antlr-3.4/runtime/CSharp3/Sources/Antlr3.Runtime/LegacyCommonTokenStream.cs - platform/external/antlr - Git at Google

 /*
  * [The "BSD licence"]
  * Copyright (c) 2005-2008 Terence Parr
  * All rights reserved.
  *
  * Conversion to C#:
  * Copyright (c) 2008-2009 Sam Harwell, Pixel Mine, Inc.
  * All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  * 3. The name of the author may not be used to endorse or promote products
  *    derived from this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 namespace Antlr.Runtime
 {
     using System.Collections.Generic;

     using InvalidOperationException = System.InvalidOperationException;
     using StringBuilder = System.Text.StringBuilder;

     /** <summary>
      *  The most common stream of tokens is one where every token is buffered up
      *  and tokens are prefiltered for a certain channel (the parser will only
      *  see these tokens and cannot change the filter channel number during the
      *  parse).
      *  </summary>
      *
      *  <remarks>TODO: how to access the full token stream?  How to track all tokens matched per rule?</remarks>
      */
     [System.Serializable]
     public class LegacyCommonTokenStream : ITokenStream
     {
         [System.NonSerialized]
         ITokenSource _tokenSource;

         /** <summary>
          *  Record every single token pulled from the source so we can reproduce
          *  chunks of it later.
          *  </summary>
          */
         protected List<IToken> tokens;

         /** <summary>Map<tokentype, channel> to override some Tokens' channel numbers</summary> */
         protected IDictionary<int, int> channelOverrideMap;

         /** <summary>Set<tokentype>; discard any tokens with this type</summary> */
         protected List<int> discardSet;

         /** <summary>Skip tokens on any channel but this one; this is how we skip whitespace...</summary> */
         protected int channel = TokenChannels.Default;

         /** <summary>By default, track all incoming tokens</summary> */
         protected bool discardOffChannelTokens = false;

         /** <summary>Track the last mark() call result value for use in rewind().</summary> */
         protected int lastMarker;

         /** <summary>
          *  The index into the tokens list of the current token (next token
          *  to consume).  p==-1 indicates that the tokens list is empty
          *  </summary>
          */
         protected int p = -1;

         public LegacyCommonTokenStream()
         {
             tokens = new List<IToken>( 500 );
         }

         public LegacyCommonTokenStream(ITokenSource tokenSource)
             : this()
         {
             this._tokenSource = tokenSource;
         }

         public LegacyCommonTokenStream( ITokenSource tokenSource, int channel )
             : this( tokenSource )
         {
             this.channel = channel;
         }

         public virtual int Index
         {
             get
             {
                 return p;
             }
         }

         /// <summary>
         /// How deep have we gone?
         /// </summary>
         public virtual int Range
         {
             get;
             protected set;
         }

         /** <summary>Reset this token stream by setting its token source.</summary> */
         public virtual void SetTokenSource( ITokenSource tokenSource )
         {
             this._tokenSource = tokenSource;
             tokens.Clear();
             p = -1;
             channel = TokenChannels.Default;
         }

         /** <summary>
          *  Load all tokens from the token source and put in tokens.
          *  This is done upon first LT request because you might want to
          *  set some token type / channel overrides before filling buffer.
          *  </summary>
          */
         public virtual void FillBuffer()
         {
             // fast return if the buffer is already full
             if ( p != -1 )
                 return;

             int index = 0;
             IToken t = _tokenSource.NextToken();
             while ( t != null && t.Type != CharStreamConstants.EndOfFile )
             {
                 bool discard = false;
                 // is there a channel override for token type?
                 int channelI;
                 if ( channelOverrideMap != null && channelOverrideMap.TryGetValue( t.Type, out channelI ) )
                     t.Channel = channelI;

