niotso/deps/libjpeg-turbo/java/org/libjpegturbo/turbojpeg/TJCompressor.java

/*
 * Copyright (C)2011 D. R. Commander.  All Rights Reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 * - Redistributions of source code must retain the above copyright notice,
 *   this list of conditions and the following disclaimer.
 * - Redistributions in binary form must reproduce the above copyright notice,
 *   this list of conditions and the following disclaimer in the documentation
 *   and/or other materials provided with the distribution.
 * - Neither the name of the libjpeg-turbo Project nor the names of its
 *   contributors may be used to endorse or promote products derived from this
 *   software without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS",
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

package org.libjpegturbo.turbojpeg;

import java.awt.image.*;
import java.nio.*;

/**
 * TurboJPEG compressor
 */
public class TJCompressor {

  private final static String NO_ASSOC_ERROR =
    "No source image is associated with this instance";

  /**
   * Create a TurboJPEG compressor instance.
   */
  public TJCompressor() throws Exception {
    init();
  }

  /**
   * Create a TurboJPEG compressor instance and associate the uncompressed
   * source image stored in <code>srcImage</code> with the newly-created
   * instance.
   *
   * @param srcImage see {@link #setSourceImage} for description
   *
   * @param width see {@link #setSourceImage} for description
   *
   * @param pitch see {@link #setSourceImage} for description
   *
   * @param height see {@link #setSourceImage} for description
   *
   * @param pixelFormat see {@link #setSourceImage} for description
   */
  public TJCompressor(byte[] srcImage, int width, int pitch, int height,
    int pixelFormat) throws Exception {
    setSourceImage(srcImage, width, pitch, height, pixelFormat);
  }

  /**
   * Associate an uncompressed source image with this compressor instance.
   *
   * @param srcImage image buffer containing RGB or grayscale pixels to be
   * compressed
   *
   * @param width width (in pixels) of the source image
   *
   * @param pitch bytes per line of the source image.  Normally, this should be
   * <code>width * TJ.pixelSize(pixelFormat)</code> if the source image is
   * unpadded, but you can use this parameter to, for instance, specify that
   * the scanlines in the source image are padded to 4-byte boundaries, as is
   * the case for Windows bitmaps.  You can also be clever and use this
   * parameter to skip lines, etc.  Setting this parameter to 0 is the
   * equivalent of setting it to <code>width *
   * TJ.pixelSize(pixelFormat)</code>.
   *
   * @param height height (in pixels) of the source image
   *
   * @param pixelFormat pixel format of the source image (one of
   * {@link TJ TJ.PF_*})
   */
  public void setSourceImage(byte[] srcImage, int width, int pitch,
    int height, int pixelFormat) throws Exception {
    if(handle == 0) init();
    if(srcImage == null || width < 1 || height < 1 || pitch < 0
      || pixelFormat < 0 || pixelFormat >= TJ.NUMPF)
      throw new Exception("Invalid argument in setSourceImage()");
    srcBuf = srcImage;
    srcWidth = width;
    if(pitch == 0) srcPitch = width * TJ.getPixelSize(pixelFormat);
    else srcPitch = pitch;
    srcHeight = height;
    srcPixelFormat = pixelFormat;
  }

  /**
   * Set the level of chrominance subsampling for subsequent compress/encode
   * operations.
   *
   * @param newSubsamp the new level of chrominance subsampling (one of
   * {@link TJ TJ.SAMP_*})
   */
  public void setSubsamp(int newSubsamp) throws Exception {
    if(newSubsamp < 0 || newSubsamp >= TJ.NUMSAMP)
      throw new Exception("Invalid argument in setSubsamp()");
    subsamp = newSubsamp;
  }

  /**
   * Set the JPEG image quality level for subsequent compress operations.
   *
   * @param quality the new JPEG image quality level (1 to 100, 1 = worst,
   * 100 = best)
   */
  public void setJPEGQuality(int quality) throws Exception {
    if(quality < 1 || quality > 100)
      throw new Exception("Invalid argument in setJPEGQuality()");
    jpegQuality = quality;
  }

