lzma/CS/7zip/Compress/LzmaAlone/LzmaAlone.cs - nest-cam/4320010/lzma - Git at Google

 using System;
 using System.IO;
 namespace SevenZip
 {
 	using CommandLineParser;

 	public class CDoubleStream: Stream
 	{
 		public System.IO.Stream s1;
 		public System.IO.Stream s2;
 		public int fileIndex;
 		public long skipSize;

 		public override bool CanRead { get { return true; }}
 		public override bool CanWrite { get { return false; }}
 		public override bool CanSeek { get { return false; }}
 		public override long Length { get { return s1.Length + s2.Length - skipSize; } }
 		public override long Position
 		{
 			get { return 0;	}
 			set { }
 		}
 		public override void Flush() { }
 		public override int Read(byte[] buffer, int offset, int count)
 		{
 			int numTotal = 0;
 			while (count > 0)
 			{
 				if (fileIndex == 0)
 				{
 					int num = s1.Read(buffer, offset, count);
 					offset += num;
 					count -= num;
 					numTotal += num;
 					if (num == 0)
 						fileIndex++;
 				}
 				if (fileIndex == 1)
 				{
 					numTotal += s2.Read(buffer, offset, count);
 					return numTotal;
 				}
 			}
 			return numTotal;
 		}
 		public override void Write(byte[] buffer, int offset, int count)
 		{
 			throw (new Exception("can't Write"));
 		}
 		public override long Seek(long offset, System.IO.SeekOrigin origin)
 		{
 			throw (new Exception("can't Seek"));
 		}
 		public override void SetLength(long value)
 		{
 			throw (new Exception("can't SetLength"));
 		}
 	}

 	class LzmaAlone
 	{
 		enum Key
 		{
 			Help1 = 0,
 			Help2,
 			Mode,
 			Dictionary,
 			FastBytes,
 			LitContext,
 			LitPos,
 			PosBits,
 			MatchFinder,
 			EOS,
 			StdIn,
 			StdOut,
 			Train
 		};

 		static void PrintHelp()
 		{
 			System.Console.WriteLine("\nUsage:  LZMA <e|d> [<switches>...] inputFile outputFile\n" +
 				"  e: encode file\n" +
 				"  d: decode file\n" +
 				"  b: Benchmark\n" +
 				"<Switches>\n" +
 				// "  -a{N}:  set compression mode - [0, 1], default: 1 (max)\n" +
 				"  -d{N}:  set dictionary - [0, 29], default: 23 (8MB)\n" +
 				"  -fb{N}: set number of fast bytes - [5, 273], default: 128\n" +
 				"  -lc{N}: set number of literal context bits - [0, 8], default: 3\n" +
 				"  -lp{N}: set number of literal pos bits - [0, 4], default: 0\n" +
 				"  -pb{N}: set number of pos bits - [0, 4], default: 2\n" +
 				"  -mf{MF_ID}: set Match Finder: [bt2, bt4], default: bt4\n" +
 				"  -eos:   write End Of Stream marker\n"
 				// + "  -si:    read data from stdin\n"
 				// + "  -so:    write data to stdout\n"
 				);
 		}

 		static bool GetNumber(string s, out Int32 v)
 		{
 			v = 0;
 			for (int i = 0; i < s.Length; i++)
 			{
 				char c = s[i];
 				if (c < '0' || c > '9')
 					return false;
 				v *= 10;
 				v += (Int32)(c - '0');
 			}
 			return true;
 		}

 		static int IncorrectCommand()
 		{
 			throw (new Exception("Command line error"));
 			// System.Console.WriteLine("\nCommand line error\n");
 			// return 1;
 		}
 		static int Main2(string[] args)
 		{
 			System.Console.WriteLine("\nLZMA# 4.61  2008-11-23\n");

