diff options
Diffstat (limited to 'src/com/android/gallery3d')
28 files changed, 0 insertions, 8741 deletions
diff --git a/src/com/android/gallery3d/common/BitmapUtils.java b/src/com/android/gallery3d/common/BitmapUtils.java deleted file mode 100644 index a671ed2b9..000000000 --- a/src/com/android/gallery3d/common/BitmapUtils.java +++ /dev/null @@ -1,260 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.common; - -import android.graphics.Bitmap; -import android.graphics.Bitmap.CompressFormat; -import android.graphics.BitmapFactory; -import android.graphics.Canvas; -import android.graphics.Matrix; -import android.graphics.Paint; -import android.os.Build; -import android.util.FloatMath; -import android.util.Log; - -import java.io.ByteArrayOutputStream; -import java.lang.reflect.InvocationTargetException; -import java.lang.reflect.Method; - -public class BitmapUtils { - private static final String TAG = "BitmapUtils"; - private static final int DEFAULT_JPEG_QUALITY = 90; - public static final int UNCONSTRAINED = -1; - - private BitmapUtils(){} - - /* - * Compute the sample size as a function of minSideLength - * and maxNumOfPixels. - * minSideLength is used to specify that minimal width or height of a - * bitmap. - * maxNumOfPixels is used to specify the maximal size in pixels that is - * tolerable in terms of memory usage. - * - * The function returns a sample size based on the constraints. - * Both size and minSideLength can be passed in as UNCONSTRAINED, - * which indicates no care of the corresponding constraint. - * The functions prefers returning a sample size that - * generates a smaller bitmap, unless minSideLength = UNCONSTRAINED. - * - * Also, the function rounds up the sample size to a power of 2 or multiple - * of 8 because BitmapFactory only honors sample size this way. - * For example, BitmapFactory downsamples an image by 2 even though the - * request is 3. So we round up the sample size to avoid OOM. - */ - public static int computeSampleSize(int width, int height, - int minSideLength, int maxNumOfPixels) { - int initialSize = computeInitialSampleSize( - width, height, minSideLength, maxNumOfPixels); - - return initialSize <= 8 - ? Utils.nextPowerOf2(initialSize) - : (initialSize + 7) / 8 * 8; - } - - private static int computeInitialSampleSize(int w, int h, - int minSideLength, int maxNumOfPixels) { - if (maxNumOfPixels == UNCONSTRAINED - && minSideLength == UNCONSTRAINED) return 1; - - int lowerBound = (maxNumOfPixels == UNCONSTRAINED) ? 1 : - (int) FloatMath.ceil(FloatMath.sqrt((float) (w * h) / maxNumOfPixels)); - - if (minSideLength == UNCONSTRAINED) { - return lowerBound; - } else { - int sampleSize = Math.min(w / minSideLength, h / minSideLength); - return Math.max(sampleSize, lowerBound); - } - } - - // This computes a sample size which makes the longer side at least - // minSideLength long. If that's not possible, return 1. - public static int computeSampleSizeLarger(int w, int h, - int minSideLength) { - int initialSize = Math.max(w / minSideLength, h / minSideLength); - if (initialSize <= 1) return 1; - - return initialSize <= 8 - ? Utils.prevPowerOf2(initialSize) - : initialSize / 8 * 8; - } - - // Find the min x that 1 / x >= scale - public static int computeSampleSizeLarger(float scale) { - int initialSize = (int) FloatMath.floor(1f / scale); - if (initialSize <= 1) return 1; - - return initialSize <= 8 - ? Utils.prevPowerOf2(initialSize) - : initialSize / 8 * 8; - } - - // Find the max x that 1 / x <= scale. - public static int computeSampleSize(float scale) { - Utils.assertTrue(scale > 0); - int initialSize = Math.max(1, (int) FloatMath.ceil(1 / scale)); - return initialSize <= 8 - ? Utils.nextPowerOf2(initialSize) - : (initialSize + 7) / 8 * 8; - } - - public static Bitmap resizeBitmapByScale( - Bitmap bitmap, float scale, boolean recycle) { - int width = Math.round(bitmap.getWidth() * scale); - int height = Math.round(bitmap.getHeight() * scale); - if (width == bitmap.getWidth() - && height == bitmap.getHeight()) return bitmap; - Bitmap target = Bitmap.createBitmap(width, height, getConfig(bitmap)); - Canvas canvas = new Canvas(target); - canvas.scale(scale, scale); - Paint paint = new Paint(Paint.FILTER_BITMAP_FLAG | Paint.DITHER_FLAG); - canvas.drawBitmap(bitmap, 0, 0, paint); - if (recycle) bitmap.recycle(); - return target; - } - - private static Bitmap.Config getConfig(Bitmap bitmap) { - Bitmap.Config config = bitmap.getConfig(); - if (config == null) { - config = Bitmap.Config.ARGB_8888; - } - return config; - } - - public static Bitmap resizeDownBySideLength( - Bitmap bitmap, int maxLength, boolean recycle) { - int srcWidth = bitmap.getWidth(); - int srcHeight = bitmap.getHeight(); - float scale = Math.min( - (float) maxLength / srcWidth, (float) maxLength / srcHeight); - if (scale >= 1.0f) return bitmap; - return resizeBitmapByScale(bitmap, scale, recycle); - } - - public static Bitmap resizeAndCropCenter(Bitmap bitmap, int size, boolean recycle) { - int w = bitmap.getWidth(); - int h = bitmap.getHeight(); - if (w == size && h == size) return bitmap; - - // scale the image so that the shorter side equals to the target; - // the longer side will be center-cropped. - float scale = (float) size / Math.min(w, h); - - Bitmap target = Bitmap.createBitmap(size, size, getConfig(bitmap)); - int width = Math.round(scale * bitmap.getWidth()); - int height = Math.round(scale * bitmap.getHeight()); - Canvas canvas = new Canvas(target); - canvas.translate((size - width) / 2f, (size - height) / 2f); - canvas.scale(scale, scale); - Paint paint = new Paint(Paint.FILTER_BITMAP_FLAG | Paint.DITHER_FLAG); - canvas.drawBitmap(bitmap, 0, 0, paint); - if (recycle) bitmap.recycle(); - return target; - } - - public static void recycleSilently(Bitmap bitmap) { - if (bitmap == null) return; - try { - bitmap.recycle(); - } catch (Throwable t) { - Log.w(TAG, "unable recycle bitmap", t); - } - } - - public static Bitmap rotateBitmap(Bitmap source, int rotation, boolean recycle) { - if (rotation == 0) return source; - int w = source.getWidth(); - int h = source.getHeight(); - Matrix m = new Matrix(); - m.postRotate(rotation); - Bitmap bitmap = Bitmap.createBitmap(source, 0, 0, w, h, m, true); - if (recycle) source.recycle(); - return bitmap; - } - - public static Bitmap createVideoThumbnail(String filePath) { - // MediaMetadataRetriever is available on API Level 8 - // but is hidden until API Level 10 - Class<?> clazz = null; - Object instance = null; - try { - clazz = Class.forName("android.media.MediaMetadataRetriever"); - instance = clazz.newInstance(); - - Method method = clazz.getMethod("setDataSource", String.class); - method.invoke(instance, filePath); - - // The method name changes between API Level 9 and 10. - if (Build.VERSION.SDK_INT <= 9) { - return (Bitmap) clazz.getMethod("captureFrame").invoke(instance); - } else { - byte[] data = (byte[]) clazz.getMethod("getEmbeddedPicture").invoke(instance); - if (data != null) { - Bitmap bitmap = BitmapFactory.decodeByteArray(data, 0, data.length); - if (bitmap != null) return bitmap; - } - return (Bitmap) clazz.getMethod("getFrameAtTime").invoke(instance); - } - } catch (IllegalArgumentException ex) { - // Assume this is a corrupt video file - } catch (RuntimeException ex) { - // Assume this is a corrupt video file. - } catch (InstantiationException e) { - Log.e(TAG, "createVideoThumbnail", e); - } catch (InvocationTargetException e) { - Log.e(TAG, "createVideoThumbnail", e); - } catch (ClassNotFoundException e) { - Log.e(TAG, "createVideoThumbnail", e); - } catch (NoSuchMethodException e) { - Log.e(TAG, "createVideoThumbnail", e); - } catch (IllegalAccessException e) { - Log.e(TAG, "createVideoThumbnail", e); - } finally { - try { - if (instance != null) { - clazz.getMethod("release").invoke(instance); - } - } catch (Exception ignored) { - } - } - return null; - } - - public static byte[] compressToBytes(Bitmap bitmap) { - return compressToBytes(bitmap, DEFAULT_JPEG_QUALITY); - } - - public static byte[] compressToBytes(Bitmap bitmap, int quality) { - ByteArrayOutputStream baos = new ByteArrayOutputStream(65536); - bitmap.compress(CompressFormat.JPEG, quality, baos); - return baos.toByteArray(); - } - - public static boolean isSupportedByRegionDecoder(String mimeType) { - if (mimeType == null) return false; - mimeType = mimeType.toLowerCase(); - return mimeType.startsWith("image/") && - (!mimeType.equals("image/gif") && !mimeType.endsWith("bmp")); - } - - public static boolean isRotationSupported(String mimeType) { - if (mimeType == null) return false; - mimeType = mimeType.toLowerCase(); - return mimeType.equals("image/jpeg"); - } -} diff --git a/src/com/android/gallery3d/common/Utils.java b/src/com/android/gallery3d/common/Utils.java deleted file mode 100644 index 614a081c8..000000000 --- a/src/com/android/gallery3d/common/Utils.java +++ /dev/null @@ -1,340 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.common; - -import android.content.Context; -import android.content.pm.PackageInfo; -import android.content.pm.PackageManager.NameNotFoundException; -import android.database.Cursor; -import android.os.Build; -import android.os.ParcelFileDescriptor; -import android.text.TextUtils; -import android.util.Log; - -import java.io.Closeable; -import java.io.IOException; -import java.io.InterruptedIOException; - -public class Utils { - private static final String TAG = "Utils"; - private static final String DEBUG_TAG = "GalleryDebug"; - - private static final long POLY64REV = 0x95AC9329AC4BC9B5L; - private static final long INITIALCRC = 0xFFFFFFFFFFFFFFFFL; - - private static long[] sCrcTable = new long[256]; - - private static final boolean IS_DEBUG_BUILD = - Build.TYPE.equals("eng") || Build.TYPE.equals("userdebug"); - - private static final String MASK_STRING = "********************************"; - - // Throws AssertionError if the input is false. - public static void assertTrue(boolean cond) { - if (!cond) { - throw new AssertionError(); - } - } - - // Throws AssertionError with the message. We had a method having the form - // assertTrue(boolean cond, String message, Object ... args); - // However a call to that method will cause memory allocation even if the - // condition is false (due to autoboxing generated by "Object ... args"), - // so we don't use that anymore. - public static void fail(String message, Object ... args) { - throw new AssertionError( - args.length == 0 ? message : String.format(message, args)); - } - - // Throws NullPointerException if the input is null. - public static <T> T checkNotNull(T object) { - if (object == null) throw new NullPointerException(); - return object; - } - - // Returns true if two input Object are both null or equal - // to each other. - public static boolean equals(Object a, Object b) { - return (a == b) || (a == null ? false : a.equals(b)); - } - - // Returns the next power of two. - // Returns the input if it is already power of 2. - // Throws IllegalArgumentException if the input is <= 0 or - // the answer overflows. - public static int nextPowerOf2(int n) { - if (n <= 0 || n > (1 << 30)) throw new IllegalArgumentException("n is invalid: " + n); - n -= 1; - n |= n >> 16; - n |= n >> 8; - n |= n >> 4; - n |= n >> 2; - n |= n >> 1; - return n + 1; - } - - // Returns the previous power of two. - // Returns the input if it is already power of 2. - // Throws IllegalArgumentException if the input is <= 0 - public static int prevPowerOf2(int n) { - if (n <= 0) throw new IllegalArgumentException(); - return Integer.highestOneBit(n); - } - - // Returns the input value x clamped to the range [min, max]. - public static int clamp(int x, int min, int max) { - if (x > max) return max; - if (x < min) return min; - return x; - } - - // Returns the input value x clamped to the range [min, max]. - public static float clamp(float x, float min, float max) { - if (x > max) return max; - if (x < min) return min; - return x; - } - - // Returns the input value x clamped to the range [min, max]. - public static long clamp(long x, long min, long max) { - if (x > max) return max; - if (x < min) return min; - return x; - } - - public static boolean isOpaque(int color) { - return color >>> 24 == 0xFF; - } - - public static void swap(int[] array, int i, int j) { - int temp = array[i]; - array[i] = array[j]; - array[j] = temp; - } - - /** - * A function thats returns a 64-bit crc for string - * - * @param in input string - * @return a 64-bit crc value - */ - public static final long crc64Long(String in) { - if (in == null || in.length() == 0) { - return 0; - } - return crc64Long(getBytes(in)); - } - - static { - // http://bioinf.cs.ucl.ac.uk/downloads/crc64/crc64.c - long part; - for (int i = 0; i < 256; i++) { - part = i; - for (int j = 0; j < 8; j++) { - long x = ((int) part & 1) != 0 ? POLY64REV : 0; - part = (part >> 1) ^ x; - } - sCrcTable[i] = part; - } - } - - public static final long crc64Long(byte[] buffer) { - long crc = INITIALCRC; - for (int k = 0, n = buffer.length; k < n; ++k) { - crc = sCrcTable[(((int) crc) ^ buffer[k]) & 0xff] ^ (crc >> 8); - } - return crc; - } - - public static byte[] getBytes(String in) { - byte[] result = new byte[in.length() * 2]; - int output = 0; - for (char ch : in.toCharArray()) { - result[output++] = (byte) (ch & 0xFF); - result[output++] = (byte) (ch >> 8); - } - return result; - } - - public static void closeSilently(Closeable c) { - if (c == null) return; - try { - c.close(); - } catch (IOException t) { - Log.w(TAG, "close fail ", t); - } - } - - public static int compare(long a, long b) { - return a < b ? -1 : a == b ? 0 : 1; - } - - public static int ceilLog2(float value) { - int i; - for (i = 0; i < 31; i++) { - if ((1 << i) >= value) break; - } - return i; - } - - public static int floorLog2(float value) { - int i; - for (i = 0; i < 31; i++) { - if ((1 << i) > value) break; - } - return i - 1; - } - - public static void closeSilently(ParcelFileDescriptor fd) { - try { - if (fd != null) fd.close(); - } catch (Throwable t) { - Log.w(TAG, "fail to close", t); - } - } - - public static void closeSilently(Cursor cursor) { - try { - if (cursor != null) cursor.close(); - } catch (Throwable t) { - Log.w(TAG, "fail to close", t); - } - } - - public static float interpolateAngle( - float source, float target, float progress) { - // interpolate the angle from source to target - // We make the difference in the range of [-179, 180], this is the - // shortest path to change source to target. - float diff = target - source; - if (diff < 0) diff += 360f; - if (diff > 180) diff -= 360f; - - float result = source + diff * progress; - return result < 0 ? result + 360f : result; - } - - public static float interpolateScale( - float source, float target, float progress) { - return source + progress * (target - source); - } - - public static String ensureNotNull(String value) { - return value == null ? "" : value; - } - - public static float parseFloatSafely(String content, float defaultValue) { - if (content == null) return defaultValue; - try { - return Float.parseFloat(content); - } catch (NumberFormatException e) { - return defaultValue; - } - } - - public static int parseIntSafely(String content, int defaultValue) { - if (content == null) return defaultValue; - try { - return Integer.parseInt(content); - } catch (NumberFormatException e) { - return defaultValue; - } - } - - public static boolean isNullOrEmpty(String exifMake) { - return TextUtils.isEmpty(exifMake); - } - - public static void waitWithoutInterrupt(Object object) { - try { - object.wait(); - } catch (InterruptedException e) { - Log.w(TAG, "unexpected interrupt: " + object); - } - } - - public static boolean handleInterrruptedException(Throwable e) { - // A helper to deal with the interrupt exception - // If an interrupt detected, we will setup the bit again. - if (e instanceof InterruptedIOException - || e instanceof InterruptedException) { - Thread.currentThread().interrupt(); - return true; - } - return false; - } - - /** - * @return String with special XML characters escaped. - */ - public static String escapeXml(String s) { - StringBuilder sb = new StringBuilder(); - for (int i = 0, len = s.length(); i < len; ++i) { - char c = s.charAt(i); - switch (c) { - case '<': sb.append("<"); break; - case '>': sb.append(">"); break; - case '\"': sb.append("""); break; - case '\'': sb.append("'"); break; - case '&': sb.append("&"); break; - default: sb.append(c); - } - } - return sb.toString(); - } - - public static String getUserAgent(Context context) { - PackageInfo packageInfo; - try { - packageInfo = context.getPackageManager().getPackageInfo(context.getPackageName(), 0); - } catch (NameNotFoundException e) { - throw new IllegalStateException("getPackageInfo failed"); - } - return String.format("%s/%s; %s/%s/%s/%s; %s/%s/%s", - packageInfo.packageName, - packageInfo.versionName, - Build.BRAND, - Build.DEVICE, - Build.MODEL, - Build.ID, - Build.VERSION.SDK_INT, - Build.VERSION.RELEASE, - Build.VERSION.INCREMENTAL); - } - - public static String[] copyOf(String[] source, int newSize) { - String[] result = new String[newSize]; - newSize = Math.min(source.length, newSize); - System.arraycopy(source, 0, result, 0, newSize); - return result; - } - - // Mask information for debugging only. It returns <code>info.toString()</code> directly - // for debugging build (i.e., 'eng' and 'userdebug') and returns a mask ("****") - // in release build to protect the information (e.g. for privacy issue). - public static String maskDebugInfo(Object info) { - if (info == null) return null; - String s = info.toString(); - int length = Math.min(s.length(), MASK_STRING.length()); - return IS_DEBUG_BUILD ? s : MASK_STRING.substring(0, length); - } - - // This method should be ONLY used for debugging. - public static void debug(String message, Object ... args) { - Log.v(DEBUG_TAG, String.format(message, args)); - } -} diff --git a/src/com/android/gallery3d/exif/ByteBufferInputStream.java b/src/com/android/gallery3d/exif/ByteBufferInputStream.java deleted file mode 100644 index 7fb9f22cc..000000000 --- a/src/com/android/gallery3d/exif/ByteBufferInputStream.java +++ /dev/null @@ -1,48 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import java.io.InputStream; -import java.nio.ByteBuffer; - -class ByteBufferInputStream extends InputStream { - - private ByteBuffer mBuf; - - public ByteBufferInputStream(ByteBuffer buf) { - mBuf = buf; - } - - @Override - public int read() { - if (!mBuf.hasRemaining()) { - return -1; - } - return mBuf.get() & 0xFF; - } - - @Override - public int read(byte[] bytes, int off, int len) { - if (!mBuf.hasRemaining()) { - return -1; - } - - len = Math.min(len, mBuf.remaining()); - mBuf.get(bytes, off, len); - return len; - } -} diff --git a/src/com/android/gallery3d/exif/CountedDataInputStream.java b/src/com/android/gallery3d/exif/CountedDataInputStream.java deleted file mode 100644 index dfd4a1a10..000000000 --- a/src/com/android/gallery3d/exif/CountedDataInputStream.java +++ /dev/null @@ -1,136 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import java.io.EOFException; -import java.io.FilterInputStream; -import java.io.IOException; -import java.io.InputStream; -import java.nio.ByteBuffer; -import java.nio.ByteOrder; -import java.nio.charset.Charset; - -class CountedDataInputStream extends FilterInputStream { - - private int mCount = 0; - - // allocate a byte buffer for a long value; - private final byte mByteArray[] = new byte[8]; - private final ByteBuffer mByteBuffer = ByteBuffer.wrap(mByteArray); - - protected CountedDataInputStream(InputStream in) { - super(in); - } - - public int getReadByteCount() { - return mCount; - } - - @Override - public int read(byte[] b) throws IOException { - int r = in.read(b); - mCount += (r >= 0) ? r : 0; - return r; - } - - @Override - public int read(byte[] b, int off, int len) throws IOException { - int r = in.read(b, off, len); - mCount += (r >= 0) ? r : 0; - return r; - } - - @Override - public int read() throws IOException { - int r = in.read(); - mCount += (r >= 0) ? 1 : 0; - return r; - } - - @Override - public long skip(long length) throws IOException { - long skip = in.skip(length); - mCount += skip; - return skip; - } - - public void skipOrThrow(long length) throws IOException { - if (skip(length) != length) throw new EOFException(); - } - - public void skipTo(long target) throws IOException { - long cur = mCount; - long diff = target - cur; - assert(diff >= 0); - skipOrThrow(diff); - } - - public void readOrThrow(byte[] b, int off, int len) throws IOException { - int r = read(b, off, len); - if (r != len) throw new EOFException(); - } - - public void readOrThrow(byte[] b) throws IOException { - readOrThrow(b, 0, b.length); - } - - public void setByteOrder(ByteOrder order) { - mByteBuffer.order(order); - } - - public ByteOrder getByteOrder() { - return mByteBuffer.order(); - } - - public short readShort() throws IOException { - readOrThrow(mByteArray, 0 ,2); - mByteBuffer.rewind(); - return mByteBuffer.getShort(); - } - - public int readUnsignedShort() throws IOException { - return readShort() & 0xffff; - } - - public int readInt() throws IOException { - readOrThrow(mByteArray, 0 , 4); - mByteBuffer.rewind(); - return mByteBuffer.getInt(); - } - - public long readUnsignedInt() throws IOException { - return readInt() & 0xffffffffL; - } - - public long readLong() throws IOException { - readOrThrow(mByteArray, 0 , 8); - mByteBuffer.rewind(); - return mByteBuffer.getLong(); - } - - public String readString(int n) throws IOException { - byte buf[] = new byte[n]; - readOrThrow(buf); - return new String(buf, "UTF8"); - } - - public String readString(int n, Charset charset) throws IOException { - byte buf[] = new byte[n]; - readOrThrow(buf); - return new String(buf, charset); - } -}
