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/*
 * Copyright (c) 2012 The ANTLR Project. All rights reserved.
 * Use of this file is governed by the BSD-3-Clause license that
 * can be found in the LICENSE.txt file in the project root.
 */
package org.antlr.v4.runtime;

import org.antlr.v4.runtime.atn.ATN;
import org.antlr.v4.runtime.atn.LexerATNSimulator;
import org.antlr.v4.runtime.misc.IntegerStack;
import org.antlr.v4.runtime.misc.Interval;
import org.antlr.v4.runtime.misc.Nullable;
import org.antlr.v4.runtime.misc.Tuple;
import org.antlr.v4.runtime.misc.Tuple2;

import java.util.ArrayList;
import java.util.EmptyStackException;
import java.util.List;

/** A lexer is recognizer that draws input symbols from a character stream.
 *  lexer grammars result in a subclass of this object. A Lexer object
 *  uses simplified match() and error recovery mechanisms in the interest
 *  of speed.
 */
public abstract class Lexer extends Recognizer
	implements TokenSource
{
	public static final int DEFAULT_MODE = 0;
	public static final int MORE = -2;
	public static final int SKIP = -3;

	public static final int DEFAULT_TOKEN_CHANNEL = Token.DEFAULT_CHANNEL;
	public static final int HIDDEN = Token.HIDDEN_CHANNEL;
	public static final int MIN_CHAR_VALUE = 0x0000;
	public static final int MAX_CHAR_VALUE = 0x10FFFF;

	public CharStream _input;
	protected Tuple2 _tokenFactorySourcePair;

	/** How to create token objects */
	protected TokenFactory _factory = CommonTokenFactory.DEFAULT;

	/** 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.
	 */
	public int _tokenStartCharIndex = -1;

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

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

	/** Once we see EOF on char stream, next token will be EOF.
	 *  If you have DONE : EOF ; then you see DONE EOF.
	 */
	public boolean _hitEOF;

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

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

	public final IntegerStack _modeStack = new IntegerStack();
	public int _mode = Lexer.DEFAULT_MODE;

	/** 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 Lexer(CharStream input) {
		this._input = input;
		this._tokenFactorySourcePair = Tuple.create(this, input);
	}

	public void reset() {
		// wack Lexer state variables
		if ( _input !=null ) {
			_input.seek(0); // rewind the input
		}
		_token = null;
		_type = Token.INVALID_TYPE;
		_channel = Token.DEFAULT_CHANNEL;
		_tokenStartCharIndex = -1;
		_tokenStartCharPositionInLine = -1;
		_tokenStartLine = -1;
		_text = null;

		_hitEOF = false;
		_mode = Lexer.DEFAULT_MODE;
		_modeStack.clear();

		getInterpreter().reset();
	}

	/** Return a token from this source; i.e., match a token on the char
	 *  stream.
	 */
	@Override
	public Token nextToken() {
		if (_input == null) {
			throw new IllegalStateException("nextToken requires a non-null input stream.");
		}

		// Mark start location in char stream so unbuffered streams are
		// guaranteed at least have text of current token
		int tokenStartMarker = _input.mark();
		try{
			outer:
			while (true) {
				if (_hitEOF) {
					emitEOF();
					return _token;
				}

				_token = null;
				_channel = Token.DEFAULT_CHANNEL;
				_tokenStartCharIndex = _input.index();
				_tokenStartCharPositionInLine = getInterpreter().getCharPositionInLine();
				_tokenStartLine = getInterpreter().getLine();
				_text = null;
				do {
					_type = Token.INVALID_TYPE;
//				System.out.println("nextToken line "+tokenStartLine+" at "+((char)input.LA(1))+
//								   " in mode "+mode+
//								   " at index "+input.index());
					int ttype;
					try {
						ttype = getInterpreter().match(_input, _mode);
					}
					catch (LexerNoViableAltException e) {
						notifyListeners(e);		// report error
						recover(e);
						ttype = SKIP;
					}
					if ( _input.LA(1)==IntStream.EOF ) {
						_hitEOF = true;
					}
					if ( _type == Token.INVALID_TYPE ) _type = ttype;
					if ( _type ==SKIP ) {
						continue outer;
					}
				} while ( _type ==MORE );
				if ( _token == null ) emit();
				return _token;
			}
		}
		finally {
			// make sure we release marker after match or
			// unbuffered char stream will keep buffering
			_input.release(tokenStartMarker);
		}
	}

	/** Instruct the lexer to skip creating a token for current lexer rule
	 *  and look for another token.  nextToken() knows to keep looking when
	 *  a lexer rule finishes with token set to SKIP_TOKEN.  Recall that
	 *  if token==null at end of any token rule, it creates one for you
	 *  and emits it.
	 */
	public void skip() {
		_type = SKIP;
	}

	public void more() {
		_type = MORE;
	}

	public void mode(int m) {
		_mode = m;
	}

	public void pushMode(int m) {
		if ( LexerATNSimulator.debug ) System.out.println("pushMode "+m);
		_modeStack.push(_mode);
		mode(m);
	}

	public int popMode() {
		if ( _modeStack.isEmpty() ) throw new EmptyStackException();
		if ( LexerATNSimulator.debug ) System.out.println("popMode back to "+ _modeStack.peek());
		mode( _modeStack.pop() );
		return _mode;
	}

	@Override
	public TokenFactory getTokenFactory() {
		return _factory;
	}

	@Override
	public void setTokenFactory(TokenFactory factory) {
		this._factory = factory;
	}