 			if (args.Length == 0)
 			{
 				PrintHelp();
 				return 0;
 			}

 			SwitchForm[] kSwitchForms = new SwitchForm[13];
 			int sw = 0;
 			kSwitchForms[sw++] = new SwitchForm("?", SwitchType.Simple, false);
 			kSwitchForms[sw++] = new SwitchForm("H", SwitchType.Simple, false);
 			kSwitchForms[sw++] = new SwitchForm("A", SwitchType.UnLimitedPostString, false, 1);
 			kSwitchForms[sw++] = new SwitchForm("D", SwitchType.UnLimitedPostString, false, 1);
 			kSwitchForms[sw++] = new SwitchForm("FB", SwitchType.UnLimitedPostString, false, 1);
 			kSwitchForms[sw++] = new SwitchForm("LC", SwitchType.UnLimitedPostString, false, 1);
 			kSwitchForms[sw++] = new SwitchForm("LP", SwitchType.UnLimitedPostString, false, 1);
 			kSwitchForms[sw++] = new SwitchForm("PB", SwitchType.UnLimitedPostString, false, 1);
 			kSwitchForms[sw++] = new SwitchForm("MF", SwitchType.UnLimitedPostString, false, 1);
 			kSwitchForms[sw++] = new SwitchForm("EOS", SwitchType.Simple, false);
 			kSwitchForms[sw++] = new SwitchForm("SI", SwitchType.Simple, false);
 			kSwitchForms[sw++] = new SwitchForm("SO", SwitchType.Simple, false);
 			kSwitchForms[sw++] = new SwitchForm("T", SwitchType.UnLimitedPostString, false, 1);


 			Parser parser = new Parser(sw);
 			try
 			{
 				parser.ParseStrings(kSwitchForms, args);
 			}
 			catch
 			{
 				return IncorrectCommand();
 			}

 			if (parser[(int)Key.Help1].ThereIs || parser[(int)Key.Help2].ThereIs)
 			{
 				PrintHelp();
 				return 0;
 			}

 			System.Collections.ArrayList nonSwitchStrings = parser.NonSwitchStrings;

 			int paramIndex = 0;
 			if (paramIndex >= nonSwitchStrings.Count)
 				return IncorrectCommand();
 			string command = (string)nonSwitchStrings[paramIndex++];
 			command = command.ToLower();

 			bool dictionaryIsDefined = false;
 			Int32 dictionary = 1 << 21;
 			if (parser[(int)Key.Dictionary].ThereIs)
 			{
 				Int32 dicLog;
 				if (!GetNumber((string)parser[(int)Key.Dictionary].PostStrings[0], out dicLog))
 					IncorrectCommand();
 				dictionary = (Int32)1 << dicLog;
 				dictionaryIsDefined = true;
 			}
 			string mf = "bt4";
 			if (parser[(int)Key.MatchFinder].ThereIs)
 				mf = (string)parser[(int)Key.MatchFinder].PostStrings[0];
 			mf = mf.ToLower();

 			if (command == "b")
 			{
 				const Int32 kNumDefaultItereations = 10;
 				Int32 numIterations = kNumDefaultItereations;
 				if (paramIndex < nonSwitchStrings.Count)
 					if (!GetNumber((string)nonSwitchStrings[paramIndex++], out numIterations))
 						numIterations = kNumDefaultItereations;
 				return LzmaBench.LzmaBenchmark(numIterations, (UInt32)dictionary);
 			}

 			string train = "";
 			if (parser[(int)Key.Train].ThereIs)
 				train = (string)parser[(int)Key.Train].PostStrings[0];

 			bool encodeMode = false;
 			if (command == "e")
 				encodeMode = true;
 			else if (command == "d")
 				encodeMode = false;
 			else
 				IncorrectCommand();

 			bool stdInMode = parser[(int)Key.StdIn].ThereIs;
 			bool stdOutMode = parser[(int)Key.StdOut].ThereIs;

 			Stream inStream = null;
 			if (stdInMode)
 			{
 				throw (new Exception("Not implemeted"));
 			}
 			else
 			{
 				if (paramIndex >= nonSwitchStrings.Count)
 					IncorrectCommand();
 				string inputName = (string)nonSwitchStrings[paramIndex++];
 				inStream = new FileStream(inputName, FileMode.Open, FileAccess.Read);
 			}

 			FileStream outStream = null;
 			if (stdOutMode)
 			{
 				throw (new Exception("Not implemeted"));
 			}
 			else
 			{
 				if (paramIndex >= nonSwitchStrings.Count)
 					IncorrectCommand();
 				string outputName = (string)nonSwitchStrings[paramIndex++];
 				outStream = new FileStream(outputName, FileMode.Create, FileAccess.Write);
 			}

