예제 #1
0
		public static void  Encode(System.String content, ErrorCorrectionLevel ecLevel, System.Collections.Hashtable hints, QRCode qrCode)
		{
			
			System.String encoding = hints == null?null:(System.String) hints[EncodeHintType.CHARACTER_SET];
			if (encoding == null)
			{
				encoding = DEFAULT_BYTE_MODE_ENCODING;
			}
			
			// Step 1: Choose the mode (encoding).
			Mode mode = ChooseMode(content, encoding);
			
			// Step 2: Append "bytes" into "dataBits" in appropriate encoding.
			BitVector dataBits = new BitVector();
			appendBytes(content, mode, dataBits, encoding);
			// Step 3: Initialize QR code that can contain "dataBits".
			int numInputBytes = dataBits.sizeInBytes();
			InitQrCode(numInputBytes, ecLevel, mode, qrCode);
			
			// Step 4: Build another bit vector that contains header and data.
			BitVector headerAndDataBits = new BitVector();
			
			// Step 4.5: Append ECI message if applicable
			if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.Equals(encoding))
			{
				CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
				if (eci != null)
				{
					AppendECI(eci, headerAndDataBits);
				}
			}
			
			appendModeInfo(mode, headerAndDataBits);
			
			int numLetters = mode.Equals(Mode.BYTE)?dataBits.sizeInBytes():content.Length;
			appendLengthInfo(numLetters, qrCode.Version, mode, headerAndDataBits);
			headerAndDataBits.appendBitVector(dataBits);
			
			// Step 5: Terminate the bits properly.
			TerminateBits(qrCode.NumDataBytes, headerAndDataBits);
			
			// Step 6: Interleave data bits with error correction code.
			BitVector finalBits = new BitVector();
			InterleaveWithEcBytes(headerAndDataBits, qrCode.NumTotalBytes, qrCode.NumDataBytes, qrCode.NumRSBlocks, finalBits);
			
			// Step 7: Choose the mask pattern and set to "qrCode".
			ByteMatrix matrix = new ByteMatrix(qrCode.MatrixWidth, qrCode.MatrixWidth);
			qrCode.MaskPattern = ChooseMaskPattern(finalBits, qrCode.ECLevel, qrCode.Version, matrix);
			
			// Step 8.  Build the matrix and set it to "qrCode".
			MatrixUtil.buildMatrix(finalBits, qrCode.ECLevel, qrCode.Version, qrCode.MaskPattern, matrix);
			qrCode.Matrix = matrix;
			// Step 9.  Make sure we have a valid QR Code.
			if (!qrCode.Valid)
			{
				throw new WriterException(string.Format("Invalid QR code: {0}", qrCode));
			}
		}
예제 #2
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		// Build 2D matrix of QR Code from "dataBits" with "ecLevel", "version" and "getMaskPattern". On
		// success, store the result in "matrix" and return true.
		public static void  buildMatrix(BitVector dataBits, ErrorCorrectionLevel ecLevel, int version, int maskPattern, ByteMatrix matrix)
		{
			clearMatrix(matrix);
			embedBasicPatterns(version, matrix);
			// Type information appear with any version.
			embedTypeInfo(ecLevel, maskPattern, matrix);
			// Version info appear if version >= 7.
			maybeEmbedVersionInfo(version, matrix);
			// Data should be embedded at end.
			EmbedDataBits(dataBits, maskPattern, matrix);
		}
예제 #3
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		/// <summary> Terminate bits as described in 8.4.8 and 8.4.9 of JISX0510:2004 (p.24).</summary>
		internal static void  TerminateBits(int numDataBytes, BitVector bits)
		{
			int capacity = numDataBytes << 3;
			if (bits.size() > capacity)
			{
				throw new WriterException("data bits cannot fit in the QR Code" + bits.size() + " > " + capacity);
			}
			// Append termination bits. See 8.4.8 of JISX0510:2004 (p.24) for details.
			// TODO: srowen says we can remove this for loop, since the 4 terminator bits are optional if
			// the last byte has less than 4 bits left. So it amounts to padding the last byte with zeroes
			// either way.
			for (int i = 0; i < 4 && bits.size() < capacity; ++i)
			{
				bits.appendBit(0);
			}
			int numBitsInLastByte = bits.size() % 8;
			// If the last byte isn't 8-bit aligned, we'll add padding bits.
			if (numBitsInLastByte > 0)
			{
				int numPaddingBits = 8 - numBitsInLastByte;
				for (int i = 0; i < numPaddingBits; ++i)
				{
					bits.appendBit(0);
				}
			}
			// Should be 8-bit aligned here.
			if (bits.size() % 8 != 0)
			{
				throw new WriterException("Number of bits is not a multiple of 8");
			}
			// If we have more space, we'll fill the space with padding patterns defined in 8.4.9 (p.24).
			int numPaddingBytes = numDataBytes - bits.sizeInBytes();
			for (int i = 0; i < numPaddingBytes; ++i)
			{
				if (i % 2 == 0)
				{
					bits.appendBits(0xec, 8);
				}
				else
				{
					bits.appendBits(0x11, 8);
				}
			}
			if (bits.size() != capacity)
			{
				throw new WriterException("Bits size does not equal capacity");
			}
		}
예제 #4
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		private static int ChooseMaskPattern(BitVector bits, ErrorCorrectionLevel ecLevel, int version, ByteMatrix matrix)
		{
			
