DepthMapNeedle/src/JPEGUtils.java

import java.util.Arrays;
import java.util.Vector;

public class JPEGUtils extends Const
{

	public static int blockLength(int boundaryPos, byte[] data)
	{
		if(!JPEGUtils.isAPP1Marker(data,boundaryPos))
		{
			System.err.println("JPEGUtils blockLength: Block is no APP1 Block!");
			return -1;
		}
		int o;
		try
		{
			o = 256*(data[boundaryPos+2]&0xFF) + (data[boundaryPos+3]&0xFF);
		}
		catch(ArrayIndexOutOfBoundsException e)
		{
			System.err.println("JPEGUtils blockLength got ArrayIndexOutOfBoundsException:");
			e.printStackTrace();
			return -1;
		}
		return o;
	}
	public static byte[] decorateBlock(byte[] data, String type)
	{
		if(type.equals(EXIF))
		{
			data = ArrayUtils.concatenate(markEXIF, data);
			byte[] pre = ArrayUtils.concatenate(markAPP1, genLen(data.length+2));
			return ArrayUtils.concatenate(pre, data);
		}
		else if(type.equals(STANDARDXMP))
		{
			data = ArrayUtils.concatenate(markStandardXMP, data);
			byte[] pre = ArrayUtils.concatenate(markAPP1, genLen(data.length+2));
			return ArrayUtils.concatenate(pre,data);
		}
		else if(type.equals(EXTENDEDXMP))
		{
			byte[] out = new byte[0];
			byte[] md5 = HexUtil.generateMD5(data);
			int i=0; 
			int blockCount = data.length/CHUNKSIZE;
			while (i<blockCount)
			{
				byte[] part = Arrays.copyOfRange(data, i*CHUNKSIZE, (i+1)*CHUNKSIZE);
				byte[] pre = markAPP1;
				pre = ArrayUtils.concatenate(pre, genLen(2+markExtendedXMP.length + 32 + 4 + 4 + part.length));
				pre = ArrayUtils.concatenate(pre, markExtendedXMP);
				pre = ArrayUtils.concatenate(pre, md5);
				pre = ArrayUtils.concatenate(pre, ArrayUtils.intToByteArray(data.length));
				pre = ArrayUtils.concatenate(pre, ArrayUtils.intToByteArray(i*CHUNKSIZE));
				part = ArrayUtils.concatenate(pre, part);
				out = ArrayUtils.concatenate(out, part);
				i++;
			}
			//Rest
			byte[] part = Arrays.copyOfRange(data, i*CHUNKSIZE, data.length);
			byte[] pre = markAPP1;
			pre = ArrayUtils.concatenate(pre, genLen(2+markExtendedXMP.length + 32 + 4 + 4 + part.length));
			pre = ArrayUtils.concatenate(pre, markExtendedXMP);
			pre = ArrayUtils.concatenate(pre, md5);
			pre = ArrayUtils.concatenate(pre, ArrayUtils.intToByteArray(data.length));
			pre = ArrayUtils.concatenate(pre, ArrayUtils.intToByteArray(i*CHUNKSIZE));
			part = ArrayUtils.concatenate(pre, part);
			out = ArrayUtils.concatenate(out, part);
			return out;
		}
		return null;
	}
	public static byte[] extract(byte[] data, byte[] key)
	{
		int start = -1;
		int end = -1;
		for(int i=0; i<=data.length-key.length; i++)
		{
			if(ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, key, i) && data[i+key.length] == 0x3D && data[i+key.length+1] == 0x22)
			{
				start = i+key.length+2;
				for(int j=i+key.length+2; j<data.length; j++)
				{
					if(data[j] == 0x22)
					{
						end = j;
						return Arrays.copyOfRange(data, start, end);
					}

