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336 lines
11 KiB
Go
336 lines
11 KiB
Go
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// 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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)
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const (
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lexerConfig = iota // Indicates that this ATNConfig is for a lexer
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parserConfig // Indicates that this ATNConfig is for a parser
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)
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// ATNConfig is a tuple: (ATN state, predicted alt, syntactic, semantic
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// context). The syntactic context is a graph-structured stack node whose
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// path(s) to the root is the rule invocation(s) chain used to arrive in the
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// state. The semantic context is the tree of semantic predicates encountered
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// before reaching an ATN state.
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type ATNConfig struct {
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precedenceFilterSuppressed bool
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state ATNState
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alt int
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context *PredictionContext
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semanticContext SemanticContext
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reachesIntoOuterContext int
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cType int // lexerConfig or parserConfig
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lexerActionExecutor *LexerActionExecutor
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passedThroughNonGreedyDecision bool
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}
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// NewATNConfig6 creates a new ATNConfig instance given a state, alt and context only
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func NewATNConfig6(state ATNState, alt int, context *PredictionContext) *ATNConfig {
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return NewATNConfig5(state, alt, context, SemanticContextNone)
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}
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// NewATNConfig5 creates a new ATNConfig instance given a state, alt, context and semantic context
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func NewATNConfig5(state ATNState, alt int, context *PredictionContext, semanticContext SemanticContext) *ATNConfig {
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if semanticContext == nil {
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panic("semanticContext cannot be nil") // TODO: Necessary?
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}
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pac := &ATNConfig{}
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pac.state = state
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pac.alt = alt
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pac.context = context
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pac.semanticContext = semanticContext
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pac.cType = parserConfig
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return pac
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}
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// NewATNConfig4 creates a new ATNConfig instance given an existing config, and a state only
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func NewATNConfig4(c *ATNConfig, state ATNState) *ATNConfig {
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return NewATNConfig(c, state, c.GetContext(), c.GetSemanticContext())
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}
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// NewATNConfig3 creates a new ATNConfig instance given an existing config, a state and a semantic context
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func NewATNConfig3(c *ATNConfig, state ATNState, semanticContext SemanticContext) *ATNConfig {
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return NewATNConfig(c, state, c.GetContext(), semanticContext)
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}
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// NewATNConfig2 creates a new ATNConfig instance given an existing config, and a context only
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func NewATNConfig2(c *ATNConfig, semanticContext SemanticContext) *ATNConfig {
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return NewATNConfig(c, c.GetState(), c.GetContext(), semanticContext)
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}
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// NewATNConfig1 creates a new ATNConfig instance given an existing config, a state, and a context only
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func NewATNConfig1(c *ATNConfig, state ATNState, context *PredictionContext) *ATNConfig {
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return NewATNConfig(c, state, context, c.GetSemanticContext())
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}
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// NewATNConfig creates a new ATNConfig instance given an existing config, a state, a context and a semantic context, other 'constructors'
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// are just wrappers around this one.