\ No newline at end of file diff --git a/src/com/android/gallery3d/exif/ExifData.java b/src/com/android/gallery3d/exif/ExifData.java deleted file mode 100644 index 8422382bb..000000000 --- a/src/com/android/gallery3d/exif/ExifData.java +++ /dev/null @@ -1,348 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import android.util.Log; - -import java.io.UnsupportedEncodingException; -import java.nio.ByteOrder; -import java.util.ArrayList; -import java.util.Arrays; -import java.util.List; - -/** - * This class stores the EXIF header in IFDs according to the JPEG - * specification. It is the result produced by {@link ExifReader}. - * - * @see ExifReader - * @see IfdData - */ -class ExifData { - private static final String TAG = "ExifData"; - private static final byte[] USER_COMMENT_ASCII = { - 0x41, 0x53, 0x43, 0x49, 0x49, 0x00, 0x00, 0x00 - }; - private static final byte[] USER_COMMENT_JIS = { - 0x4A, 0x49, 0x53, 0x00, 0x00, 0x00, 0x00, 0x00 - }; - private static final byte[] USER_COMMENT_UNICODE = { - 0x55, 0x4E, 0x49, 0x43, 0x4F, 0x44, 0x45, 0x00 - }; - - private final IfdData[] mIfdDatas = new IfdData[IfdId.TYPE_IFD_COUNT]; - private byte[] mThumbnail; - private ArrayList<byte[]> mStripBytes = new ArrayList<byte[]>(); - private final ByteOrder mByteOrder; - - ExifData(ByteOrder order) { - mByteOrder = order; - } - - /** - * Gets the compressed thumbnail. Returns null if there is no compressed - * thumbnail. - * - * @see #hasCompressedThumbnail() - */ - protected byte[] getCompressedThumbnail() { - return mThumbnail; - } - - /** - * Sets the compressed thumbnail. - */ - protected void setCompressedThumbnail(byte[] thumbnail) { - mThumbnail = thumbnail; - } - - /** - * Returns true it this header contains a compressed thumbnail. - */ - protected boolean hasCompressedThumbnail() { - return mThumbnail != null; - } - - /** - * Adds an uncompressed strip. - */ - protected void setStripBytes(int index, byte[] strip) { - if (index < mStripBytes.size()) { - mStripBytes.set(index, strip); - } else { - for (int i = mStripBytes.size(); i < index; i++) { - mStripBytes.add(null); - } - mStripBytes.add(strip); - } - } - - /** - * Gets the strip count. - */ - protected int getStripCount() { - return mStripBytes.size(); - } - - /** - * Gets the strip at the specified index. - * - * @exceptions #IndexOutOfBoundException - */ - protected byte[] getStrip(int index) { - return mStripBytes.get(index); - } - - /** - * Returns true if this header contains uncompressed strip. - */ - protected boolean hasUncompressedStrip() { - return mStripBytes.size() != 0; - } - - /** - * Gets the byte order. - */ - protected ByteOrder getByteOrder() { - return mByteOrder; - } - - /** - * Returns the {@link IfdData} object corresponding to a given IFD if it - * exists or null. - */ - protected IfdData getIfdData(int ifdId) { - if (ExifTag.isValidIfd(ifdId)) { - return mIfdDatas[ifdId]; - } - return null; - } - - /** - * Adds IFD data. If IFD data of the same type already exists, it will be - * replaced by the new data. - */ - protected void addIfdData(IfdData data) { - mIfdDatas[data.getId()] = data; - } - - /** - * Returns the {@link IfdData} object corresponding to a given IFD or - * generates one if none exist. - */ - protected IfdData getOrCreateIfdData(int ifdId) { - IfdData ifdData = mIfdDatas[ifdId]; - if (ifdData == null) { - ifdData = new IfdData(ifdId); - mIfdDatas[ifdId] = ifdData; - } - return ifdData; - } - - /** - * Returns the tag with a given TID in the given IFD if the tag exists. - * Otherwise returns null. - */ - protected ExifTag getTag(short tag, int ifd) { - IfdData ifdData = mIfdDatas[ifd]; - return (ifdData == null) ? null : ifdData.getTag(tag); - } - - /** - * Adds the given ExifTag to its default IFD and returns an existing ExifTag - * with the same TID or null if none exist. - */ - protected ExifTag addTag(ExifTag tag) { - if (tag != null) { - int ifd = tag.getIfd(); - return addTag(tag, ifd); - } - return null; - } - - /** - * Adds the given ExifTag to the given IFD and returns an existing ExifTag - * with the same TID or null if none exist. - */ - protected ExifTag addTag(ExifTag tag, int ifdId) { - if (tag != null && ExifTag.isValidIfd(ifdId)) { - IfdData ifdData = getOrCreateIfdData(ifdId); - return ifdData.setTag(tag); - } - return null; - } - - protected void clearThumbnailAndStrips() { - mThumbnail = null; - mStripBytes.clear(); - } - - /** - * Removes the thumbnail and its related tags. IFD1 will be removed. - */ - protected void removeThumbnailData() { - clearThumbnailAndStrips(); - mIfdDatas[IfdId.TYPE_IFD_1] = null; - } - - /** - * Removes the tag with a given TID and IFD. - */ - protected void removeTag(short tagId, int ifdId) { - IfdData ifdData = mIfdDatas[ifdId]; - if (ifdData == null) { - return; - } - ifdData.removeTag(tagId); - } - - /** - * Decodes the user comment tag into string as specified in the EXIF - * standard. Returns null if decoding failed. - */ - protected String getUserComment() { - IfdData ifdData = mIfdDatas[IfdId.TYPE_IFD_0]; - if (ifdData == null) { - return null; - } - ExifTag tag = ifdData.getTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_USER_COMMENT)); - if (tag == null) { - return null; - } - if (tag.getComponentCount() < 8) { - return null; - } - - byte[] buf = new byte[tag.getComponentCount()]; - tag.getBytes(buf); - - byte[] code = new byte[8]; - System.arraycopy(buf, 0, code, 0, 8); - - try { - if (Arrays.equals(code, USER_COMMENT_ASCII)) { - return new String(buf, 8, buf.length - 8, "US-ASCII"); - } else if (Arrays.equals(code, USER_COMMENT_JIS)) { - return new String(buf, 8, buf.length - 8, "EUC-JP"); - } else if (Arrays.equals(code, USER_COMMENT_UNICODE)) { - return new String(buf, 8, buf.length - 8, "UTF-16"); - } else { - return null; - } - } catch (UnsupportedEncodingException e) { - Log.w(TAG, "Failed to decode the user comment"); - return null; - } - } - - /** - * Returns a list of all {@link ExifTag}s in the ExifData or null if there - * are none. - */ - protected List<ExifTag> getAllTags() { - ArrayList<ExifTag> ret = new ArrayList<ExifTag>(); - for (IfdData d : mIfdDatas) { - if (d != null) { - ExifTag[] tags = d.getAllTags(); - if (tags != null) { - for (ExifTag t : tags) { - ret.add(t); - } - } - } - } - if (ret.size() == 0) { - return null; - } - return ret; - } - - /** - * Returns a list of all {@link ExifTag}s in a given IFD or null if there - * are none. - */ - protected List<ExifTag> getAllTagsForIfd(int ifd) { - IfdData d = mIfdDatas[ifd]; - if (d == null) { - return null; - } - ExifTag[] tags = d.getAllTags(); - if (tags == null) { - return null; - } - ArrayList<ExifTag> ret = new ArrayList<ExifTag>(tags.length); - for (ExifTag t : tags) { - ret.add(t); - } - if (ret.size() == 0) { - return null; - } - return ret; - } - - /** - * Returns a list of all {@link ExifTag}s with a given TID or null if there - * are none. - */ - protected List<ExifTag> getAllTagsForTagId(short tag) { - ArrayList<ExifTag> ret = new ArrayList<ExifTag>(); - for (IfdData d : mIfdDatas) { - if (d != null) { - ExifTag t = d.getTag(tag); - if (t != null) { - ret.add(t); - } - } - } - if (ret.size() == 0) { - return null; - } - return ret; - } - - @Override - public boolean equals(Object obj) { - if (this == obj) { - return true; - } - if (obj == null) { - return false; - } - if (obj instanceof ExifData) { - ExifData data = (ExifData) obj; - if (data.mByteOrder != mByteOrder || - data.mStripBytes.size() != mStripBytes.size() || - !Arrays.equals(data.mThumbnail, mThumbnail)) { - return false; - } - for (int i = 0; i < mStripBytes.size(); i++) { - if (!Arrays.equals(data.mStripBytes.get(i), mStripBytes.get(i))) { - return false; - } - } - for (int i = 0; i < IfdId.TYPE_IFD_COUNT; i++) { - IfdData ifd1 = data.getIfdData(i); - IfdData ifd2 = getIfdData(i); - if (ifd1 != ifd2 && ifd1 != null && !ifd1.equals(ifd2)) { - return false; - } - } - return true; - } - return false; - } - -} diff --git a/src/com/android/gallery3d/exif/ExifInterface.java b/src/com/android/gallery3d/exif/ExifInterface.java deleted file mode 100644 index a1cf0fc85..000000000 --- a/src/com/android/gallery3d/exif/ExifInterface.java +++ /dev/null @@ -1,2407 +0,0 @@ -/* - * Copyright (C) 2013 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import android.graphics.Bitmap; -import android.graphics.BitmapFactory; -import android.util.SparseIntArray; - -import java.io.BufferedInputStream; -import java.io.ByteArrayInputStream; -import java.io.ByteArrayOutputStream; -import java.io.Closeable; -import java.io.File; -import java.io.FileInputStream; -import java.io.FileNotFoundException; -import java.io.FileOutputStream; -import java.io.IOException; -import java.io.InputStream; -import java.io.OutputStream; -import java.io.RandomAccessFile; -import java.nio.ByteBuffer; -import java.nio.ByteOrder; -import java.nio.channels.FileChannel.MapMode; -import java.text.DateFormat; -import java.text.SimpleDateFormat; -import java.util.ArrayList; -import java.util.Arrays; -import java.util.Calendar; -import java.util.Collection; -import java.util.HashSet; -import java.util.List; -import java.util.TimeZone; - -/** - * This class provides methods and constants for reading and writing jpeg file - * metadata. It contains a collection of ExifTags, and a collection of - * definitions for creating valid ExifTags. The collection of ExifTags can be - * updated by: reading new ones from a file, deleting or adding existing ones, - * or building new ExifTags from a tag definition. These ExifTags can be written - * to a valid jpeg image as exif metadata. - * <p> - * Each ExifTag has a tag ID (TID) and is stored in a specific image file - * directory (IFD) as specified by the exif standard. A tag definition can be - * looked up with a constant that is a combination of TID and IFD. This - * definition has information about the type, number of components, and valid - * IFDs for a tag. - * - * @see ExifTag - */ -public class ExifInterface { - public static final int TAG_NULL = -1; - public static final int IFD_NULL = -1; - public static final int DEFINITION_NULL = 0; - - /** - * Tag constants for Jeita EXIF 2.2 - */ - - // IFD 0 - public static final int TAG_IMAGE_WIDTH = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0100); - public static final int TAG_IMAGE_LENGTH = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0101); // Image height - public static final int TAG_BITS_PER_SAMPLE = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0102); - public static final int TAG_COMPRESSION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0103); - public static final int TAG_PHOTOMETRIC_INTERPRETATION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0106); - public static final int TAG_IMAGE_DESCRIPTION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x010E); - public static final int TAG_MAKE = - defineTag(IfdId.TYPE_IFD_0, (short) 0x010F); - public static final int TAG_MODEL = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0110); - public static final int TAG_STRIP_OFFSETS = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0111); - public static final int TAG_ORIENTATION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0112); - public static final int TAG_SAMPLES_PER_PIXEL = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0115); - public static final int TAG_ROWS_PER_STRIP = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0116); - public static final int TAG_STRIP_BYTE_COUNTS = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0117); - public static final int TAG_X_RESOLUTION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x011A); - public static final int TAG_Y_RESOLUTION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x011B); - public static final int TAG_PLANAR_CONFIGURATION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x011C); - public static final int TAG_RESOLUTION_UNIT = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0128); - public static final int TAG_TRANSFER_FUNCTION = - defineTag(IfdId.TYPE_IFD_0, (short) 0x012D); - public static final int TAG_SOFTWARE = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0131); - public static final int TAG_DATE_TIME = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0132); - public static final int TAG_ARTIST = - defineTag(IfdId.TYPE_IFD_0, (short) 0x013B); - public static final int TAG_WHITE_POINT = - defineTag(IfdId.TYPE_IFD_0, (short) 0x013E); - public static final int TAG_PRIMARY_CHROMATICITIES = - defineTag(IfdId.TYPE_IFD_0, (short) 0x013F); - public static final int TAG_Y_CB_CR_COEFFICIENTS = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0211); - public static final int TAG_Y_CB_CR_SUB_SAMPLING = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0212); - public static final int TAG_Y_CB_CR_POSITIONING = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0213); - public static final int TAG_REFERENCE_BLACK_WHITE = - defineTag(IfdId.TYPE_IFD_0, (short) 0x0214); - public static final int TAG_COPYRIGHT = - defineTag(IfdId.TYPE_IFD_0, (short) 0x8298); - public static final int TAG_EXIF_IFD = - defineTag(IfdId.TYPE_IFD_0, (short) 0x8769); - public static final int TAG_GPS_IFD = - defineTag(IfdId.TYPE_IFD_0, (short) 0x8825); - // IFD 1 - public static final int TAG_JPEG_INTERCHANGE_FORMAT = - defineTag(IfdId.TYPE_IFD_1, (short) 0x0201); - public static final int TAG_JPEG_INTERCHANGE_FORMAT_LENGTH = - defineTag(IfdId.TYPE_IFD_1, (short) 0x0202); - // IFD Exif Tags - public static final int TAG_EXPOSURE_TIME = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x829A); - public static final int TAG_F_NUMBER = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x829D); - public static final int TAG_EXPOSURE_PROGRAM = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x8822); - public static final int TAG_SPECTRAL_SENSITIVITY = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x8824); - public static final int TAG_ISO_SPEED_RATINGS = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x8827); - public static final int TAG_OECF = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x8828); - public static final int TAG_EXIF_VERSION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9000); - public static final int TAG_DATE_TIME_ORIGINAL = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9003); - public static final int TAG_DATE_TIME_DIGITIZED = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9004); - public static final int TAG_COMPONENTS_CONFIGURATION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9101); - public static final int TAG_COMPRESSED_BITS_PER_PIXEL = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9102); - public static final int TAG_SHUTTER_SPEED_VALUE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9201); - public static final int TAG_APERTURE_VALUE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9202); - public static final int TAG_BRIGHTNESS_VALUE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9203); - public static final int TAG_EXPOSURE_BIAS_VALUE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9204); - public static final int TAG_MAX_APERTURE_VALUE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9205); - public static final int TAG_SUBJECT_DISTANCE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9206); - public static final int TAG_METERING_MODE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9207); - public static final int TAG_LIGHT_SOURCE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9208); - public static final int TAG_FLASH = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9209); - public static final int TAG_FOCAL_LENGTH = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x920A); - public static final int TAG_SUBJECT_AREA = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9214); - public static final int TAG_MAKER_NOTE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x927C); - public static final int TAG_USER_COMMENT = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9286); - public static final int TAG_SUB_SEC_TIME = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9290); - public static final int TAG_SUB_SEC_TIME_ORIGINAL = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9291); - public static final int TAG_SUB_SEC_TIME_DIGITIZED = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0x9292); - public static final int TAG_FLASHPIX_VERSION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA000); - public static final int TAG_COLOR_SPACE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA001); - public static final int TAG_PIXEL_X_DIMENSION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA002); - public static final int TAG_PIXEL_Y_DIMENSION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA003); - public static final int TAG_RELATED_SOUND_FILE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA004); - public static final int TAG_INTEROPERABILITY_IFD = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA005); - public static final int TAG_FLASH_ENERGY = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA20B); - public static final int TAG_SPATIAL_FREQUENCY_RESPONSE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA20C); - public static final int TAG_FOCAL_PLANE_X_RESOLUTION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA20E); - public static final int TAG_FOCAL_PLANE_Y_RESOLUTION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA20F); - public static final int TAG_FOCAL_PLANE_RESOLUTION_UNIT = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA210); - public static final int TAG_SUBJECT_LOCATION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA214); - public static final int TAG_EXPOSURE_INDEX = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA215); - public static final int TAG_SENSING_METHOD = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA217); - public static final int TAG_FILE_SOURCE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA300); - public static final int TAG_SCENE_TYPE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA301); - public static final int TAG_CFA_PATTERN = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA302); - public static final int TAG_CUSTOM_RENDERED = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA401); - public static final int TAG_EXPOSURE_MODE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA402); - public static final int TAG_WHITE_BALANCE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA403); - public static final int TAG_DIGITAL_ZOOM_RATIO = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA404); - public static final int TAG_FOCAL_LENGTH_IN_35_MM_FILE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA405); - public static final int TAG_SCENE_CAPTURE_TYPE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA406); - public static final int TAG_GAIN_CONTROL = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA407); - public static final int TAG_CONTRAST = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA408); - public static final int TAG_SATURATION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA409); - public static final int TAG_SHARPNESS = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA40A); - public static final int TAG_DEVICE_SETTING_DESCRIPTION = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA40B); - public static final int TAG_SUBJECT_DISTANCE_RANGE = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA40C); - public static final int TAG_IMAGE_UNIQUE_ID = - defineTag(IfdId.TYPE_IFD_EXIF, (short) 0xA420); - // IFD GPS tags - public static final int TAG_GPS_VERSION_ID = - defineTag(IfdId.TYPE_IFD_GPS, (short) 0); - public static final int TAG_GPS_LATITUDE_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 1); - public static final int TAG_GPS_LATITUDE = - defineTag(IfdId.TYPE_IFD_GPS, (short) 2); - public static final int TAG_GPS_LONGITUDE_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 3); - public static final int TAG_GPS_LONGITUDE = - defineTag(IfdId.TYPE_IFD_GPS, (short) 4); - public static final int TAG_GPS_ALTITUDE_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 5); - public static final int TAG_GPS_ALTITUDE = - defineTag(IfdId.TYPE_IFD_GPS, (short) 6); - public static final int TAG_GPS_TIME_STAMP = - defineTag(IfdId.TYPE_IFD_GPS, (short) 7); - public static final int TAG_GPS_SATTELLITES = - defineTag(IfdId.TYPE_IFD_GPS, (short) 8); - public static final int TAG_GPS_STATUS = - defineTag(IfdId.TYPE_IFD_GPS, (short) 9); - public static final int TAG_GPS_MEASURE_MODE = - defineTag(IfdId.TYPE_IFD_GPS, (short) 10); - public static final int TAG_GPS_DOP = - defineTag(IfdId.TYPE_IFD_GPS, (short) 11); - public static final int TAG_GPS_SPEED_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 12); - public static final int TAG_GPS_SPEED = - defineTag(IfdId.TYPE_IFD_GPS, (short) 13); - public static final int TAG_GPS_TRACK_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 14); - public static final int TAG_GPS_TRACK = - defineTag(IfdId.TYPE_IFD_GPS, (short) 15); - public static final int TAG_GPS_IMG_DIRECTION_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 16); - public static final int TAG_GPS_IMG_DIRECTION = - defineTag(IfdId.TYPE_IFD_GPS, (short) 17); - public static final int TAG_GPS_MAP_DATUM = - defineTag(IfdId.TYPE_IFD_GPS, (short) 18); - public static final int TAG_GPS_DEST_LATITUDE_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 19); - public static final int TAG_GPS_DEST_LATITUDE = - defineTag(IfdId.TYPE_IFD_GPS, (short) 20); - public static final int TAG_GPS_DEST_LONGITUDE_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 21); - public static final int TAG_GPS_DEST_LONGITUDE = - defineTag(IfdId.TYPE_IFD_GPS, (short) 22); - public static final int TAG_GPS_DEST_BEARING_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 23); - public static final int TAG_GPS_DEST_BEARING = - defineTag(IfdId.TYPE_IFD_GPS, (short) 24); - public static final int TAG_GPS_DEST_DISTANCE_REF = - defineTag(IfdId.TYPE_IFD_GPS, (short) 25); - public static final int TAG_GPS_DEST_DISTANCE = - defineTag(IfdId.TYPE_IFD_GPS, (short) 26); - public static final int TAG_GPS_PROCESSING_METHOD = - defineTag(IfdId.TYPE_IFD_GPS, (short) 27); - public static final int TAG_GPS_AREA_INFORMATION = - defineTag(IfdId.TYPE_IFD_GPS, (short) 28); - public static final int TAG_GPS_DATE_STAMP = - defineTag(IfdId.TYPE_IFD_GPS, (short) 29); - public static final int TAG_GPS_DIFFERENTIAL = - defineTag(IfdId.TYPE_IFD_GPS, (short) 30); - // IFD Interoperability tags - public static final int TAG_INTEROPERABILITY_INDEX = - defineTag(IfdId.TYPE_IFD_INTEROPERABILITY, (short) 1); - - /** - * Tags that contain offset markers. These are included in the banned - * defines. - */ - private static HashSet<Short> sOffsetTags = new HashSet<Short>(); - static { - sOffsetTags.add(getTrueTagKey(TAG_GPS_IFD)); - sOffsetTags.add(getTrueTagKey(TAG_EXIF_IFD)); - sOffsetTags.add(getTrueTagKey(TAG_JPEG_INTERCHANGE_FORMAT)); - sOffsetTags.add(getTrueTagKey(TAG_INTEROPERABILITY_IFD)); - sOffsetTags.add(getTrueTagKey(TAG_STRIP_OFFSETS)); - } - - /** - * Tags with definitions that cannot be overridden (banned defines). - */ - protected static HashSet<Short> sBannedDefines = new HashSet<Short>(sOffsetTags); - static { - sBannedDefines.add(getTrueTagKey(TAG_NULL)); - sBannedDefines.add(getTrueTagKey(TAG_JPEG_INTERCHANGE_FORMAT_LENGTH)); - sBannedDefines.add(getTrueTagKey(TAG_STRIP_BYTE_COUNTS)); - } - - /** - * Returns the constant representing a tag with a given TID and default IFD. - */ - public static int defineTag(int ifdId, short tagId) { - return (tagId & 0x0000ffff) | (ifdId << 16); - } - - /** - * Returns the TID for a tag constant. - */ - public static short getTrueTagKey(int tag) { - // Truncate - return (short) tag; - } - - /** - * Returns the default IFD for a tag constant. - */ - public static int getTrueIfd(int tag) { - return tag >>> 16; - } - - /** - * Constants for {@link TAG_ORIENTATION}. They can be interpreted as - * follows: - * <ul> - * <li>TOP_LEFT is the normal orientation.</li> - * <li>TOP_RIGHT is a left-right mirror.</li> - * <li>BOTTOM_LEFT is a 180 degree rotation.</li> - * <li>BOTTOM_RIGHT is a top-bottom mirror.</li> - * <li>LEFT_TOP is mirrored about the top-left<->bottom-right axis.</li> - * <li>RIGHT_TOP is a 90 degree clockwise rotation.</li> - * <li>LEFT_BOTTOM is mirrored about the top-right<->bottom-left axis.</li> - * <li>RIGHT_BOTTOM is a 270 degree clockwise rotation.</li> - * </ul> - */ - public static interface Orientation { - public static final short TOP_LEFT = 1; - public static final short TOP_RIGHT = 2; - public static final short BOTTOM_LEFT = 3; - public static final short BOTTOM_RIGHT = 4; - public static final short LEFT_TOP = 5; - public static final short RIGHT_TOP = 6; - public static final short LEFT_BOTTOM = 7; - public static final short RIGHT_BOTTOM = 8; - } - - /** - * Constants for {@link TAG_Y_CB_CR_POSITIONING} - */ - public static interface YCbCrPositioning { - public static final short CENTERED = 1; - public static final short CO_SITED = 2; - } - - /** - * Constants for {@link TAG_COMPRESSION} - */ - public static interface Compression { - public static final short UNCOMPRESSION = 1; - public static final short JPEG = 6; - } - - /** - * Constants for {@link TAG_RESOLUTION_UNIT} - */ - public static interface ResolutionUnit { - public static final short INCHES = 2; - public static final short CENTIMETERS = 3; - } - - /** - * Constants for {@link TAG_PHOTOMETRIC_INTERPRETATION} - */ - public static interface PhotometricInterpretation { - public static final short RGB = 2; - public static final short YCBCR = 6; - } - - /** - * Constants for {@link TAG_PLANAR_CONFIGURATION} - */ - public static interface PlanarConfiguration { - public static final short CHUNKY = 1; - public static final short PLANAR = 2; - } - - /** - * Constants for {@link TAG_EXPOSURE_PROGRAM} - */ - public static interface ExposureProgram { - public static final short NOT_DEFINED = 0; - public static final short MANUAL = 1; - public static final short NORMAL_PROGRAM = 2; - public static final short APERTURE_PRIORITY = 3; - public static final short SHUTTER_PRIORITY = 4; - public static final short CREATIVE_PROGRAM = 5; - public static final short ACTION_PROGRAM = 6; - public static final short PROTRAIT_MODE = 7; - public static final short LANDSCAPE_MODE = 8; - } - - /** - * Constants for {@link TAG_METERING_MODE} - */ - public static interface MeteringMode { - public static final short UNKNOWN = 0; - public static final short AVERAGE = 1; - public static final short CENTER_WEIGHTED_AVERAGE = 2; - public static final short SPOT = 3; - public static final short MULTISPOT = 4; - public static final short PATTERN = 5; - public static final short PARTAIL = 6; - public static final short OTHER = 255; - } - - /** - * Constants for {@link TAG_FLASH} As the definition in Jeita EXIF 2.2 - * standard, we can treat this constant as bitwise flag. - * <p> - * e.g. - * <p> - * short flash = FIRED | RETURN_STROBE_RETURN_LIGHT_DETECTED | - * MODE_AUTO_MODE - */ - public static interface Flash { - // LSB - public static final short DID_NOT_FIRED = 0; - public static final short FIRED = 1; - // 1st~2nd bits - public static final short RETURN_NO_STROBE_RETURN_DETECTION_FUNCTION = 0 << 1; - public static final short RETURN_STROBE_RETURN_LIGHT_NOT_DETECTED = 2 << 1; - public static final short RETURN_STROBE_RETURN_LIGHT_DETECTED = 3 << 1; - // 3rd~4th bits - public static final short MODE_UNKNOWN = 0 << 3; - public static final short MODE_COMPULSORY_FLASH_FIRING = 1 << 3; - public static final short MODE_COMPULSORY_FLASH_SUPPRESSION = 2 << 3; - public static final short MODE_AUTO_MODE = 3 << 3; - // 5th bit - public static final short FUNCTION_PRESENT = 0 << 5; - public static final short FUNCTION_NO_FUNCTION = 1 << 5; - // 6th bit - public static final short RED_EYE_REDUCTION_NO_OR_UNKNOWN = 0 << 6; - public static final short RED_EYE_REDUCTION_SUPPORT = 1 << 6; - } - - /** - * Constants for {@link TAG_COLOR_SPACE} - */ - public static interface ColorSpace { - public static final short SRGB = 1; - public static final short UNCALIBRATED = (short) 0xFFFF; - } - - /** - * Constants for {@link TAG_EXPOSURE_MODE} - */ - public static interface ExposureMode { - public static final short AUTO_EXPOSURE = 0; - public static final short MANUAL_EXPOSURE = 1; - public static final short AUTO_BRACKET = 2; - } - - /** - * Constants for {@link TAG_WHITE_BALANCE} - */ - public static interface WhiteBalance { - public static final short AUTO = 0; - public static final short MANUAL = 1; - } - - /** - * Constants for {@link TAG_SCENE_CAPTURE_TYPE} - */ - public static interface SceneCapture { - public static final short STANDARD = 0; - public static final short LANDSCAPE = 1; - public static final short PROTRAIT = 2; - public static final short NIGHT_SCENE = 3; - } - - /** - * Constants for {@link TAG_COMPONENTS_CONFIGURATION} - */ - public static interface ComponentsConfiguration { - public static final short NOT_EXIST = 0; - public static final short Y = 1; - public static final short CB = 2; - public static final short CR = 3; - public static final short R = 4; - public static final short G = 5; - public static final short B = 6; - } - - /** - * Constants for {@link TAG_LIGHT_SOURCE} - */ - public static interface LightSource { - public static final short UNKNOWN = 0; - public static final short DAYLIGHT = 1; - public static final short FLUORESCENT = 2; - public static final short TUNGSTEN = 3; - public static final short FLASH = 4; - public static final short FINE_WEATHER = 9; - public static final short CLOUDY_WEATHER = 10; - public static final short SHADE = 11; - public static final short DAYLIGHT_FLUORESCENT = 12; - public static final short DAY_WHITE_FLUORESCENT = 13; - public static final short COOL_WHITE_FLUORESCENT = 14; - public static final short WHITE_FLUORESCENT = 15; - public static final short STANDARD_LIGHT_A = 17; - public static final short STANDARD_LIGHT_B = 18; - public static final short STANDARD_LIGHT_C = 19; - public static final short D55 = 20; - public static final short D65 = 21; - public static final short D75 = 22; - public static final short D50 = 23; - public static final short ISO_STUDIO_TUNGSTEN = 24; - public static final short OTHER = 255; - } - - /** - * Constants for {@link TAG_SENSING_METHOD} - */ - public static interface SensingMethod { - public static final short NOT_DEFINED = 1; - public static final short ONE_CHIP_COLOR = 2; - public static final short TWO_CHIP_COLOR = 3; - public static final short THREE_CHIP_COLOR = 4; - public static final short COLOR_SEQUENTIAL_AREA = 5; - public static final short TRILINEAR = 7; - public static final short COLOR_SEQUENTIAL_LINEAR = 8; - } - - /** - * Constants for {@link TAG_FILE_SOURCE} - */ - public static interface FileSource { - public static final short DSC = 3; - } - - /** - * Constants for {@link TAG_SCENE_TYPE} - */ - public static interface SceneType { - public static final short DIRECT_PHOTOGRAPHED = 1; - } - - /** - * Constants for {@link TAG_GAIN_CONTROL} - */ - public static interface GainControl { - public static final short NONE = 0; - public static final short LOW_UP = 1; - public static final short HIGH_UP = 2; - public static final short LOW_DOWN = 3; - public static final short HIGH_DOWN = 4; - } - - /** - * Constants for {@link TAG_CONTRAST} - */ - public static interface Contrast { - public static final short NORMAL = 0; - public static final short SOFT = 1; - public static final short HARD = 2; - } - - /** - * Constants for {@link TAG_SATURATION} - */ - public static interface Saturation { - public static final short NORMAL = 0; - public static final short LOW = 1; - public static final short HIGH = 2; - } - - /** - * Constants for {@link TAG_SHARPNESS} - */ - public static interface Sharpness { - public static final short NORMAL = 0; - public static final short SOFT = 1; - public static final short HARD = 2; - } - - /** - * Constants for {@link TAG_SUBJECT_DISTANCE} - */ - public static interface SubjectDistance { - public static final short UNKNOWN = 0; - public static final short MACRO = 1; - public static final short CLOSE_VIEW = 2; - public static final short DISTANT_VIEW = 3; - } - - /** - * Constants for {@link TAG_GPS_LATITUDE_REF}, - * {@link TAG_GPS_DEST_LATITUDE_REF} - */ - public static interface GpsLatitudeRef { - public static final String NORTH = "N"; - public static final String SOUTH = "S"; - } - - /** - * Constants for {@link TAG_GPS_LONGITUDE_REF}, - * {@link TAG_GPS_DEST_LONGITUDE_REF} - */ - public static interface GpsLongitudeRef { - public static final String EAST = "E"; - public static final String WEST = "W"; - } - - /** - * Constants for {@link TAG_GPS_ALTITUDE_REF} - */ - public static interface GpsAltitudeRef { - public static final short SEA_LEVEL = 0; - public static final short SEA_LEVEL_NEGATIVE = 1; - } - - /** - * Constants for {@link TAG_GPS_STATUS} - */ - public static interface GpsStatus { - public static final String IN_PROGRESS = "A"; - public static final String INTEROPERABILITY = "V"; - } - - /** - * Constants for {@link TAG_GPS_MEASURE_MODE} - */ - public static interface GpsMeasureMode { - public static final String MODE_2_DIMENSIONAL = "2"; - public static final String MODE_3_DIMENSIONAL = "3"; - } - - /** - * Constants for {@link TAG_GPS_SPEED_REF}, - * {@link TAG_GPS_DEST_DISTANCE_REF} - */ - public static interface GpsSpeedRef { - public static final String KILOMETERS = "K"; - public static final String MILES = "M"; - public static final String KNOTS = "N"; - } - - /** - * Constants for {@link TAG_GPS_TRACK_REF}, - * {@link TAG_GPS_IMG_DIRECTION_REF}, {@link TAG_GPS_DEST_BEARING_REF} - */ - public static interface GpsTrackRef { - public static final String TRUE_DIRECTION = "T"; - public static final String MAGNETIC_DIRECTION = "M"; - } - - /** - * Constants for {@link TAG_GPS_DIFFERENTIAL} - */ - public static interface GpsDifferential { - public static final short WITHOUT_DIFFERENTIAL_CORRECTION = 0; - public static final short DIFFERENTIAL_CORRECTION_APPLIED = 1; - } - - private static final String NULL_ARGUMENT_STRING = "Argument is null"; - private ExifData mData = new ExifData(DEFAULT_BYTE_ORDER); - public static final ByteOrder DEFAULT_BYTE_ORDER = ByteOrder.BIG_ENDIAN; - - public ExifInterface() { - mGPSDateStampFormat.setTimeZone(TimeZone.getTimeZone("UTC")); - } - - /** - * Reads the exif tags from a byte array, clearing this ExifInterface - * object's existing exif tags. - * - * @param jpeg a byte array containing a jpeg compressed image. - * @throws IOException - */ - public void readExif(byte[] jpeg) throws IOException { - readExif(new ByteArrayInputStream(jpeg)); - } - - /** - * Reads the exif tags from an InputStream, clearing this ExifInterface - * object's existing exif tags. - * - * @param inStream an InputStream containing a jpeg compressed image. - * @throws IOException - */ - public void readExif(InputStream inStream) throws IOException { - if (inStream == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - ExifData d = null; - try { - d = new ExifReader(this).read(inStream); - } catch (ExifInvalidFormatException e) { - throw new IOException("Invalid exif format : " + e); - } - mData = d; - } - - /** - * Reads the exif tags from a file, clearing this ExifInterface object's - * existing exif tags. - * - * @param inFileName a string representing the filepath to jpeg file. - * @throws FileNotFoundException - * @throws IOException - */ - public void readExif(String inFileName) throws FileNotFoundException, IOException { - if (inFileName == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - InputStream is = null; - try { - is = (InputStream) new BufferedInputStream(new FileInputStream(inFileName)); - readExif(is); - } catch (IOException e) { - closeSilently(is); - throw e; - } - is.close(); - } - - /** - * Sets the exif tags, clearing this ExifInterface object's existing exif - * tags. - * - * @param tags a collection of exif tags to set. - */ - public void setExif(Collection<ExifTag> tags) { - clearExif(); - setTags(tags); - } - - /** - * Clears this ExifInterface object's existing exif tags. - */ - public void clearExif() { - mData = new ExifData(DEFAULT_BYTE_ORDER); - } - - /** - * Writes the tags from this ExifInterface object into a jpeg image, - * removing prior exif tags. - * - * @param jpeg a byte array containing a jpeg compressed image. - * @param exifOutStream an OutputStream to which the jpeg image with added - * exif tags will be written. - * @throws IOException - */ - public void writeExif(byte[] jpeg, OutputStream exifOutStream) throws IOException { - if (jpeg == null || exifOutStream == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - OutputStream s = getExifWriterStream(exifOutStream); - s.write(jpeg, 0, jpeg.length); - s.flush(); - } - - /** - * Writes the tags from this ExifInterface object into a jpeg compressed - * bitmap, removing prior exif tags. - * - * @param bmap a bitmap to compress and write exif into. - * @param exifOutStream the OutputStream to which the jpeg image with added - * exif tags will be written. - * @throws IOException - */ - public void writeExif(Bitmap bmap, OutputStream exifOutStream) throws IOException { - if (bmap == null || exifOutStream == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - OutputStream s = getExifWriterStream(exifOutStream); - bmap.compress(Bitmap.CompressFormat.JPEG, 90, s); - s.flush(); - } - - /** - * Writes the tags from this ExifInterface object into a jpeg stream, - * removing prior exif tags. - * - * @param jpegStream an InputStream containing a jpeg compressed image. - * @param exifOutStream an OutputStream to which the jpeg image with added - * exif tags will be written. - * @throws IOException - */ - public void writeExif(InputStream jpegStream, OutputStream exifOutStream) throws IOException { - if (jpegStream == null || exifOutStream == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - OutputStream s = getExifWriterStream(exifOutStream); - doExifStreamIO(jpegStream, s); - s.flush(); - } - - /** - * Writes the tags from this ExifInterface object into a jpeg image, - * removing prior exif tags. - * - * @param jpeg a byte array containing a jpeg compressed image. - * @param exifOutFileName a String containing the filepath to which the jpeg - * image with added exif tags will be written. - * @throws FileNotFoundException - * @throws IOException - */ - public void writeExif(byte[] jpeg, String exifOutFileName) throws FileNotFoundException, - IOException { - if (jpeg == null || exifOutFileName == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - OutputStream s = null; - try { - s = getExifWriterStream(exifOutFileName); - s.write(jpeg, 0, jpeg.length); - s.flush(); - } catch (IOException e) { - closeSilently(s); - throw e; - } - s.close(); - } - - /** - * Writes the tags from this ExifInterface object into a jpeg compressed - * bitmap, removing prior exif tags. - * - * @param bmap a bitmap to compress and write exif into. - * @param exifOutFileName a String containing the filepath to which the jpeg - * image with added