                 //if ( channelOverrideMap != null && channelOverrideMap.ContainsKey( t.getType() ) )
                 //{
                 //    object channelI = channelOverrideMap.get( t.getType() );
                 //    if ( channelI != null )
                 //    {
                 //        t.setChannel( (int)channelI );
                 //    }
                 //}
                 if ( discardSet != null &&
                      discardSet.Contains( t.Type ) )
                 {
                     discard = true;
                 }
                 else if ( discardOffChannelTokens && t.Channel != this.channel )
                 {
                     discard = true;
                 }
                 if ( !discard )
                 {
                     t.TokenIndex = index;
                     tokens.Add( t );
                     index++;
                 }
                 t = _tokenSource.NextToken();
             }
             // leave p pointing at first token on channel
             p = 0;
             p = SkipOffTokenChannels( p );
         }

         /** <summary>
          *  Move the input pointer to the next incoming token.  The stream
          *  must become active with LT(1) available.  consume() simply
          *  moves the input pointer so that LT(1) points at the next
          *  input symbol. Consume at least one token.
          *  </summary>
          *
          *  <remarks>
          *  Walk past any token not on the channel the parser is listening to.
          *  </remarks>
          */
         public virtual void Consume()
         {
             if ( p < tokens.Count )
             {
                 p++;
                 p = SkipOffTokenChannels( p ); // leave p on valid token
             }
         }

         /** <summary>Given a starting index, return the index of the first on-channel token.</summary> */
         protected virtual int SkipOffTokenChannels( int i )
         {
             int n = tokens.Count;
             while ( i < n && ( (IToken)tokens[i] ).Channel != channel )
             {
                 i++;
             }
             return i;
         }

         protected virtual int SkipOffTokenChannelsReverse( int i )
         {
             while ( i >= 0 && ( (IToken)tokens[i] ).Channel != channel )
             {
                 i--;
             }
             return i;
         }

         /** <summary>
          *  A simple filter mechanism whereby you can tell this token stream
          *  to force all tokens of type ttype to be on channel.  For example,
          *  when interpreting, we cannot exec actions so we need to tell
          *  the stream to force all WS and NEWLINE to be a different, ignored
          *  channel.
          *  </summary>
          */
         public virtual void SetTokenTypeChannel( int ttype, int channel )
         {
             if ( channelOverrideMap == null )
             {
                 channelOverrideMap = new Dictionary<int, int>();
             }
             channelOverrideMap[ttype] = channel;
         }

         public virtual void DiscardTokenType( int ttype )
         {
             if ( discardSet == null )
             {
                 discardSet = new List<int>();
             }
             discardSet.Add( ttype );
         }

         public virtual void SetDiscardOffChannelTokens( bool discardOffChannelTokens )
         {
             this.discardOffChannelTokens = discardOffChannelTokens;
         }

         public virtual IList<IToken> GetTokens()
         {
             if ( p == -1 )
             {
                 FillBuffer();
             }
             return tokens;
         }

         public virtual IList<IToken> GetTokens( int start, int stop )
         {
             return GetTokens( start, stop, (BitSet)null );
         }

         /** <summary>
          *  Given a start and stop index, return a List of all tokens in
          *  the token type BitSet.  Return null if no tokens were found.  This
          *  method looks at both on and off channel tokens.
          *  </summary>
          */
         public virtual IList<IToken> GetTokens( int start, int stop, BitSet types )
         {
             if ( p == -1 )
             {
                 FillBuffer();
             }
             if ( stop >= tokens.Count )
             {
                 stop = tokens.Count - 1;
             }
             if ( start < 0 )
             {
                 start = 0;
             }
             if ( start > stop )
             {
                 return null;
             }

             // list = tokens[start:stop]:{Token t, t.getType() in types}
             IList<IToken> filteredTokens = new List<IToken>();
             for ( int i = start; i <= stop; i++ )
             {
                 IToken t = tokens[i];
                 if ( types == null || types.Member( t.Type ) )
                 {
                     filteredTokens.Add( t );
                 }
             }
             if ( filteredTokens.Count == 0 )
             {
                 filteredTokens = null;
             }
             return filteredTokens;
         }

         public virtual IList<IToken> GetTokens( int start, int stop, IList<int> types )
         {
             return GetTokens( start, stop, new BitSet( types ) );
         }

         public virtual IList<IToken> GetTokens( int start, int stop, int ttype )
         {
             return GetTokens( start, stop, BitSet.Of( ttype ) );
         }