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func NewATNConfig(c *ATNConfig, state ATNState, context *PredictionContext, semanticContext SemanticContext) *ATNConfig {
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if semanticContext == nil {
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panic("semanticContext cannot be nil") // TODO: Remove this - probably put here for some bug that is now fixed
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}
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b := &ATNConfig{}
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b.InitATNConfig(c, state, c.GetAlt(), context, semanticContext)
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b.cType = parserConfig
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return b
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}
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func (a *ATNConfig) InitATNConfig(c *ATNConfig, state ATNState, alt int, context *PredictionContext, semanticContext SemanticContext) {
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a.state = state
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a.alt = alt
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a.context = context
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a.semanticContext = semanticContext
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a.reachesIntoOuterContext = c.GetReachesIntoOuterContext()
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a.precedenceFilterSuppressed = c.getPrecedenceFilterSuppressed()
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}
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func (a *ATNConfig) getPrecedenceFilterSuppressed() bool {
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return a.precedenceFilterSuppressed
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}
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func (a *ATNConfig) setPrecedenceFilterSuppressed(v bool) {
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a.precedenceFilterSuppressed = v
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}
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// GetState returns the ATN state associated with this configuration
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func (a *ATNConfig) GetState() ATNState {
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return a.state
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}
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// GetAlt returns the alternative associated with this configuration
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func (a *ATNConfig) GetAlt() int {
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return a.alt
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}
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// SetContext sets the rule invocation stack associated with this configuration
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func (a *ATNConfig) SetContext(v *PredictionContext) {
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a.context = v
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}
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// GetContext returns the rule invocation stack associated with this configuration
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func (a *ATNConfig) GetContext() *PredictionContext {
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return a.context
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}
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// GetSemanticContext returns the semantic context associated with this configuration
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func (a *ATNConfig) GetSemanticContext() SemanticContext {
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return a.semanticContext
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}
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// GetReachesIntoOuterContext returns the count of references to an outer context from this configuration
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func (a *ATNConfig) GetReachesIntoOuterContext() int {
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return a.reachesIntoOuterContext
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}
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// SetReachesIntoOuterContext sets the count of references to an outer context from this configuration
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func (a *ATNConfig) SetReachesIntoOuterContext(v int) {
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a.reachesIntoOuterContext = v
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}
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// Equals is the default comparison function for an ATNConfig when no specialist implementation is required
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// for a collection.
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//
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// An ATN configuration is equal to another if both have the same state, they
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// predict the same alternative, and syntactic/semantic contexts are the same.
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func (a *ATNConfig) Equals(o Collectable[*ATNConfig]) bool {
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switch a.cType {
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case lexerConfig:
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return a.LEquals(o)
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case parserConfig:
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return a.PEquals(o)
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default:
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panic("Invalid ATNConfig type")
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}
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}
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// PEquals is the default comparison function for a Parser ATNConfig when no specialist implementation is required
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// for a collection.
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//
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// An ATN configuration is equal to another if both have the same state, they
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// predict the same alternative, and syntactic/semantic contexts are the same.
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func (a *ATNConfig) PEquals(o Collectable[*ATNConfig]) bool {
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var other, ok = o.(*ATNConfig)
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if !ok {
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return false
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}
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if a == other {
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return true
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} else if other == nil {
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return false
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}
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var equal bool
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if a.context == nil {
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equal = other.context == nil
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} else {
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equal = a.context.Equals(other.context)
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}
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var (
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nums = a.state.GetStateNumber() == other.state.GetStateNumber()
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alts = a.alt == other.alt
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cons = a.semanticContext.Equals(other.semanticContext)
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sups = a.precedenceFilterSuppressed == other.precedenceFilterSuppressed
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)
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return nums && alts && cons && sups && equal
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}
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// Hash is the default hash function for a parser ATNConfig, when no specialist hash function
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// is required for a collection
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func (a *ATNConfig) Hash() int {
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switch a.cType {
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case lexerConfig:
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return a.LHash()
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case parserConfig:
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return a.PHash()
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default:
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panic("Invalid ATNConfig type")
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}
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}
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// PHash is the default hash function for a parser ATNConfig, when no specialist hash function
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// is required for a collection
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func (a *ATNConfig) PHash() int {
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var c int