 			FileStream trainStream = null;
 			if (train.Length != 0)
 				trainStream = new FileStream(train, FileMode.Open, FileAccess.Read);

 			if (encodeMode)
 			{
 				if (!dictionaryIsDefined)
 					dictionary = 1 << 23;

 				Int32 posStateBits = 2;
 				Int32 litContextBits = 3; // for normal files
 				// UInt32 litContextBits = 0; // for 32-bit data
 				Int32 litPosBits = 0;
 				// UInt32 litPosBits = 2; // for 32-bit data
 				Int32 algorithm = 2;
 				Int32 numFastBytes = 128;

 				bool eos = parser[(int)Key.EOS].ThereIs || stdInMode;

 				if (parser[(int)Key.Mode].ThereIs)
 					if (!GetNumber((string)parser[(int)Key.Mode].PostStrings[0], out algorithm))
 						IncorrectCommand();

 				if (parser[(int)Key.FastBytes].ThereIs)
 					if (!GetNumber((string)parser[(int)Key.FastBytes].PostStrings[0], out numFastBytes))
 						IncorrectCommand();
 				if (parser[(int)Key.LitContext].ThereIs)
 					if (!GetNumber((string)parser[(int)Key.LitContext].PostStrings[0], out litContextBits))
 						IncorrectCommand();
 				if (parser[(int)Key.LitPos].ThereIs)
 					if (!GetNumber((string)parser[(int)Key.LitPos].PostStrings[0], out litPosBits))
 						IncorrectCommand();
 				if (parser[(int)Key.PosBits].ThereIs)
 					if (!GetNumber((string)parser[(int)Key.PosBits].PostStrings[0], out posStateBits))
 						IncorrectCommand();

 				CoderPropID[] propIDs =
 				{
 					CoderPropID.DictionarySize,
 					CoderPropID.PosStateBits,
 					CoderPropID.LitContextBits,
 					CoderPropID.LitPosBits,
 					CoderPropID.Algorithm,
 					CoderPropID.NumFastBytes,
 					CoderPropID.MatchFinder,
 					CoderPropID.EndMarker
 				};
 				object[] properties =
 				{
 					(Int32)(dictionary),
 					(Int32)(posStateBits),
 					(Int32)(litContextBits),
 					(Int32)(litPosBits),
 					(Int32)(algorithm),
 					(Int32)(numFastBytes),
 					mf,
 					eos
 				};

 				Compression.LZMA.Encoder encoder = new Compression.LZMA.Encoder();
 				encoder.SetCoderProperties(propIDs, properties);
 				encoder.WriteCoderProperties(outStream);
 				Int64 fileSize;
 				if (eos || stdInMode)
 					fileSize = -1;
 				else
 					fileSize = inStream.Length;
 				for (int i = 0; i < 8; i++)
 					outStream.WriteByte((Byte)(fileSize >> (8 * i)));
 				if (trainStream != null)
 				{
 					CDoubleStream doubleStream = new CDoubleStream();
 					doubleStream.s1 = trainStream;
 					doubleStream.s2 = inStream;
 					doubleStream.fileIndex = 0;
 					inStream = doubleStream;
 					long trainFileSize = trainStream.Length;
 					doubleStream.skipSize = 0;
 					if (trainFileSize > dictionary)
 						doubleStream.skipSize = trainFileSize - dictionary;
 					trainStream.Seek(doubleStream.skipSize, SeekOrigin.Begin);
 					encoder.SetTrainSize((uint)(trainFileSize - doubleStream.skipSize));
 				}
 				encoder.Code(inStream, outStream, -1, -1, null);
 			}
 			else if (command == "d")
 			{
 				byte[] properties = new byte[5];
 				if (inStream.Read(properties, 0, 5) != 5)
 					throw (new Exception("input .lzma is too short"));
 				Compression.LZMA.Decoder decoder = new Compression.LZMA.Decoder();
 				decoder.SetDecoderProperties(properties);
 				if (trainStream != null)
 				{
 					if (!decoder.Train(trainStream))
 						throw (new Exception("can't train"));
 				}
 				long outSize = 0;
 				for (int i = 0; i < 8; i++)
 				{
 					int v = inStream.ReadByte();
 					if (v < 0)
 						throw (new Exception("Can't Read 1"));
 					outSize |= ((long)(byte)v) << (8 * i);
 				}
 				long compressedSize = inStream.Length - inStream.Position;
 				decoder.Code(inStream, outStream, compressedSize, outSize, null);
 			}
 			else
 				throw (new Exception("Command Error"));
 			return 0;
 		}