	/** Set the char stream and reset the lexer */
	public void setInputStream(CharStream input) {
		validateInputStream(getInterpreter().atn, input);

		this._input = null;
		this._tokenFactorySourcePair = Tuple.create(this, _input);
		reset();
		this._input = input;
		this._tokenFactorySourcePair = Tuple.create(this, _input);
	}

	protected void validateInputStream(ATN atn, CharStream input) {
		if (atn != null && !atn.hasUnicodeSMPTransitions()) {
			// This grammar should work with inputs that stream UTF-16 or Unicode code points.
			return;
		}

		if (!(input instanceof UnicodeCharStream) || !((UnicodeCharStream)input).supportsUnicodeCodePoints()) {
			throw new UnsupportedOperationException("The input stream does not support code points required for this grammar.");
		}
	}

	@Override
	public String getSourceName() {
		return _input.getSourceName();
	}

	@Override
	public CharStream getInputStream() {
		return _input;
	}

	/** By default does not support multiple emits per nextToken invocation
	 *  for efficiency reasons.  Subclass and override this method, nextToken,
	 *  and getToken (to push tokens into a list and pull from that list
	 *  rather than a single variable as this implementation does).
	 */
	public void emit(Token token) {
		//System.err.println("emit "+token);
		this._token = token;
	}

	/** The standard method called to automatically emit a token at the
	 *  outermost lexical rule.  The token object should point into the
	 *  char buffer start..stop.  If there is a text override in 'text',
	 *  use that to set the token's text.  Override this method to emit
	 *  custom Token objects or provide a new factory.
	 */
	public Token emit() {
		Token t = _factory.create(_tokenFactorySourcePair, _type, _text, _channel, _tokenStartCharIndex, getCharIndex()-1,
								  _tokenStartLine, _tokenStartCharPositionInLine);
		emit(t);
		return t;
	}

	public Token emitEOF() {
		int cpos = getCharPositionInLine();
		int line = getLine();
		Token eof = _factory.create(_tokenFactorySourcePair, Token.EOF, null, Token.DEFAULT_CHANNEL, _input.index(), _input.index()-1,
									line, cpos);
		emit(eof);
		return eof;
	}

	@Override
	public int getLine() {
		return getInterpreter().getLine();
	}

	@Override
	public int getCharPositionInLine() {
		return getInterpreter().getCharPositionInLine();
	}

	public void setLine(int line) {
		getInterpreter().setLine(line);
	}

	public void setCharPositionInLine(int charPositionInLine) {
		getInterpreter().setCharPositionInLine(charPositionInLine);
	}

	/** What is the index of the current character of lookahead? */
	public int getCharIndex() {
		return _input.index();
	}

	/** Return the text matched so far for the current token or any
	 *  text override.
	 */
	public String getText() {
		if ( _text !=null ) {
			return _text;
		}
		return getInterpreter().getText(_input);
	}

	/** Set the complete text of this token; it wipes any previous
	 *  changes to the text.
	 */
	public void setText(String text) {
		this._text = text;
	}

	/** Override if emitting multiple tokens. */
	public Token getToken() { return _token; }

	public void setToken(Token _token) {
		this._token = _token;
	}

	public void setType(int ttype) {
		_type = ttype;
	}

	public int getType() {
		return _type;
	}

	public void setChannel(int channel) {
		_channel = channel;
	}

	public int getChannel() {
		return _channel;
	}

	@Nullable
	public String[] getChannelNames() {
		return null;
	}

	@Nullable
	public String[] getModeNames() {
		return null;
	}

	/** Used to print out token names like ID during debugging and
	 *  error reporting.  The generated parsers implement a method
	 *  that overrides this to point to their String[] tokenNames.
	 */
	@Override
	@Deprecated
	public String[] getTokenNames() {
		return null;
	}

	/** Return a list of all Token objects in input char stream.
	 *  Forces load of all tokens. Does not include EOF token.
	 */
	public List getAllTokens() {
		List tokens = new ArrayList();
		Token t = nextToken();
		while ( t.getType()!=Token.EOF ) {
			tokens.add(t);
			t = nextToken();
		}
		return tokens;
	}

	public void recover(LexerNoViableAltException e) {
		if (_input.LA(1) != IntStream.EOF) {
			// skip a char and try again
			getInterpreter().consume(_input);
		}
	}

	public void notifyListeners(LexerNoViableAltException e) {
		String text = _input.getText(Interval.of(_tokenStartCharIndex, _input.index()));
		String msg = "token recognition error at: '"+ getErrorDisplay(text) + "'";

		ANTLRErrorListener listener = getErrorListenerDispatch();
		listener.syntaxError(this, null, _tokenStartLine, _tokenStartCharPositionInLine, msg, e);
	}

	public String getErrorDisplay(String s) {
		StringBuilder buf = new StringBuilder();
		for (char c : s.toCharArray()) {
			buf.append(getErrorDisplay(c));
		}
		return buf.toString();
	}

	public String getErrorDisplay(int c) {
		String s = String.valueOf((char)c);
		switch ( c ) {
			case Token.EOF :
				s = "";
				break;
			case '\n' :
				s = "\\n";
				break;
			case '\t' :
				s = "\\t";
				break;
			case '\r' :
				s = "\\r";
				break;
		}
		return s;
	}

	public String getCharErrorDisplay(int c) {
		String s = getErrorDisplay(c);
		return "'"+s+"'";
	}

	/** Lexers can normally match any char in it's vocabulary after matching
	 *  a token, so do the easy thing and just kill a character and hope
	 *  it all works out.  You can instead use the rule invocation stack
	 *  to do sophisticated error recovery if you are in a fragment rule.
	 */
	public void recover(RecognitionException re) {
		//System.out.println("consuming char "+(char)input.LA(1)+" during recovery");
		//re.printStackTrace();
		// TODO: Do we lose character or line position information?
		_input.consume();
	}
}




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