src/com/android/gallery3d/util/GifDecoder.java - platform/packages/apps/Gallery2 - Gitiles

 package com.android.gallery3d.util;

 import android.graphics.Bitmap;
 import android.graphics.Bitmap.Config;
 import android.util.Log;

 import java.io.ByteArrayInputStream;
 import java.io.InputStream;

 public class GifDecoder extends Thread {

     public static final int STATUS_PARSING = 0;
     public static final int STATUS_FORMAT_ERROR = 1;
     public static final int STATUS_OPEN_ERROR = 2;
     public static final int STATUS_FINISH = -1;

     private InputStream mIS;
     private int mStatus;

     public int mWidth; // full image width
     public int mHeight; // full image height
     private boolean mGctFlag; // global color table used
     private int mGctSize; // size of global color table
     private int mLoopCount = 1; // iterations; 0 = repeat forever

     private int[] mGct; // global color table
     private int[] mLct; // local color table
     private int[] mAct; // active color table

     private int mBgIndex; // background color index
     private int mBgColor; // background color
     private int mLastBgColor; // previous bg color
     private int mPixelAspect; // pixel aspect ratio

     private boolean mLctFlag; // local color table flag
     private boolean mInterlace; // interlace flag
     private int mLctSize; // local color table size

     private int mIx, mIy, mIw, mIh; // current image rectangle
     private int mLrx, mLry, mLrw, mLrh;
     private Bitmap mImage; // current frame
     private Bitmap mLastImage; // previous frame
     private GifFrame mCurrentFrame = null;

     private boolean mIsShow = false;

     private byte[] mBlock = new byte[256]; // current data block
     private int mBlockSize = 0; // block size
     private int mDispose = 0;
     private int mLastDispose = 0;
     private boolean mTransparency = false; // use transparent color
     private int mDelay = 0; // delay in milliseconds
     private int mTransIndex; // transparent color index

     // max decoder pixel stack size
     private static final int MaxStackSize = 4096;

     // LZW decoder working arrays
     private short[] mPrefix;
     private byte[] mSuffix;
     private byte[] mPixelStack;
     private byte[] mPixels;

     private GifFrame mGifFrame; // frames read from current file
     private int mFrameCount;

     private GifAction mGifAction = null;

     private byte[] mGifData = null;

     public GifDecoder(byte[] data, GifAction act) {
         mGifData = data;
         mGifAction = act;
     }

     public GifDecoder(InputStream is, GifAction act) {
         mIS = is;
         mGifAction = act;
     }

     public void run() {
         if (mIS != null) {
             readStream();
         } else if (mGifData != null) {
             readByte();
         }
     }

     public void free() {
         freeFrame();
         freeIS();
         freeImage();
     }

     public int getStatus() {
         return mStatus;
     }

     public boolean parseOk() {
         return mStatus == STATUS_FINISH;
     }

     public int getDelay(int n) {
         mDelay = -1;
         if ((n >= 0) && (n < mFrameCount)) {
             GifFrame f = getFrame(n);
             if (f != null) {
                 mDelay = f.mDelayInMs;
             }
         }
         return mDelay;
     }

     public int[] getDelays() {
         GifFrame f = mGifFrame;
         int[] d = new int[mFrameCount];
         int i = 0;
         while (f != null && i < mFrameCount) {
             d[i] = f.mDelayInMs;
             f = f.mNextFrame;
             i++;
         }
         return d;
     }

     public int getFrameCount() {
         return mFrameCount;
     }

     public Bitmap getImage() {
         return getFrameImage(0);
     }

     public int getLoopCount() {
         return mLoopCount;
     }

     private void setPixels() {
         int[] dest = new int[mWidth * mHeight];
         // fill in starting image contents based on last image's dispose code
         if (mLastDispose > 0) {
             if (mLastDispose == 3) {
                 // use image before last
                 int n = mFrameCount - 2;
                 if (n > 0) {
                     mLastImage = getPreUndisposedImage(n - 1);
                 } else {
                     mLastImage = null;
                 }
             }
             if (mLastImage != null) {
                 mLastImage.getPixels(dest, 0, mWidth, 0, 0, mWidth, mHeight);
                 // copy pixels
                 if (mLastDispose == 2) {
                     // fill last image rect area with background color
                     int c = 0;
                     if (!mTransparency) {
                         c = mLastBgColor;
                     }
                     for (int i = 0; i < mLrh; i++) {
                         int n1 = (mLry + i) * mWidth + mLrx;
                         int n2 = n1 + mLrw;
                         for (int k = n1; k < n2; k++) {
                             dest[k] = c;
                         }
                     }
                 }
             }
         }