exif tags will be written. - * @throws FileNotFoundException - * @throws IOException - */ - public void writeExif(Bitmap bmap, String exifOutFileName) throws FileNotFoundException, - IOException { - if (bmap == null || exifOutFileName == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - OutputStream s = null; - try { - s = getExifWriterStream(exifOutFileName); - bmap.compress(Bitmap.CompressFormat.JPEG, 90, s); - s.flush(); - } catch (IOException e) { - closeSilently(s); - throw e; - } - s.close(); - } - - /** - * Writes the tags from this ExifInterface object into a jpeg stream, - * removing prior exif tags. - * - * @param jpegStream an InputStream containing a jpeg compressed image. - * @param exifOutFileName a String containing the filepath to which the jpeg - * image with added exif tags will be written. - * @throws FileNotFoundException - * @throws IOException - */ - public void writeExif(InputStream jpegStream, String exifOutFileName) - throws FileNotFoundException, IOException { - if (jpegStream == null || exifOutFileName == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - OutputStream s = null; - try { - s = getExifWriterStream(exifOutFileName); - doExifStreamIO(jpegStream, s); - s.flush(); - } catch (IOException e) { - closeSilently(s); - throw e; - } - s.close(); - } - - /** - * Writes the tags from this ExifInterface object into a jpeg file, removing - * prior exif tags. - * - * @param jpegFileName a String containing the filepath for a jpeg file. - * @param exifOutFileName a String containing the filepath to which the jpeg - * image with added exif tags will be written. - * @throws FileNotFoundException - * @throws IOException - */ - public void writeExif(String jpegFileName, String exifOutFileName) - throws FileNotFoundException, IOException { - if (jpegFileName == null || exifOutFileName == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - InputStream is = null; - try { - is = new FileInputStream(jpegFileName); - writeExif(is, exifOutFileName); - } catch (IOException e) { - closeSilently(is); - throw e; - } - is.close(); - } - - /** - * Wraps an OutputStream object with an ExifOutputStream. Exif tags in this - * ExifInterface object will be added to a jpeg image written to this - * stream, removing prior exif tags. Other methods of this ExifInterface - * object should not be called until the returned OutputStream has been - * closed. - * - * @param outStream an OutputStream to wrap. - * @return an OutputStream that wraps the outStream parameter, and adds exif - * metadata. A jpeg image should be written to this stream. - */ - public OutputStream getExifWriterStream(OutputStream outStream) { - if (outStream == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - ExifOutputStream eos = new ExifOutputStream(outStream, this); - eos.setExifData(mData); - return eos; - } - - /** - * Returns an OutputStream object that writes to a file. Exif tags in this - * ExifInterface object will be added to a jpeg image written to this - * stream, removing prior exif tags. Other methods of this ExifInterface - * object should not be called until the returned OutputStream has been - * closed. - * - * @param exifOutFileName an String containing a filepath for a jpeg file. - * @return an OutputStream that writes to the exifOutFileName file, and adds - * exif metadata. A jpeg image should be written to this stream. - * @throws FileNotFoundException - */ - public OutputStream getExifWriterStream(String exifOutFileName) throws FileNotFoundException { - if (exifOutFileName == null) { - throw new IllegalArgumentException(NULL_ARGUMENT_STRING); - } - OutputStream out = null; - try { - out = (OutputStream) new FileOutputStream(exifOutFileName); - } catch (FileNotFoundException e) { - closeSilently(out); - throw e; - } - return getExifWriterStream(out); - } - - /** - * Attempts to do an in-place rewrite the exif metadata in a file for the - * given tags. If tags do not exist or do not have the same size as the - * existing exif tags, this method will fail. - * - * @param filename a String containing a filepath for a jpeg file with exif - * tags to rewrite. - * @param tags tags that will be written into the jpeg file over existing - * tags if possible. - * @return true if success, false if could not overwrite. If false, no - * changes are made to the file. - * @throws FileNotFoundException - * @throws IOException - */ - public boolean rewriteExif(String filename, Collection<ExifTag> tags) - throws FileNotFoundException, IOException { - RandomAccessFile file = null; - InputStream is = null; - boolean ret; - try { - File temp = new File(filename); - is = new BufferedInputStream(new FileInputStream(temp)); - - // Parse beginning of APP1 in exif to find size of exif header. - ExifParser parser = null; - try { - parser = ExifParser.parse(is, this); - } catch (ExifInvalidFormatException e) { - throw new IOException("Invalid exif format : ", e); - } - long exifSize = parser.getOffsetToExifEndFromSOF(); - - // Free up resources - is.close(); - is = null; - - // Open file for memory mapping. - file = new RandomAccessFile(temp, "rw"); - long fileLength = file.length(); - if (fileLength < exifSize) { - throw new IOException("Filesize changed during operation"); - } - - // Map only exif header into memory. - ByteBuffer buf = file.getChannel().map(MapMode.READ_WRITE, 0, exifSize); - - // Attempt to overwrite tag values without changing lengths (avoids - // file copy). - ret = rewriteExif(buf, tags); - } catch (IOException e) { - closeSilently(file); - throw e; - } finally { - closeSilently(is); - } - file.close(); - return ret; - } - - /** - * Attempts to do an in-place rewrite the exif metadata in a ByteBuffer for - * the given tags. If tags do not exist or do not have the same size as the - * existing exif tags, this method will fail. - * - * @param buf a ByteBuffer containing a jpeg file with existing exif tags to - * rewrite. - * @param tags tags that will be written into the jpeg ByteBuffer over - * existing tags if possible. - * @return true if success, false if could not overwrite. If false, no - * changes are made to the ByteBuffer. - * @throws IOException - */ - public boolean rewriteExif(ByteBuffer buf, Collection<ExifTag> tags) throws IOException { - ExifModifier mod = null; - try { - mod = new ExifModifier(buf, this); - for (ExifTag t : tags) { - mod.modifyTag(t); - } - return mod.commit(); - } catch (ExifInvalidFormatException e) { - throw new IOException("Invalid exif format : " + e); - } - } - - /** - * Attempts to do an in-place rewrite of the exif metadata. If this fails, - * fall back to overwriting file. This preserves tags that are not being - * rewritten. - * - * @param filename a String containing a filepath for a jpeg file. - * @param tags tags that will be written into the jpeg file over existing - * tags if possible. - * @throws FileNotFoundException - * @throws IOException - * @see #rewriteExif - */ - public void forceRewriteExif(String filename, Collection<ExifTag> tags) - throws FileNotFoundException, - IOException { - // Attempt in-place write - if (!rewriteExif(filename, tags)) { - // Fall back to doing a copy - ExifData tempData = mData; - mData = new ExifData(DEFAULT_BYTE_ORDER); - FileInputStream is = null; - ByteArrayOutputStream bytes = null; - try { - is = new FileInputStream(filename); - bytes = new ByteArrayOutputStream(); - doExifStreamIO(is, bytes); - byte[] imageBytes = bytes.toByteArray(); - readExif(imageBytes); - setTags(tags); - writeExif(imageBytes, filename); - } catch (IOException e) { - closeSilently(is); - throw e; - } finally { - is.close(); - // Prevent clobbering of mData - mData = tempData; - } - } - } - - /** - * Attempts to do an in-place rewrite of the exif metadata using the tags in - * this ExifInterface object. If this fails, fall back to overwriting file. - * This preserves tags that are not being rewritten. - * - * @param filename a String containing a filepath for a jpeg file. - * @throws FileNotFoundException - * @throws IOException - * @see #rewriteExif - */ - public void forceRewriteExif(String filename) throws FileNotFoundException, IOException { - forceRewriteExif(filename, getAllTags()); - } - - /** - * Get the exif tags in this ExifInterface object or null if none exist. - * - * @return a List of {@link ExifTag}s. - */ - public List<ExifTag> getAllTags() { - return mData.getAllTags(); - } - - /** - * Returns a list of ExifTags that share a TID (which can be obtained by - * calling {@link #getTrueTagKey} on a defined tag constant) or null if none - * exist. - * - * @param tagId a TID as defined in the exif standard (or with - * {@link #defineTag}). - * @return a List of {@link ExifTag}s. - */ - public List<ExifTag> getTagsForTagId(short tagId) { - return mData.getAllTagsForTagId(tagId); - } - - /** - * Returns a list of ExifTags that share an IFD (which can be obtained by - * calling {@link #getTrueIFD} on a defined tag constant) or null if none - * exist. - * - * @param ifdId an IFD as defined in the exif standard (or with - * {@link #defineTag}). - * @return a List of {@link ExifTag}s. - */ - public List<ExifTag> getTagsForIfdId(int ifdId) { - return mData.getAllTagsForIfd(ifdId); - } - - /** - * Gets an ExifTag for an IFD other than the tag's default. - * - * @see #getTag - */ - public ExifTag getTag(int tagId, int ifdId) { - if (!ExifTag.isValidIfd(ifdId)) { - return null; - } - return mData.getTag(getTrueTagKey(tagId), ifdId); - } - - /** - * Returns the ExifTag in that tag's default IFD for a defined tag constant - * or null if none exists. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @return an {@link ExifTag} or null if none exists. - */ - public ExifTag getTag(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTag(tagId, ifdId); - } - - /** - * Gets a tag value for an IFD other than the tag's default. - * - * @see #getTagValue - */ - public Object getTagValue(int tagId, int ifdId) { - ExifTag t = getTag(tagId, ifdId); - return (t == null) ? null : t.getValue(); - } - - /** - * Returns the value of the ExifTag in that tag's default IFD for a defined - * tag constant or null if none exists or the value could not be cast into - * the return type. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @return the value of the ExifTag or null if none exists. - */ - public Object getTagValue(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagValue(tagId, ifdId); - } - - /* - * Getter methods that are similar to getTagValue. Null is returned if the - * tag value cannot be cast into the return type. - */ - - /** - * @see #getTagValue - */ - public String getTagStringValue(int tagId, int ifdId) { - ExifTag t = getTag(tagId, ifdId); - if (t == null) { - return null; - } - return t.getValueAsString(); - } - - /** - * @see #getTagValue - */ - public String getTagStringValue(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagStringValue(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public Long getTagLongValue(int tagId, int ifdId) { - long[] l = getTagLongValues(tagId, ifdId); - if (l == null || l.length <= 0) { - return null; - } - return new Long(l[0]); - } - - /** - * @see #getTagValue - */ - public Long getTagLongValue(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagLongValue(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public Integer getTagIntValue(int tagId, int ifdId) { - int[] l = getTagIntValues(tagId, ifdId); - if (l == null || l.length <= 0) { - return null; - } - return new Integer(l[0]); - } - - /** - * @see #getTagValue - */ - public Integer getTagIntValue(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagIntValue(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public Byte getTagByteValue(int tagId, int ifdId) { - byte[] l = getTagByteValues(tagId, ifdId); - if (l == null || l.length <= 0) { - return null; - } - return new Byte(l[0]); - } - - /** - * @see #getTagValue - */ - public Byte getTagByteValue(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagByteValue(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public Rational getTagRationalValue(int tagId, int ifdId) { - Rational[] l = getTagRationalValues(tagId, ifdId); - if (l == null || l.length == 0) { - return null; - } - return new Rational(l[0]); - } - - /** - * @see #getTagValue - */ - public Rational getTagRationalValue(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagRationalValue(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public long[] getTagLongValues(int tagId, int ifdId) { - ExifTag t = getTag(tagId, ifdId); - if (t == null) { - return null; - } - return t.getValueAsLongs(); - } - - /** - * @see #getTagValue - */ - public long[] getTagLongValues(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagLongValues(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public int[] getTagIntValues(int tagId, int ifdId) { - ExifTag t = getTag(tagId, ifdId); - if (t == null) { - return null; - } - return t.getValueAsInts(); - } - - /** - * @see #getTagValue - */ - public int[] getTagIntValues(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagIntValues(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public byte[] getTagByteValues(int tagId, int ifdId) { - ExifTag t = getTag(tagId, ifdId); - if (t == null) { - return null; - } - return t.getValueAsBytes(); - } - - /** - * @see #getTagValue - */ - public byte[] getTagByteValues(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagByteValues(tagId, ifdId); - } - - /** - * @see #getTagValue - */ - public Rational[] getTagRationalValues(int tagId, int ifdId) { - ExifTag t = getTag(tagId, ifdId); - if (t == null) { - return null; - } - return t.getValueAsRationals(); - } - - /** - * @see #getTagValue - */ - public Rational[] getTagRationalValues(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return getTagRationalValues(tagId, ifdId); - } - - /** - * Checks whether a tag has a defined number of elements. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @return true if the tag has a defined number of elements. - */ - public boolean isTagCountDefined(int tagId) { - int info = getTagInfo().get(tagId); - // No value in info can be zero, as all tags have a non-zero type - if (info == 0) { - return false; - } - return getComponentCountFromInfo(info) != ExifTag.SIZE_UNDEFINED; - } - - /** - * Gets the defined number of elements for a tag. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @return the number of elements or {@link ExifTag#SIZE_UNDEFINED} if the - * tag or the number of elements is not defined. - */ - public int getDefinedTagCount(int tagId) { - int info = getTagInfo().get(tagId); - if (info == 0) { - return ExifTag.SIZE_UNDEFINED; - } - return getComponentCountFromInfo(info); - } - - /** - * Gets the number of elements for an ExifTag in a given IFD. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @param ifdId the IFD containing the ExifTag to check. - * @return the number of elements in the ExifTag, if the tag's size is - * undefined this will return the actual number of elements that is - * in the ExifTag's value. - */ - public int getActualTagCount(int tagId, int ifdId) { - ExifTag t = getTag(tagId, ifdId); - if (t == null) { - return 0; - } - return t.getComponentCount(); - } - - /** - * Gets the default IFD for a tag. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @return the default IFD for a tag definition or {@link #IFD_NULL} if no - * definition exists. - */ - public int getDefinedTagDefaultIfd(int tagId) { - int info = getTagInfo().get(tagId); - if (info == DEFINITION_NULL) { - return IFD_NULL; - } - return getTrueIfd(tagId); - } - - /** - * Gets the defined type for a tag. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @return the type. - * @see ExifTag#getDataType() - */ - public short getDefinedTagType(int tagId) { - int info = getTagInfo().get(tagId); - if (info == 0) { - return -1; - } - return getTypeFromInfo(info); - } - - /** - * Returns true if tag TID is one of the following: {@link TAG_EXIF_IFD}, - * {@link TAG_GPS_IFD}, {@link TAG_JPEG_INTERCHANGE_FORMAT}, - * {@link TAG_STRIP_OFFSETS}, {@link TAG_INTEROPERABILITY_IFD} - * <p> - * Note: defining tags with these TID's is disallowed. - * - * @param tag a tag's TID (can be obtained from a defined tag constant with - * {@link #getTrueTagKey}). - * @return true if the TID is that of an offset tag. - */ - protected static boolean isOffsetTag(short tag) { - return sOffsetTags.contains(tag); - } - - /** - * Creates a tag for a defined tag constant in a given IFD if that IFD is - * allowed for the tag. This method will fail anytime the appropriate - * {@link ExifTag#setValue} for this tag's datatype would fail. - * - * @param tagId a tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @param ifdId the IFD that the tag should be in. - * @param val the value of the tag to set. - * @return an ExifTag object or null if one could not be constructed. - * @see #buildTag - */ - public ExifTag buildTag(int tagId, int ifdId, Object val) { - int info = getTagInfo().get(tagId); - if (info == 0 || val == null) { - return null; - } - short type = getTypeFromInfo(info); - int definedCount = getComponentCountFromInfo(info); - boolean hasDefinedCount = (definedCount != ExifTag.SIZE_UNDEFINED); - if (!ExifInterface.isIfdAllowed(info, ifdId)) { - return null; - } - ExifTag t = new ExifTag(getTrueTagKey(tagId), type, definedCount, ifdId, hasDefinedCount); - if (!t.setValue(val)) { - return null; - } - return t; - } - - /** - * Creates a tag for a defined tag constant in the tag's default IFD. - * - * @param tagId a tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @param val the tag's value. - * @return an ExifTag object. - */ - public ExifTag buildTag(int tagId, Object val) { - int ifdId = getTrueIfd(tagId); - return buildTag(tagId, ifdId, val); - } - - protected ExifTag buildUninitializedTag(int tagId) { - int info = getTagInfo().get(tagId); - if (info == 0) { - return null; - } - short type = getTypeFromInfo(info); - int definedCount = getComponentCountFromInfo(info); - boolean hasDefinedCount = (definedCount != ExifTag.SIZE_UNDEFINED); - int ifdId = getTrueIfd(tagId); - ExifTag t = new ExifTag(getTrueTagKey(tagId), type, definedCount, ifdId, hasDefinedCount); - return t; - } - - /** - * Sets the value of an ExifTag if it exists in the given IFD. The value - * must be the correct type and length for that ExifTag. - * - * @param tagId a tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @param ifdId the IFD that the ExifTag is in. - * @param val the value to set. - * @return true if success, false if the ExifTag doesn't exist or the value - * is the wrong type/length. - * @see #setTagValue - */ - public boolean setTagValue(int tagId, int ifdId, Object val) { - ExifTag t = getTag(tagId, ifdId); - if (t == null) { - return false; - } - return t.setValue(val); - } - - /** - * Sets the value of an ExifTag if it exists it's default IFD. The value - * must be the correct type and length for that ExifTag. - * - * @param tagId a tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @param val the value to set. - * @return true if success, false if the ExifTag doesn't exist or the value - * is the wrong type/length. - */ - public boolean setTagValue(int tagId, Object val) { - int ifdId = getDefinedTagDefaultIfd(tagId); - return setTagValue(tagId, ifdId, val); - } - - /** - * Puts an ExifTag into this ExifInterface object's tags, removing a - * previous ExifTag with the same TID and IFD. The IFD it is put into will - * be the one the tag was created with in {@link #buildTag}. - * - * @param tag an ExifTag to put into this ExifInterface's tags. - * @return the previous ExifTag with the same TID and IFD or null if none - * exists. - */ - public ExifTag setTag(ExifTag tag) { - return mData.addTag(tag); - } - - /** - * Puts a collection of ExifTags into this ExifInterface objects's tags. Any - * previous ExifTags with the same TID and IFDs will be removed. - * - * @param tags a Collection of ExifTags. - * @see #setTag - */ - public void setTags(Collection<ExifTag> tags) { - for (ExifTag t : tags) { - setTag(t); - } - } - - /** - * Removes the ExifTag for a tag constant from the given IFD. - * - * @param tagId a tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - * @param ifdId the IFD of the ExifTag to remove. - */ - public void deleteTag(int tagId, int