			int minPenalty = System.Int32.MaxValue; // Lower penalty is better.
			int bestMaskPattern = - 1;
			// We try all mask patterns to choose the best one.
			for (int maskPattern = 0; maskPattern < QRCode.NUM_MASK_PATTERNS; maskPattern++)
			{
				MatrixUtil.buildMatrix(bits, ecLevel, version, maskPattern, matrix);
				int penalty = CalculateMaskPenalty(matrix);
				if (penalty < minPenalty)
				{
					minPenalty = penalty;
					bestMaskPattern = maskPattern;
				}
			}
			return bestMaskPattern;
		}
예제 #5
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		// Embed "dataBits" using "getMaskPattern". On success, modify the matrix and return true.
		// For debugging purposes, it skips masking process if "getMaskPattern" is -1.
		// See 8.7 of JISX0510:2004 (p.38) for how to embed data bits.
		public static void  EmbedDataBits(BitVector dataBits, int maskPattern, ByteMatrix matrix)
		{
			int bitIndex = 0;
			int direction = - 1;
			// Start from the right bottom cell.
			int x = matrix.Width - 1;
			int y = matrix.Height - 1;
			while (x > 0)
			{
				// Skip the vertical timing pattern.
				if (x == 6)
				{
					x -= 1;
				}
				while (y >= 0 && y < matrix.Height)
				{
					for (int i = 0; i < 2; ++i)
					{
						int xx = x - i;
						// Skip the cell if it's not empty.
						if (!IsEmpty(matrix.GetRenamed(xx, y)))
						{
							continue;
						}
						int bit;
						if (bitIndex < dataBits.size())
						{
							bit = dataBits.at(bitIndex);
							++bitIndex;
						}
						else
						{
							// Padding bit. If there is no bit left, we'll fill the left cells with 0, as described
							// in 8.4.9 of JISX0510:2004 (p. 24).
							bit = 0;
						}
						