         // copy each source line to the appropriate place in the destination
         int pass = 1;
         int inc = 8;
         int iline = 0;
         for (int i = 0; i < mIh; i++) {
             int line = i;
             if (mInterlace) {
                 if (iline >= mIh) {
                     pass++;
                     switch (pass) {
                         case 2:
                             iline = 4;
                             break;
                         case 3:
                             iline = 2;
                             inc = 4;
                             break;
                         case 4:
                             iline = 1;
                             inc = 2;
                     }
                 }
                 line = iline;
                 iline += inc;
             }
             line += mIy;
             if (line < mHeight) {
                 int k = line * mWidth;
                 int dx = k + mIx; // start of line in dest
                 int dlim = dx + mIw; // end of dest line
                 if ((k + mWidth) < dlim) {
                     dlim = k + mWidth; // past dest edge
                 }
                 int sx = i * mIw; // start of line in source
                 while (dx < dlim) {
                     // map color and insert in destination
                     int index = ((int) mPixels[sx++]) & 0xff;
                     int c = mAct[index];
                     if (c != 0) {
                         dest[dx] = c;
                     }
                     dx++;
                 }
             }
         }
         mImage = Bitmap.createBitmap(dest, mWidth, mHeight, Config.ARGB_4444);
     }

     public Bitmap getFrameImage(int n) {
         GifFrame frame = getFrame(n);
         if (frame == null) {
             return null;
         } else {
             return frame.mImage;
         }
     }

     public GifFrame getCurrentFrame() {
         return mCurrentFrame;
     }

     public GifFrame getFrame(int n) {
         GifFrame frame = mGifFrame;
         int i = 0;
         while (frame != null) {
             if (i == n) {
                 return frame;
             } else {
                 frame = frame.mNextFrame;
             }
             i++;
         }
         return null;
     }

     private Bitmap getPreUndisposedImage(int n) {
         Bitmap preUndisposedImage = null;
         GifFrame frame = mGifFrame;
         int i = 0;
         while (frame != null && i <= n) {
             if (frame.mDispose == 1) {
                 preUndisposedImage = frame.mImage;
             } else {
                 frame = frame.mNextFrame;
             }
             i++;
         }
         return preUndisposedImage;
     }

     public void reset() {
         mCurrentFrame = mGifFrame;
     }

     public GifFrame next() {
         if (mIsShow == false) {
             mIsShow = true;
             return mGifFrame;
         } else {
             if (mStatus == STATUS_PARSING) {
                 if (mCurrentFrame.mNextFrame != null) {
                     mCurrentFrame = mCurrentFrame.mNextFrame;
                 }
             } else {
                 mCurrentFrame = mCurrentFrame.mNextFrame;
                 if (mCurrentFrame == null) {
                     mCurrentFrame = mGifFrame;
                 }
             }
             return mCurrentFrame;
         }
     }

     private int readByte() {
         mIS = new ByteArrayInputStream(mGifData);
         mGifData = null;
         return readStream();
     }

     private int readStream() {
         init();
         if (mIS != null) {
             readHeader();
             if (!err()) {
                 readContents();
                 if (mFrameCount < 0) {
                     mStatus = STATUS_FORMAT_ERROR;
                     if (mGifAction != null) {
                         mGifAction.parseOk(false, -1);
                     }
                 } else {
                     mStatus = STATUS_FINISH;
                     if (mGifAction != null) {
                         mGifAction.parseOk(true, -1);
                     }
                 }
             }
             try {
                 mIS.close();
             } catch (Exception e) {
                 e.printStackTrace();
             }
         } else {
             mStatus = STATUS_OPEN_ERROR;
             if (mGifAction != null) {
                 mGifAction.parseOk(false, -1);
             }
         }
         return mStatus;
     }

     private void decodeImageData() {
         int NullCode = -1;
         int npix = mIw * mIh;
         int available, clear, code_mask, code_size, end_of_information, in_code, old_code,
                 bits, code, count, i, datum, data_size, first, top, bi, pi;

         if ((mPixels == null) || (mPixels.length < npix)) {
             mPixels = new byte[npix]; // allocate new pixel array
         }
         if (mPrefix == null) {
             mPrefix = new short[MaxStackSize];
         }
         if (mSuffix == null) {
             mSuffix = new byte[MaxStackSize];
         }
         if (mPixelStack == null) {
             mPixelStack = new byte[MaxStackSize + 1];
         }
         // Initialize GIF data stream decoder.
         data_size = read();
         clear = 1 << data_size;
         end_of_information = clear + 1;
         available = clear + 2;
         old_code = NullCode;
         code_size = data_size + 1;
         code_mask = (1 << code_size) - 1;
         for (code = 0; code < clear; code++) {
             mPrefix[code] = 0;
             mSuffix[code] = (byte) code;
         }