ifdId) { - mData.removeTag(getTrueTagKey(tagId), ifdId); - } - - /** - * Removes the ExifTag for a tag constant from that tag's default IFD. - * - * @param tagId a tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - */ - public void deleteTag(int tagId) { - int ifdId = getDefinedTagDefaultIfd(tagId); - deleteTag(tagId, ifdId); - } - - /** - * Creates a new tag definition in this ExifInterface object for a given TID - * and default IFD. Creating a definition with the same TID and default IFD - * as a previous definition will override it. - * - * @param tagId the TID for the tag. - * @param defaultIfd the default IFD for the tag. - * @param tagType the type of the tag (see {@link ExifTag#getDataType()}). - * @param defaultComponentCount the number of elements of this tag's type in - * the tags value. - * @param allowedIfds the IFD's this tag is allowed to be put in. - * @return the defined tag constant (e.g. {@link #TAG_IMAGE_WIDTH}) or - * {@link #TAG_NULL} if the definition could not be made. - */ - public int setTagDefinition(short tagId, int defaultIfd, short tagType, - short defaultComponentCount, int[] allowedIfds) { - if (sBannedDefines.contains(tagId)) { - return TAG_NULL; - } - if (ExifTag.isValidType(tagType) && ExifTag.isValidIfd(defaultIfd)) { - int tagDef = defineTag(defaultIfd, tagId); - if (tagDef == TAG_NULL) { - return TAG_NULL; - } - int[] otherDefs = getTagDefinitionsForTagId(tagId); - SparseIntArray infos = getTagInfo(); - // Make sure defaultIfd is in allowedIfds - boolean defaultCheck = false; - for (int i : allowedIfds) { - if (defaultIfd == i) { - defaultCheck = true; - } - if (!ExifTag.isValidIfd(i)) { - return TAG_NULL; - } - } - if (!defaultCheck) { - return TAG_NULL; - } - - int ifdFlags = getFlagsFromAllowedIfds(allowedIfds); - // Make sure no identical tags can exist in allowedIfds - if (otherDefs != null) { - for (int def : otherDefs) { - int tagInfo = infos.get(def); - int allowedFlags = getAllowedIfdFlagsFromInfo(tagInfo); - if ((ifdFlags & allowedFlags) != 0) { - return TAG_NULL; - } - } - } - getTagInfo().put(tagDef, ifdFlags << 24 | (tagType << 16) | defaultComponentCount); - return tagDef; - } - return TAG_NULL; - } - - protected int getTagDefinition(short tagId, int defaultIfd) { - return getTagInfo().get(defineTag(defaultIfd, tagId)); - } - - protected int[] getTagDefinitionsForTagId(short tagId) { - int[] ifds = IfdData.getIfds(); - int[] defs = new int[ifds.length]; - int counter = 0; - SparseIntArray infos = getTagInfo(); - for (int i : ifds) { - int def = defineTag(i, tagId); - if (infos.get(def) != DEFINITION_NULL) { - defs[counter++] = def; - } - } - if (counter == 0) { - return null; - } - - return Arrays.copyOfRange(defs, 0, counter); - } - - protected int getTagDefinitionForTag(ExifTag tag) { - short type = tag.getDataType(); - int count = tag.getComponentCount(); - int ifd = tag.getIfd(); - return getTagDefinitionForTag(tag.getTagId(), type, count, ifd); - } - - protected int getTagDefinitionForTag(short tagId, short type, int count, int ifd) { - int[] defs = getTagDefinitionsForTagId(tagId); - if (defs == null) { - return TAG_NULL; - } - SparseIntArray infos = getTagInfo(); - int ret = TAG_NULL; - for (int i : defs) { - int info = infos.get(i); - short def_type = getTypeFromInfo(info); - int def_count = getComponentCountFromInfo(info); - int[] def_ifds = getAllowedIfdsFromInfo(info); - boolean valid_ifd = false; - for (int j : def_ifds) { - if (j == ifd) { - valid_ifd = true; - break; - } - } - if (valid_ifd && type == def_type - && (count == def_count || def_count == ExifTag.SIZE_UNDEFINED)) { - ret = i; - break; - } - } - return ret; - } - - /** - * Removes a tag definition for given defined tag constant. - * - * @param tagId a defined tag constant, e.g. {@link #TAG_IMAGE_WIDTH}. - */ - public void removeTagDefinition(int tagId) { - getTagInfo().delete(tagId); - } - - /** - * Resets tag definitions to the default ones. - */ - public void resetTagDefinitions() { - mTagInfo = null; - } - - /** - * Returns the thumbnail from IFD1 as a bitmap, or null if none exists. - * - * @return the thumbnail as a bitmap. - */ - public Bitmap getThumbnailBitmap() { - if (mData.hasCompressedThumbnail()) { - byte[] thumb = mData.getCompressedThumbnail(); - return BitmapFactory.decodeByteArray(thumb, 0, thumb.length); - } else if (mData.hasUncompressedStrip()) { - // TODO: implement uncompressed - } - return null; - } - - /** - * Returns the thumbnail from IFD1 as a byte array, or null if none exists. - * The bytes may either be an uncompressed strip as specified in the exif - * standard or a jpeg compressed image. - * - * @return the thumbnail as a byte array. - */ - public byte[] getThumbnailBytes() { - if (mData.hasCompressedThumbnail()) { - return mData.getCompressedThumbnail(); - } else if (mData.hasUncompressedStrip()) { - // TODO: implement this - } - return null; - } - - /** - * Returns the thumbnail if it is jpeg compressed, or null if none exists. - * - * @return the thumbnail as a byte array. - */ - public byte[] getThumbnail() { - return mData.getCompressedThumbnail(); - } - - /** - * Check if thumbnail is compressed. - * - * @return true if the thumbnail is compressed. - */ - public boolean isThumbnailCompressed() { - return mData.hasCompressedThumbnail(); - } - - /** - * Check if thumbnail exists. - * - * @return true if a compressed thumbnail exists. - */ - public boolean hasThumbnail() { - // TODO: add back in uncompressed strip - return mData.hasCompressedThumbnail(); - } - - // TODO: uncompressed thumbnail setters - - /** - * Sets the thumbnail to be a jpeg compressed image. Clears any prior - * thumbnail. - * - * @param thumb a byte array containing a jpeg compressed image. - * @return true if the thumbnail was set. - */ - public boolean setCompressedThumbnail(byte[] thumb) { - mData.clearThumbnailAndStrips(); - mData.setCompressedThumbnail(thumb); - return true; - } - - /** - * Sets the thumbnail to be a jpeg compressed bitmap. Clears any prior - * thumbnail. - * - * @param thumb a bitmap to compress to a jpeg thumbnail. - * @return true if the thumbnail was set. - */ - public boolean setCompressedThumbnail(Bitmap thumb) { - ByteArrayOutputStream thumbnail = new ByteArrayOutputStream(); - if (!thumb.compress(Bitmap.CompressFormat.JPEG, 90, thumbnail)) { - return false; - } - return setCompressedThumbnail(thumbnail.toByteArray()); - } - - /** - * Clears the compressed thumbnail if it exists. - */ - public void removeCompressedThumbnail() { - mData.setCompressedThumbnail(null); - } - - // Convenience methods: - - /** - * Decodes the user comment tag into string as specified in the EXIF - * standard. Returns null if decoding failed. - */ - public String getUserComment() { - return mData.getUserComment(); - } - - /** - * Returns the Orientation ExifTag value for a given number of degrees. - * - * @param degrees the amount an image is rotated in degrees. - */ - public static short getOrientationValueForRotation(int degrees) { - degrees %= 360; - if (degrees < 0) { - degrees += 360; - } - if (degrees < 90) { - return Orientation.TOP_LEFT; // 0 degrees - } else if (degrees < 180) { - return Orientation.RIGHT_TOP; // 90 degrees cw - } else if (degrees < 270) { - return Orientation.BOTTOM_LEFT; // 180 degrees - } else { - return Orientation.RIGHT_BOTTOM; // 270 degrees cw - } - } - - /** - * Returns the rotation degrees corresponding to an ExifTag Orientation - * value. - * - * @param orientation the ExifTag Orientation value. - */ - public static int getRotationForOrientationValue(short orientation) { - switch (orientation) { - case Orientation.TOP_LEFT: - return 0; - case Orientation.RIGHT_TOP: - return 90; - case Orientation.BOTTOM_LEFT: - return 180; - case Orientation.RIGHT_BOTTOM: - return 270; - default: - return 0; - } - } - - /** - * Gets the double representation of the GPS latitude or longitude - * coordinate. - * - * @param coordinate an array of 3 Rationals representing the degrees, - * minutes, and seconds of the GPS location as defined in the - * exif specification. - * @param reference a GPS reference reperesented by a String containing "N", - * "S", "E", or "W". - * @return the GPS coordinate represented as degrees + minutes/60 + - * seconds/3600 - */ - public static double convertLatOrLongToDouble(Rational[] coordinate, String reference) { - try { - double degrees = coordinate[0].toDouble(); - double minutes = coordinate[1].toDouble(); - double seconds = coordinate[2].toDouble(); - double result = degrees + minutes / 60.0 + seconds / 3600.0; - if ((reference.equals("S") || reference.equals("W"))) { - return -result; - } - return result; - } catch (ArrayIndexOutOfBoundsException e) { - throw new IllegalArgumentException(); - } - } - - /** - * Gets the GPS latitude and longitude as a pair of doubles from this - * ExifInterface object's tags, or null if the necessary tags do not exist. - * - * @return an array of 2 doubles containing the latitude, and longitude - * respectively. - * @see #convertLatOrLongToDouble - */ - public double[] getLatLongAsDoubles() { - Rational[] latitude = getTagRationalValues(TAG_GPS_LATITUDE); - String latitudeRef = getTagStringValue(TAG_GPS_LATITUDE_REF); - Rational[] longitude = getTagRationalValues(TAG_GPS_LONGITUDE); - String longitudeRef = getTagStringValue(TAG_GPS_LONGITUDE_REF); - if (latitude == null || longitude == null || latitudeRef == null || longitudeRef == null - || latitude.length < 3 || longitude.length < 3) { - return null; - } - double[] latLon = new double[2]; - latLon[0] = convertLatOrLongToDouble(latitude, latitudeRef); - latLon[1] = convertLatOrLongToDouble(longitude, longitudeRef); - return latLon; - } - - private static final String GPS_DATE_FORMAT_STR = "yyyy:MM:dd"; - private static final String DATETIME_FORMAT_STR = "yyyy:MM:dd kk:mm:ss"; - private final DateFormat mDateTimeStampFormat = new SimpleDateFormat(DATETIME_FORMAT_STR); - private final DateFormat mGPSDateStampFormat = new SimpleDateFormat(GPS_DATE_FORMAT_STR); - private final Calendar mGPSTimeStampCalendar = Calendar - .getInstance(TimeZone.getTimeZone("UTC")); - - /** - * Creates, formats, and sets the DateTimeStamp tag for one of: - * {@link #TAG_DATE_TIME}, {@link #TAG_DATE_TIME_DIGITIZED}, - * {@link #TAG_DATE_TIME_ORIGINAL}. - * - * @param tagId one of the DateTimeStamp tags. - * @param timestamp a timestamp to format. - * @param timezone a TimeZone object. - * @return true if success, false if the tag could not be set. - */ - public boolean addDateTimeStampTag(int tagId, long timestamp, TimeZone timezone) { - if (tagId == TAG_DATE_TIME || tagId == TAG_DATE_TIME_DIGITIZED - || tagId == TAG_DATE_TIME_ORIGINAL) { - mDateTimeStampFormat.setTimeZone(timezone); - ExifTag t = buildTag(tagId, mDateTimeStampFormat.format(timestamp)); - if (t == null) { - return false; - } - setTag(t); - } else { - return false; - } - return true; - } - - /** - * Creates and sets all to the GPS tags for a give latitude and longitude. - * - * @param latitude a GPS latitude coordinate. - * @param longitude a GPS longitude coordinate. - * @return true if success, false if they could not be created or set. - */ - public boolean addGpsTags(double latitude, double longitude) { - ExifTag latTag = buildTag(TAG_GPS_LATITUDE, toExifLatLong(latitude)); - ExifTag longTag = buildTag(TAG_GPS_LONGITUDE, toExifLatLong(longitude)); - ExifTag latRefTag = buildTag(TAG_GPS_LATITUDE_REF, - latitude >= 0 ? ExifInterface.GpsLatitudeRef.NORTH - : ExifInterface.GpsLatitudeRef.SOUTH); - ExifTag longRefTag = buildTag(TAG_GPS_LONGITUDE_REF, - longitude >= 0 ? ExifInterface.GpsLongitudeRef.EAST - : ExifInterface.GpsLongitudeRef.WEST); - if (latTag == null || longTag == null || latRefTag == null || longRefTag == null) { - return false; - } - setTag(latTag); - setTag(longTag); - setTag(latRefTag); - setTag(longRefTag); - return true; - } - - /** - * Creates and sets the GPS timestamp tag. - * - * @param timestamp a GPS timestamp. - * @return true if success, false if could not be created or set. - */ - public boolean addGpsDateTimeStampTag(long timestamp) { - ExifTag t = buildTag(TAG_GPS_DATE_STAMP, mGPSDateStampFormat.format(timestamp)); - if (t == null) { - return false; - } - setTag(t); - mGPSTimeStampCalendar.setTimeInMillis(timestamp); - t = buildTag(TAG_GPS_TIME_STAMP, new Rational[] { - new Rational(mGPSTimeStampCalendar.get(Calendar.HOUR_OF_DAY), 1), - new Rational(mGPSTimeStampCalendar.get(Calendar.MINUTE), 1), - new Rational(mGPSTimeStampCalendar.get(Calendar.SECOND), 1) - }); - if (t == null) { - return false; - } - setTag(t); - return true; - } - - private static Rational[] toExifLatLong(double value) { - // convert to the format dd/1 mm/1 ssss/100 - value = Math.abs(value); - int degrees = (int) value; - value = (value - degrees) * 60; - int minutes = (int) value; - value = (value - minutes) * 6000; - int seconds = (int) value; - return new Rational[] { - new Rational(degrees, 1), new Rational(minutes, 1), new Rational(seconds, 100) - }; - } - - private void doExifStreamIO(InputStream is, OutputStream os) throws IOException { - byte[] buf = new byte[1024]; - int ret = is.read(buf, 0, 1024); - while (ret != -1) { - os.write(buf, 0, ret); - ret = is.read(buf, 0, 1024); - } - } - - protected static void closeSilently(Closeable c) { - if (c != null) { - try { - c.close(); - } catch (Throwable e) { - // ignored - } - } - } - - private SparseIntArray mTagInfo = null; - - protected SparseIntArray getTagInfo() { - if (mTagInfo == null) { - mTagInfo = new SparseIntArray(); - initTagInfo(); - } - return mTagInfo; - } - - private void initTagInfo() { - /** - * We put tag information in a 4-bytes integer. The first byte a bitmask - * representing the allowed IFDs of the tag, the second byte is the data - * type, and the last two byte are a short value indicating the default - * component count of this tag. - */ - // IFD0 tags - int[] ifdAllowedIfds = { - IfdId.TYPE_IFD_0, IfdId.TYPE_IFD_1 - }; - int ifdFlags = getFlagsFromAllowedIfds(ifdAllowedIfds) << 24; - mTagInfo.put(ExifInterface.TAG_MAKE, - ifdFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_IMAGE_WIDTH, - ifdFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - mTagInfo.put(ExifInterface.TAG_IMAGE_LENGTH, - ifdFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - mTagInfo.put(ExifInterface.TAG_BITS_PER_SAMPLE, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 3); - mTagInfo.put(ExifInterface.TAG_COMPRESSION, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_PHOTOMETRIC_INTERPRETATION, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_ORIENTATION, ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 - | 1); - mTagInfo.put(ExifInterface.TAG_SAMPLES_PER_PIXEL, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_PLANAR_CONFIGURATION, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_Y_CB_CR_SUB_SAMPLING, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 2); - mTagInfo.put(ExifInterface.TAG_Y_CB_CR_POSITIONING, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_X_RESOLUTION, - ifdFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_Y_RESOLUTION, - ifdFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_RESOLUTION_UNIT, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_STRIP_OFFSETS, - ifdFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_ROWS_PER_STRIP, - ifdFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - mTagInfo.put(ExifInterface.TAG_STRIP_BYTE_COUNTS, - ifdFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_TRANSFER_FUNCTION, - ifdFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 3 * 256); - mTagInfo.put(ExifInterface.TAG_WHITE_POINT, - ifdFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 2); - mTagInfo.put(ExifInterface.TAG_PRIMARY_CHROMATICITIES, - ifdFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 6); - mTagInfo.put(ExifInterface.TAG_Y_CB_CR_COEFFICIENTS, - ifdFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 3); - mTagInfo.put(ExifInterface.TAG_REFERENCE_BLACK_WHITE, - ifdFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 6); - mTagInfo.put(ExifInterface.TAG_DATE_TIME, - ifdFlags | ExifTag.TYPE_ASCII << 16 | 20); - mTagInfo.put(ExifInterface.TAG_IMAGE_DESCRIPTION, - ifdFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_MAKE, - ifdFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_MODEL, - ifdFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_SOFTWARE, - ifdFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_ARTIST, - ifdFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_COPYRIGHT, - ifdFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_EXIF_IFD, - ifdFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_IFD, - ifdFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - // IFD1 tags - int[] ifd1AllowedIfds = { - IfdId.TYPE_IFD_1 - }; - int ifdFlags1 = getFlagsFromAllowedIfds(ifd1AllowedIfds) << 24; - mTagInfo.put(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT, - ifdFlags1 | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - mTagInfo.put(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT_LENGTH, - ifdFlags1 | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - // Exif tags - int[] exifAllowedIfds = { - IfdId.TYPE_IFD_EXIF - }; - int exifFlags = getFlagsFromAllowedIfds(exifAllowedIfds) << 24; - mTagInfo.put(ExifInterface.TAG_EXIF_VERSION, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | 4); - mTagInfo.put(ExifInterface.TAG_FLASHPIX_VERSION, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | 4); - mTagInfo.put(ExifInterface.TAG_COLOR_SPACE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_COMPONENTS_CONFIGURATION, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | 4); - mTagInfo.put(ExifInterface.TAG_COMPRESSED_BITS_PER_PIXEL, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_PIXEL_X_DIMENSION, - exifFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - mTagInfo.put(ExifInterface.TAG_PIXEL_Y_DIMENSION, - exifFlags | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - mTagInfo.put(ExifInterface.TAG_MAKER_NOTE, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_USER_COMMENT, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_RELATED_SOUND_FILE, - exifFlags | ExifTag.TYPE_ASCII << 16 | 13); - mTagInfo.put(ExifInterface.TAG_DATE_TIME_ORIGINAL, - exifFlags | ExifTag.TYPE_ASCII << 16 | 20); - mTagInfo.put(ExifInterface.TAG_DATE_TIME_DIGITIZED, - exifFlags | ExifTag.TYPE_ASCII << 16 | 20); - mTagInfo.put(ExifInterface.TAG_SUB_SEC_TIME, - exifFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_SUB_SEC_TIME_ORIGINAL, - exifFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_SUB_SEC_TIME_DIGITIZED, - exifFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_IMAGE_UNIQUE_ID, - exifFlags | ExifTag.TYPE_ASCII << 16 | 33); - mTagInfo.put(ExifInterface.TAG_EXPOSURE_TIME, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_F_NUMBER, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_EXPOSURE_PROGRAM, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SPECTRAL_SENSITIVITY, - exifFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_ISO_SPEED_RATINGS, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_OECF, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_SHUTTER_SPEED_VALUE, - exifFlags | ExifTag.TYPE_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_APERTURE_VALUE, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_BRIGHTNESS_VALUE, - exifFlags | ExifTag.TYPE_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_EXPOSURE_BIAS_VALUE, - exifFlags | ExifTag.TYPE_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_MAX_APERTURE_VALUE, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SUBJECT_DISTANCE, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_METERING_MODE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_LIGHT_SOURCE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_FLASH, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_FOCAL_LENGTH, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SUBJECT_AREA, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_FLASH_ENERGY, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SPATIAL_FREQUENCY_RESPONSE, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_FOCAL_PLANE_X_RESOLUTION, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_FOCAL_PLANE_Y_RESOLUTION, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_FOCAL_PLANE_RESOLUTION_UNIT, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SUBJECT_LOCATION, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 