         /** <summary>
          *  Get the ith token from the current position 1..n where k=1 is the
          *  first symbol of lookahead.
          *  </summary>
          */
         public virtual IToken LT( int k )
         {
             if ( p == -1 )
             {
                 FillBuffer();
             }
             if ( k == 0 )
             {
                 return null;
             }
             if ( k < 0 )
             {
                 return LB( -k );
             }
             //System.out.print("LT(p="+p+","+k+")=");
             if ( ( p + k - 1 ) >= tokens.Count )
             {
                 return tokens[tokens.Count - 1];
             }
             //System.out.println(tokens.get(p+k-1));
             int i = p;
             int n = 1;
             // find k good tokens
             while ( n < k )
             {
                 // skip off-channel tokens
                 i = SkipOffTokenChannels( i + 1 ); // leave p on valid token
                 n++;
             }
             if ( i >= tokens.Count )
             {
                 return tokens[tokens.Count - 1];
             }

             if (i > Range)
                 Range = i;

             return (IToken)tokens[i];
         }

         /** <summary>Look backwards k tokens on-channel tokens</summary> */
         protected virtual IToken LB( int k )
         {
             //System.out.print("LB(p="+p+","+k+") ");
             if ( p == -1 )
             {
                 FillBuffer();
             }
             if ( k == 0 )
             {
                 return null;
             }
             if ( ( p - k ) < 0 )
             {
                 return null;
             }

             int i = p;
             int n = 1;
             // find k good tokens looking backwards
             while ( n <= k )
             {
                 // skip off-channel tokens
                 i = SkipOffTokenChannelsReverse( i - 1 ); // leave p on valid token
                 n++;
             }
             if ( i < 0 )
             {
                 return null;
             }
             return (IToken)tokens[i];
         }

         /** <summary>
          *  Return absolute token i; ignore which channel the tokens are on;
          *  that is, count all tokens not just on-channel tokens.
          *  </summary>
          */
         public virtual IToken Get( int i )
         {
             return (IToken)tokens[i];
         }

 #if false
         /** Get all tokens from start..stop inclusively */
         public virtual List<IToken> Get(int start, int count)
         {
             if (start < 0)
                 throw new ArgumentOutOfRangeException("start");
             if (count < 0)
                 throw new ArgumentOutOfRangeException("count");

             if (p == -1)
                 FillBuffer();

             return new List<IToken>(tokens.Skip(start).Take(count));
         }
 #endif

         public virtual int LA( int i )
         {
             return LT( i ).Type;
         }

         public virtual int Mark()
         {
             if ( p == -1 )
             {
                 FillBuffer();
             }
             lastMarker = Index;
             return lastMarker;
         }

         public virtual void Release( int marker )
         {
             // no resources to release
         }

         public virtual int Count
         {
             get
             {
                 return tokens.Count;
             }
         }

         public virtual void Rewind( int marker )
         {
             Seek( marker );
         }

         public virtual void Rewind()
         {
             Seek( lastMarker );
         }

         public virtual void Reset()
         {
             p = 0;
             lastMarker = 0;
         }

         public virtual void Seek( int index )
         {
             p = index;
         }

         public virtual ITokenSource TokenSource
         {
             get
             {
                 return _tokenSource;
             }
         }

         public virtual string SourceName
         {
             get
             {
                 return TokenSource.SourceName;
             }
         }

         public override string ToString()
         {
             if ( p == -1 )
             {
                 throw new InvalidOperationException( "Buffer is not yet filled." );
             }
             return ToString( 0, tokens.Count - 1 );
         }

         public virtual string ToString( int start, int stop )
         {
             if ( start < 0 || stop < 0 )
             {
                 return null;
             }
             if ( p == -1 )
             {
                 throw new InvalidOperationException( "Buffer is not yet filled." );
             }
             if ( stop >= tokens.Count )
             {
                 stop = tokens.Count - 1;
             }
             StringBuilder buf = new StringBuilder();
             for ( int i = start; i <= stop; i++ )
             {
                 IToken t = tokens[i];
                 buf.Append( t.Text );
             }
             return buf.ToString();
         }