         // Decode GIF pixel stream.
         datum = bits = count = first = top = pi = bi = 0;
         for (i = 0; i < npix;) {
             if (top == 0) {
                 if (bits < code_size) {
                     // Load bytes until there are enough bits for a code.
                     if (count == 0) {
                         // Read a new data block.
                         count = readBlock();
                         if (count <= 0) {
                             break;
                         }
                         bi = 0;
                     }
                     datum += (((int) mBlock[bi]) & 0xff) << bits;
                     bits += 8;
                     bi++;
                     count--;
                     continue;
                 }
                 // Get the next code.
                 code = datum & code_mask;
                 datum >>= code_size;
                 bits -= code_size;

                 // Interpret the code
                 if ((code > available) || (code == end_of_information)) {
                     break;
                 }
                 if (code == clear) {
                     // Reset decoder.
                     code_size = data_size + 1;
                     code_mask = (1 << code_size) - 1;
                     available = clear + 2;
                     old_code = NullCode;
                     continue;
                 }
                 if (old_code == NullCode) {
                     mPixelStack[top++] = mSuffix[code];
                     old_code = code;
                     first = code;
                     continue;
                 }
                 in_code = code;
                 if (code == available) {
                     mPixelStack[top++] = (byte) first;
                     code = old_code;
                 }
                 while (code > clear) {
                     mPixelStack[top++] = mSuffix[code];
                     code = mPrefix[code];
                 }
                 first = ((int) mSuffix[code]) & 0xff;
                 // Add a new string to the string table,
                 if (available >= MaxStackSize) {
                     break;
                 }
                 mPixelStack[top++] = (byte) first;
                 mPrefix[available] = (short) old_code;
                 mSuffix[available] = (byte) first;
                 available++;
                 if (((available & code_mask) == 0)
                         && (available < MaxStackSize)) {
                     code_size++;
                     code_mask += available;
                 }
                 old_code = in_code;
             }

             // Pop a pixel off the pixel stack.
             top--;
             mPixels[pi++] = mPixelStack[top];
             i++;
         }
         for (i = pi; i < npix; i++) {
             mPixels[i] = 0; // clear missing pixels
         }
     }

     private boolean err() {
         return mStatus != STATUS_PARSING;
     }

     private void init() {
         mStatus = STATUS_PARSING;
         mFrameCount = 0;
         mGifFrame = null;
         mGct = null;
         mLct = null;
     }

     private int read() {
         int curByte = 0;
         try {
             curByte = mIS.read();
         } catch (Exception e) {
             mStatus = STATUS_FORMAT_ERROR;
         }
         return curByte;
     }

     private int readBlock() {
         mBlockSize = read();
         int n = 0;
         if (mBlockSize > 0) {
             try {
                 int count = 0;
                 while (n < mBlockSize) {
                     count = mIS.read(mBlock, n, mBlockSize - n);
                     if (count == -1) {
                         break;
                     }
                     n += count;
                 }
             } catch (Exception e) {
                 e.printStackTrace();
             }
             if (n < mBlockSize) {
                 mStatus = STATUS_FORMAT_ERROR;
             }
         }
         return n;
     }

     private int[] readColorTable(int ncolors) {
         int nbytes = 3 * ncolors;
         int[] tab = null;
         byte[] c = new byte[nbytes];
         int n = 0;
         try {
             n = mIS.read(c);
         } catch (Exception e) {
             e.printStackTrace();
         }
         if (n < nbytes) {
             mStatus = STATUS_FORMAT_ERROR;
         } else {
             tab = new int[256]; // max size to avoid bounds checks
             int i = 0;
             int j = 0;
             while (i < ncolors) {
                 int r = ((int) c[j++]) & 0xff;
                 int g = ((int) c[j++]) & 0xff;
                 int b = ((int) c[j++]) & 0xff;
                 tab[i++] = 0xff000000 | (r << 16) | (g << 8) | b;
             }
         }
         return tab;
     }

     private void readContents() {
         // read GIF file content blocks
         boolean done = false;
         while (!(done || err())) {
             int code = read();
             switch (code) {
                 case 0x2C: // image separator
                     readImage();
                     break;
                 case 0x21: // extension
                     code = read();
                     switch (code) {
                         case 0xf9: // graphics control extension
                             readGraphicControlExt();
                             break;
                         case 0xff: // application extension
                             readBlock();
                             String app = "";
                             for (int i = 0; i < 11; i++) {
                                 app += (char) mBlock[i];
                             }
                             if (app.equals("NETSCAPE2.0")) {
                                 readNetscapeExt();
                             } else {
                                 skip(); // don't care
                             }
                             break;
                         default: // uninteresting extension
                             skip();
                     }
                     break;
                 case 0x3b: // terminator
                     done = true;
                     break;
                 case 0x00: // bad byte, but keep going and see what happens
                     break;
                 default:
                     mStatus = STATUS_FORMAT_ERROR;
             }
         }
     }