2); - mTagInfo.put(ExifInterface.TAG_EXPOSURE_INDEX, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SENSING_METHOD, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_FILE_SOURCE, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SCENE_TYPE, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | 1); - mTagInfo.put(ExifInterface.TAG_CFA_PATTERN, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_CUSTOM_RENDERED, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_EXPOSURE_MODE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_WHITE_BALANCE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_DIGITAL_ZOOM_RATIO, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_FOCAL_LENGTH_IN_35_MM_FILE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SCENE_CAPTURE_TYPE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GAIN_CONTROL, - exifFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_CONTRAST, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SATURATION, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_SHARPNESS, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_DEVICE_SETTING_DESCRIPTION, - exifFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_SUBJECT_DISTANCE_RANGE, - exifFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 1); - mTagInfo.put(ExifInterface.TAG_INTEROPERABILITY_IFD, exifFlags - | ExifTag.TYPE_UNSIGNED_LONG << 16 | 1); - // GPS tag - int[] gpsAllowedIfds = { - IfdId.TYPE_IFD_GPS - }; - int gpsFlags = getFlagsFromAllowedIfds(gpsAllowedIfds) << 24; - mTagInfo.put(ExifInterface.TAG_GPS_VERSION_ID, - gpsFlags | ExifTag.TYPE_UNSIGNED_BYTE << 16 | 4); - mTagInfo.put(ExifInterface.TAG_GPS_LATITUDE_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_LONGITUDE_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_LATITUDE, - gpsFlags | ExifTag.TYPE_RATIONAL << 16 | 3); - mTagInfo.put(ExifInterface.TAG_GPS_LONGITUDE, - gpsFlags | ExifTag.TYPE_RATIONAL << 16 | 3); - mTagInfo.put(ExifInterface.TAG_GPS_ALTITUDE_REF, - gpsFlags | ExifTag.TYPE_UNSIGNED_BYTE << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_ALTITUDE, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_TIME_STAMP, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 3); - mTagInfo.put(ExifInterface.TAG_GPS_SATTELLITES, - gpsFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_GPS_STATUS, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_MEASURE_MODE, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_DOP, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_SPEED_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_SPEED, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_TRACK_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_TRACK, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_IMG_DIRECTION_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_IMG_DIRECTION, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_MAP_DATUM, - gpsFlags | ExifTag.TYPE_ASCII << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_GPS_DEST_LATITUDE_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_DEST_LATITUDE, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_DEST_BEARING_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_DEST_BEARING, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_DEST_DISTANCE_REF, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 2); - mTagInfo.put(ExifInterface.TAG_GPS_DEST_DISTANCE, - gpsFlags | ExifTag.TYPE_UNSIGNED_RATIONAL << 16 | 1); - mTagInfo.put(ExifInterface.TAG_GPS_PROCESSING_METHOD, - gpsFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_GPS_AREA_INFORMATION, - gpsFlags | ExifTag.TYPE_UNDEFINED << 16 | ExifTag.SIZE_UNDEFINED); - mTagInfo.put(ExifInterface.TAG_GPS_DATE_STAMP, - gpsFlags | ExifTag.TYPE_ASCII << 16 | 11); - mTagInfo.put(ExifInterface.TAG_GPS_DIFFERENTIAL, - gpsFlags | ExifTag.TYPE_UNSIGNED_SHORT << 16 | 11); - // Interoperability tag - int[] interopAllowedIfds = { - IfdId.TYPE_IFD_INTEROPERABILITY - }; - int interopFlags = getFlagsFromAllowedIfds(interopAllowedIfds) << 24; - mTagInfo.put(TAG_INTEROPERABILITY_INDEX, interopFlags | ExifTag.TYPE_ASCII << 16 - | ExifTag.SIZE_UNDEFINED); - } - - protected static int getAllowedIfdFlagsFromInfo(int info) { - return info >>> 24; - } - - protected static int[] getAllowedIfdsFromInfo(int info) { - int ifdFlags = getAllowedIfdFlagsFromInfo(info); - int[] ifds = IfdData.getIfds(); - ArrayList<Integer> l = new ArrayList<Integer>(); - for (int i = 0; i < IfdId.TYPE_IFD_COUNT; i++) { - int flag = (ifdFlags >> i) & 1; - if (flag == 1) { - l.add(ifds[i]); - } - } - if (l.size() <= 0) { - return null; - } - int[] ret = new int[l.size()]; - int j = 0; - for (int i : l) { - ret[j++] = i; - } - return ret; - } - - protected static boolean isIfdAllowed(int info, int ifd) { - int[] ifds = IfdData.getIfds(); - int ifdFlags = getAllowedIfdFlagsFromInfo(info); - for (int i = 0; i < ifds.length; i++) { - if (ifd == ifds[i] && ((ifdFlags >> i) & 1) == 1) { - return true; - } - } - return false; - } - - protected static int getFlagsFromAllowedIfds(int[] allowedIfds) { - if (allowedIfds == null || allowedIfds.length == 0) { - return 0; - } - int flags = 0; - int[] ifds = IfdData.getIfds(); - for (int i = 0; i < IfdId.TYPE_IFD_COUNT; i++) { - for (int j : allowedIfds) { - if (ifds[i] == j) { - flags |= 1 << i; - break; - } - } - } - return flags; - } - - protected static short getTypeFromInfo(int info) { - return (short) ((info >> 16) & 0x0ff); - } - - protected static int getComponentCountFromInfo(int info) { - return info & 0x0ffff; - } - -} diff --git a/src/com/android/gallery3d/exif/ExifInvalidFormatException.java b/src/com/android/gallery3d/exif/ExifInvalidFormatException.java deleted file mode 100644 index bf923ec26..000000000 --- a/src/com/android/gallery3d/exif/ExifInvalidFormatException.java +++ /dev/null @@ -1,23 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -public class ExifInvalidFormatException extends Exception { - public ExifInvalidFormatException(String meg) { - super(meg); - } -}
\ No newline at end of file diff --git a/src/com/android/gallery3d/exif/ExifModifier.java b/src/com/android/gallery3d/exif/ExifModifier.java deleted file mode 100644 index f00362b6b..000000000 --- a/src/com/android/gallery3d/exif/ExifModifier.java +++ /dev/null @@ -1,196 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import android.util.Log; - -import java.io.Closeable; -import java.io.IOException; -import java.io.InputStream; -import java.nio.ByteBuffer; -import java.nio.ByteOrder; -import java.util.ArrayList; -import java.util.List; - -class ExifModifier { - public static final String TAG = "ExifModifier"; - public static final boolean DEBUG = false; - private final ByteBuffer mByteBuffer; - private final ExifData mTagToModified; - private final List<TagOffset> mTagOffsets = new ArrayList<TagOffset>(); - private final ExifInterface mInterface; - private int mOffsetBase; - - private static class TagOffset { - final int mOffset; - final ExifTag mTag; - - TagOffset(ExifTag tag, int offset) { - mTag = tag; - mOffset = offset; - } - } - - protected ExifModifier(ByteBuffer byteBuffer, ExifInterface iRef) throws IOException, - ExifInvalidFormatException { - mByteBuffer = byteBuffer; - mOffsetBase = byteBuffer.position(); - mInterface = iRef; - InputStream is = null; - try { - is = new ByteBufferInputStream(byteBuffer); - // Do not require any IFD; - ExifParser parser = ExifParser.parse(is, mInterface); - mTagToModified = new ExifData(parser.getByteOrder()); - mOffsetBase += parser.getTiffStartPosition(); - mByteBuffer.position(0); - } finally { - ExifInterface.closeSilently(is); - } - } - - protected ByteOrder getByteOrder() { - return mTagToModified.getByteOrder(); - } - - protected boolean commit() throws IOException, ExifInvalidFormatException { - InputStream is = null; - try { - is = new ByteBufferInputStream(mByteBuffer); - int flag = 0; - IfdData[] ifdDatas = new IfdData[] { - mTagToModified.getIfdData(IfdId.TYPE_IFD_0), - mTagToModified.getIfdData(IfdId.TYPE_IFD_1), - mTagToModified.getIfdData(IfdId.TYPE_IFD_EXIF), - mTagToModified.getIfdData(IfdId.TYPE_IFD_INTEROPERABILITY), - mTagToModified.getIfdData(IfdId.TYPE_IFD_GPS) - }; - - if (ifdDatas[IfdId.TYPE_IFD_0] != null) { - flag |= ExifParser.OPTION_IFD_0; - } - if (ifdDatas[IfdId.TYPE_IFD_1] != null) { - flag |= ExifParser.OPTION_IFD_1; - } - if (ifdDatas[IfdId.TYPE_IFD_EXIF] != null) { - flag |= ExifParser.OPTION_IFD_EXIF; - } - if (ifdDatas[IfdId.TYPE_IFD_GPS] != null) { - flag |= ExifParser.OPTION_IFD_GPS; - } - if (ifdDatas[IfdId.TYPE_IFD_INTEROPERABILITY] != null) { - flag |= ExifParser.OPTION_IFD_INTEROPERABILITY; - } - - ExifParser parser = ExifParser.parse(is, flag, mInterface); - int event = parser.next(); - IfdData currIfd = null; - while (event != ExifParser.EVENT_END) { - switch (event) { - case ExifParser.EVENT_START_OF_IFD: - currIfd = ifdDatas[parser.getCurrentIfd()]; - if (currIfd == null) { - parser.skipRemainingTagsInCurrentIfd(); - } - break; - case ExifParser.EVENT_NEW_TAG: - ExifTag oldTag = parser.getTag(); - ExifTag newTag = currIfd.getTag(oldTag.getTagId()); - if (newTag != null) { - if (newTag.getComponentCount() != oldTag.getComponentCount() - || newTag.getDataType() != oldTag.getDataType()) { - return false; - } else { - mTagOffsets.add(new TagOffset(newTag, oldTag.getOffset())); - currIfd.removeTag(oldTag.getTagId()); - if (currIfd.getTagCount() == 0) { - parser.skipRemainingTagsInCurrentIfd(); - } - } - } - break; - } - event = parser.next(); - } - for (IfdData ifd : ifdDatas) { - if (ifd != null && ifd.getTagCount() > 0) { - return false; - } - } - modify(); - } finally { - ExifInterface.closeSilently(is); - } - return true; - } - - private void modify() { - mByteBuffer.order(getByteOrder()); - for (TagOffset tagOffset : mTagOffsets) { - writeTagValue(tagOffset.mTag, tagOffset.mOffset); - } - } - - private void writeTagValue(ExifTag tag, int offset) { - if (DEBUG) { - Log.v(TAG, "modifying tag to: \n" + tag.toString()); - Log.v(TAG, "at offset: " + offset); - } - mByteBuffer.position(offset + mOffsetBase); - switch (tag.getDataType()) { - case ExifTag.TYPE_ASCII: - byte buf[] = tag.getStringByte(); - if (buf.length == tag.getComponentCount()) { - buf[buf.length - 1] = 0; - mByteBuffer.put(buf); - } else { - mByteBuffer.put(buf); - mByteBuffer.put((byte) 0); - } - break; - case ExifTag.TYPE_LONG: - case ExifTag.TYPE_UNSIGNED_LONG: - for (int i = 0, n = tag.getComponentCount(); i < n; i++) { - mByteBuffer.putInt((int) tag.getValueAt(i)); - } - break; - case ExifTag.TYPE_RATIONAL: - case ExifTag.TYPE_UNSIGNED_RATIONAL: - for (int i = 0, n = tag.getComponentCount(); i < n; i++) { - Rational v = tag.getRational(i); - mByteBuffer.putInt((int) v.getNumerator()); - mByteBuffer.putInt((int) v.getDenominator()); - } - break; - case ExifTag.TYPE_UNDEFINED: - case ExifTag.TYPE_UNSIGNED_BYTE: - buf = new byte[tag.getComponentCount()]; - tag.getBytes(buf); - mByteBuffer.put(buf); - break; - case ExifTag.TYPE_UNSIGNED_SHORT: - for (int i = 0, n = tag.getComponentCount(); i < n; i++) { - mByteBuffer.putShort((short) tag.getValueAt(i)); - } - break; - } - } - - public void modifyTag(ExifTag tag) { - mTagToModified.addTag(tag); - } -} diff --git a/src/com/android/gallery3d/exif/ExifOutputStream.java b/src/com/android/gallery3d/exif/ExifOutputStream.java deleted file mode 100644 index 7ca05f2e0..000000000 --- a/src/com/android/gallery3d/exif/ExifOutputStream.java +++ /dev/null @@ -1,518 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import android.util.Log; - -import java.io.BufferedOutputStream; -import java.io.FilterOutputStream; -import java.io.IOException; -import java.io.OutputStream; -import java.nio.ByteBuffer; -import java.nio.ByteOrder; -import java.util.ArrayList; - -/** - * This class provides a way to replace the Exif header of a JPEG image. - * <p> - * Below is an example of writing EXIF data into a file - * - * <pre> - * public static void writeExif(byte[] jpeg, ExifData exif, String path) { - * OutputStream os = null; - * try { - * os = new FileOutputStream(path); - * ExifOutputStream eos = new ExifOutputStream(os); - * // Set the exif header - * eos.setExifData(exif); - * // Write the original jpeg out, the header will be add into the file. - * eos.write(jpeg); - * } catch (FileNotFoundException e) { - * e.printStackTrace(); - * } catch (IOException e) { - * e.printStackTrace(); - * } finally { - * if (os != null) { - * try { - * os.close(); - * } catch (IOException e) { - * e.printStackTrace(); - * } - * } - * } - * } - * </pre> - */ -class ExifOutputStream extends FilterOutputStream { - private static final String TAG = "ExifOutputStream"; - private static final boolean DEBUG = false; - private static final int STREAMBUFFER_SIZE = 0x00010000; // 64Kb - - private static final int STATE_SOI = 0; - private static final int STATE_FRAME_HEADER = 1; - private static final int STATE_JPEG_DATA = 2; - - private static final int EXIF_HEADER = 0x45786966; - private static final short TIFF_HEADER = 0x002A; - private static final short TIFF_BIG_ENDIAN = 0x4d4d; - private static final short TIFF_LITTLE_ENDIAN = 0x4949; - private static final short TAG_SIZE = 12; - private static final short TIFF_HEADER_SIZE = 8; - private static final int MAX_EXIF_SIZE = 65535; - - private ExifData mExifData; - private int mState = STATE_SOI; - private int mByteToSkip; - private int mByteToCopy; - private byte[] mSingleByteArray = new byte[1]; - private ByteBuffer mBuffer = ByteBuffer.allocate(4); - private final ExifInterface mInterface; - - protected ExifOutputStream(OutputStream ou, ExifInterface iRef) { - super(new BufferedOutputStream(ou, STREAMBUFFER_SIZE)); - mInterface = iRef; - } - - /** - * Sets the ExifData to be written into the JPEG file. Should be called - * before writing image data. - */ - protected void setExifData(ExifData exifData) { - mExifData = exifData; - } - - /** - * Gets the Exif header to be written into the JPEF file. - */ - protected ExifData getExifData() { - return mExifData; - } - - private int requestByteToBuffer(int requestByteCount, byte[] buffer - , int offset, int length) { - int byteNeeded = requestByteCount - mBuffer.position(); - int byteToRead = length > byteNeeded ? byteNeeded : length; - mBuffer.put(buffer, offset, byteToRead); - return byteToRead; - } - - /** - * Writes the image out. The input data should be a valid JPEG format. After - * writing, it's Exif header will be replaced by the given header. - */ - @Override - public void write(byte[] buffer, int offset, int length) throws IOException { - while ((mByteToSkip > 0 || mByteToCopy > 0 || mState != STATE_JPEG_DATA) - && length > 0) { - if (mByteToSkip > 0) { - int byteToProcess = length > mByteToSkip ? mByteToSkip : length; - length -= byteToProcess; - mByteToSkip -= byteToProcess; - offset += byteToProcess; - } - if (mByteToCopy > 0) { - int byteToProcess = length > mByteToCopy ? mByteToCopy : length; - out.write(buffer, offset, byteToProcess); - length -= byteToProcess; - mByteToCopy -= byteToProcess; - offset += byteToProcess; - } - if (length == 0) { - return; - } - switch (mState) { - case STATE_SOI: - int byteRead = requestByteToBuffer(2, buffer, offset, length); - offset += byteRead; - length -= byteRead; - if (mBuffer.position() < 2) { - return; - } - mBuffer.rewind(); - if (mBuffer.getShort() != JpegHeader.SOI) { - throw new IOException("Not a valid jpeg image, cannot write exif"); - } - out.write(mBuffer.array(), 0, 2); - mState = STATE_FRAME_HEADER; - mBuffer.rewind(); - writeExifData(); - break; - case STATE_FRAME_HEADER: - // We ignore the APP1 segment and copy all other segments - // until SOF tag. - byteRead = requestByteToBuffer(4, buffer, offset, length); - offset += byteRead; - length -= byteRead; - // Check if this image data doesn't contain SOF. - if (mBuffer.position() == 2) { - short tag = mBuffer.getShort(); - if (tag == JpegHeader.EOI) { - out.write(mBuffer.array(), 0, 2); - mBuffer.rewind(); - } - } - if (mBuffer.position() < 4) { - return; - } - mBuffer.rewind(); - short marker = mBuffer.getShort(); - if (marker == JpegHeader.APP1) { - mByteToSkip = (mBuffer.getShort() & 0x0000ffff) - 2; - mState = STATE_JPEG_DATA; - } else if (!JpegHeader.isSofMarker(marker)) { - out.write(mBuffer.array(), 0, 4); - mByteToCopy = (mBuffer.getShort() & 0x0000ffff) - 2; - } else { - out.write(mBuffer.array(), 0, 4); - mState = STATE_JPEG_DATA; - } - mBuffer.rewind(); - } - } - if (length > 0) { - out.write(buffer, offset, length); - } - } - - /** - * Writes the one bytes out. The input data should be a valid JPEG format. - * After writing, it's Exif header will be replaced by the given header. - */ - @Override - public void write(int oneByte) throws IOException { - mSingleByteArray[0] = (byte) (0xff & oneByte); - write(mSingleByteArray); - } - - /** - * Equivalent to calling write(buffer, 0, buffer.length). - */ - @Override - public void write(byte[] buffer) throws IOException { - write(buffer, 0, buffer.length); - } - - private void writeExifData() throws IOException { - if (mExifData == null) { - return; - } - if (DEBUG) { - Log.v(TAG, "Writing exif data..."); - } - ArrayList<ExifTag> nullTags = stripNullValueTags(mExifData); - createRequiredIfdAndTag(); - int exifSize = calculateAllOffset(); - if (exifSize + 8 > MAX_EXIF_SIZE) { - throw new IOException("Exif header is too large (>64Kb)"); - } - OrderedDataOutputStream dataOutputStream = new OrderedDataOutputStream(out); - dataOutputStream.setByteOrder(ByteOrder.BIG_ENDIAN); - dataOutputStream.writeShort(JpegHeader.APP1); - dataOutputStream.writeShort((short) (exifSize + 8)); - dataOutputStream.writeInt(EXIF_HEADER); - dataOutputStream.writeShort((short) 0x0000); - if (mExifData.getByteOrder() == ByteOrder.BIG_ENDIAN) { - dataOutputStream.writeShort(TIFF_BIG_ENDIAN); - } else { - dataOutputStream.writeShort(TIFF_LITTLE_ENDIAN); - } - dataOutputStream.setByteOrder(mExifData.getByteOrder()); - dataOutputStream.writeShort(TIFF_HEADER); - dataOutputStream.writeInt(8); - writeAllTags(dataOutputStream); - writeThumbnail(dataOutputStream); - for (ExifTag t : nullTags) { - mExifData.addTag(t); - } - } - - private ArrayList<ExifTag> stripNullValueTags(ExifData data) { - ArrayList<ExifTag> nullTags = new ArrayList<ExifTag>(); - for(ExifTag t : data.getAllTags()) { - if (t.getValue() == null && !ExifInterface.isOffsetTag(t.getTagId())) { - data.removeTag(t.getTagId(), t.getIfd()); - nullTags.add(t); - } - } - return nullTags; - } - - private void writeThumbnail(OrderedDataOutputStream dataOutputStream) throws IOException { - if (mExifData.hasCompressedThumbnail()) { - dataOutputStream.write(mExifData.getCompressedThumbnail()); - } else if (mExifData.hasUncompressedStrip()) { - for (int i = 0; i < mExifData.getStripCount(); i++) { - dataOutputStream.write(mExifData.getStrip(i)); - } - } - } - - private void writeAllTags(OrderedDataOutputStream dataOutputStream) throws IOException { - writeIfd(mExifData.getIfdData(IfdId.TYPE_IFD_0), dataOutputStream); - writeIfd(mExifData.getIfdData(IfdId.TYPE_IFD_EXIF), dataOutputStream); - IfdData interoperabilityIfd = mExifData.getIfdData(IfdId.TYPE_IFD_INTEROPERABILITY); - if (interoperabilityIfd != null) { - writeIfd(interoperabilityIfd, dataOutputStream); - } - IfdData gpsIfd = mExifData.getIfdData(IfdId.TYPE_IFD_GPS); - if (gpsIfd != null) { - writeIfd(gpsIfd, dataOutputStream); - } - IfdData ifd1 = mExifData.getIfdData(IfdId.TYPE_IFD_1); - if (ifd1 != null) { - writeIfd(mExifData.getIfdData(IfdId.TYPE_IFD_1), dataOutputStream); - } - } - - private void writeIfd(IfdData ifd, OrderedDataOutputStream dataOutputStream) - throws IOException { - ExifTag[] tags = ifd.getAllTags(); - dataOutputStream.writeShort((short) tags.length); - for (ExifTag tag : tags) { - dataOutputStream.writeShort(tag.getTagId()); - dataOutputStream.writeShort(tag.getDataType()); - dataOutputStream.writeInt(tag.getComponentCount()); - if (DEBUG) { - Log.v(TAG, "\n" + tag.toString()); - } - if (tag.getDataSize() > 4) { - dataOutputStream.writeInt(tag.getOffset()); - } else { - ExifOutputStream.writeTagValue(tag, dataOutputStream); - for (int i = 0, n = 4 - tag.getDataSize(); i < n; i++) { - dataOutputStream.write(0); - } - } - } - dataOutputStream.writeInt(ifd.getOffsetToNextIfd()); - for (ExifTag tag : tags) { - if (tag.getDataSize() > 4) { - ExifOutputStream.writeTagValue(tag, dataOutputStream); - } - } - } - - private int calculateOffsetOfIfd(IfdData ifd, int offset) { - offset += 2 + ifd.getTagCount() * TAG_SIZE + 4; - ExifTag[] tags = ifd.getAllTags(); - for (ExifTag tag : tags) { - if (tag.getDataSize() > 4) { - tag.setOffset(offset); - offset += tag.getDataSize(); - } - } - return offset; - } - - private void createRequiredIfdAndTag() throws IOException { - // IFD0 is required for all file - IfdData ifd0 = mExifData.getIfdData(IfdId.TYPE_IFD_0); - if (ifd0 == null) { - ifd0 = new IfdData(IfdId.TYPE_IFD_0); - mExifData.addIfdData(ifd0); - } - ExifTag exifOffsetTag = mInterface.buildUninitializedTag(ExifInterface.TAG_EXIF_IFD); - if (exifOffsetTag == null) { - throw new IOException("No definition for crucial exif tag: " - + ExifInterface.TAG_EXIF_IFD); - } - ifd0.setTag(exifOffsetTag); - - // Exif IFD is required for all files. - IfdData exifIfd = mExifData.getIfdData(IfdId.TYPE_IFD_EXIF); - if (exifIfd == null) { - exifIfd = new IfdData(IfdId.TYPE_IFD_EXIF); - mExifData.addIfdData(exifIfd); - } - - // GPS IFD - IfdData gpsIfd = mExifData.getIfdData(IfdId.TYPE_IFD_GPS); - if (gpsIfd != null) { - ExifTag gpsOffsetTag = mInterface.buildUninitializedTag(ExifInterface.TAG_GPS_IFD); - if (gpsOffsetTag == null) { - throw new IOException("No definition for crucial exif tag: " - + ExifInterface.TAG_GPS_IFD); - } - ifd0.setTag(gpsOffsetTag); - } - - // Interoperability IFD - IfdData interIfd = mExifData.getIfdData(IfdId.TYPE_IFD_INTEROPERABILITY); - if (interIfd != null) { - ExifTag interOffsetTag = mInterface - .buildUninitializedTag(ExifInterface.TAG_INTEROPERABILITY_IFD); - if (interOffsetTag == null) { - throw new IOException("No definition for crucial exif tag: " - + ExifInterface.TAG_INTEROPERABILITY_IFD); - } - exifIfd.setTag(interOffsetTag); - } - - IfdData ifd1 = mExifData.getIfdData(IfdId.TYPE_IFD_1); - - // thumbnail - if (mExifData.hasCompressedThumbnail()) { - - if (ifd1 == null) { - ifd1 = new IfdData(IfdId.TYPE_IFD_1); - mExifData.addIfdData(ifd1); - } - - ExifTag offsetTag = mInterface - .buildUninitializedTag(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT); - if (offsetTag == null) { - throw new IOException("No definition for crucial exif tag: " - + ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT); - } - - ifd1.setTag(offsetTag); - ExifTag lengthTag = mInterface - .buildUninitializedTag(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT_LENGTH); - if (lengthTag == null) { - throw new IOException("No definition for crucial exif tag: " - + ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT_LENGTH); - } - - lengthTag.setValue(mExifData.getCompressedThumbnail().length); - ifd1.setTag(lengthTag); - - // Get rid of tags for uncompressed if they exist. - ifd1.removeTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_STRIP_OFFSETS)); - ifd1.removeTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_STRIP_BYTE_COUNTS)); - } else if (mExifData.hasUncompressedStrip()) { - if (ifd1 == null) { - ifd1 = new IfdData(IfdId.TYPE_IFD_1); - mExifData.addIfdData(ifd1); - } - int stripCount = mExifData.getStripCount(); - ExifTag offsetTag = mInterface.buildUninitializedTag(ExifInterface.TAG_STRIP_OFFSETS); - if (offsetTag == null) { - throw new IOException("No definition for crucial exif tag: " - + ExifInterface.TAG_STRIP_OFFSETS); - } - ExifTag lengthTag = mInterface - .buildUninitializedTag(ExifInterface.TAG_STRIP_BYTE_COUNTS); - if (lengthTag == null) { - throw new IOException("No definition for crucial exif tag: " - + ExifInterface.TAG_STRIP_BYTE_COUNTS); - } - long[] lengths = new long[stripCount]; - for (int i = 0; i < mExifData.getStripCount(); i++) { - lengths[i] = mExifData.getStrip(i).length; - } - lengthTag.setValue(lengths); - ifd1.setTag(offsetTag); - ifd1.setTag(lengthTag); - // Get rid of tags for compressed if they exist. - ifd1.removeTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT)); - ifd1.removeTag(ExifInterface - .getTrueTagKey(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT_LENGTH)); - } else if (ifd1 != null) { - // Get rid of offset and length tags if there is no thumbnail. - ifd1.removeTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_STRIP_OFFSETS)); - ifd1.removeTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_STRIP_BYTE_COUNTS)); - ifd1.removeTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT)); - ifd1.removeTag(ExifInterface - .getTrueTagKey(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT_LENGTH)); - } - } - - private int calculateAllOffset() { - int offset = TIFF_HEADER_SIZE; - IfdData ifd0 = mExifData.getIfdData(IfdId.TYPE_IFD_0); - offset = calculateOffsetOfIfd(ifd0, offset); - ifd0.getTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_EXIF_IFD)).setValue(offset); - - IfdData exifIfd = mExifData.getIfdData(IfdId.TYPE_IFD_EXIF); - offset = calculateOffsetOfIfd(exifIfd, offset); - - IfdData interIfd = mExifData.getIfdData(IfdId.TYPE_IFD_INTEROPERABILITY); - if (interIfd != null) { - exifIfd.getTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_INTEROPERABILITY_IFD)) - .setValue(offset); - offset = calculateOffsetOfIfd(interIfd, offset); - } - - IfdData gpsIfd = mExifData.getIfdData(IfdId.TYPE_IFD_GPS); - if (gpsIfd != null) { - ifd0.getTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_GPS_IFD)).setValue(offset); - offset = calculateOffsetOfIfd(gpsIfd, offset); - } - - IfdData ifd1 = mExifData.getIfdData(IfdId.TYPE_IFD_1); - if (ifd1 != null) { - ifd0.setOffsetToNextIfd(offset); - offset = calculateOffsetOfIfd(ifd1, offset); - } - - // thumbnail - if (mExifData.hasCompressedThumbnail()) { - ifd1.getTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT)) - .setValue(offset); - offset += mExifData.getCompressedThumbnail().length; - } else if (mExifData.hasUncompressedStrip()) { - int stripCount = mExifData.getStripCount(); - long[] offsets = new long[stripCount]; - for (int i = 0; i < mExifData.getStripCount(); i++) { - offsets[i] = offset; - offset += mExifData.getStrip(i).length; - } - ifd1.getTag(ExifInterface.getTrueTagKey(ExifInterface.TAG_STRIP_OFFSETS)).setValue( - offsets); - } - return offset; - } - - static void writeTagValue(ExifTag tag, OrderedDataOutputStream dataOutputStream) - throws IOException { - switch (tag.getDataType()) { - case ExifTag.TYPE_ASCII: - byte buf[] = tag.getStringByte(); - if (buf.length == tag.getComponentCount()) { - buf[buf.length - 1] = 0; - dataOutputStream.write(buf); - } else { - dataOutputStream.write(buf); - dataOutputStream.write(0); - } - break; - case ExifTag.TYPE_LONG: - case ExifTag.TYPE_UNSIGNED_LONG: - for (int i = 0, n = tag.getComponentCount(); i < n; i++) { - dataOutputStream.writeInt((int) tag.getValueAt(i)); - } - break; - case ExifTag.TYPE_RATIONAL: - case ExifTag.TYPE_UNSIGNED_RATIONAL: - for (int i = 0, n = tag.getComponentCount(); i < n; i++) { - dataOutputStream.writeRational(tag.getRational(i)); - } - break; - case ExifTag.TYPE_UNDEFINED: - case ExifTag.TYPE_UNSIGNED_BYTE: - buf = new byte[tag.getComponentCount()]; - tag.getBytes(buf); - dataOutputStream.write(buf); - break; - case ExifTag.TYPE_UNSIGNED_SHORT: - for (int i = 0, n = tag.getComponentCount(); i < n; i++) { - dataOutputStream.writeShort((short) tag.getValueAt(i)); - } - break; - } - } -} diff --git a/src/com/android/gallery3d/exif/ExifParser.java b/src/com/android/gallery3d/exif/ExifParser.java deleted file mode 100644 index 5467d423d..000000000 --- a/src/com/android/gallery3d/exif/ExifParser.java +++ /dev/null @@ -1,916 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import android.util.Log; - -import java.io.IOException; -import java.io.InputStream; -import java.nio.ByteOrder; -import java.nio.charset.Charset; -import java.util.Map.Entry; -import java.util.TreeMap; - -/** - * This class provides a low-level EXIF parsing API. Given a JPEG format - * InputStream, the caller can request which IFD's to read via - * {@link #parse(InputStream, int)} with given options. - * <p> - * Below is an example of getting EXIF data from IFD 0 and EXIF IFD using the - * parser. - * - * <pre> - * void parse() { - * ExifParser parser = ExifParser.parse(mImageInputStream, - * ExifParser.OPTION_IFD_0 | ExifParser.OPTIONS_IFD_EXIF); - * int event = parser.next(); - * while (event != ExifParser.EVENT_END) { - * switch (event) { - * case ExifParser.EVENT_START_OF_IFD: - * break; - * case ExifParser.EVENT_NEW_TAG: - * ExifTag tag = parser.getTag(); - * if (!tag.hasValue()) { - * parser.registerForTagValue(tag); - * } else { - * processTag(tag); - * } - * break; - * case ExifParser.EVENT_VALUE_OF_REGISTERED_TAG: - * tag = parser.getTag(); - * if (tag.getDataType() != ExifTag.TYPE_UNDEFINED) { - * processTag(tag); - * } - * break; - * } - * event = parser.next(); - * } - * } - * - * void processTag(ExifTag tag) { - * // process the tag as you like. - * } - * </pre> - */ -class ExifParser { - private static final boolean LOGV = false; - private static final String TAG = "ExifParser"; - /** - * When the parser reaches a new IFD area. Call {@link #getCurrentIfd()} to - * know which IFD we are in. - */ - public static final int EVENT_START_OF_IFD = 0; - /** - * When the parser reaches a new tag. Call {@link #getTag()}to get the - * corresponding tag. - */ - public static final int EVENT_NEW_TAG = 1; - /** - * When the parser reaches the value area of tag that is registered by - * {@link #registerForTagValue(ExifTag)} previously. Call {@link #getTag()} - * to get the corresponding tag. - */ - public static final int EVENT_VALUE_OF_REGISTERED_TAG = 2; - - /** - * When the parser reaches the compressed image area. - */ - public static final int EVENT_COMPRESSED_IMAGE = 3; - /** - * When the parser reaches the uncompressed image strip. Call - * {@link #getStripIndex()} to get the index of the strip. - * - * @see #getStripIndex() - * @see #getStripCount() - */ - public static final int EVENT_UNCOMPRESSED_STRIP = 4; - /** - * When there is nothing more to parse. - */ - public static final int EVENT_END = 5; - - /** - * Option bit to request to parse IFD0. - */ - public static final int OPTION_IFD_0 = 1 << 0; - /** - * Option bit to request to parse IFD1. - */ - public static final int OPTION_IFD_1 = 1 << 1; - /** - * Option bit to request to parse Exif-IFD. - */ - public static final int OPTION_IFD_EXIF = 1 << 2; - /** - * Option bit to request to parse GPS-IFD. - */ - public static final int OPTION_IFD_GPS = 1 << 3; - /** - * Option bit to request to parse Interoperability-IFD. - */ - public static final int OPTION_IFD_INTEROPERABILITY = 1 << 4; - /** - * Option bit to request to parse thumbnail. - */ - public static final int OPTION_THUMBNAIL = 1 << 5; - - protected static final int EXIF_HEADER = 0x45786966; // EXIF header "Exif" - protected static final short EXIF_HEADER_TAIL = (short) 0x0000; // EXIF header in APP1 - - // TIFF header - protected static final short LITTLE_ENDIAN_TAG = (short) 0x4949; // "II" - protected static final short BIG_ENDIAN_TAG = (short) 0x4d4d; // "MM" - protected static final short TIFF_HEADER_TAIL = 0x002A; - - protected static final int TAG_SIZE = 12; - protected static final int OFFSET_SIZE = 2; - - private static final Charset US_ASCII = Charset.forName("US-ASCII"); - - protected static final int DEFAULT_IFD0_OFFSET = 8; - - private final CountedDataInputStream mTiffStream; - private final int mOptions; - private int mIfdStartOffset = 0; - private int mNumOfTagInIfd = 0; - private int mIfdType; - private ExifTag mTag; - private ImageEvent mImageEvent; - private int mStripCount; - private ExifTag mStripSizeTag; - private ExifTag mJpegSizeTag; - private boolean mNeedToParseOffsetsInCurrentIfd; - private boolean mContainExifData = false; - private int mApp1End; - private int mOffsetToApp1EndFromSOF = 0; - private byte[] mDataAboveIfd0; - private int mIfd0Position; - private int mTiffStartPosition; - private final ExifInterface mInterface; - - private static final short TAG_EXIF_IFD = ExifInterface - .getTrueTagKey(ExifInterface.TAG_EXIF_IFD); - private static final short TAG_GPS_IFD = ExifInterface.getTrueTagKey(ExifInterface.TAG_GPS_IFD); - private static final short TAG_INTEROPERABILITY_IFD = ExifInterface - .getTrueTagKey(ExifInterface.TAG_INTEROPERABILITY_IFD); - private static final short TAG_JPEG_INTERCHANGE_FORMAT = ExifInterface - .getTrueTagKey(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT); - private static final short TAG_JPEG_INTERCHANGE_FORMAT_LENGTH = ExifInterface - .getTrueTagKey(ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT_LENGTH); - private static final short TAG_STRIP_OFFSETS = ExifInterface - .getTrueTagKey(ExifInterface.TAG_STRIP_OFFSETS); - private static final short TAG_STRIP_BYTE_COUNTS = ExifInterface - .getTrueTagKey(ExifInterface.TAG_STRIP_BYTE_COUNTS); - - private final TreeMap<Integer, Object> mCorrespondingEvent = new TreeMap<Integer, Object>(); - - private boolean isIfdRequested(int ifdType) { - switch (ifdType) { - case IfdId.TYPE_IFD_0: - return (mOptions & OPTION_IFD_0) != 0; - case IfdId.TYPE_IFD_1: - return (mOptions & OPTION_IFD_1) != 0; - case IfdId.TYPE_IFD_EXIF: - return (mOptions & OPTION_IFD_EXIF) != 0; - case IfdId.TYPE_IFD_GPS: - return (mOptions & OPTION_IFD_GPS) != 0; - case IfdId.TYPE_IFD_INTEROPERABILITY: - return (mOptions & OPTION_IFD_INTEROPERABILITY) != 0; - } - return false; - } - - private boolean isThumbnailRequested() { - return (mOptions & OPTION_THUMBNAIL) != 0; - } - - private ExifParser(InputStream inputStream, int options, ExifInterface iRef) - throws IOException, ExifInvalidFormatException { - if (inputStream == null) { - throw new IOException("Null argument inputStream to ExifParser"); - } - if (LOGV) { - Log.v(TAG, "Reading exif..."); - } - mInterface = iRef; - mContainExifData = seekTiffData(inputStream); - mTiffStream = new CountedDataInputStream(inputStream); - mOptions = options; - if (!mContainExifData) { - return; - } - - parseTiffHeader(); - long offset = mTiffStream.readUnsignedInt(); - if (offset > Integer.MAX_VALUE) { - throw new ExifInvalidFormatException("Invalid offset " + offset); - } - mIfd0Position = (int) offset; - mIfdType = IfdId.TYPE_IFD_0; - if (isIfdRequested(IfdId.TYPE_IFD_0) || needToParseOffsetsInCurrentIfd()) { - registerIfd(IfdId.TYPE_IFD_0, offset); - if (offset != DEFAULT_IFD0_OFFSET) { - mDataAboveIfd0 = new byte[(int) offset - DEFAULT_IFD0_OFFSET]; - read(mDataAboveIfd0); - } - } - } - - /** - * Parses the the given InputStream with the given options - * - * @exception IOException - * @exception ExifInvalidFormatException - */ - protected static ExifParser parse(InputStream inputStream, int options, ExifInterface iRef) - throws IOException, ExifInvalidFormatException { - return new ExifParser(inputStream, options, iRef); - } - - /** - * Parses the the given InputStream with default options; that is, every IFD - * and thumbnaill will be parsed. - * - * @exception IOException - * @exception ExifInvalidFormatException - * @see #parse(InputStream, int) - */ - protected static ExifParser parse(InputStream inputStream, ExifInterface iRef) - throws IOException, ExifInvalidFormatException { - return new ExifParser(inputStream, OPTION_IFD_0 | OPTION_IFD_1 - | OPTION_IFD_EXIF | OPTION_IFD_GPS | OPTION_IFD_INTEROPERABILITY - | OPTION_THUMBNAIL, iRef); - } - - /** - * Moves the parser forward and returns the next parsing event - * - * @exception IOException - * @exception ExifInvalidFormatException - * @see #EVENT_START_OF_IFD - * @see #EVENT_NEW_TAG - * @see #EVENT_VALUE_OF_REGISTERED_TAG - * @see #EVENT_COMPRESSED_IMAGE - * @see #EVENT_UNCOMPRESSED_STRIP - * @see #EVENT_END - */ - protected int next() throws IOException, ExifInvalidFormatException { - if (!mContainExifData) { - return EVENT_END; - } - int offset = mTiffStream.getReadByteCount(); - int endOfTags = mIfdStartOffset + OFFSET_SIZE + TAG_SIZE * mNumOfTagInIfd; - if (offset < endOfTags) { - mTag = readTag(); - if (mTag == null) { - return next(); - } - if (mNeedToParseOffsetsInCurrentIfd) { - checkOffsetOrImageTag(mTag); - } - return EVENT_NEW_TAG; - } else if (offset == endOfTags) { - // There is a link to ifd1 at the end of ifd0 - if (mIfdType == IfdId.TYPE_IFD_0) { - long ifdOffset = readUnsignedLong(); - if (isIfdRequested(IfdId.TYPE_IFD_1) || isThumbnailRequested()) { - if (ifdOffset != 0) { - registerIfd(IfdId.TYPE_IFD_1, ifdOffset); - } - } - } else { - int offsetSize = 4; - // Some camera models use invalid length of the offset - if (mCorrespondingEvent.size() > 0) { - offsetSize = mCorrespondingEvent.firstEntry().getKey() - - mTiffStream.getReadByteCount(); - } - if (offsetSize < 4) { - Log.w(TAG, "Invalid size of link to next IFD: " + offsetSize); - } else { - long ifdOffset = readUnsignedLong(); - if (ifdOffset != 0) { - Log.w(TAG, "Invalid link to next IFD: " + ifdOffset); - } - } - } - } - while (mCorrespondingEvent.size() != 0) { - Entry<Integer, Object> entry = mCorrespondingEvent.pollFirstEntry(); - Object event = entry.getValue(); - try { - skipTo(entry.getKey()); - } catch (IOException e) { - Log.w(TAG, "Failed to skip to data at: " + entry.getKey() + - " for " + event.getClass().getName() + ", the file may be broken."); - continue; - } - if (event instanceof IfdEvent) { - mIfdType = ((IfdEvent) event).ifd; - mNumOfTagInIfd = mTiffStream.readUnsignedShort(); - mIfdStartOffset = entry.getKey(); - - if (mNumOfTagInIfd * TAG_SIZE + mIfdStartOffset + OFFSET_SIZE > mApp1End) { - Log.w(TAG, "Invalid size of IFD " + mIfdType); - return EVENT_END; - } - - mNeedToParseOffsetsInCurrentIfd = needToParseOffsetsInCurrentIfd(); - if (((IfdEvent) event).isRequested) { - return EVENT_START_OF_IFD; - } else { - skipRemainingTagsInCurrentIfd(); - } - } else if (event instanceof ImageEvent) { - mImageEvent = (ImageEvent) event; - return mImageEvent.type; - } else { - ExifTagEvent tagEvent = (ExifTagEvent) event; - mTag = tagEvent.tag; - if (mTag.getDataType() != ExifTag.TYPE_UNDEFINED) { - readFullTagValue(mTag); - checkOffsetOrImageTag(mTag); - } - if (tagEvent.isRequested) { - return EVENT_VALUE_OF_REGISTERED_TAG; - } - } - } - return EVENT_END; - } - - /** - * Skips the tags area of current IFD, if the parser is not in the tag area, - * nothing will happen. - * - * @throws IOException - * @throws ExifInvalidFormatException - */ - protected void skipRemainingTagsInCurrentIfd() throws IOException, ExifInvalidFormatException { - int endOfTags = mIfdStartOffset + OFFSET_SIZE + TAG_SIZE * mNumOfTagInIfd; - int offset = mTiffStream.getReadByteCount(); - if (offset > endOfTags) { - return; - } - if (mNeedToParseOffsetsInCurrentIfd) { - while (offset < endOfTags) { - mTag = readTag(); - offset += TAG_SIZE; - if (mTag == null) { - continue; - } - checkOffsetOrImageTag(mTag); - } - } else { - skipTo(endOfTags); - } - long ifdOffset = readUnsignedLong(); - // For ifd0, there is a link to ifd1 in the end of all tags - if (mIfdType == IfdId.TYPE_IFD_0 - && (isIfdRequested(IfdId.TYPE_IFD_1) || isThumbnailRequested())) { - if (ifdOffset > 0) { - registerIfd(IfdId.TYPE_IFD_1, ifdOffset); - } - } - } - - private boolean needToParseOffsetsInCurrentIfd() { - switch (mIfdType) { - case IfdId.TYPE_IFD_0: - return isIfdRequested(IfdId.TYPE_IFD_EXIF) || isIfdRequested(IfdId.TYPE_IFD_GPS) - || isIfdRequested(IfdId.TYPE_IFD_INTEROPERABILITY) - || isIfdRequested(IfdId.TYPE_IFD_1); - case IfdId.TYPE_IFD_1: - return isThumbnailRequested(); - case IfdId.TYPE_IFD_EXIF: - // The offset to interoperability IFD is located in Exif IFD - return isIfdRequested(IfdId.TYPE_IFD_INTEROPERABILITY); - default: - return false; - } - } - - /** - * If {@link #next()} return {@link #EVENT_NEW_TAG} or - * {@link #EVENT_VALUE_OF_REGISTERED_TAG}, call this function to get the - * corresponding tag. - * <p> - * For {@link #EVENT_NEW_TAG}, the tag may not contain the value if the size - * of the value is greater than 4 bytes. One should call - * {@link ExifTag#hasValue()} to check if the tag contains value. If there - * is no value,call {@link #registerForTagValue(ExifTag)} to have the parser - * emit {@link #EVENT_VALUE_OF_REGISTERED_TAG} when it reaches the area - * pointed by the offset. - * <p> - * When {@link #EVENT_VALUE_OF_REGISTERED_TAG} is emitted, the