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 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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package com.sun.imageio.plugins.tiff;

import javax.imageio.plugins.tiff.BaselineTIFFTagSet;
import java.io.IOException;
import javax.imageio.IIOException;

/**
 *
 */
public class TIFFRLECompressor extends TIFFFaxCompressor {

    public TIFFRLECompressor() {
        super("CCITT RLE", BaselineTIFFTagSet.COMPRESSION_CCITT_RLE, true);
    }

    
Encode a row of data using Modified Huffman Compression also known as CCITT RLE (Run Lenth Encoding).
Params:
  • data – The row of data to compress.
  • rowOffset – Starting index in data.
  • colOffset – Bit offset within first data[rowOffset].
  • rowLength – Number of bits in the row.
  • compData – The compressed data.
Returns:The number of bytes saved in the compressed data array.
/** * Encode a row of data using Modified Huffman Compression also known as * CCITT RLE (Run Lenth Encoding). * * @param data The row of data to compress. * @param rowOffset Starting index in {@code data}. * @param colOffset Bit offset within first {@code data[rowOffset]}. * @param rowLength Number of bits in the row. * @param compData The compressed data. * * @return The number of bytes saved in the compressed data array. */
public int encodeRLE(byte[] data, int rowOffset, int colOffset, int rowLength, byte[] compData) { // // Initialize bit buffer machinery. // initBitBuf(); // // Run-length encode line. // int outIndex = encode1D(data, rowOffset, colOffset, rowLength, compData, 0); // // Flush pending bits // while (ndex > 0) { compData[outIndex++] = (byte)(bits >>> 24); bits <<= 8; ndex -= 8; } // // Flip the bytes if inverse fill was requested. // if (inverseFill) { byte[] flipTable = TIFFFaxDecompressor.flipTable; for(int i = 0; i < outIndex; i++) { compData[i] = flipTable[compData[i] & 0xff]; } } return outIndex; } public int encode(byte[] b, int off, int width, int height, int[] bitsPerSample, int scanlineStride) throws IOException { if (bitsPerSample.length != 1 || bitsPerSample[0] != 1) { throw new IIOException( "Bits per sample must be 1 for RLE compression!"); } // In the worst case, 2 bits of input will result in 9 bits of output, // plus 2 extra bits if the row starts with black. int maxBits = 9*((width + 1)/2) + 2; byte[] compData = new byte[(maxBits + 7)/8]; int bytes = 0; int rowOffset = off; for (int i = 0; i < height; i++) { int rowBytes = encodeRLE(b, rowOffset, 0, width, compData); stream.write(compData, 0, rowBytes); rowOffset += scanlineStride; bytes += rowBytes; } return bytes; } }