     private void readGraphicControlExt() {
         read(); // block size
         int packed = read(); // packed fields
         mDispose = (packed & 0x1c) >> 2; // disposal method
         if (mDispose == 0) {
             mDispose = 1; // elect to keep old image if discretionary
         }
         mTransparency = (packed & 1) != 0;
         mDelay = readShort() * 10; // delay in milliseconds
         mTransIndex = read(); // transparent color index
         read(); // block terminator
     }

     private void readHeader() {
         String id = "";
         for (int i = 0; i < 6; i++) {
             id += (char) read();
         }
         if (!id.startsWith("GIF")) {
             mStatus = STATUS_FORMAT_ERROR;
             return;
         }
         readLSD();
         if (mGctFlag && !err()) {
             mGct = readColorTable(mGctSize);
             mBgColor = mGct[mBgIndex];
         }
     }

     private void readImage() {
         mIx = readShort(); // (sub)image position & size
         mIy = readShort();
         mIw = readShort();
         mIh = readShort();
         int packed = read();
         mLctFlag = (packed & 0x80) != 0; // 1 - local color table flag
         mInterlace = (packed & 0x40) != 0; // 2 - interlace flag
         // 3 - sort flag
         // 4-5 - reserved
         mLctSize = 2 << (packed & 7); // 6-8 - local color table size
         if (mLctFlag) {
             mLct = readColorTable(mLctSize); // read table
             mAct = mLct; // make local table active
         } else {
             mAct = mGct; // make global table active
             if (mBgIndex == mTransIndex) {
                 mBgColor = 0;
             }
         }
         int save = 0;
         if (mTransparency) {
             save = mAct[mTransIndex];
             mAct[mTransIndex] = 0; // set transparent color if specified
         }
         if (mAct == null) {
             mStatus = STATUS_FORMAT_ERROR; // no color table defined
         }
         if (err()) {
             return;
         }
         try {
             decodeImageData(); // decode pixel data
             skip();
             if (err()) {
                 return;
             }
             mFrameCount++;
             // create new image to receive frame data
             mImage = Bitmap.createBitmap(mWidth, mHeight, Config.ARGB_4444);
             // createImage(mWidth, mHeight);
             setPixels(); // transfer pixel data to image
             if (mGifFrame == null) {
                 mGifFrame = new GifFrame(mImage, mDelay, mDispose);
                 mCurrentFrame = mGifFrame;
             } else {
                 GifFrame f = mGifFrame;
                 while (f.mNextFrame != null) {
                     f = f.mNextFrame;
                 }
                 f.mNextFrame = new GifFrame(mImage, mDelay, mDispose);
             }
             // frames.addElement(new GifFrame(image, delay)); // add image to
             // frame
             // list
             if (mTransparency) {
                 mAct[mTransIndex] = save;
             }
             resetFrame();
             if (mGifAction != null) {
                 mGifAction.parseOk(true, mFrameCount);
             }
         } catch (OutOfMemoryError e) {
             Log.e("GifDecoder", ">>> log  : " + e.toString());
             e.printStackTrace();
         }
     }

     private void readLSD() {
         // logical screen size
         mWidth = readShort();
         mHeight = readShort();
         // packed fields
         int packed = read();
         mGctFlag = (packed & 0x80) != 0; // 1 : global color table flag
         // 2-4 : color resolution
         // 5 : gct sort flag
         mGctSize = 2 << (packed & 7); // 6-8 : gct size
         mBgIndex = read(); // background color index
         mPixelAspect = read(); // pixel aspect ratio
     }

     private void readNetscapeExt() {
         do {
             readBlock();
             if (mBlock[0] == 1) {
                 // loop count sub-block
                 int b1 = ((int) mBlock[1]) & 0xff;
                 int b2 = ((int) mBlock[2]) & 0xff;
                 mLoopCount = (b2 << 8) | b1;
             }
         } while ((mBlockSize > 0) && !err());
     }

     private int readShort() {
         // read 16-bit value, LSB first
         return read() | (read() << 8);
     }

     private void resetFrame() {
         mLastDispose = mDispose;
         mLrx = mIx;
         mLry = mIy;
         mLrw = mIw;
         mLrh = mIh;
         mLastImage = mImage;
         mLastBgColor = mBgColor;
         mDispose = 0;
         mTransparency = false;
         mDelay = 0;
         mLct = null;
     }