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if a.context != nil {
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c = a.context.Hash()
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}
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h := murmurInit(7)
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h = murmurUpdate(h, a.state.GetStateNumber())
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h = murmurUpdate(h, a.alt)
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h = murmurUpdate(h, c)
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h = murmurUpdate(h, a.semanticContext.Hash())
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return murmurFinish(h, 4)
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}
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// String returns a string representation of the ATNConfig, usually used for debugging purposes
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func (a *ATNConfig) String() string {
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var s1, s2, s3 string
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if a.context != nil {
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s1 = ",[" + fmt.Sprint(a.context) + "]"
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}
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if a.semanticContext != SemanticContextNone {
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s2 = "," + fmt.Sprint(a.semanticContext)
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}
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if a.reachesIntoOuterContext > 0 {
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s3 = ",up=" + fmt.Sprint(a.reachesIntoOuterContext)
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}
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return fmt.Sprintf("(%v,%v%v%v%v)", a.state, a.alt, s1, s2, s3)
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}
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func NewLexerATNConfig6(state ATNState, alt int, context *PredictionContext) *ATNConfig {
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lac := &ATNConfig{}
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lac.state = state
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lac.alt = alt
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lac.context = context
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lac.semanticContext = SemanticContextNone
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lac.cType = lexerConfig
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return lac
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}
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func NewLexerATNConfig4(c *ATNConfig, state ATNState) *ATNConfig {
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lac := &ATNConfig{}
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lac.lexerActionExecutor = c.lexerActionExecutor
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lac.passedThroughNonGreedyDecision = checkNonGreedyDecision(c, state)
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lac.InitATNConfig(c, state, c.GetAlt(), c.GetContext(), c.GetSemanticContext())
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lac.cType = lexerConfig
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return lac
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}
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func NewLexerATNConfig3(c *ATNConfig, state ATNState, lexerActionExecutor *LexerActionExecutor) *ATNConfig {
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lac := &ATNConfig{}
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lac.lexerActionExecutor = lexerActionExecutor
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lac.passedThroughNonGreedyDecision = checkNonGreedyDecision(c, state)
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lac.InitATNConfig(c, state, c.GetAlt(), c.GetContext(), c.GetSemanticContext())
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lac.cType = lexerConfig
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return lac
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}
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func NewLexerATNConfig2(c *ATNConfig, state ATNState, context *PredictionContext) *ATNConfig {
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lac := &ATNConfig{}
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lac.lexerActionExecutor = c.lexerActionExecutor
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lac.passedThroughNonGreedyDecision = checkNonGreedyDecision(c, state)
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lac.InitATNConfig(c, state, c.GetAlt(), context, c.GetSemanticContext())
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lac.cType = lexerConfig
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return lac
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}
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//goland:noinspection GoUnusedExportedFunction
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func NewLexerATNConfig1(state ATNState, alt int, context *PredictionContext) *ATNConfig {
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lac := &ATNConfig{}
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lac.state = state
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lac.alt = alt
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lac.context = context
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lac.semanticContext = SemanticContextNone
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lac.cType = lexerConfig
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return lac
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}
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// LHash is the default hash function for Lexer ATNConfig objects, it can be used directly or via
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// the default comparator [ObjEqComparator].
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func (a *ATNConfig) LHash() int {
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var f int
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if a.passedThroughNonGreedyDecision {
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f = 1
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} else {
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f = 0
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}
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h := murmurInit(7)
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h = murmurUpdate(h, a.state.GetStateNumber())
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h = murmurUpdate(h, a.alt)
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h = murmurUpdate(h, a.context.Hash())
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h = murmurUpdate(h, a.semanticContext.Hash())
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h = murmurUpdate(h, f)
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h = murmurUpdate(h, a.lexerActionExecutor.Hash())
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h = murmurFinish(h, 6)
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return h
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}
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// LEquals is the default comparison function for Lexer ATNConfig objects, it can be used directly or via
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// the default comparator [ObjEqComparator].
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func (a *ATNConfig) LEquals(other Collectable[*ATNConfig]) bool {
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var otherT, ok = other.(*ATNConfig)
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if !ok {
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return false
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} else if a == otherT {
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return true
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} else if a.passedThroughNonGreedyDecision != otherT.passedThroughNonGreedyDecision {
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return false
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}
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switch {
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case a.lexerActionExecutor == nil && otherT.lexerActionExecutor == nil:
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return true
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case a.lexerActionExecutor != nil && otherT.lexerActionExecutor != nil:
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if !a.lexerActionExecutor.Equals(otherT.lexerActionExecutor) {
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return false
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}
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default:
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return false // One but not both, are nil
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}
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return a.PEquals(otherT)
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}
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func checkNonGreedyDecision(source *ATNConfig, target ATNState) bool {
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var ds, ok = target.(DecisionState)
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return source.passedThroughNonGreedyDecision || (ok && ds.getNonGreedy())
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}
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