenEOF {
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p.GetInputStream().Consume()
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}
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hasListener := p.parseListeners != nil && len(p.parseListeners) > 0
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if p.BuildParseTrees || hasListener {
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if p.errHandler.InErrorRecoveryMode(p) {
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node := p.ctx.AddErrorNode(o)
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if p.parseListeners != nil {
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for _, l := range p.parseListeners {
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l.VisitErrorNode(node)
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}
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}
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} else {
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node := p.ctx.AddTokenNode(o)
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if p.parseListeners != nil {
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for _, l := range p.parseListeners {
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l.VisitTerminal(node)
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}
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}
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}
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// node.invokingState = p.state
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}
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return o
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}
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func (p *BaseParser) addContextToParseTree() {
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// add current context to parent if we have a parent
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if p.ctx.GetParent() != nil {
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p.ctx.GetParent().(ParserRuleContext).AddChild(p.ctx)
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}
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}
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func (p *BaseParser) EnterRule(localctx ParserRuleContext, state, _ int) {
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p.SetState(state)
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p.ctx = localctx
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p.ctx.SetStart(p.input.LT(1))
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if p.BuildParseTrees {
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p.addContextToParseTree()
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}
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if p.parseListeners != nil {
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p.TriggerEnterRuleEvent()
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}
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}
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func (p *BaseParser) ExitRule() {
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p.ctx.SetStop(p.input.LT(-1))
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// trigger event on ctx, before it reverts to parent
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if p.parseListeners != nil {
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p.TriggerExitRuleEvent()
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}
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p.SetState(p.ctx.GetInvokingState())
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if p.ctx.GetParent() != nil {
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p.ctx = p.ctx.GetParent().(ParserRuleContext)
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} else {
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p.ctx = nil
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}
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}
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func (p *BaseParser) EnterOuterAlt(localctx ParserRuleContext, altNum int) {
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localctx.SetAltNumber(altNum)
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// if we have a new localctx, make sure we replace existing ctx
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// that is previous child of parse tree
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if p.BuildParseTrees && p.ctx != localctx {
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if p.ctx.GetParent() != nil {
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p.ctx.GetParent().(ParserRuleContext).RemoveLastChild()
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p.ctx.GetParent().(ParserRuleContext).AddChild(localctx)
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}
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}
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p.ctx = localctx
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}
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// Get the precedence level for the top-most precedence rule.
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//
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// @return The precedence level for the top-most precedence rule, or -1 if
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// the parser context is not nested within a precedence rule.
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func (p *BaseParser) GetPrecedence() int {
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if len(p.precedenceStack) == 0 {
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return -1
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}
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return p.precedenceStack[len(p.precedenceStack)-1]
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}
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func (p *BaseParser) EnterRecursionRule(localctx ParserRuleContext, state, _, precedence int) {
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p.SetState(state)
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p.precedenceStack.Push(precedence)
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p.ctx = localctx
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p.ctx.SetStart(p.input.LT(1))
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if p.parseListeners != nil {
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p.TriggerEnterRuleEvent() // simulates rule entry for
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// left-recursive rules
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}
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}
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//
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// Like {@link //EnterRule} but for recursive rules.
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func (p *BaseParser) PushNewRecursionContext(localctx ParserRuleContext, state, _ int) {
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previous := p.ctx
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previous.SetParent(localctx)
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previous.SetInvokingState(state)
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previous.SetStop(p.input.LT(-1))
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p.ctx = localctx
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p.ctx.SetStart(previous.GetStart())
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if p.BuildParseTrees {
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p.ctx.AddChild(previous)
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}
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if p.parseListeners != nil {
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p.TriggerEnterRuleEvent() // simulates rule entry for
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// left-recursive rules
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}
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}
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func (p *BaseParser) UnrollRecursionContexts(parentCtx ParserRuleContext) {
|
|
_, _ = p.precedenceStack.Pop()
|
|
p.ctx.SetStop(p.input.LT(-1))
|
|
retCtx := p.ctx // save current ctx (return value)
|
|
// unroll so ctx is as it was before call to recursive method
|
|
if p.parseListeners != nil {
|
|
for p.ctx != parentCtx {
|
|
p.TriggerExitRuleEvent()
|
|
p.ctx = p.ctx.GetParent().(ParserRuleContext)
|
|
}
|
|
} else {
|
|
p.ctx = parentCtx
|
|
}
|
|
// hook into tree
|
|
retCtx.SetParent(parentCtx)
|
|
if p.BuildParseTrees && parentCtx != nil {
|
|
// add return ctx into invoking rule's tree
|
|
parentCtx.AddChild(retCtx)
|
|
}
|
|
}
|
|
|
|
func (p *BaseParser) GetInvokingContext(ruleIndex int) ParserRuleContext {
|
|
ctx := p.ctx
|
|
for ctx != nil {
|
|
if ctx.GetRuleIndex() == ruleIndex {
|
|
return ctx
|
|
}
|
|
ctx = ctx.GetParent().(ParserRuleContext)
|
|
}
|
|
return nil
|
|
}
|
|
|
|
func (p *BaseParser) Precpred(_ RuleContext, precedence int) bool {
|
|
return precedence >= p.precedenceStack[len(p.precedenceStack)-1]
|
|
}
|
|
|
|
//goland:noinspection GoUnusedParameter
|
|
func (p *BaseParser) inContext(context ParserRuleContext) bool {
|
|
// TODO: useful in parser?