						// Skip masking if mask_pattern is -1.
						if (maskPattern != - 1)
						{
							if (MaskUtil.getDataMaskBit(maskPattern, xx, y))
							{
								bit ^= 0x1;
							}
						}
						matrix.SetRenamed(xx, y, bit);
					}
					y += direction;
				}
				direction = - direction; // Reverse the direction.
				y += direction;
				x -= 2; // Move to the left.
			}
			// All bits should be consumed.
			if (bitIndex != dataBits.size())
			{
				throw new WriterException("Not all bits consumed: " + bitIndex + '/' + dataBits.size());
			}
		}
예제 #6
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		private static void  AppendECI(CharacterSetECI eci, BitVector bits)
		{
			bits.appendBits(Mode.ECI.Bits, 4);
			// This is correct for values up to 127, which is all we need now.
			bits.appendBits(eci.Value, 8);
		}
예제 #7
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		internal static void  Append8BitBytes(System.String content, BitVector bits, System.String encoding)
		{
			sbyte[] bytes;
			try
			{
				//UPGRADE_TODO: Method 'java.lang.String.getBytes' was converted to 'System.Text.Encoding.GetEncoding(string).GetBytes(string)' which has a different behavior. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1073_javalangStringgetBytes_javalangString'"
				bytes = SupportClass.ToSByteArray(System.Text.Encoding.GetEncoding(encoding).GetBytes(content));
			}
			catch (System.IO.IOException uee)
			{
				//UPGRADE_TODO: The equivalent in .NET for method 'java.lang.Throwable.toString' may return a different value. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1043'"
				throw new WriterException(uee.ToString());
			}
			for (int i = 0; i < bytes.Length; ++i)
			{
				bits.appendBits(bytes[i], 8);
			}
		}
예제 #8
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		internal static void  appendNumericBytes(System.String content, BitVector bits)
		{
			int length = content.Length;
			int i = 0;
			while (i < length)
			{
				int num1 = content[i] - '0';
				if (i + 2 < length)
				{
					// Encode three numeric letters in ten bits.
					int num2 = content[i + 1] - '0';
					int num3 = content[i + 2] - '0';
					bits.appendBits(num1 * 100 + num2 * 10 + num3, 10);
					i += 3;
				}
				else if (i + 1 < length)
				{
					// Encode two numeric letters in seven bits.
					int num2 = content[i + 1] - '0';
					bits.appendBits(num1 * 10 + num2, 7);
					i += 2;
				}
				else
				{
					// Encode one numeric letter in four bits.
					bits.appendBits(num1, 4);
					i++;
				}
			}
		}
예제 #9
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		/// <summary> Append length info. On success, store the result in "bits".</summary>
		internal static void  appendLengthInfo(int numLetters, int version, Mode mode, BitVector bits)
		{
			int numBits = mode.getCharacterCountBits(Version.getVersionForNumber(version));
			if (numLetters > ((1 << numBits) - 1))
			{
				throw new WriterException(numLetters + "is bigger than" + ((1 << numBits) - 1));
			}
			bits.appendBits(numLetters, numBits);
		}
예제 #10
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        /// <summary> Append length info. On success, store the result in "bits".</summary>
        internal static void  appendLengthInfo(int numLetters, int version, Mode mode, BitVector bits)
        {
            int numBits = mode.getCharacterCountBits(Version.getVersionForNumber(version));

            if (numLetters > ((1 << numBits) - 1))
            {
                throw new WriterException(numLetters + "is bigger than" + ((1 << numBits) - 1));
            }
            bits.appendBits(numLetters, numBits);
        }
예제 #11
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 /// <summary> Append mode info. On success, store the result in "bits".</summary>
 internal static void  appendModeInfo(Mode mode, BitVector bits)
 {
     bits.appendBits(mode.Bits, 4);
 }
예제 #12
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        /// <summary> Interleave "bits" with corresponding error correction bytes. On success, store the result in
        /// "result". The interleave rule is complicated. See 8.6 of JISX0510:2004 (p.37) for details.
        /// </summary>
        internal static void  InterleaveWithEcBytes(BitVector bits, int numTotalBytes, int numDataBytes, int numRSBlocks, BitVector result)
        {
            // "bits" must have "getNumDataBytes" bytes of data.
            if (bits.sizeInBytes() != numDataBytes)
            {
                throw new WriterException("Number of bits and data bytes does not match");
            }

            // Step 1.  Divide data bytes into blocks and generate error correction bytes for them. We'll
            // store the divided data bytes blocks and error correction bytes blocks into "blocks".
            int dataBytesOffset = 0;
            int maxNumDataBytes = 0;
            int maxNumEcBytes   = 0;

            // Since, we know the number of reedsolmon blocks, we can initialize the vector with the number.
            System.Collections.ArrayList blocks = System.Collections.ArrayList.Synchronized(new System.Collections.ArrayList(numRSBlocks));

            for (int i = 0; i < numRSBlocks; ++i)
            {
                int[] numDataBytesInBlock = new int[1];
                int[] numEcBytesInBlock   = new int[1];
                GetNumDataBytesAndNumEcBytesForBlockId(numTotalBytes, numDataBytes, numRSBlocks, i, numDataBytesInBlock, numEcBytesInBlock);