     /**
      * Skips variable length blocks up to and including next zero length block.
      */
     private void skip() {
         do {
             readBlock();
         } while ((mBlockSize > 0) && !err());
     }

     private void freeFrame() {
         GifFrame fg = mGifFrame;
         while (fg != null) {
             if (fg.mImage != null) {
                 fg.mImage.recycle();
             }
             fg.mImage = null;
             fg = null;
             mGifFrame = mGifFrame.mNextFrame;
             fg = mGifFrame;
         }
     }

     private void freeIS() {
         if (mIS != null) {
             try {
                 mIS.close();
             } catch (Exception ex) {
                 ex.printStackTrace();
             }
             mIS = null;
         }
         mGifData = null;
     }

     private void freeImage() {
         if (mImage != null) {
             mImage.recycle();
             mImage = null;
         }
         if (mLastImage != null) {
             mLastImage.recycle();
             mLastImage = null;
         }
     }
 }
	package com.android.gallery3d.util;

	import android.graphics.Bitmap;
	import android.graphics.Bitmap.Config;
	import android.util.Log;

	import java.io.ByteArrayInputStream;
	import java.io.InputStream;

	public class GifDecoder extends Thread {

	public static final int STATUS_PARSING = 0;
	public static final int STATUS_FORMAT_ERROR = 1;
	public static final int STATUS_OPEN_ERROR = 2;
	public static final int STATUS_FINISH = -1;

	private InputStream mIS;
	private int mStatus;

	public int mWidth; // full image width
	public int mHeight; // full image height
	private boolean mGctFlag; // global color table used
	private int mGctSize; // size of global color table
	private int mLoopCount = 1; // iterations; 0 = repeat forever

	private int[] mGct; // global color table
	private int[] mLct; // local color table
	private int[] mAct; // active color table

	private int mBgIndex; // background color index
	private int mBgColor; // background color
	private int mLastBgColor; // previous bg color
	private int mPixelAspect; // pixel aspect ratio

	private boolean mLctFlag; // local color table flag
	private boolean mInterlace; // interlace flag
	private int mLctSize; // local color table size

	private int mIx, mIy, mIw, mIh; // current image rectangle
	private int mLrx, mLry, mLrw, mLrh;
	private Bitmap mImage; // current frame
	private Bitmap mLastImage; // previous frame
	private GifFrame mCurrentFrame = null;

	private boolean mIsShow = false;

	private byte[] mBlock = new byte[256]; // current data block
	private int mBlockSize = 0; // block size
	private int mDispose = 0;
	private int mLastDispose = 0;
	private boolean mTransparency = false; // use transparent color
	private int mDelay = 0; // delay in milliseconds
	private int mTransIndex; // transparent color index

	// max decoder pixel stack size
	private static final int MaxStackSize = 4096;

	// LZW decoder working arrays
	private short[] mPrefix;
	private byte[] mSuffix;
	private byte[] mPixelStack;
	private byte[] mPixels;

	private GifFrame mGifFrame; // frames read from current file
	private int mFrameCount;

	private GifAction mGifAction = null;

	private byte[] mGifData = null;

	public GifDecoder(byte[] data, GifAction act) {
	mGifData = data;
	mGifAction = act;
	}

	public GifDecoder(InputStream is, GifAction act) {
	mIS = is;
	mGifAction = act;
	}

	public void run() {
	if (mIS != null) {
	readStream();
	} else if (mGifData != null) {
	readByte();
	}
	}

	public void free() {
	freeFrame();
	freeIS();
	freeImage();
	}

	public int getStatus() {
	return mStatus;
	}

	public boolean parseOk() {
	return mStatus == STATUS_FINISH;
	}

	public int getDelay(int n) {
	mDelay = -1;
	if ((n >= 0) && (n < mFrameCount)) {
	GifFrame f = getFrame(n);
	if (f != null) {
	mDelay = f.mDelayInMs;
	}
	}
	return mDelay;
	}

	public int[] getDelays() {
	GifFrame f = mGifFrame;
	int[] d = new int[mFrameCount];
	int i = 0;
	while (f != null && i < mFrameCount) {
	d[i] = f.mDelayInMs;
	f = f.mNextFrame;
	i++;
	}
	return d;
	}

	public int getFrameCount() {
	return mFrameCount;
	}

	public Bitmap getImage() {
	return getFrameImage(0);
	}

	public int getLoopCount() {
	return mLoopCount;
	}

	private void setPixels() {
	int[] dest = new int[mWidth * mHeight];
	// fill in starting image contents based on last image's dispose code
	if (mLastDispose > 0) {
	if (mLastDispose == 3) {
	// use image before last
	int n = mFrameCount - 2;
	if (n > 0) {
	mLastImage = getPreUndisposedImage(n - 1);
	} else {
	mLastImage = null;
	}
	}
	if (mLastImage != null) {
	mLastImage.getPixels(dest, 0, mWidth, 0, 0, mWidth, mHeight);
	// copy pixels
	if (mLastDispose == 2) {
	// fill last image rect area with background color
	int c = 0;
	if (!mTransparency) {
	c = mLastBgColor;
	}
	for (int i = 0; i < mLrh; i++) {
	int n1 = (mLry + i) * mWidth + mLrx;
	int n2 = n1 + mLrw;
	for (int k = n1; k < n2; k++) {
	dest[k] = c;
	}
	}
	}
	}
	}