				}
				System.err.println("JPEGUtils extract found end for \""+new String(key) +"\": false");
			}
		}
		System.err.println("JPEGUtils extract found start for \""+new String(key) +"\": false");
		return null;
	}
	public static byte[] extractDepthMap(byte[] data)
	{
		byte[] meta = getXMPBlocksContent(data);
		byte[] depth = extract(meta, keyGDepthData);
		if(depth == null) System.err.println("JPEGUtils extractDepthMap is null");
		return depth;
	}
	public static byte[] extractSourceImage(byte[] data)
	{
		byte[] meta = getXMPBlocksContent(data);
		byte[] src = extract(meta, keyGImageData);
		if(src == null) System.err.println("JPEGUtils extractSourceImage is null");
		return src;
	}
	public static byte[] genLen(int l)
	{
		byte[] o = new byte[2];
		o[0] = (byte) (l/256);
		o[1] = (byte) (l%256);
		return o;
	}
	public static byte[] getBlock(byte[] data, int boundary)
	{
		if(!JPEGUtils.isAPP1Marker(data,boundary))
		{
			System.err.println("JPEGUtils getBlock: Block is no APP1-block");
			return data;
		}
		else
		{
			return Arrays.copyOfRange(data, boundary, boundary+JPEGUtils.blockLength(boundary, data)+2);
		}
	}
	public static byte[] getBlockWithoutAPP1(byte[] data, int boundary)
	{
		if(!JPEGUtils.isAPP1Marker(data,boundary))
		{
			System.err.println("JPEGUtils getBlockWithoutAPP1: Block is no APP1-block");
			return null;
		}
		else return Arrays.copyOfRange(data, boundary+4, boundary+JPEGUtils.blockLength(boundary,data)+2);

	}
	public static byte[] getBlockWithoutHeader(byte[] data, int boundary)
	{
		if(!JPEGUtils.isAPP1Marker(data,boundary))
		{
			System.err.println("JPEGUtils getBlockWithoutHeader: Block is no APP1-block");
			return null;
		}
		else
		{
			int offset;
			if(ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, markStandardXMP, 4+boundary)) offset = 2 + 2 + markStandardXMP.length;
			else if(ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, markExtendedXMP, 4+boundary)) offset = 2 + 2 + markExtendedXMP.length + 32 + 4 + 4;
			else if(ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, markEXIF, 4+boundary)) offset = 2 + 2 + markEXIF.length;
			else offset = 4;
			return Arrays.copyOfRange(data, boundary+offset, boundary+JPEGUtils.blockLength(boundary,data)+2);
		}
	}
	/**
	 * Return all positions of "FF E1" in the byte[]
	 * @param data byte array
	 * @return array of positions
	 */
	public static int[] getBoundaries(byte[] data)
	{
		Vector<Integer> b = new Vector<Integer>();
		for(int i=0; i<data.length; i++)
		{
			if(JPEGUtils.isAPP1Marker(data,i))
			{
				b.add(i);
				i+=3;	//Skip E1 and length
			}
		}
		int[] out = new int[b.size()];
		for(int i=0; i<b.size(); i++)
			out[i] = b.get(i);
		return out;

	}
	/**
	 * Return the exif block of the jpg. This is usually the first block of data
	 * @param data
	 * @return exif block 
	 */
	public static byte[] getEXIFBlock(byte[] data)
	{
		int[] bounds = getBoundaries(data);
		for(int e : bounds)
		{
			byte[] block = getBlock(data, e);
			if(isEXIFBlock(block)) return getBlockWithoutHeader(data,e);
		}
		System.err.println("JPEGUtils getEXIFBlock: No EXIF-block found");
		return null;
	}
	public static byte[] getExtendedXMPBlockContent(byte[] data)
	{
		int[] bounds = JPEGUtils.getBoundaries(data);
		byte[] cont = new byte[0];
		for(int e : bounds)
		{
			byte[] block = JPEGUtils.getBlock(data,e);
			if(JPEGUtils.isExtendedXMP(block))
			{
				byte[] part = JPEGUtils.getBlockWithoutHeader(block,0);
				if(part == null) System.err.println("JPEGUtils getExtendedXMPBlockContent part is null");
				cont = ArrayUtils.concatenate(cont, part);
			}
		}
		return cont;
	}