                ByteArray dataBytes = new ByteArray();
                dataBytes.set_Renamed(bits.Array, dataBytesOffset, numDataBytesInBlock[0]);
                ByteArray ecBytes = generateECBytes(dataBytes, numEcBytesInBlock[0]);
                blocks.Add(new BlockPair(dataBytes, ecBytes));

                maxNumDataBytes  = System.Math.Max(maxNumDataBytes, dataBytes.size());
                maxNumEcBytes    = System.Math.Max(maxNumEcBytes, ecBytes.size());
                dataBytesOffset += numDataBytesInBlock[0];
            }
            if (numDataBytes != dataBytesOffset)
            {
                throw new WriterException("Data bytes does not match offset");
            }

            // First, place data blocks.
            for (int i = 0; i < maxNumDataBytes; ++i)
            {
                foreach (object t in blocks)
                {
                    ByteArray dataBytes = ((BlockPair)t).DataBytes;
                    if (i < dataBytes.size())
                    {
                        result.appendBits(dataBytes.at(i), 8);
                    }
                }
            }
            // Then, place error correction blocks.
            for (int i = 0; i < maxNumEcBytes; ++i)
            {
                foreach (object t in blocks)
                {
                    ByteArray ecBytes = ((BlockPair)t).ErrorCorrectionBytes;
                    if (i < ecBytes.size())
                    {
                        result.appendBits(ecBytes.at(i), 8);
                    }
                }
            }
            if (numTotalBytes != result.sizeInBytes())
            {
                // Should be same.
                throw new WriterException("Interleaving error: " + numTotalBytes + " and " + result.sizeInBytes() + " differ.");
            }
        }
예제 #13
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		// Embed type information. On success, modify the matrix.
		public static void  embedTypeInfo(ErrorCorrectionLevel ecLevel, int maskPattern, ByteMatrix matrix)
		{
			BitVector typeInfoBits = new BitVector();
			MakeTypeInfoBits(ecLevel, maskPattern, typeInfoBits);
			
			for (int i = 0; i < typeInfoBits.size(); ++i)
			{
				// Place bits in LSB to MSB order.  LSB (least significant bit) is the last value in
				// "typeInfoBits".
				int bit = typeInfoBits.at(typeInfoBits.size() - 1 - i);
				
				// Type info bits at the left top corner. See 8.9 of JISX0510:2004 (p.46).
				int x1 = TYPE_INFO_COORDINATES[i][0];
				int y1 = TYPE_INFO_COORDINATES[i][1];
				matrix.SetRenamed(x1, y1, bit);
				
				if (i < 8)
				{
					// Right top corner.
					int x2 = matrix.Width - i - 1;
					int y2 = 8;
					matrix.SetRenamed(x2, y2, bit);
				}
				else
				{
					// Left bottom corner.
					int x2 = 8;
					int y2 = matrix.Height - 7 + (i - 8);
					matrix.SetRenamed(x2, y2, bit);
				}
			}
		}
예제 #14
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		// Make bit vector of version information. On success, store the result in "bits" and return true.
		// See 8.10 of JISX0510:2004 (p.45) for details.
		public static void  MakeVersionInfoBits(int version, BitVector bits)
		{
			bits.appendBits(version, 6);
			int bchCode = CalculateBchCode(version, VERSION_INFO_POLY);
			bits.appendBits(bchCode, 12);
			
			if (bits.size() != 18)
			{
				// Just in case.
				throw new WriterException("should not happen but we got: " + bits.size());
			}
		}
예제 #15
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		// Make bit vector of type information. On success, store the result in "bits" and return true.
		// Encode error correction level and mask pattern. See 8.9 of
		// JISX0510:2004 (p.45) for details.
		public static void  MakeTypeInfoBits(ErrorCorrectionLevel ecLevel, int maskPattern, BitVector bits)
		{
			if (!QRCode.IsValidMaskPattern(maskPattern))
			{
				throw new WriterException("Invalid mask pattern");
			}
			int typeInfo = (ecLevel.Bits << 3) | maskPattern;
			bits.appendBits(typeInfo, 5);
			
			int bchCode = CalculateBchCode(typeInfo, TYPE_INFO_POLY);
			bits.appendBits(bchCode, 10);
			