 		[STAThread]
 		static int Main(string[] args)
 		{
 			try
 			{
 				return Main2(args);
 			}
 			catch (Exception e)
 			{
 				Console.WriteLine("{0} Caught exception #1.", e);
 				// throw e;
 				return 1;
 			}
 		}
 	}
 }
	using System;
	using System.IO;
	namespace SevenZip
	{
	using CommandLineParser;

	public class CDoubleStream: Stream
	{
	public System.IO.Stream s1;
	public System.IO.Stream s2;
	public int fileIndex;
	public long skipSize;

	public override bool CanRead { get { return true; }}
	public override bool CanWrite { get { return false; }}
	public override bool CanSeek { get { return false; }}
	public override long Length { get { return s1.Length + s2.Length - skipSize; } }
	public override long Position
	{
	get { return 0; }
	set { }
	}
	public override void Flush() { }
	public override int Read(byte[] buffer, int offset, int count)
	{
	int numTotal = 0;
	while (count > 0)
	{
	if (fileIndex == 0)
	{
	int num = s1.Read(buffer, offset, count);
	offset += num;
	count -= num;
	numTotal += num;
	if (num == 0)
	fileIndex++;
	}
	if (fileIndex == 1)
	{
	numTotal += s2.Read(buffer, offset, count);
	return numTotal;
	}
	}
	return numTotal;
	}
	public override void Write(byte[] buffer, int offset, int count)
	{
	throw (new Exception("can't Write"));
	}
	public override long Seek(long offset, System.IO.SeekOrigin origin)
	{
	throw (new Exception("can't Seek"));
	}
	public override void SetLength(long value)
	{
	throw (new Exception("can't SetLength"));
	}
	}

	class LzmaAlone
	{
	enum Key
	{
	Help1 = 0,
	Help2,
	Mode,
	Dictionary,
	FastBytes,
	LitContext,
	LitPos,
	PosBits,
	MatchFinder,
	EOS,
	StdIn,
	StdOut,
	Train
	};

	static void PrintHelp()
	{
	System.Console.WriteLine("\nUsage: LZMA <e\|d> [<switches>...] inputFile outputFile\n" +
	" e: encode file\n" +
	" d: decode file\n" +
	" b: Benchmark\n" +
	"<Switches>\n" +
	// " -a{N}: set compression mode - [0, 1], default: 1 (max)\n" +
	" -d{N}: set dictionary - [0, 29], default: 23 (8MB)\n" +
	" -fb{N}: set number of fast bytes - [5, 273], default: 128\n" +
	" -lc{N}: set number of literal context bits - [0, 8], default: 3\n" +
	" -lp{N}: set number of literal pos bits - [0, 4], default: 0\n" +
	" -pb{N}: set number of pos bits - [0, 4], default: 2\n" +
	" -mf{MF_ID}: set Match Finder: [bt2, bt4], default: bt4\n" +
	" -eos: write End Of Stream marker\n"
	// + " -si: read data from stdin\n"
	// + " -so: write data to stdout\n"
	);
	}

	static bool GetNumber(string s, out Int32 v)
	{
	v = 0;
	for (int i = 0; i < s.Length; i++)
	{
	char c = s[i];
	if (c < '0' \|\| c > '9')
	return false;
	v *= 10;
	v += (Int32)(c - '0');
	}
	return true;
	}

	static int IncorrectCommand()
	{
	throw (new Exception("Command line error"));
	// System.Console.WriteLine("\nCommand line error\n");
	// return 1;
	}
	static int Main2(string[] args)
	{
	System.Console.WriteLine("\nLZMA# 4.61 2008-11-23\n");