	public static byte[] getImageTail(byte[] data)
	{
		byte[] out;
		int[] bounds = getBoundaries(data);
		int offset = 256*(data[bounds[bounds.length-1]+2]&0xFF) + (data[bounds[bounds.length-1]+3]&0xFF);
		offset += bounds[bounds.length-1];
		offset +=2;
		out = Arrays.copyOfRange(data, offset, data.length);
		return out;
	}
	public static byte[] getMetadata(byte[] data)
	{
		int[] boundaries = getBoundaries(data);
		byte[] out = new byte[0];
		for(int e : boundaries)
		{
			out = ArrayUtils.concatenate(out, getBlockWithoutAPP1(data,e));
		}
		return out;
	}
	public static byte[] getStandardXMPBlockContent(byte[] data)
	{
		int[] bounds = JPEGUtils.getBoundaries(data);
		for(int e : bounds)
		{
			byte[] block = JPEGUtils.getBlock(data, e);
			if(JPEGUtils.isStandardXMP(block)) return JPEGUtils.getBlockWithoutHeader(data,e);
		}
		System.err.println("JPEGUtils getStandardXMPBlockContent is null");
		return null;
	}
	public static byte[] getXMPBlocksContent(byte[] data)
	{
		byte[] stand = getStandardXMPBlockContent(data);
		byte[] ext = getExtendedXMPBlockContent(data);

		byte[] out = ArrayUtils.concatenate(stand, ext);
		if(out==null) System.err.println("JPEGUtils getXMPBlocksContent is null");
		return out;
	}
	public static boolean isAPP1Marker(byte[] data, int offset)
	{
		return ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, markAPP1, offset);
	}
	public static boolean isEXIFBlock(byte[] block)
	{
		return JPEGUtils.isEXIFMarker(block, 4);
	}
	public static boolean isEXIFMarker(byte[] data, int offset)
	{
		return ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, markEXIF, offset);
	}
	/**
	 * Block is the block with FFE1 and the two following bytes
	 * @param block block
	 * @return true, if the block is extended xmp
	 */
	public static boolean isExtendedXMP(byte[] block)
	{
		return ArrayUtils.arrayIsPartOfOtherArrayOnOffset(block, markExtendedXMP, 4);
	}
	public static boolean isJPG(byte[] data)
	{
		return JPEGUtils.isJPG(data, 0);
	}
	public static boolean isJPG(byte[] data, int offset)
	{
		return ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, markJPG, offset);
	}
	/**
	 * Block is the block with FFE1 and the two following bytes
	 * @param block block
	 * @return true, if the block is standard xmp
	 */
	public static boolean isStandardXMP(byte[] block)
	{
		return ArrayUtils.arrayIsPartOfOtherArrayOnOffset(block, markStandardXMP, 4);
	}
	public static boolean isStandardXMP(byte[] block, int offset)
	{
		return ArrayUtils.arrayIsPartOfOtherArrayOnOffset(block, markStandardXMP, offset);
	}
	public static byte[] replace(byte[] data, byte[] key, byte[] value)
	{
		int start = -1;
		int end = -1;
		for(int i=0; i<data.length; i++)
		{
			if(ArrayUtils.arrayIsPartOfOtherArrayOnOffset(data, key, i))
			{
				start = i+key.length+2;
				break;
			}
		}
		if(start != -1)
		{
			byte[] pre = Arrays.copyOfRange(data, 0, start);
			for(int j=start; j<data.length; j++)
			{
				if(data[j] == 0x22)
				{
					end = j;
					break;
				}
			}
			if(end != -1)
			{
				byte[] post = Arrays.copyOfRange(data, end, data.length);
				byte[] out = ArrayUtils.concatenate(pre, value);
				out = ArrayUtils.concatenate(out,post);
				return out;
			}
			else System.err.println("JPEGUtils replace: No closing \" found in data");
		}
		else System.err.println("JPEGUtils replace: key not found in data");

		return null;
	}
}