  /**
   * Compress the uncompressed source image associated with this compressor
   * instance and output a JPEG image to the given destination buffer.
   *
   * @param dstBuf buffer that will receive the JPEG image.  Use
   * {@link TJ#bufSize} to determine the maximum size for this buffer based on
   * the image width and height.
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   */
  public void compress(byte[] dstBuf, int flags) throws Exception {
    if(dstBuf == null || flags < 0)
      throw new Exception("Invalid argument in compress()");
    if(srcBuf == null) throw new Exception(NO_ASSOC_ERROR);
    if(jpegQuality < 0) throw new Exception("JPEG Quality not set");
    if(subsamp < 0) throw new Exception("Subsampling level not set");
    compressedSize = compress(srcBuf, srcWidth, srcPitch,
      srcHeight, srcPixelFormat, dstBuf, subsamp, jpegQuality, flags);
  }

  /**
   * Compress the uncompressed source image associated with this compressor
   * instance and return a buffer containing a JPEG image.
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   *
   * @return a buffer containing a JPEG image.  The length of this buffer will
   * not be equal to the size of the JPEG image.  Use {@link
   * #getCompressedSize} to obtain the size of the JPEG image.
   */
  public byte[] compress(int flags) throws Exception {
    if(srcWidth < 1 || srcHeight < 1)
      throw new Exception(NO_ASSOC_ERROR);
    byte[] buf = new byte[TJ.bufSize(srcWidth, srcHeight, subsamp)];
    compress(buf, flags);
    return buf;
  }

  /**
   * Compress the uncompressed source image stored in <code>srcImage</code>
   * and output a JPEG image to the given destination buffer.
   *
   * @param srcImage a <code>BufferedImage</code> instance containing RGB or
   * grayscale pixels to be compressed
   *
   * @param dstBuf buffer that will receive the JPEG image.  Use
   * {@link TJ#bufSize} to determine the maximum size for this buffer based on
   * the image width and height.
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   */
  public void compress(BufferedImage srcImage, byte[] dstBuf, int flags)
    throws Exception {
    if(srcImage == null || dstBuf == null || flags < 0)
      throw new Exception("Invalid argument in compress()");
    int width = srcImage.getWidth();
    int height = srcImage.getHeight();
    int pixelFormat;  boolean intPixels = false;
    if(byteOrder == null)
      byteOrder = ByteOrder.nativeOrder();
    switch(srcImage.getType()) {
      case BufferedImage.TYPE_3BYTE_BGR:
        pixelFormat = TJ.PF_BGR;  break;
      case BufferedImage.TYPE_4BYTE_ABGR:
      case BufferedImage.TYPE_4BYTE_ABGR_PRE:
        pixelFormat = TJ.PF_XBGR;  break;
      case BufferedImage.TYPE_BYTE_GRAY:
        pixelFormat = TJ.PF_GRAY;  break;
      case BufferedImage.TYPE_INT_BGR:
        if(byteOrder == ByteOrder.BIG_ENDIAN)
          pixelFormat = TJ.PF_XBGR;
        else
          pixelFormat = TJ.PF_RGBX;
        intPixels = true;  break;
      case BufferedImage.TYPE_INT_RGB:
      case BufferedImage.TYPE_INT_ARGB:
      case BufferedImage.TYPE_INT_ARGB_PRE:
        if(byteOrder == ByteOrder.BIG_ENDIAN)
          pixelFormat = TJ.PF_XRGB;
        else
          pixelFormat = TJ.PF_BGRX;
        intPixels = true;  break;
      default:
        throw new Exception("Unsupported BufferedImage format");
    }
    WritableRaster wr = srcImage.getRaster();
    if(jpegQuality < 0) throw new Exception("JPEG Quality not set");
    if(subsamp < 0) throw new Exception("Subsampling level not set");
    if(intPixels) {
      SinglePixelPackedSampleModel sm =
        (SinglePixelPackedSampleModel)srcImage.getSampleModel();
      int pitch = sm.getScanlineStride();
      DataBufferInt db = (DataBufferInt)wr.getDataBuffer();
      int[] buf = db.getData();
      compressedSize = compress(buf, width, pitch, height, pixelFormat, dstBuf,
        subsamp, jpegQuality, flags);
    }
    else {
      ComponentSampleModel sm =
        (ComponentSampleModel)srcImage.getSampleModel();
      int pixelSize = sm.getPixelStride();
      if(pixelSize != TJ.getPixelSize(pixelFormat))
        throw new Exception("Inconsistency between pixel format and pixel size in BufferedImage");
      int pitch = sm.getScanlineStride();
      DataBufferByte db = (DataBufferByte)wr.getDataBuffer();
      byte[] buf = db.getData();
      compressedSize = compress(buf, width, pitch, height, pixelFormat, dstBuf,
        subsamp, jpegQuality, flags);
    }
  }