	if (args.Length == 0)
	{
	PrintHelp();
	return 0;
	}

	SwitchForm[] kSwitchForms = new SwitchForm[13];
	int sw = 0;
	kSwitchForms[sw++] = new SwitchForm("?", SwitchType.Simple, false);
	kSwitchForms[sw++] = new SwitchForm("H", SwitchType.Simple, false);
	kSwitchForms[sw++] = new SwitchForm("A", SwitchType.UnLimitedPostString, false, 1);
	kSwitchForms[sw++] = new SwitchForm("D", SwitchType.UnLimitedPostString, false, 1);
	kSwitchForms[sw++] = new SwitchForm("FB", SwitchType.UnLimitedPostString, false, 1);
	kSwitchForms[sw++] = new SwitchForm("LC", SwitchType.UnLimitedPostString, false, 1);
	kSwitchForms[sw++] = new SwitchForm("LP", SwitchType.UnLimitedPostString, false, 1);
	kSwitchForms[sw++] = new SwitchForm("PB", SwitchType.UnLimitedPostString, false, 1);
	kSwitchForms[sw++] = new SwitchForm("MF", SwitchType.UnLimitedPostString, false, 1);
	kSwitchForms[sw++] = new SwitchForm("EOS", SwitchType.Simple, false);
	kSwitchForms[sw++] = new SwitchForm("SI", SwitchType.Simple, false);
	kSwitchForms[sw++] = new SwitchForm("SO", SwitchType.Simple, false);
	kSwitchForms[sw++] = new SwitchForm("T", SwitchType.UnLimitedPostString, false, 1);


	Parser parser = new Parser(sw);
	try
	{
	parser.ParseStrings(kSwitchForms, args);
	}
	catch
	{
	return IncorrectCommand();
	}

	if (parser[(int)Key.Help1].ThereIs \|\| parser[(int)Key.Help2].ThereIs)
	{
	PrintHelp();
	return 0;
	}

	System.Collections.ArrayList nonSwitchStrings = parser.NonSwitchStrings;

	int paramIndex = 0;
	if (paramIndex >= nonSwitchStrings.Count)
	return IncorrectCommand();
	string command = (string)nonSwitchStrings[paramIndex++];
	command = command.ToLower();

	bool dictionaryIsDefined = false;
	Int32 dictionary = 1 << 21;
	if (parser[(int)Key.Dictionary].ThereIs)
	{
	Int32 dicLog;
	if (!GetNumber((string)parser[(int)Key.Dictionary].PostStrings[0], out dicLog))
	IncorrectCommand();
	dictionary = (Int32)1 << dicLog;
	dictionaryIsDefined = true;
	}
	string mf = "bt4";
	if (parser[(int)Key.MatchFinder].ThereIs)
	mf = (string)parser[(int)Key.MatchFinder].PostStrings[0];
	mf = mf.ToLower();

	if (command == "b")
	{
	const Int32 kNumDefaultItereations = 10;
	Int32 numIterations = kNumDefaultItereations;
	if (paramIndex < nonSwitchStrings.Count)
	if (!GetNumber((string)nonSwitchStrings[paramIndex++], out numIterations))
	numIterations = kNumDefaultItereations;
	return LzmaBench.LzmaBenchmark(numIterations, (UInt32)dictionary);
	}

	string train = "";
	if (parser[(int)Key.Train].ThereIs)
	train = (string)parser[(int)Key.Train].PostStrings[0];

	bool encodeMode = false;
	if (command == "e")
	encodeMode = true;
	else if (command == "d")
	encodeMode = false;
	else
	IncorrectCommand();

	bool stdInMode = parser[(int)Key.StdIn].ThereIs;
	bool stdOutMode = parser[(int)Key.StdOut].ThereIs;

	Stream inStream = null;
	if (stdInMode)
	{
	throw (new Exception("Not implemeted"));
	}
	else
	{
	if (paramIndex >= nonSwitchStrings.Count)
	IncorrectCommand();
	string inputName = (string)nonSwitchStrings[paramIndex++];
	inStream = new FileStream(inputName, FileMode.Open, FileAccess.Read);
	}

	FileStream outStream = null;
	if (stdOutMode)
	{
	throw (new Exception("Not implemeted"));
	}
	else
	{
	if (paramIndex >= nonSwitchStrings.Count)
	IncorrectCommand();
	string outputName = (string)nonSwitchStrings[paramIndex++];
	outStream = new FileStream(outputName, FileMode.Create, FileAccess.Write);
	}

	FileStream trainStream = null;
	if (train.Length != 0)
	trainStream = new FileStream(train, FileMode.Open, FileAccess.Read);

	if (encodeMode)
	{
	if (!dictionaryIsDefined)
	dictionary = 1 << 23;