	// copy each source line to the appropriate place in the destination
	int pass = 1;
	int inc = 8;
	int iline = 0;
	for (int i = 0; i < mIh; i++) {
	int line = i;
	if (mInterlace) {
	if (iline >= mIh) {
	pass++;
	switch (pass) {
	case 2:
	iline = 4;
	break;
	case 3:
	iline = 2;
	inc = 4;
	break;
	case 4:
	iline = 1;
	inc = 2;
	}
	}
	line = iline;
	iline += inc;
	}
	line += mIy;
	if (line < mHeight) {
	int k = line * mWidth;
	int dx = k + mIx; // start of line in dest
	int dlim = dx + mIw; // end of dest line
	if ((k + mWidth) < dlim) {
	dlim = k + mWidth; // past dest edge
	}
	int sx = i * mIw; // start of line in source
	while (dx < dlim) {
	// map color and insert in destination
	int index = ((int) mPixels[sx++]) & 0xff;
	int c = mAct[index];
	if (c != 0) {
	dest[dx] = c;
	}
	dx++;
	}
	}
	}
	mImage = Bitmap.createBitmap(dest, mWidth, mHeight, Config.ARGB_4444);
	}

	public Bitmap getFrameImage(int n) {
	GifFrame frame = getFrame(n);
	if (frame == null) {
	return null;
	} else {
	return frame.mImage;
	}
	}

	public GifFrame getCurrentFrame() {
	return mCurrentFrame;
	}

	public GifFrame getFrame(int n) {
	GifFrame frame = mGifFrame;
	int i = 0;
	while (frame != null) {
	if (i == n) {
	return frame;
	} else {
	frame = frame.mNextFrame;
	}
	i++;
	}
	return null;
	}

	private Bitmap getPreUndisposedImage(int n) {
	Bitmap preUndisposedImage = null;
	GifFrame frame = mGifFrame;
	int i = 0;
	while (frame != null && i <= n) {
	if (frame.mDispose == 1) {
	preUndisposedImage = frame.mImage;
	} else {
	frame = frame.mNextFrame;
	}
	i++;
	}
	return preUndisposedImage;
	}

	public void reset() {
	mCurrentFrame = mGifFrame;
	}

	public GifFrame next() {
	if (mIsShow == false) {
	mIsShow = true;
	return mGifFrame;
	} else {
	if (mStatus == STATUS_PARSING) {
	if (mCurrentFrame.mNextFrame != null) {
	mCurrentFrame = mCurrentFrame.mNextFrame;
	}
	} else {
	mCurrentFrame = mCurrentFrame.mNextFrame;
	if (mCurrentFrame == null) {
	mCurrentFrame = mGifFrame;
	}
	}
	return mCurrentFrame;
	}
	}

	private int readByte() {
	mIS = new ByteArrayInputStream(mGifData);
	mGifData = null;
	return readStream();
	}

	private int readStream() {
	init();
	if (mIS != null) {
	readHeader();
	if (!err()) {
	readContents();
	if (mFrameCount < 0) {
	mStatus = STATUS_FORMAT_ERROR;
	if (mGifAction != null) {
	mGifAction.parseOk(false, -1);
	}
	} else {
	mStatus = STATUS_FINISH;
	if (mGifAction != null) {
	mGifAction.parseOk(true, -1);
	}
	}
	}
	try {
	mIS.close();
	} catch (Exception e) {
	e.printStackTrace();
	}
	} else {
	mStatus = STATUS_OPEN_ERROR;
	if (mGifAction != null) {
	mGifAction.parseOk(false, -1);
	}
	}
	return mStatus;
	}

	private void decodeImageData() {
	int NullCode = -1;
	int npix = mIw * mIh;
	int available, clear, code_mask, code_size, end_of_information, in_code, old_code,
	bits, code, count, i, datum, data_size, first, top, bi, pi;

	if ((mPixels == null) \|\| (mPixels.length < npix)) {
	mPixels = new byte[npix]; // allocate new pixel array
	}
	if (mPrefix == null) {
	mPrefix = new short[MaxStackSize];
	}
	if (mSuffix == null) {
	mSuffix = new byte[MaxStackSize];
	}
	if (mPixelStack == null) {
	mPixelStack = new byte[MaxStackSize + 1];
	}
	// Initialize GIF data stream decoder.
	data_size = read();
	clear = 1 << data_size;
	end_of_information = clear + 1;
	available = clear + 2;
	old_code = NullCode;
	code_size = data_size + 1;
	code_mask = (1 << code_size) - 1;
	for (code = 0; code < clear; code++) {
	mPrefix[code] = 0;
	mSuffix[code] = (byte) code;
	}