			BitVector maskBits = new BitVector();
			maskBits.appendBits(TYPE_INFO_MASK_PATTERN, 15);
			bits.xor(maskBits);
			
			if (bits.size() != 15)
			{
				// Just in case.
				throw new WriterException("should not happen but we got: " + bits.size());
			}
		}
예제 #16
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		/// <summary> Interleave "bits" with corresponding error correction bytes. On success, store the result in
		/// "result". The interleave rule is complicated. See 8.6 of JISX0510:2004 (p.37) for details.
		/// </summary>
		internal static void  InterleaveWithEcBytes(BitVector bits, int numTotalBytes, int numDataBytes, int numRSBlocks, BitVector result)
		{
			
			// "bits" must have "getNumDataBytes" bytes of data.
			if (bits.sizeInBytes() != numDataBytes)
			{
				throw new WriterException("Number of bits and data bytes does not match");
			}
			
			// Step 1.  Divide data bytes into blocks and generate error correction bytes for them. We'll
			// store the divided data bytes blocks and error correction bytes blocks into "blocks".
			int dataBytesOffset = 0;
			int maxNumDataBytes = 0;
			int maxNumEcBytes = 0;
			
			// Since, we know the number of reedsolmon blocks, we can initialize the vector with the number.
			System.Collections.ArrayList blocks = System.Collections.ArrayList.Synchronized(new System.Collections.ArrayList(numRSBlocks));
			
			for (int i = 0; i < numRSBlocks; ++i)
			{
				int[] numDataBytesInBlock = new int[1];
				int[] numEcBytesInBlock = new int[1];
				GetNumDataBytesAndNumEcBytesForBlockId(numTotalBytes, numDataBytes, numRSBlocks, i, numDataBytesInBlock, numEcBytesInBlock);
				
				ByteArray dataBytes = new ByteArray();
				dataBytes.set_Renamed(bits.Array, dataBytesOffset, numDataBytesInBlock[0]);
				ByteArray ecBytes = generateECBytes(dataBytes, numEcBytesInBlock[0]);
				blocks.Add(new BlockPair(dataBytes, ecBytes));
				
				maxNumDataBytes = System.Math.Max(maxNumDataBytes, dataBytes.size());
				maxNumEcBytes = System.Math.Max(maxNumEcBytes, ecBytes.size());
				dataBytesOffset += numDataBytesInBlock[0];
			}
			if (numDataBytes != dataBytesOffset)
			{
				throw new WriterException("Data bytes does not match offset");
			}
			
			// First, place data blocks.
			for (int i = 0; i < maxNumDataBytes; ++i)
			{
				foreach (object t in blocks)
				{
				    ByteArray dataBytes = ((BlockPair) t).DataBytes;
				    if (i < dataBytes.size())
				    {
				        result.appendBits(dataBytes.at(i), 8);
				    }
				}
			}
			// Then, place error correction blocks.
			for (int i = 0; i < maxNumEcBytes; ++i)
			{
				foreach (object t in blocks)
				{
				    ByteArray ecBytes = ((BlockPair) t).ErrorCorrectionBytes;
				    if (i < ecBytes.size())
				    {
				        result.appendBits(ecBytes.at(i), 8);
				    }
				}
			}
			if (numTotalBytes != result.sizeInBytes())
			{
				// Should be same.
				throw new WriterException("Interleaving error: " + numTotalBytes + " and " + result.sizeInBytes() + " differ.");
			}
		}
예제 #17
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		/// <summary> Append mode info. On success, store the result in "bits".</summary>
		internal static void  appendModeInfo(Mode mode, BitVector bits)
		{
			bits.appendBits(mode.Bits, 4);
		}
예제 #18
0
 private static void  AppendECI(CharacterSetECI eci, BitVector bits)
 {
     bits.appendBits(Mode.ECI.Bits, 4);
     // This is correct for values up to 127, which is all we need now.
     bits.appendBits(eci.Value, 8);
 }
예제 #19
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		/// <summary> Append "bytes" in "mode" mode (encoding) into "bits". On success, store the result in "bits".</summary>
		internal static void  appendBytes(System.String content, Mode mode, BitVector bits, System.String encoding)
		{
			if (mode.Equals(Mode.NUMERIC))
			{
				appendNumericBytes(content, bits);
			}
			else if (mode.Equals(Mode.ALPHANUMERIC))
			{
				AppendAlphanumericBytes(content, bits);
			}
			else if (mode.Equals(Mode.BYTE))
			{
				Append8BitBytes(content, bits, encoding);
			}
			else if (mode.Equals(Mode.KANJI))
			{
				AppendKanjiBytes(content, bits);
			}
			else
			{
				throw new WriterException("Invalid mode: " + mode);
			}
		}
예제 #20
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        public static void  Encode(System.String content, ErrorCorrectionLevel ecLevel, System.Collections.Hashtable hints, QRCode qrCode)
        {
            System.String encoding = hints == null?null:(System.String)hints[EncodeHintType.CHARACTER_SET];
            if (encoding == null)
            {
                encoding = DEFAULT_BYTE_MODE_ENCODING;
            }

