示例#1
0
 /// <summary>  
 /// Converts a Well-known Text representation to a <c>Geometry</c>.
 /// </summary>
 /// <param name="reader"> 
 /// A Reader which will return a "Geometry Tagged Text"
 /// string (see the OpenGIS Simple Features Specification).
 /// </param>
 /// <returns>A <c>Geometry</c> read from <c>reader</c>.
 /// </returns>
 public IGeometry Read(TextReader reader) 
 {
     StreamTokenizer tokenizer = new StreamTokenizer(reader);
     ArrayList tokens = new ArrayList();
     tokenizer.Tokenize(tokens);     // Read directly all tokens
     index = 0;                      // Reset pointer to start of tokens
     try
     {
         return ReadGeometryTaggedText(tokens);
     }
     catch (IOException e)
     {
         throw new ParseException(e.ToString());
     }            
 }
示例#2
0
 internal IList<Token> Tokenize(TextReader reader)
 {
     var tokenizer = new StreamTokenizer(reader);
     IList<Token> tokens = new List<Token>();
     tokenizer.Tokenize(tokens);     // Read directly all tokens
     return tokens;
 }
示例#3
0
		/// <summary>
		/// Simple test of some ParseUtil methods.
		/// </summary>
		/// <returns>bool - true for all passed, false otherwise</returns>
		public static bool TestSelf()
		{
			Logger log = new Logger("ParseUtil: TestSelf");
			log.Info("Starting...");

			StreamTokenizer tokenizer = new StreamTokenizer();
			tokenizer.Verbosity = VerbosityLevel.Warn;

			// FindMatch
			ArrayList alist = new ArrayList();
			tokenizer.TokenizeString("{ [ ] '}' }", alist);
			foreach(Token t in alist) log.Debug("Token = {0}", t);

			Token[] tarray = (Token[])alist.ToArray(typeof(Token));
			int i = 0;
			if (!FindMatch(tarray, ref i, '{'))
			{
				log.Error("FindMatch failed to match { char");
				return(false);
			}

			if (i != 4)
			{
				log.Error("FindMatch got the wrong answer {0}", i);
				return(false);
			}
			else log.Info("FindMatch worked.");

			//
			// try BuildArray
			//
			ArrayList tokens = new ArrayList();
			tokenizer.TokenizeString("1 2 3 4 5", tokens);
			foreach(Token t in tokens) log.Debug("Token = {0}", t);

			i = 0;
			Int16[] shorts = (short[])BuildArray(tokens, ref i, typeof(Int16), null,
				-1, log);
		
			if (shorts == null) 
			{
				log.Error("Unable to BuildArray of shorts.");
				return(false);
			}

			log.Info("Parsed shorts:");
			foreach(Int16 s in shorts)
			{
				log.Write("{0}, ", s);
			}
			log.WriteLine(String.Empty);

			//
			// try BuildArray of floats, char terminated
			//
			tokens.Clear();
			tokenizer.TokenizeString("1 2 ; 3 4", tokens);
			foreach(Token t in tokens) log.Debug("Token = {0}", t);

			i = 0;
			Single[] floats = (float[])BuildArray(tokens, ref i, typeof(Single), 
				new CharToken(';'), -1, log);
		
			if (floats == null) 
			{
				log.Error("Unable to BuildArray of floats.");
				return(false);
			}

			log.Info("Parsed floats:");
			foreach(float f in floats)
			{
				log.Write("{0}, ", f);
			}
			log.WriteLine(String.Empty);

			if (i != 2)
			{
				log.Error("BuildArray left i = {0} which is incorrect");
				return(false);
			}