         public virtual string ToString( IToken start, IToken stop )
         {
             if ( start != null && stop != null )
             {
                 return ToString( start.TokenIndex, stop.TokenIndex );
             }
             return null;
         }
     }
 }
	/*
	* [The "BSD licence"]
	* Copyright (c) 2005-2008 Terence Parr
	* All rights reserved.
	*
	* Conversion to C#:
	* Copyright (c) 2008-2009 Sam Harwell, Pixel Mine, Inc.
	* All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	* 3. The name of the author may not be used to endorse or promote products
	* derived from this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	namespace Antlr.Runtime
	{
	using System.Collections.Generic;

	using InvalidOperationException = System.InvalidOperationException;
	using StringBuilder = System.Text.StringBuilder;

	/** <summary>
	* The most common stream of tokens is one where every token is buffered up
	* and tokens are prefiltered for a certain channel (the parser will only
	* see these tokens and cannot change the filter channel number during the
	* parse).
	* </summary>
	*
	* <remarks>TODO: how to access the full token stream? How to track all tokens matched per rule?</remarks>
	*/
	[System.Serializable]
	public class LegacyCommonTokenStream : ITokenStream
	{
	[System.NonSerialized]
	ITokenSource _tokenSource;

	/** <summary>
	* Record every single token pulled from the source so we can reproduce
	* chunks of it later.
	* </summary>
	*/
	protected List<IToken> tokens;

	/** <summary>Map<tokentype, channel> to override some Tokens' channel numbers</summary> */
	protected IDictionary<int, int> channelOverrideMap;

	/** <summary>Set<tokentype>; discard any tokens with this type</summary> */
	protected List<int> discardSet;

	/** <summary>Skip tokens on any channel but this one; this is how we skip whitespace...</summary> */
	protected int channel = TokenChannels.Default;

	/** <summary>By default, track all incoming tokens</summary> */
	protected bool discardOffChannelTokens = false;

	/** <summary>Track the last mark() call result value for use in rewind().</summary> */
	protected int lastMarker;

	/** <summary>
	* The index into the tokens list of the current token (next token
	* to consume). p==-1 indicates that the tokens list is empty
	* </summary>
	*/
	protected int p = -1;

	public LegacyCommonTokenStream()
	{
	tokens = new List<IToken>( 500 );
	}

	public LegacyCommonTokenStream(ITokenSource tokenSource)
	: this()
	{
	this._tokenSource = tokenSource;
	}

	public LegacyCommonTokenStream( ITokenSource tokenSource, int channel )
	: this( tokenSource )
	{
	this.channel = channel;
	}

	public virtual int Index
	{
	get
	{
	return p;
	}
	}

	/// <summary>
	/// How deep have we gone?
	/// </summary>
	public virtual int Range
	{
	get;
	protected set;
	}

	/** <summary>Reset this token stream by setting its token source.</summary> */
	public virtual void SetTokenSource( ITokenSource tokenSource )
	{
	this._tokenSource = tokenSource;
	tokens.Clear();
	p = -1;
	channel = TokenChannels.Default;
	}

	/** <summary>
	* Load all tokens from the token source and put in tokens.
	* This is done upon first LT request because you might want to
	* set some token type / channel overrides before filling buffer.
	* </summary>
	*/
	public virtual void FillBuffer()
	{
	// fast return if the buffer is already full
	if ( p != -1 )
	return;

	int index = 0;
	IToken t = _tokenSource.NextToken();
	while ( t != null && t.Type != CharStreamConstants.EndOfFile )
	{
	bool discard = false;
	// is there a channel override for token type?
	int channelI;
	if ( channelOverrideMap != null && channelOverrideMap.TryGetValue( t.Type, out channelI ) )
	t.Channel = channelI;