            // Step 1: Choose the mode (encoding).
            Mode mode = ChooseMode(content, encoding);

            // Step 2: Append "bytes" into "dataBits" in appropriate encoding.
            BitVector dataBits = new BitVector();

            appendBytes(content, mode, dataBits, encoding);
            // Step 3: Initialize QR code that can contain "dataBits".
            int numInputBytes = dataBits.sizeInBytes();

            InitQrCode(numInputBytes, ecLevel, mode, qrCode);

            // Step 4: Build another bit vector that contains header and data.
            BitVector headerAndDataBits = new BitVector();

            // Step 4.5: Append ECI message if applicable
            if (mode == Mode.BYTE && !DEFAULT_BYTE_MODE_ENCODING.Equals(encoding))
            {
                CharacterSetECI eci = CharacterSetECI.getCharacterSetECIByName(encoding);
                if (eci != null)
                {
                    AppendECI(eci, headerAndDataBits);
                }
            }

            appendModeInfo(mode, headerAndDataBits);

            int numLetters = mode.Equals(Mode.BYTE)?dataBits.sizeInBytes():content.Length;

            appendLengthInfo(numLetters, qrCode.Version, mode, headerAndDataBits);
            headerAndDataBits.appendBitVector(dataBits);

            // Step 5: Terminate the bits properly.
            TerminateBits(qrCode.NumDataBytes, headerAndDataBits);

            // Step 6: Interleave data bits with error correction code.
            BitVector finalBits = new BitVector();

            InterleaveWithEcBytes(headerAndDataBits, qrCode.NumTotalBytes, qrCode.NumDataBytes, qrCode.NumRSBlocks, finalBits);

            // Step 7: Choose the mask pattern and set to "qrCode".
            ByteMatrix matrix = new ByteMatrix(qrCode.MatrixWidth, qrCode.MatrixWidth);

            qrCode.MaskPattern = ChooseMaskPattern(finalBits, qrCode.ECLevel, qrCode.Version, matrix);

            // Step 8.  Build the matrix and set it to "qrCode".
            MatrixUtil.buildMatrix(finalBits, qrCode.ECLevel, qrCode.Version, qrCode.MaskPattern, matrix);
            qrCode.Matrix = matrix;
            // Step 9.  Make sure we have a valid QR Code.
            if (!qrCode.Valid)
            {
                throw new WriterException(string.Format("Invalid QR code: {0}", qrCode));
            }
        }
예제 #21
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		internal static void  AppendAlphanumericBytes(System.String content, BitVector bits)
		{
			int length = content.Length;
			int i = 0;
			while (i < length)
			{
				int code1 = getAlphanumericCode(content[i]);
				if (code1 == - 1)
				{
					throw new WriterException();
				}
				if (i + 1 < length)
				{
					int code2 = getAlphanumericCode(content[i + 1]);
					if (code2 == - 1)
					{
						throw new WriterException();
					}
					// Encode two alphanumeric letters in 11 bits.
					bits.appendBits(code1 * 45 + code2, 11);
					i += 2;
				}
				else
				{
					// Encode one alphanumeric letter in six bits.
					bits.appendBits(code1, 6);
					i++;
				}
			}
		}
예제 #22
0
        // Make bit vector of type information. On success, store the result in "bits" and return true.
        // Encode error correction level and mask pattern. See 8.9 of
        // JISX0510:2004 (p.45) for details.
        public static void  MakeTypeInfoBits(ErrorCorrectionLevel ecLevel, int maskPattern, BitVector bits)
        {
            if (!QRCode.IsValidMaskPattern(maskPattern))
            {
                throw new WriterException("Invalid mask pattern");
            }
            int typeInfo = (ecLevel.Bits << 3) | maskPattern;

            bits.appendBits(typeInfo, 5);

            int bchCode = CalculateBchCode(typeInfo, TYPE_INFO_POLY);

            bits.appendBits(bchCode, 10);