|
|
return false
|
|
}
|
|
|
|
// IsExpectedToken checks whether symbol can follow the current state in the
|
|
// {ATN}. The behavior of p.method is equivalent to the following, but is
|
|
// implemented such that the complete context-sensitive follow set does not
|
|
// need to be explicitly constructed.
|
|
//
|
|
// return getExpectedTokens().contains(symbol)
|
|
func (p *BaseParser) IsExpectedToken(symbol int) bool {
|
|
atn := p.Interpreter.atn
|
|
ctx := p.ctx
|
|
s := atn.states[p.state]
|
|
following := atn.NextTokens(s, nil)
|
|
if following.contains(symbol) {
|
|
return true
|
|
}
|
|
if !following.contains(TokenEpsilon) {
|
|
return false
|
|
}
|
|
for ctx != nil && ctx.GetInvokingState() >= 0 && following.contains(TokenEpsilon) {
|
|
invokingState := atn.states[ctx.GetInvokingState()]
|
|
rt := invokingState.GetTransitions()[0]
|
|
following = atn.NextTokens(rt.(*RuleTransition).followState, nil)
|
|
if following.contains(symbol) {
|
|
return true
|
|
}
|
|
ctx = ctx.GetParent().(ParserRuleContext)
|
|
}
|
|
if following.contains(TokenEpsilon) && symbol == TokenEOF {
|
|
return true
|
|
}
|
|
|
|
return false
|
|
}
|
|
|
|
// GetExpectedTokens and returns the set of input symbols which could follow the current parser
|
|
// state and context, as given by [GetState] and [GetContext],
|
|
// respectively.
|
|
func (p *BaseParser) GetExpectedTokens() *IntervalSet {
|
|
return p.Interpreter.atn.getExpectedTokens(p.state, p.ctx)
|
|
}
|
|
|
|
func (p *BaseParser) GetExpectedTokensWithinCurrentRule() *IntervalSet {
|
|
atn := p.Interpreter.atn
|
|
s := atn.states[p.state]
|
|
return atn.NextTokens(s, nil)
|
|
}
|
|
|
|
// GetRuleIndex get a rule's index (i.e., RULE_ruleName field) or -1 if not found.
|
|
func (p *BaseParser) GetRuleIndex(ruleName string) int {
|
|
var ruleIndex, ok = p.GetRuleIndexMap()[ruleName]
|
|
if ok {
|
|
return ruleIndex
|
|
}
|
|
|
|
return -1
|
|
}
|
|
|
|
// GetRuleInvocationStack returns a list of the rule names in your parser instance
|
|
// leading up to a call to the current rule. You could override if
|
|
// you want more details such as the file/line info of where
|
|
// in the ATN a rule is invoked.
|
|
func (p *BaseParser) GetRuleInvocationStack(c ParserRuleContext) []string {
|
|
if c == nil {
|
|
c = p.ctx
|
|
}
|
|
stack := make([]string, 0)
|
|
for c != nil {
|
|
// compute what follows who invoked us
|
|
ruleIndex := c.GetRuleIndex()
|
|
if ruleIndex < 0 {
|
|
stack = append(stack, "n/a")
|
|
} else {
|
|
stack = append(stack, p.GetRuleNames()[ruleIndex])
|
|
}
|
|
|
|
vp := c.GetParent()
|
|
|
|
if vp == nil {
|
|
break
|
|
}
|
|
|
|
c = vp.(ParserRuleContext)
|
|
}
|
|
return stack
|
|
}
|
|
|
|
// GetDFAStrings returns a list of all DFA states used for debugging purposes
|
|
func (p *BaseParser) GetDFAStrings() string {
|
|
return fmt.Sprint(p.Interpreter.decisionToDFA)
|
|
}
|
|
|
|
// DumpDFA prints the whole of the DFA for debugging
|
|
func (p *BaseParser) DumpDFA() {
|
|
seenOne := false
|
|
for _, dfa := range p.Interpreter.decisionToDFA {
|
|
if dfa.Len() > 0 {
|
|
if seenOne {
|
|
fmt.Println()
|
|
}
|
|
fmt.Println("Decision " + strconv.Itoa(dfa.decision) + ":")
|
|
fmt.Print(dfa.String(p.LiteralNames, p.SymbolicNames))
|
|
seenOne = true
|
|
}
|
|
}
|
|
}
|
|
|
|
func (p *BaseParser) GetSourceName() string {
|
|
return p.GrammarFileName
|
|
}
|
|
|
|
// SetTrace installs a trace listener for the parse.
|
|
//
|
|
// During a parse it is sometimes useful to listen in on the rule entry and exit
|
|
// events as well as token Matches. This is for quick and dirty debugging.
|
|
func (p *BaseParser) SetTrace(trace *TraceListener) {
|
|
if trace == nil {
|
|
p.RemoveParseListener(p.tracer)
|
|
p.tracer = nil
|
|
} else {
|
|
if p.tracer != nil {
|
|
p.RemoveParseListener(p.tracer)
|
|
}
|
|
p.tracer = NewTraceListener(p)
|
|
p.AddParseListener(p.tracer)
|
|
}
|
|
}
|