  /**
   * Compress the uncompressed source image stored in <code>srcImage</code>
   * and return a buffer containing a JPEG image.
   *
   * @param srcImage a <code>BufferedImage</code> instance containing RGB or
   * grayscale pixels to be compressed
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   *
   * @return a buffer containing a JPEG image.  The length of this buffer will
   * not be equal to the size of the JPEG image.  Use {@link
   * #getCompressedSize} to obtain the size of the JPEG image.
   */
  public byte[] compress(BufferedImage srcImage, int flags) throws Exception {
    int width = srcImage.getWidth();
    int height = srcImage.getHeight();
    byte[] buf = new byte[TJ.bufSize(width, height, subsamp)];
    compress(srcImage, buf, flags);
    return buf;
  }

  /**
   * Encode the uncompressed source image associated with this compressor
   * instance and output a YUV planar image to the given destination buffer.
   * This method uses the accelerated color conversion routines in
   * TurboJPEG's underlying codec to produce a planar YUV image that is
   * suitable for direct video display.  Specifically, if the chrominance
   * components are subsampled along the horizontal dimension, then the width
   * of the luminance plane is padded to 2 in the output image (same goes for
   * the height of the luminance plane, if the chrominance components are
   * subsampled along the vertical dimension.)  Also, each line of each plane
   * in the output image is padded to 4 bytes.  Although this will work with
   * any subsampling option, it is really only useful in combination with
   * {@link TJ#SAMP_420}, which produces an image compatible with the I420 (AKA
   * "YUV420P") format.
   *
   * @param dstBuf buffer that will receive the YUV planar image.  Use
   * {@link TJ#bufSizeYUV} to determine the appropriate size for this buffer
   * based on the image width, height, and level of chrominance subsampling.
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   */
  public void encodeYUV(byte[] dstBuf, int flags) throws Exception {
    if(dstBuf == null || flags < 0)
      throw new Exception("Invalid argument in compress()");
    if(srcBuf == null) throw new Exception(NO_ASSOC_ERROR);
    if(subsamp < 0) throw new Exception("Subsampling level not set");
    encodeYUV(srcBuf, srcWidth, srcPitch, srcHeight,
      srcPixelFormat, dstBuf, subsamp, flags);
    compressedSize = TJ.bufSizeYUV(srcWidth, srcHeight, subsamp);
  }

  /**
   * Encode the uncompressed source image associated with this compressor
   * instance and return a buffer containing a YUV planar image.  See
   * {@link #encodeYUV(byte[], int)} for more detail.
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   *
   * @return a buffer containing a YUV planar image
   */
  public byte[] encodeYUV(int flags) throws Exception {
    if(srcWidth < 1 || srcHeight < 1)
      throw new Exception(NO_ASSOC_ERROR);
    if(subsamp < 0) throw new Exception("Subsampling level not set");
    byte[] buf = new byte[TJ.bufSizeYUV(srcWidth, srcHeight, subsamp)];
    encodeYUV(buf, flags);
    return buf;
  }