            BitVector maskBits = new BitVector();

            maskBits.appendBits(TYPE_INFO_MASK_PATTERN, 15);
            bits.xor(maskBits);

            if (bits.size() != 15)
            {
                // Just in case.
                throw new WriterException("should not happen but we got: " + bits.size());
            }
        }
예제 #23
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		internal static void  AppendKanjiBytes(System.String content, BitVector bits)
		{
			sbyte[] bytes;
			try
			{
				//UPGRADE_TODO: Method 'java.lang.String.getBytes' was converted to 'System.Text.Encoding.GetEncoding(string).GetBytes(string)' which has a different behavior. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1073_javalangStringgetBytes_javalangString'"
				bytes = SupportClass.ToSByteArray(System.Text.Encoding.GetEncoding("Shift_JIS").GetBytes(content));
			}
			catch (System.IO.IOException uee)
			{
				//UPGRADE_TODO: The equivalent in .NET for method 'java.lang.Throwable.toString' may return a different value. "ms-help://MS.VSCC.v80/dv_commoner/local/redirect.htm?index='!DefaultContextWindowIndex'&keyword='jlca1043'"
				throw new WriterException(uee.ToString());
			}
			int length = bytes.Length;
			for (int i = 0; i < length; i += 2)
			{
				int byte1 = bytes[i] & 0xFF;
				int byte2 = bytes[i + 1] & 0xFF;
				int code = (byte1 << 8) | byte2;
				int subtracted = - 1;
				if (code >= 0x8140 && code <= 0x9ffc)
				{
					subtracted = code - 0x8140;
				}
				else if (code >= 0xe040 && code <= 0xebbf)
				{
					subtracted = code - 0xc140;
				}
				if (subtracted == - 1)
				{
					throw new WriterException("Invalid byte sequence");
				}
				int encoded = ((subtracted >> 8) * 0xc0) + (subtracted & 0xff);
				bits.appendBits(encoded, 13);
			}
		}
예제 #24
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		// Append "bits".
		public void  appendBitVector(BitVector bits)
		{
			int size = bits.size();
			for (int i = 0; i < size; ++i)
			{
				appendBit(bits.at(i));
			}
		}
예제 #25
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		// Modify the bit vector by XOR'ing with "other"
		public void  xor(BitVector other)
		{
			if (sizeInBits != other.size())
			{
				throw new System.ArgumentException("BitVector sizes don't match");
			}
			int sizeInBytes = (sizeInBits + 7) >> 3;
			for (int i = 0; i < sizeInBytes; ++i)
			{
				// The last byte could be incomplete (i.e. not have 8 bits in
				// it) but there is no problem since 0 XOR 0 == 0.
				array[i] ^= other.array[i];
			}
		}
예제 #26
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		// Embed version information if need be. On success, modify the matrix and return true.
		// See 8.10 of JISX0510:2004 (p.47) for how to embed version information.
		public static void  maybeEmbedVersionInfo(int version, ByteMatrix matrix)
		{
			if (version < 7)
			{
				// Version info is necessary if version >= 7.
				return ; // Don't need version info.
			}
			BitVector versionInfoBits = new BitVector();
			MakeVersionInfoBits(version, versionInfoBits);
			
			int bitIndex = 6 * 3 - 1; // It will decrease from 17 to 0.
			for (int i = 0; i < 6; ++i)
			{
				for (int j = 0; j < 3; ++j)
				{
					// Place bits in LSB (least significant bit) to MSB order.
					int bit = versionInfoBits.at(bitIndex);
					bitIndex--;
					// Left bottom corner.
					matrix.SetRenamed(i, matrix.Height - 11 + j, bit);
					// Right bottom corner.
					matrix.SetRenamed(matrix.Height - 11 + j, i, bit);
				}
			}
		}