	Int32 posStateBits = 2;
	Int32 litContextBits = 3; // for normal files
	// UInt32 litContextBits = 0; // for 32-bit data
	Int32 litPosBits = 0;
	// UInt32 litPosBits = 2; // for 32-bit data
	Int32 algorithm = 2;
	Int32 numFastBytes = 128;

	bool eos = parser[(int)Key.EOS].ThereIs \|\| stdInMode;

	if (parser[(int)Key.Mode].ThereIs)
	if (!GetNumber((string)parser[(int)Key.Mode].PostStrings[0], out algorithm))
	IncorrectCommand();

	if (parser[(int)Key.FastBytes].ThereIs)
	if (!GetNumber((string)parser[(int)Key.FastBytes].PostStrings[0], out numFastBytes))
	IncorrectCommand();
	if (parser[(int)Key.LitContext].ThereIs)
	if (!GetNumber((string)parser[(int)Key.LitContext].PostStrings[0], out litContextBits))
	IncorrectCommand();
	if (parser[(int)Key.LitPos].ThereIs)
	if (!GetNumber((string)parser[(int)Key.LitPos].PostStrings[0], out litPosBits))
	IncorrectCommand();
	if (parser[(int)Key.PosBits].ThereIs)
	if (!GetNumber((string)parser[(int)Key.PosBits].PostStrings[0], out posStateBits))
	IncorrectCommand();

	CoderPropID[] propIDs =
	{
	CoderPropID.DictionarySize,
	CoderPropID.PosStateBits,
	CoderPropID.LitContextBits,
	CoderPropID.LitPosBits,
	CoderPropID.Algorithm,
	CoderPropID.NumFastBytes,
	CoderPropID.MatchFinder,
	CoderPropID.EndMarker
	};
	object[] properties =
	{
	(Int32)(dictionary),
	(Int32)(posStateBits),
	(Int32)(litContextBits),
	(Int32)(litPosBits),
	(Int32)(algorithm),
	(Int32)(numFastBytes),
	mf,
	eos
	};

	Compression.LZMA.Encoder encoder = new Compression.LZMA.Encoder();
	encoder.SetCoderProperties(propIDs, properties);
	encoder.WriteCoderProperties(outStream);
	Int64 fileSize;
	if (eos \|\| stdInMode)
	fileSize = -1;
	else
	fileSize = inStream.Length;
	for (int i = 0; i < 8; i++)
	outStream.WriteByte((Byte)(fileSize >> (8 * i)));
	if (trainStream != null)
	{
	CDoubleStream doubleStream = new CDoubleStream();
	doubleStream.s1 = trainStream;
	doubleStream.s2 = inStream;
	doubleStream.fileIndex = 0;
	inStream = doubleStream;
	long trainFileSize = trainStream.Length;
	doubleStream.skipSize = 0;
	if (trainFileSize > dictionary)
	doubleStream.skipSize = trainFileSize - dictionary;
	trainStream.Seek(doubleStream.skipSize, SeekOrigin.Begin);
	encoder.SetTrainSize((uint)(trainFileSize - doubleStream.skipSize));
	}
	encoder.Code(inStream, outStream, -1, -1, null);
	}
	else if (command == "d")
	{
	byte[] properties = new byte[5];
	if (inStream.Read(properties, 0, 5) != 5)
	throw (new Exception("input .lzma is too short"));
	Compression.LZMA.Decoder decoder = new Compression.LZMA.Decoder();
	decoder.SetDecoderProperties(properties);
	if (trainStream != null)
	{
	if (!decoder.Train(trainStream))
	throw (new Exception("can't train"));
	}
	long outSize = 0;
	for (int i = 0; i < 8; i++)
	{
	int v = inStream.ReadByte();
	if (v < 0)
	throw (new Exception("Can't Read 1"));
	outSize \|= ((long)(byte)v) << (8 * i);
	}
	long compressedSize = inStream.Length - inStream.Position;
	decoder.Code(inStream, outStream, compressedSize, outSize, null);
	}
	else
	throw (new Exception("Command Error"));
	return 0;
	}

	[STAThread]
	static int Main(string[] args)
	{
	try
	{
	return Main2(args);
	}
	catch (Exception e)
	{
	Console.WriteLine("{0} Caught exception #1.", e);
	// throw e;
	return 1;
	}
	}
	}
	}