	// Decode GIF pixel stream.
	datum = bits = count = first = top = pi = bi = 0;
	for (i = 0; i < npix;) {
	if (top == 0) {
	if (bits < code_size) {
	// Load bytes until there are enough bits for a code.
	if (count == 0) {
	// Read a new data block.
	count = readBlock();
	if (count <= 0) {
	break;
	}
	bi = 0;
	}
	datum += (((int) mBlock[bi]) & 0xff) << bits;
	bits += 8;
	bi++;
	count--;
	continue;
	}
	// Get the next code.
	code = datum & code_mask;
	datum >>= code_size;
	bits -= code_size;

	// Interpret the code
	if ((code > available) \|\| (code == end_of_information)) {
	break;
	}
	if (code == clear) {
	// Reset decoder.
	code_size = data_size + 1;
	code_mask = (1 << code_size) - 1;
	available = clear + 2;
	old_code = NullCode;
	continue;
	}
	if (old_code == NullCode) {
	mPixelStack[top++] = mSuffix[code];
	old_code = code;
	first = code;
	continue;
	}
	in_code = code;
	if (code == available) {
	mPixelStack[top++] = (byte) first;
	code = old_code;
	}
	while (code > clear) {
	mPixelStack[top++] = mSuffix[code];
	code = mPrefix[code];
	}
	first = ((int) mSuffix[code]) & 0xff;
	// Add a new string to the string table,
	if (available >= MaxStackSize) {
	break;
	}
	mPixelStack[top++] = (byte) first;
	mPrefix[available] = (short) old_code;
	mSuffix[available] = (byte) first;
	available++;
	if (((available & code_mask) == 0)
	&& (available < MaxStackSize)) {
	code_size++;
	code_mask += available;
	}
	old_code = in_code;
	}

	// Pop a pixel off the pixel stack.
	top--;
	mPixels[pi++] = mPixelStack[top];
	i++;
	}
	for (i = pi; i < npix; i++) {
	mPixels[i] = 0; // clear missing pixels
	}
	}

	private boolean err() {
	return mStatus != STATUS_PARSING;
	}

	private void init() {
	mStatus = STATUS_PARSING;
	mFrameCount = 0;
	mGifFrame = null;
	mGct = null;
	mLct = null;
	}

	private int read() {
	int curByte = 0;
	try {
	curByte = mIS.read();
	} catch (Exception e) {
	mStatus = STATUS_FORMAT_ERROR;
	}
	return curByte;
	}

	private int readBlock() {
	mBlockSize = read();
	int n = 0;
	if (mBlockSize > 0) {
	try {
	int count = 0;
	while (n < mBlockSize) {
	count = mIS.read(mBlock, n, mBlockSize - n);
	if (count == -1) {
	break;
	}
	n += count;
	}
	} catch (Exception e) {
	e.printStackTrace();
	}
	if (n < mBlockSize) {
	mStatus = STATUS_FORMAT_ERROR;
	}
	}
	return n;
	}

	private int[] readColorTable(int ncolors) {
	int nbytes = 3 * ncolors;
	int[] tab = null;
	byte[] c = new byte[nbytes];
	int n = 0;
	try {
	n = mIS.read(c);
	} catch (Exception e) {
	e.printStackTrace();
	}
	if (n < nbytes) {
	mStatus = STATUS_FORMAT_ERROR;
	} else {
	tab = new int[256]; // max size to avoid bounds checks
	int i = 0;
	int j = 0;
	while (i < ncolors) {
	int r = ((int) c[j++]) & 0xff;
	int g = ((int) c[j++]) & 0xff;
	int b = ((int) c[j++]) & 0xff;
	tab[i++] = 0xff000000 \| (r << 16) \| (g << 8) \| b;
	}
	}
	return tab;
	}

	private void readContents() {
	// read GIF file content blocks
	boolean done = false;
	while (!(done \|\| err())) {
	int code = read();
	switch (code) {
	case 0x2C: // image separator
	readImage();
	break;
	case 0x21: // extension
	code = read();
	switch (code) {
	case 0xf9: // graphics control extension
	readGraphicControlExt();
	break;
	case 0xff: // application extension
	readBlock();
	String app = "";
	for (int i = 0; i < 11; i++) {
	app += (char) mBlock[i];
	}
	if (app.equals("NETSCAPE2.0")) {
	readNetscapeExt();
	} else {
	skip(); // don't care
	}
	break;
	default: // uninteresting extension
	skip();
	}
	break;
	case 0x3b: // terminator
	done = true;
	break;
	case 0x00: // bad byte, but keep going and see what happens
	break;
	default:
	mStatus = STATUS_FORMAT_ERROR;
	}
	}
	}

	private void readGraphicControlExt() {
	read(); // block size
	int packed = read(); // packed fields
	mDispose = (packed & 0x1c) >> 2; // disposal method
	if (mDispose == 0) {
	mDispose = 1; // elect to keep old image if discretionary
	}
	mTransparency = (packed & 1) != 0;
	mDelay = readShort() * 10; // delay in milliseconds
	mTransIndex = read(); // transparent color index
	read(); // block terminator
	}