  /**
   * Encode the uncompressed source image stored in <code>srcImage</code>
   * and output a YUV planar image to the given destination buffer.  See
   * {@link #encodeYUV(byte[], int)} for more detail.
   *
   * @param srcImage a <code>BufferedImage</code> instance containing RGB or
   * grayscale pixels to be encoded
   *
   * @param dstBuf buffer that will receive the YUV planar image.  Use
   * {@link TJ#bufSizeYUV} to determine the appropriate size for this buffer
   * based on the image width, height, and level of chrominance subsampling.
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   */
  public void encodeYUV(BufferedImage srcImage, byte[] dstBuf, int flags)
    throws Exception {
    if(srcImage == null || dstBuf == null || flags < 0)
      throw new Exception("Invalid argument in encodeYUV()");
    int width = srcImage.getWidth();
    int height = srcImage.getHeight();
    int pixelFormat;  boolean intPixels = false;
    if(byteOrder == null)
      byteOrder = ByteOrder.nativeOrder();
    switch(srcImage.getType()) {
      case BufferedImage.TYPE_3BYTE_BGR:
        pixelFormat = TJ.PF_BGR;  break;
      case BufferedImage.TYPE_4BYTE_ABGR:
      case BufferedImage.TYPE_4BYTE_ABGR_PRE:
        pixelFormat = TJ.PF_XBGR;  break;
      case BufferedImage.TYPE_BYTE_GRAY:
        pixelFormat = TJ.PF_GRAY;  break;
      case BufferedImage.TYPE_INT_BGR:
        if(byteOrder == ByteOrder.BIG_ENDIAN)
          pixelFormat = TJ.PF_XBGR;
        else
          pixelFormat = TJ.PF_RGBX;
        intPixels = true;  break;
      case BufferedImage.TYPE_INT_RGB:
      case BufferedImage.TYPE_INT_ARGB:
      case BufferedImage.TYPE_INT_ARGB_PRE:
        if(byteOrder == ByteOrder.BIG_ENDIAN)
          pixelFormat = TJ.PF_XRGB;
        else
          pixelFormat = TJ.PF_BGRX;
        intPixels = true;  break;
      default:
        throw new Exception("Unsupported BufferedImage format");
    }
    WritableRaster wr = srcImage.getRaster();
    if(subsamp < 0) throw new Exception("Subsampling level not set");
    if(intPixels) {
      SinglePixelPackedSampleModel sm =
        (SinglePixelPackedSampleModel)srcImage.getSampleModel();
      int pitch = sm.getScanlineStride();
      DataBufferInt db = (DataBufferInt)wr.getDataBuffer();
      int[] buf = db.getData();
      encodeYUV(buf, width, pitch, height, pixelFormat, dstBuf, subsamp,
        flags);
    }
    else {
      ComponentSampleModel sm =
        (ComponentSampleModel)srcImage.getSampleModel();
      int pixelSize = sm.getPixelStride();
      if(pixelSize != TJ.getPixelSize(pixelFormat))
        throw new Exception("Inconsistency between pixel format and pixel size in BufferedImage");
      int pitch = sm.getScanlineStride();
      DataBufferByte db = (DataBufferByte)wr.getDataBuffer();
      byte[] buf = db.getData();
      encodeYUV(buf, width, pitch, height, pixelFormat, dstBuf, subsamp,
        flags);
    }
    compressedSize = TJ.bufSizeYUV(width, height, subsamp);
  }

  /**
   * Encode the uncompressed source image stored in <code>srcImage</code>
   * and return a buffer containing a YUV planar image.  See
   * {@link #encodeYUV(byte[], int)} for more detail.
   *
   * @param srcImage a <code>BufferedImage</code> instance containing RGB or
   * grayscale pixels to be encoded
   *
   * @param flags the bitwise OR of one or more of {@link TJ TJ.FLAG_*}
   *
   * @return a buffer containing a YUV planar image
   */
  public byte[] encodeYUV(BufferedImage srcImage, int flags)
    throws Exception {
    if(subsamp < 0) throw new Exception("Subsampling level not set");
    int width = srcImage.getWidth();
    int height = srcImage.getHeight();
    byte[] buf = new byte[TJ.bufSizeYUV(width, height, subsamp)];
    encodeYUV(srcImage, buf, flags);
    return buf;
  }

  /**
   * Returns the size of the image (in bytes) generated by the most recent
   * compress/encode operation.
   *
   * @return the size of the image (in bytes) generated by the most recent
   * compress/encode operation
   */
  public int getCompressedSize() {
    return compressedSize;
  }

  /**
   * Free the native structures associated with this compressor instance.
   */
  public void close() throws Exception {
    destroy();
  }

  protected void finalize() throws Throwable {
    try {
      close();
    }
    catch(Exception e) {}
    finally {
      super.finalize();
    }
  };

  private native void init() throws Exception;

  private native void destroy() throws Exception;

  // JPEG size in bytes is returned
  private native int compress(byte[] srcBuf, int width, int pitch,
    int height, int pixelFormat, byte[] dstbuf, int jpegSubsamp, int jpegQual,
    int flags) throws Exception;

  private native int compress(int[] srcBuf, int width, int pitch,
    int height, int pixelFormat, byte[] dstbuf, int jpegSubsamp, int jpegQual,
    int flags) throws Exception;

  private native void encodeYUV(byte[] srcBuf, int width, int pitch,
    int height, int pixelFormat, byte[] dstbuf, int subsamp, int flags)
    throws Exception;

  private native void encodeYUV(int[] srcBuf, int width, int pitch,
    int height, int pixelFormat, byte[] dstbuf, int subsamp, int flags)
    throws Exception;

  static {
    TJLoader.load();
  }

  private long handle = 0;
  private byte[] srcBuf = null;
  private int srcWidth = 0;
  private int srcHeight = 0;
  private int srcPitch = 0;
  private int srcPixelFormat = -1;
  private int subsamp = -1;
  private int jpegQuality = -1;
  private int compressedSize = 0;
  private ByteOrder byteOrder = null;
};