	//if ( channelOverrideMap != null && channelOverrideMap.ContainsKey( t.getType() ) )
	//{
	// object channelI = channelOverrideMap.get( t.getType() );
	// if ( channelI != null )
	// {
	// t.setChannel( (int)channelI );
	// }
	//}
	if ( discardSet != null &&
	discardSet.Contains( t.Type ) )
	{
	discard = true;
	}
	else if ( discardOffChannelTokens && t.Channel != this.channel )
	{
	discard = true;
	}
	if ( !discard )
	{
	t.TokenIndex = index;
	tokens.Add( t );
	index++;
	}
	t = _tokenSource.NextToken();
	}
	// leave p pointing at first token on channel
	p = 0;
	p = SkipOffTokenChannels( p );
	}

	/** <summary>
	* Move the input pointer to the next incoming token. The stream
	* must become active with LT(1) available. consume() simply
	* moves the input pointer so that LT(1) points at the next
	* input symbol. Consume at least one token.
	* </summary>
	*
	* <remarks>
	* Walk past any token not on the channel the parser is listening to.
	* </remarks>
	*/
	public virtual void Consume()
	{
	if ( p < tokens.Count )
	{
	p++;
	p = SkipOffTokenChannels( p ); // leave p on valid token
	}
	}

	/** <summary>Given a starting index, return the index of the first on-channel token.</summary> */
	protected virtual int SkipOffTokenChannels( int i )
	{
	int n = tokens.Count;
	while ( i < n && ( (IToken)tokens[i] ).Channel != channel )
	{
	i++;
	}
	return i;
	}

	protected virtual int SkipOffTokenChannelsReverse( int i )
	{
	while ( i >= 0 && ( (IToken)tokens[i] ).Channel != channel )
	{
	i--;
	}
	return i;
	}

	/** <summary>
	* A simple filter mechanism whereby you can tell this token stream
	* to force all tokens of type ttype to be on channel. For example,
	* when interpreting, we cannot exec actions so we need to tell
	* the stream to force all WS and NEWLINE to be a different, ignored
	* channel.
	* </summary>
	*/
	public virtual void SetTokenTypeChannel( int ttype, int channel )
	{
	if ( channelOverrideMap == null )
	{
	channelOverrideMap = new Dictionary<int, int>();
	}
	channelOverrideMap[ttype] = channel;
	}

	public virtual void DiscardTokenType( int ttype )
	{
	if ( discardSet == null )
	{
	discardSet = new List<int>();
	}
	discardSet.Add( ttype );
	}

	public virtual void SetDiscardOffChannelTokens( bool discardOffChannelTokens )
	{
	this.discardOffChannelTokens = discardOffChannelTokens;
	}

	public virtual IList<IToken> GetTokens()
	{
	if ( p == -1 )
	{
	FillBuffer();
	}
	return tokens;
	}

	public virtual IList<IToken> GetTokens( int start, int stop )
	{
	return GetTokens( start, stop, (BitSet)null );
	}

	/** <summary>
	* Given a start and stop index, return a List of all tokens in
	* the token type BitSet. Return null if no tokens were found. This
	* method looks at both on and off channel tokens.
	* </summary>
	*/
	public virtual IList<IToken> GetTokens( int start, int stop, BitSet types )
	{
	if ( p == -1 )
	{
	FillBuffer();
	}
	if ( stop >= tokens.Count )
	{
	stop = tokens.Count - 1;
	}
	if ( start < 0 )
	{
	start = 0;
	}
	if ( start > stop )
	{
	return null;
	}

	// list = tokens[start:stop]:{Token t, t.getType() in types}
	IList<IToken> filteredTokens = new List<IToken>();
	for ( int i = start; i <= stop; i++ )
	{
	IToken t = tokens[i];
	if ( types == null \|\| types.Member( t.Type ) )
	{
	filteredTokens.Add( t );
	}
	}
	if ( filteredTokens.Count == 0 )
	{
	filteredTokens = null;
	}
	return filteredTokens;
	}

	public virtual IList<IToken> GetTokens( int start, int stop, IList<int> types )
	{
	return GetTokens( start, stop, new BitSet( types ) );
	}

	public virtual IList<IToken> GetTokens( int start, int stop, int ttype )
	{
	return GetTokens( start, stop, BitSet.Of( ttype ) );
	}