	private void readHeader() {
	String id = "";
	for (int i = 0; i < 6; i++) {
	id += (char) read();
	}
	if (!id.startsWith("GIF")) {
	mStatus = STATUS_FORMAT_ERROR;
	return;
	}
	readLSD();
	if (mGctFlag && !err()) {
	mGct = readColorTable(mGctSize);
	mBgColor = mGct[mBgIndex];
	}
	}

	private void readImage() {
	mIx = readShort(); // (sub)image position & size
	mIy = readShort();
	mIw = readShort();
	mIh = readShort();
	int packed = read();
	mLctFlag = (packed & 0x80) != 0; // 1 - local color table flag
	mInterlace = (packed & 0x40) != 0; // 2 - interlace flag
	// 3 - sort flag
	// 4-5 - reserved
	mLctSize = 2 << (packed & 7); // 6-8 - local color table size
	if (mLctFlag) {
	mLct = readColorTable(mLctSize); // read table
	mAct = mLct; // make local table active
	} else {
	mAct = mGct; // make global table active
	if (mBgIndex == mTransIndex) {
	mBgColor = 0;
	}
	}
	int save = 0;
	if (mTransparency) {
	save = mAct[mTransIndex];
	mAct[mTransIndex] = 0; // set transparent color if specified
	}
	if (mAct == null) {
	mStatus = STATUS_FORMAT_ERROR; // no color table defined
	}
	if (err()) {
	return;
	}
	try {
	decodeImageData(); // decode pixel data
	skip();
	if (err()) {
	return;
	}
	mFrameCount++;
	// create new image to receive frame data
	mImage = Bitmap.createBitmap(mWidth, mHeight, Config.ARGB_4444);
	// createImage(mWidth, mHeight);
	setPixels(); // transfer pixel data to image
	if (mGifFrame == null) {
	mGifFrame = new GifFrame(mImage, mDelay, mDispose);
	mCurrentFrame = mGifFrame;
	} else {
	GifFrame f = mGifFrame;
	while (f.mNextFrame != null) {
	f = f.mNextFrame;
	}
	f.mNextFrame = new GifFrame(mImage, mDelay, mDispose);
	}
	// frames.addElement(new GifFrame(image, delay)); // add image to
	// frame
	// list
	if (mTransparency) {
	mAct[mTransIndex] = save;
	}
	resetFrame();
	if (mGifAction != null) {
	mGifAction.parseOk(true, mFrameCount);
	}
	} catch (OutOfMemoryError e) {
	Log.e("GifDecoder", ">>> log : " + e.toString());
	e.printStackTrace();
	}
	}

	private void readLSD() {
	// logical screen size
	mWidth = readShort();
	mHeight = readShort();
	// packed fields
	int packed = read();
	mGctFlag = (packed & 0x80) != 0; // 1 : global color table flag
	// 2-4 : color resolution
	// 5 : gct sort flag
	mGctSize = 2 << (packed & 7); // 6-8 : gct size
	mBgIndex = read(); // background color index
	mPixelAspect = read(); // pixel aspect ratio
	}

	private void readNetscapeExt() {
	do {
	readBlock();
	if (mBlock[0] == 1) {
	// loop count sub-block
	int b1 = ((int) mBlock[1]) & 0xff;
	int b2 = ((int) mBlock[2]) & 0xff;
	mLoopCount = (b2 << 8) \| b1;
	}
	} while ((mBlockSize > 0) && !err());
	}

	private int readShort() {
	// read 16-bit value, LSB first
	return read() \| (read() << 8);
	}

	private void resetFrame() {
	mLastDispose = mDispose;
	mLrx = mIx;
	mLry = mIy;
	mLrw = mIw;
	mLrh = mIh;
	mLastImage = mImage;
	mLastBgColor = mBgColor;
	mDispose = 0;
	mTransparency = false;
	mDelay = 0;
	mLct = null;
	}

	/**
	* Skips variable length blocks up to and including next zero length block.
	*/
	private void skip() {
	do {
	readBlock();
	} while ((mBlockSize > 0) && !err());
	}

	private void freeFrame() {
	GifFrame fg = mGifFrame;
	while (fg != null) {
	if (fg.mImage != null) {
	fg.mImage.recycle();
	}
	fg.mImage = null;
	fg = null;
	mGifFrame = mGifFrame.mNextFrame;
	fg = mGifFrame;
	}
	}

	private void freeIS() {
	if (mIS != null) {
	try {
	mIS.close();
	} catch (Exception ex) {
	ex.printStackTrace();
	}
	mIS = null;
	}
	mGifData = null;
	}

	private void freeImage() {
	if (mImage != null) {
	mImage.recycle();
	mImage = null;
	}
	if (mLastImage != null) {
	mLastImage.recycle();
	mLastImage = null;
	}
	}
	}