			//
			// try BuildArray on high-precision floats
			//
			tokens.Clear();
			float f1 = 1.23456f;
			float f2 = 2.34567f;
			tokenizer.TokenizeString(String.Format("{0:f6} {1:f6}", f1,f2), tokens);
			foreach(Token t in tokens) log.Debug("Token = {0}", t);

			i = 0;
			floats = (float[])BuildArray(tokens, ref i, typeof(Single), 
				null, -1, log);
		
			if (floats == null) 
			{
				log.Error("Unable to BuildArray of floats.");
				return(false);
			}

			log.Info("Parsed floats:");
			foreach(float f in floats)
			{
				log.Write("{0}, ", f);
			}
			log.WriteLine(String.Empty);

			if (floats[0] != f1)
			{
				log.Error("BuildArray produced float {0:f6} instead of {1:f6}",
					floats[0], f1);
				return(false);
			}

			//
			// try BuildArray of chars, maxLength terminated
			//
			log.Info("Chars, terminated by maxLength");
			tokens.Clear();
			tokenizer.TokenizeString("12 2 ; 3 4", tokens);
			foreach(Token t in tokens) log.Debug("Token = {0}", t);

			i = 0;
			char[] chars = (char[])BuildArray(tokens, ref i, typeof(Char), 
				null, 3, log);
		
			if (chars == null) 
			{
				log.Error("Unable to BuildArray of chars.");
				return(false);
			}

			log.Info("Parsed chars:");
			foreach(char f in chars)
			{
				log.Write("{0}, ", f);
			}
			log.WriteLine(String.Empty);

			if (i != 4)
			{
				log.Error("BuildArray left i = {0} which is incorrect", i);
				return(false);
			}

			//
			// try BuildArray of hex numbers
			//
			log.Info("Hex numbers");
			tokens.Clear();
			tokenizer.Settings.ParseHexNumbers = true;
			tokenizer.TokenizeString("0xfff, 0xffe", tokens);
			foreach(Token t in tokens) log.Debug("Token = {0}", t);

			i = 0;
			ushort[] ushorts = (ushort[])BuildArray(tokens, ref i, typeof(ushort), 
				null, 3, log);
		
			if (ushorts == null) 
			{
				log.Error("Unable to BuildArray of ushorts.");
				return(false);
			}

			log.Info("Parsed ushorts:");
			foreach(ushort us in ushorts)
			{
				log.Write("{0}, ", us);
			}
			log.WriteLine(String.Empty);

//			if (i != 4)
//			{
//				log.Error("BuildArray left i = {0} which is incorrect", i);
//				return(false);
//			}

			log.Info("All PASSED");
			return(true);
		}
示例#4
0
 /// <summary>  
 /// Converts a Well-known Text representation to a <c>Geometry</c>.
 /// </summary>
 /// <param name="reader"> 
 /// A Reader which will return a "Geometry Tagged Text"
 /// string (see the OpenGIS Simple Features Specification).
 /// </param>
 /// <returns>A <c>Geometry</c> read from <c>reader</c>.
 /// </returns>
 public IGeometry Read(TextReader reader)
 {
     /*
     var tokens = Tokenize(reader);
     StreamTokenizer tokenizer = new StreamTokenizer(reader);
     IList<Token> tokens = new List<Token>();
     tokenizer.Tokenize(tokens);     // Read directly all tokens
      */
     //_index = 0;                      // Reset pointer to start of tokens
     try
     {
         var enumerator = new StreamTokenizer(reader).GetEnumerator();
         enumerator.MoveNext();
         return ReadGeometryTaggedText(enumerator);
     }
     catch (IOException e)
     {
         throw new GeoAPI.IO.ParseException(e.ToString());
     }
 }
        /// <summary>
        /// Tests if reader is at EOF.
        /// </summary>
        private static bool IsAtEndOfFile(StreamReader bufferedReader)
        {
            var position = bufferedReader.BaseStream.Position;

            var tokenizer = new StreamTokenizer(bufferedReader);
            Token t;
            if (!tokenizer.NextToken(out t) || t is EofToken)
                return true;

            bufferedReader.BaseStream.Seek(position, SeekOrigin.Begin);
            return false;
        }