	/** <summary>
	* Get the ith token from the current position 1..n where k=1 is the
	* first symbol of lookahead.
	* </summary>
	*/
	public virtual IToken LT( int k )
	{
	if ( p == -1 )
	{
	FillBuffer();
	}
	if ( k == 0 )
	{
	return null;
	}
	if ( k < 0 )
	{
	return LB( -k );
	}
	//System.out.print("LT(p="+p+","+k+")=");
	if ( ( p + k - 1 ) >= tokens.Count )
	{
	return tokens[tokens.Count - 1];
	}
	//System.out.println(tokens.get(p+k-1));
	int i = p;
	int n = 1;
	// find k good tokens
	while ( n < k )
	{
	// skip off-channel tokens
	i = SkipOffTokenChannels( i + 1 ); // leave p on valid token
	n++;
	}
	if ( i >= tokens.Count )
	{
	return tokens[tokens.Count - 1];
	}

	if (i > Range)
	Range = i;

	return (IToken)tokens[i];
	}

	/** <summary>Look backwards k tokens on-channel tokens</summary> */
	protected virtual IToken LB( int k )
	{
	//System.out.print("LB(p="+p+","+k+") ");
	if ( p == -1 )
	{
	FillBuffer();
	}
	if ( k == 0 )
	{
	return null;
	}
	if ( ( p - k ) < 0 )
	{
	return null;
	}

	int i = p;
	int n = 1;
	// find k good tokens looking backwards
	while ( n <= k )
	{
	// skip off-channel tokens
	i = SkipOffTokenChannelsReverse( i - 1 ); // leave p on valid token
	n++;
	}
	if ( i < 0 )
	{
	return null;
	}
	return (IToken)tokens[i];
	}

	/** <summary>
	* Return absolute token i; ignore which channel the tokens are on;
	* that is, count all tokens not just on-channel tokens.
	* </summary>
	*/
	public virtual IToken Get( int i )
	{
	return (IToken)tokens[i];
	}

	#if false
	/** Get all tokens from start..stop inclusively */
	public virtual List<IToken> Get(int start, int count)
	{
	if (start < 0)
	throw new ArgumentOutOfRangeException("start");
	if (count < 0)
	throw new ArgumentOutOfRangeException("count");

	if (p == -1)
	FillBuffer();

	return new List<IToken>(tokens.Skip(start).Take(count));
	}
	#endif

	public virtual int LA( int i )
	{
	return LT( i ).Type;
	}

	public virtual int Mark()
	{
	if ( p == -1 )
	{
	FillBuffer();
	}
	lastMarker = Index;
	return lastMarker;
	}

	public virtual void Release( int marker )
	{
	// no resources to release
	}

	public virtual int Count
	{
	get
	{
	return tokens.Count;
	}
	}

	public virtual void Rewind( int marker )
	{
	Seek( marker );
	}

	public virtual void Rewind()
	{
	Seek( lastMarker );
	}

	public virtual void Reset()
	{
	p = 0;
	lastMarker = 0;
	}

	public virtual void Seek( int index )
	{
	p = index;
	}

	public virtual ITokenSource TokenSource
	{
	get
	{
	return _tokenSource;
	}
	}

	public virtual string SourceName
	{
	get
	{
	return TokenSource.SourceName;
	}
	}

	public override string ToString()
	{
	if ( p == -1 )
	{
	throw new InvalidOperationException( "Buffer is not yet filled." );
	}
	return ToString( 0, tokens.Count - 1 );
	}

	public virtual string ToString( int start, int stop )
	{
	if ( start < 0 \|\| stop < 0 )
	{
	return null;
	}
	if ( p == -1 )
	{
	throw new InvalidOperationException( "Buffer is not yet filled." );
	}
	if ( stop >= tokens.Count )
	{
	stop = tokens.Count - 1;
	}
	StringBuilder buf = new StringBuilder();
	for ( int i = start; i <= stop; i++ )
	{
	IToken t = tokens[i];
	buf.Append( t.Text );
	}
	return buf.ToString();
	}

	public virtual string ToString( IToken start, IToken stop )
	{
	if ( start != null && stop != null )
	{
	return ToString( start.TokenIndex, stop.TokenIndex );
	}
	return null;
	}
	}
	}