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package org.antlr.runtime;

import java.util.Map;

The set of fields needed by an abstract recognizer to recognize input
 and recover from errors etc...  As a separate state object, it can be
 shared among multiple grammars; e.g., when one grammar imports another.
 These fields are publically visible but the actual state pointer per
 parser is protected.
/** The set of fields needed by an abstract recognizer to recognize input
 *  and recover from errors etc...  As a separate state object, it can be
 *  shared among multiple grammars; e.g., when one grammar imports another.
 *
 *  These fields are publically visible but the actual state pointer per
 *  parser is protected.
 */
public class RecognizerSharedState {
	
Track the set of token types that can follow any rule invocation.
 Stack grows upwards.  When it hits the max, it grows 2x in size
 and keeps going.
/** Track the set of token types that can follow any rule invocation.
	 *  Stack grows upwards.  When it hits the max, it grows 2x in size
	 *  and keeps going.
	 */
	public BitSet[] following = new BitSet[BaseRecognizer.INITIAL_FOLLOW_STACK_SIZE];
	public int _fsp = -1;

	
This is true when we see an error and before having successfully
 matched a token.  Prevents generation of more than one error message
 per error.
/** This is true when we see an error and before having successfully
	 *  matched a token.  Prevents generation of more than one error message
	 *  per error.
	 */
	public boolean errorRecovery = false;

	
The index into the input stream where the last error occurred.
	This is used to prevent infinite loops where an error is found
 but no token is consumed during recovery...another error is found,
 ad naseum.  This is a failsafe mechanism to guarantee that at least
 one token/tree node is consumed for two errors.
/** The index into the input stream where the last error occurred.
	 * 	This is used to prevent infinite loops where an error is found
	 *  but no token is consumed during recovery...another error is found,
	 *  ad naseum.  This is a failsafe mechanism to guarantee that at least
	 *  one token/tree node is consumed for two errors.
	 */
	public int lastErrorIndex = -1;

	
In lieu of a return value, this indicates that a rule or token
 has failed to match.  Reset to false upon valid token match.
/** In lieu of a return value, this indicates that a rule or token
	 *  has failed to match.  Reset to false upon valid token match.
	 */
	public boolean failed = false;

	
Did the recognizer encounter a syntax error?  Track how many. /** Did the recognizer encounter a syntax error?  Track how many. */
	public int syntaxErrors = 0;

	
If 0, no backtracking is going on.  Safe to exec actions etc...
 If >0 then it's the level of backtracking.
/** If 0, no backtracking is going on.  Safe to exec actions etc...
	 *  If >0 then it's the level of backtracking.
	 */
	public int backtracking = 0;

	
An array[size num rules] of Map<Integer,Integer> that tracks
 the stop token index for each rule.  ruleMemo[ruleIndex] is
 the memoization table for ruleIndex.  For key ruleStartIndex, you
 get back the stop token for associated rule or MEMO_RULE_FAILED.
 This is only used if rule memoization is on (which it is by default).
/** An array[size num rules] of Map&lt;Integer,Integer&gt; that tracks
	 *  the stop token index for each rule.  ruleMemo[ruleIndex] is
	 *  the memoization table for ruleIndex.  For key ruleStartIndex, you
	 *  get back the stop token for associated rule or MEMO_RULE_FAILED.
	 *
	 *  This is only used if rule memoization is on (which it is by default).
	 */
	public Map<Integer, Integer>[] ruleMemo;


	// LEXER FIELDS (must be in same state object to avoid casting
	//               constantly in generated code and Lexer object) :(


	
The goal of all lexer rules/methods is to create a token object.
 This is an instance variable as multiple rules may collaborate to
 create a single token.  nextToken will return this object after
 matching lexer rule(s).  If you subclass to allow multiple token
 emissions, then set this to the last token to be matched or
 something nonnull so that the auto token emit mechanism will not
 emit another token.
/** The goal of all lexer rules/methods is to create a token object.
	 *  This is an instance variable as multiple rules may collaborate to
	 *  create a single token.  nextToken will return this object after
	 *  matching lexer rule(s).  If you subclass to allow multiple token
	 *  emissions, then set this to the last token to be matched or
	 *  something nonnull so that the auto token emit mechanism will not
	 *  emit another token.
	 */
    public Token token;

	
What character index in the stream did the current token start at?
 Needed, for example, to get the text for current token.  Set at
 the start of nextToken.
/** What character index in the stream did the current token start at?
	 *  Needed, for example, to get the text for current token.  Set at
	 *  the start of nextToken.
 	 */
	public int tokenStartCharIndex = -1;

	
The line on which the first character of the token resides /** The line on which the first character of the token resides */
	public int tokenStartLine;

	
The character position of first character within the line /** The character position of first character within the line */
	public int tokenStartCharPositionInLine;

	
The channel number for the current token /** The channel number for the current token */
	public int channel;

	
The token type for the current token /** The token type for the current token */
	public int type;

	
You can set the text for the current token to override what is in
 the input char buffer.  Use setText() or can set this instance var.
/** You can set the text for the current token to override what is in
	 *  the input char buffer.  Use setText() or can set this instance var.
 	 */
	public String text;

    public RecognizerSharedState() {}
    
	@SuppressWarnings("unchecked")
    public RecognizerSharedState(RecognizerSharedState state) {
        if ( this.following.length < state.following.length ) {
            this.following = new BitSet[state.following.length];
        }
        System.arraycopy(state.following, 0, this.following, 0, state.following.length);
        this._fsp = state._fsp;
        this.errorRecovery = state.errorRecovery;
        this.lastErrorIndex = state.lastErrorIndex;
        this.failed = state.failed;
        this.syntaxErrors = state.syntaxErrors;
        this.backtracking = state.backtracking;
        if ( state.ruleMemo!=null ) {
            this.ruleMemo = (Map<Integer, Integer>[])new Map<?, ?>[state.ruleMemo.length];
            System.arraycopy(state.ruleMemo, 0, this.ruleMemo, 0, state.ruleMemo.length);
        }
        this.token = state.token;
        this.tokenStartCharIndex = state.tokenStartCharIndex;
        this.tokenStartCharPositionInLine = state.tokenStartCharPositionInLine;
        this.channel = state.channel;
        this.type = state.type;
        this.text = state.text;
    }
}