value of the - * tag will have already been read except for tags of undefined type. For - * tags of undefined type, call one of the read methods to get the value. - * - * @see #registerForTagValue(ExifTag) - * @see #read(byte[]) - * @see #read(byte[], int, int) - * @see #readLong() - * @see #readRational() - * @see #readString(int) - * @see #readString(int, Charset) - */ - protected ExifTag getTag() { - return mTag; - } - - /** - * Gets number of tags in the current IFD area. - */ - protected int getTagCountInCurrentIfd() { - return mNumOfTagInIfd; - } - - /** - * Gets the ID of current IFD. - * - * @see IfdId#TYPE_IFD_0 - * @see IfdId#TYPE_IFD_1 - * @see IfdId#TYPE_IFD_GPS - * @see IfdId#TYPE_IFD_INTEROPERABILITY - * @see IfdId#TYPE_IFD_EXIF - */ - protected int getCurrentIfd() { - return mIfdType; - } - - /** - * When receiving {@link #EVENT_UNCOMPRESSED_STRIP}, call this function to - * get the index of this strip. - * - * @see #getStripCount() - */ - protected int getStripIndex() { - return mImageEvent.stripIndex; - } - - /** - * When receiving {@link #EVENT_UNCOMPRESSED_STRIP}, call this function to - * get the number of strip data. - * - * @see #getStripIndex() - */ - protected int getStripCount() { - return mStripCount; - } - - /** - * When receiving {@link #EVENT_UNCOMPRESSED_STRIP}, call this function to - * get the strip size. - */ - protected int getStripSize() { - if (mStripSizeTag == null) - return 0; - return (int) mStripSizeTag.getValueAt(0); - } - - /** - * When receiving {@link #EVENT_COMPRESSED_IMAGE}, call this function to get - * the image data size. - */ - protected int getCompressedImageSize() { - if (mJpegSizeTag == null) { - return 0; - } - return (int) mJpegSizeTag.getValueAt(0); - } - - private void skipTo(int offset) throws IOException { - mTiffStream.skipTo(offset); - while (!mCorrespondingEvent.isEmpty() && mCorrespondingEvent.firstKey() < offset) { - mCorrespondingEvent.pollFirstEntry(); - } - } - - /** - * When getting {@link #EVENT_NEW_TAG} in the tag area of IFD, the tag may - * not contain the value if the size of the value is greater than 4 bytes. - * When the value is not available here, call this method so that the parser - * will emit {@link #EVENT_VALUE_OF_REGISTERED_TAG} when it reaches the area - * where the value is located. - * - * @see #EVENT_VALUE_OF_REGISTERED_TAG - */ - protected void registerForTagValue(ExifTag tag) { - if (tag.getOffset() >= mTiffStream.getReadByteCount()) { - mCorrespondingEvent.put(tag.getOffset(), new ExifTagEvent(tag, true)); - } - } - - private void registerIfd(int ifdType, long offset) { - // Cast unsigned int to int since the offset is always smaller - // than the size of APP1 (65536) - mCorrespondingEvent.put((int) offset, new IfdEvent(ifdType, isIfdRequested(ifdType))); - } - - private void registerCompressedImage(long offset) { - mCorrespondingEvent.put((int) offset, new ImageEvent(EVENT_COMPRESSED_IMAGE)); - } - - private void registerUncompressedStrip(int stripIndex, long offset) { - mCorrespondingEvent.put((int) offset, new ImageEvent(EVENT_UNCOMPRESSED_STRIP - , stripIndex)); - } - - private ExifTag readTag() throws IOException, ExifInvalidFormatException { - short tagId = mTiffStream.readShort(); - short dataFormat = mTiffStream.readShort(); - long numOfComp = mTiffStream.readUnsignedInt(); - if (numOfComp > Integer.MAX_VALUE) { - throw new ExifInvalidFormatException( - "Number of component is larger then Integer.MAX_VALUE"); - } - // Some invalid image file contains invalid data type. Ignore those tags - if (!ExifTag.isValidType(dataFormat)) { - Log.w(TAG, String.format("Tag %04x: Invalid data type %d", tagId, dataFormat)); - mTiffStream.skip(4); - return null; - } - // TODO: handle numOfComp overflow - ExifTag tag = new ExifTag(tagId, dataFormat, (int) numOfComp, mIfdType, - ((int) numOfComp) != ExifTag.SIZE_UNDEFINED); - int dataSize = tag.getDataSize(); - if (dataSize > 4) { - long offset = mTiffStream.readUnsignedInt(); - if (offset > Integer.MAX_VALUE) { - throw new ExifInvalidFormatException( - "offset is larger then Integer.MAX_VALUE"); - } - // Some invalid images put some undefined data before IFD0. - // Read the data here. - if ((offset < mIfd0Position) && (dataFormat == ExifTag.TYPE_UNDEFINED)) { - byte[] buf = new byte[(int) numOfComp]; - System.arraycopy(mDataAboveIfd0, (int) offset - DEFAULT_IFD0_OFFSET, - buf, 0, (int) numOfComp); - tag.setValue(buf); - } else { - tag.setOffset((int) offset); - } - } else { - boolean defCount = tag.hasDefinedCount(); - // Set defined count to 0 so we can add \0 to non-terminated strings - tag.setHasDefinedCount(false); - // Read value - readFullTagValue(tag); - tag.setHasDefinedCount(defCount); - mTiffStream.skip(4 - dataSize); - // Set the offset to the position of value. - tag.setOffset(mTiffStream.getReadByteCount() - 4); - } - return tag; - } - - /** - * Check the tag, if the tag is one of the offset tag that points to the IFD - * or image the caller is interested in, register the IFD or image. - */ - private void checkOffsetOrImageTag(ExifTag tag) { - // Some invalid formattd image contains tag with 0 size. - if (tag.getComponentCount() == 0) { - return; - } - short tid = tag.getTagId(); - int ifd = tag.getIfd(); - if (tid == TAG_EXIF_IFD && checkAllowed(ifd, ExifInterface.TAG_EXIF_IFD)) { - if (isIfdRequested(IfdId.TYPE_IFD_EXIF) - || isIfdRequested(IfdId.TYPE_IFD_INTEROPERABILITY)) { - registerIfd(IfdId.TYPE_IFD_EXIF, tag.getValueAt(0)); - } - } else if (tid == TAG_GPS_IFD && checkAllowed(ifd, ExifInterface.TAG_GPS_IFD)) { - if (isIfdRequested(IfdId.TYPE_IFD_GPS)) { - registerIfd(IfdId.TYPE_IFD_GPS, tag.getValueAt(0)); - } - } else if (tid == TAG_INTEROPERABILITY_IFD - && checkAllowed(ifd, ExifInterface.TAG_INTEROPERABILITY_IFD)) { - if (isIfdRequested(IfdId.TYPE_IFD_INTEROPERABILITY)) { - registerIfd(IfdId.TYPE_IFD_INTEROPERABILITY, tag.getValueAt(0)); - } - } else if (tid == TAG_JPEG_INTERCHANGE_FORMAT - && checkAllowed(ifd, ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT)) { - if (isThumbnailRequested()) { - registerCompressedImage(tag.getValueAt(0)); - } - } else if (tid == TAG_JPEG_INTERCHANGE_FORMAT_LENGTH - && checkAllowed(ifd, ExifInterface.TAG_JPEG_INTERCHANGE_FORMAT_LENGTH)) { - if (isThumbnailRequested()) { - mJpegSizeTag = tag; - } - } else if (tid == TAG_STRIP_OFFSETS && checkAllowed(ifd, ExifInterface.TAG_STRIP_OFFSETS)) { - if (isThumbnailRequested()) { - if (tag.hasValue()) { - for (int i = 0; i < tag.getComponentCount(); i++) { - if (tag.getDataType() == ExifTag.TYPE_UNSIGNED_SHORT) { - registerUncompressedStrip(i, tag.getValueAt(i)); - } else { - registerUncompressedStrip(i, tag.getValueAt(i)); - } - } - } else { - mCorrespondingEvent.put(tag.getOffset(), new ExifTagEvent(tag, false)); - } - } - } else if (tid == TAG_STRIP_BYTE_COUNTS - && checkAllowed(ifd, ExifInterface.TAG_STRIP_BYTE_COUNTS) - &&isThumbnailRequested() && tag.hasValue()) { - mStripSizeTag = tag; - } - } - - private boolean checkAllowed(int ifd, int tagId) { - int info = mInterface.getTagInfo().get(tagId); - if (info == ExifInterface.DEFINITION_NULL) { - return false; - } - return ExifInterface.isIfdAllowed(info, ifd); - } - - protected void readFullTagValue(ExifTag tag) throws IOException { - // Some invalid images contains tags with wrong size, check it here - short type = tag.getDataType(); - if (type == ExifTag.TYPE_ASCII || type == ExifTag.TYPE_UNDEFINED || - type == ExifTag.TYPE_UNSIGNED_BYTE) { - int size = tag.getComponentCount(); - if (mCorrespondingEvent.size() > 0) { - if (mCorrespondingEvent.firstEntry().getKey() < mTiffStream.getReadByteCount() - + size) { - Object event = mCorrespondingEvent.firstEntry().getValue(); - if (event instanceof ImageEvent) { - // Tag value overlaps thumbnail, ignore thumbnail. - Log.w(TAG, "Thumbnail overlaps value for tag: \n" + tag.toString()); - Entry<Integer, Object> entry = mCorrespondingEvent.pollFirstEntry(); - Log.w(TAG, "Invalid thumbnail offset: " + entry.getKey()); - } else { - // Tag value overlaps another tag, shorten count - if (event instanceof IfdEvent) { - Log.w(TAG, "Ifd " + ((IfdEvent) event).ifd - + " overlaps value for tag: \n" + tag.toString()); - } else if (event instanceof ExifTagEvent) { - Log.w(TAG, "Tag value for tag: \n" - + ((ExifTagEvent) event).tag.toString() - + " overlaps value for tag: \n" + tag.toString()); - } - size = mCorrespondingEvent.firstEntry().getKey() - - mTiffStream.getReadByteCount(); - Log.w(TAG, "Invalid size of tag: \n" + tag.toString() - + " setting count to: " + size); - tag.forceSetComponentCount(size); - } - } - } - } - switch (tag.getDataType()) { - case ExifTag.TYPE_UNSIGNED_BYTE: - case ExifTag.TYPE_UNDEFINED: { - byte buf[] = new byte[tag.getComponentCount()]; - read(buf); - tag.setValue(buf); - } - break; - case ExifTag.TYPE_ASCII: - tag.setValue(readString(tag.getComponentCount())); - break; - case ExifTag.TYPE_UNSIGNED_LONG: { - long value[] = new long[tag.getComponentCount()]; - for (int i = 0, n = value.length; i < n; i++) { - value[i] = readUnsignedLong(); - } - tag.setValue(value); - } - break; - case ExifTag.TYPE_UNSIGNED_RATIONAL: { - Rational value[] = new Rational[tag.getComponentCount()]; - for (int i = 0, n = value.length; i < n; i++) { - value[i] = readUnsignedRational(); - } - tag.setValue(value); - } - break; - case ExifTag.TYPE_UNSIGNED_SHORT: { - int value[] = new int[tag.getComponentCount()]; - for (int i = 0, n = value.length; i < n; i++) { - value[i] = readUnsignedShort(); - } - tag.setValue(value); - } - break; - case ExifTag.TYPE_LONG: { - int value[] = new int[tag.getComponentCount()]; - for (int i = 0, n = value.length; i < n; i++) { - value[i] = readLong(); - } - tag.setValue(value); - } - break; - case ExifTag.TYPE_RATIONAL: { - Rational value[] = new Rational[tag.getComponentCount()]; - for (int i = 0, n = value.length; i < n; i++) { - value[i] = readRational(); - } - tag.setValue(value); - } - break; - } - if (LOGV) { - Log.v(TAG, "\n" + tag.toString()); - } - } - - private void parseTiffHeader() throws IOException, - ExifInvalidFormatException { - short byteOrder = mTiffStream.readShort(); - if (LITTLE_ENDIAN_TAG == byteOrder) { - mTiffStream.setByteOrder(ByteOrder.LITTLE_ENDIAN); - } else if (BIG_ENDIAN_TAG == byteOrder) { - mTiffStream.setByteOrder(ByteOrder.BIG_ENDIAN); - } else { - throw new ExifInvalidFormatException("Invalid TIFF header"); - } - - if (mTiffStream.readShort() != TIFF_HEADER_TAIL) { - throw new ExifInvalidFormatException("Invalid TIFF header"); - } - } - - private boolean seekTiffData(InputStream inputStream) throws IOException, - ExifInvalidFormatException { - CountedDataInputStream dataStream = new CountedDataInputStream(inputStream); - if (dataStream.readShort() != JpegHeader.SOI) { - throw new ExifInvalidFormatException("Invalid JPEG format"); - } - - short marker = dataStream.readShort(); - while (marker != JpegHeader.EOI - && !JpegHeader.isSofMarker(marker)) { - int length = dataStream.readUnsignedShort(); - // Some invalid formatted image contains multiple APP1, - // try to find the one with Exif data. - if (marker == JpegHeader.APP1) { - int header = 0; - short headerTail = 0; - if (length >= 8) { - header = dataStream.readInt(); - headerTail = dataStream.readShort(); - length -= 6; - if (header == EXIF_HEADER && headerTail == EXIF_HEADER_TAIL) { - mTiffStartPosition = dataStream.getReadByteCount(); - mApp1End = length; - mOffsetToApp1EndFromSOF = mTiffStartPosition + mApp1End; - return true; - } - } - } - if (length < 2 || (length - 2) != dataStream.skip(length - 2)) { - Log.w(TAG, "Invalid JPEG format."); - return false; - } - marker = dataStream.readShort(); - } - return false; - } - - protected int getOffsetToExifEndFromSOF() { - return mOffsetToApp1EndFromSOF; - } - - protected int getTiffStartPosition() { - return mTiffStartPosition; - } - - /** - * Reads bytes from the InputStream. - */ - protected int read(byte[] buffer, int offset, int length) throws IOException { - return mTiffStream.read(buffer, offset, length); - } - - /** - * Equivalent to read(buffer, 0, buffer.length). - */ - protected int read(byte[] buffer) throws IOException { - return mTiffStream.read(buffer); - } - - /** - * Reads a String from the InputStream with US-ASCII charset. The parser - * will read n bytes and convert it to ascii string. This is used for - * reading values of type {@link ExifTag#TYPE_ASCII}. - */ - protected String readString(int n) throws IOException { - return readString(n, US_ASCII); - } - - /** - * Reads a String from the InputStream with the given charset. The parser - * will read n bytes and convert it to string. This is used for reading - * values of type {@link ExifTag#TYPE_ASCII}. - */ - protected String readString(int n, Charset charset) throws IOException { - if (n > 0) { - return mTiffStream.readString(n, charset); - } else { - return ""; - } - } - - /** - * Reads value of type {@link ExifTag#TYPE_UNSIGNED_SHORT} from the - * InputStream. - */ - protected int readUnsignedShort() throws IOException { - return mTiffStream.readShort() & 0xffff; - } - - /** - * Reads value of type {@link ExifTag#TYPE_UNSIGNED_LONG} from the - * InputStream. - */ - protected long readUnsignedLong() throws IOException { - return readLong() & 0xffffffffL; - } - - /** - * Reads value of type {@link ExifTag#TYPE_UNSIGNED_RATIONAL} from the - * InputStream. - */ - protected Rational readUnsignedRational() throws IOException { - long nomi = readUnsignedLong(); - long denomi = readUnsignedLong(); - return new Rational(nomi, denomi); - } - - /** - * Reads value of type {@link ExifTag#TYPE_LONG} from the InputStream. - */ - protected int readLong() throws IOException { - return mTiffStream.readInt(); - } - - /** - * Reads value of type {@link ExifTag#TYPE_RATIONAL} from the InputStream. - */ - protected Rational readRational() throws IOException { - int nomi = readLong(); - int denomi = readLong(); - return new Rational(nomi, denomi); - } - - private static class ImageEvent { - int stripIndex; - int type; - - ImageEvent(int type) { - this.stripIndex = 0; - this.type = type; - } - - ImageEvent(int type, int stripIndex) { - this.type = type; - this.stripIndex = stripIndex; - } - } - - private static class IfdEvent { - int ifd; - boolean isRequested; - - IfdEvent(int ifd, boolean isInterestedIfd) { - this.ifd = ifd; - this.isRequested = isInterestedIfd; - } - } - - private static class ExifTagEvent { - ExifTag tag; - boolean isRequested; - - ExifTagEvent(ExifTag tag, boolean isRequireByUser) { - this.tag = tag; - this.isRequested = isRequireByUser; - } - } - - /** - * Gets the byte order of the current InputStream. - */ - protected ByteOrder getByteOrder() { - return mTiffStream.getByteOrder(); - } -} diff --git a/src/com/android/gallery3d/exif/ExifReader.java b/src/com/android/gallery3d/exif/ExifReader.java deleted file mode 100644 index 68e972fb7..000000000 --- a/src/com/android/gallery3d/exif/ExifReader.java +++ /dev/null @@ -1,92 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import android.util.Log; - -import java.io.IOException; -import java.io.InputStream; - -/** - * This class reads the EXIF header of a JPEG file and stores it in - * {@link ExifData}. - */ -class ExifReader { - private static final String TAG = "ExifReader"; - - private final ExifInterface mInterface; - - ExifReader(ExifInterface iRef) { - mInterface = iRef; - } - - /** - * Parses the inputStream and and returns the EXIF data in an - * {@link ExifData}. - * - * @throws ExifInvalidFormatException - * @throws IOException - */ - protected ExifData read(InputStream inputStream) throws ExifInvalidFormatException, - IOException { - ExifParser parser = ExifParser.parse(inputStream, mInterface); - ExifData exifData = new ExifData(parser.getByteOrder()); - ExifTag tag = null; - - int event = parser.next(); - while (event != ExifParser.EVENT_END) { - switch (event) { - case ExifParser.EVENT_START_OF_IFD: - exifData.addIfdData(new IfdData(parser.getCurrentIfd())); - break; - case ExifParser.EVENT_NEW_TAG: - tag = parser.getTag(); - if (!tag.hasValue()) { - parser.registerForTagValue(tag); - } else { - exifData.getIfdData(tag.getIfd()).setTag(tag); - } - break; - case ExifParser.EVENT_VALUE_OF_REGISTERED_TAG: - tag = parser.getTag(); - if (tag.getDataType() == ExifTag.TYPE_UNDEFINED) { - parser.readFullTagValue(tag); - } - exifData.getIfdData(tag.getIfd()).setTag(tag); - break; - case ExifParser.EVENT_COMPRESSED_IMAGE: - byte buf[] = new byte[parser.getCompressedImageSize()]; - if (buf.length == parser.read(buf)) { - exifData.setCompressedThumbnail(buf); - } else { - Log.w(TAG, "Failed to read the compressed thumbnail"); - } - break; - case ExifParser.EVENT_UNCOMPRESSED_STRIP: - buf = new byte[parser.getStripSize()]; - if (buf.length == parser.read(buf)) { - exifData.setStripBytes(parser.getStripIndex(), buf); - } else { - Log.w(TAG, "Failed to read the strip bytes"); - } - break; - } - event = parser.next(); - } - return exifData; - } -} diff --git a/src/com/android/gallery3d/exif/ExifTag.java b/src/com/android/gallery3d/exif/ExifTag.java deleted file mode 100644 index b8b387201..000000000 --- a/src/com/android/gallery3d/exif/ExifTag.java +++ /dev/null @@ -1,1008 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import java.nio.charset.Charset; -import java.text.SimpleDateFormat; -import java.util.Arrays; -import java.util.Date; - -/** - * This class stores information of an EXIF tag. For more information about - * defined EXIF tags, please read the Jeita EXIF 2.2 standard. Tags should be - * instantiated using {@link ExifInterface#buildTag}. - * - * @see ExifInterface - */ -public class ExifTag { - /** - * The BYTE type in the EXIF standard. An 8-bit unsigned integer. - */ - public static final short TYPE_UNSIGNED_BYTE = 1; - /** - * The ASCII type in the EXIF standard. An 8-bit byte containing one 7-bit - * ASCII code. The final byte is terminated with NULL. - */ - public static final short TYPE_ASCII = 2; - /** - * The SHORT type in the EXIF standard. A 16-bit (2-byte) unsigned integer - */ - public static final short TYPE_UNSIGNED_SHORT = 3; - /** - * The LONG type in the EXIF standard. A 32-bit (4-byte) unsigned integer - */ - public static final short TYPE_UNSIGNED_LONG = 4; - /** - * The RATIONAL type of EXIF standard. It consists of two LONGs. The first - * one is the numerator and the second one expresses the denominator. - */ - public static final short TYPE_UNSIGNED_RATIONAL = 5; - /** - * The UNDEFINED type in the EXIF standard. An 8-bit byte that can take any - * value depending on the field definition. - */ - public static final short TYPE_UNDEFINED = 7; - /** - * The SLONG type in the EXIF standard. A 32-bit (4-byte) signed integer - * (2's complement notation). - */ - public static final short TYPE_LONG = 9; - /** - * The SRATIONAL type of EXIF standard. It consists of two SLONGs. The first - * one is the numerator and the second one is the denominator. - */ - public static final short TYPE_RATIONAL = 10; - - private static Charset US_ASCII = Charset.forName("US-ASCII"); - private static final int TYPE_TO_SIZE_MAP[] = new int[11]; - private static final int UNSIGNED_SHORT_MAX = 65535; - private static final long UNSIGNED_LONG_MAX = 4294967295L; - private static final long LONG_MAX = Integer.MAX_VALUE; - private static final long LONG_MIN = Integer.MIN_VALUE; - - static { - TYPE_TO_SIZE_MAP[TYPE_UNSIGNED_BYTE] = 1; - TYPE_TO_SIZE_MAP[TYPE_ASCII] = 1; - TYPE_TO_SIZE_MAP[TYPE_UNSIGNED_SHORT] = 2; - TYPE_TO_SIZE_MAP[TYPE_UNSIGNED_LONG] = 4; - TYPE_TO_SIZE_MAP[TYPE_UNSIGNED_RATIONAL] = 8; - TYPE_TO_SIZE_MAP[TYPE_UNDEFINED] = 1; - TYPE_TO_SIZE_MAP[TYPE_LONG] = 4; - TYPE_TO_SIZE_MAP[TYPE_RATIONAL] = 8; - } - - static final int SIZE_UNDEFINED = 0; - - // Exif TagId - private final short mTagId; - // Exif Tag Type - private final short mDataType; - // If tag has defined count - private boolean mHasDefinedDefaultComponentCount; - // Actual data count in tag (should be number of elements in value array) - private int mComponentCountActual; - // The ifd that this tag should be put in - private int mIfd; - // The value (array of elements of type Tag Type) - private Object mValue; - // Value offset in exif header. - private int mOffset; - - private static final SimpleDateFormat TIME_FORMAT = new SimpleDateFormat("yyyy:MM:dd kk:mm:ss"); - - /** - * Returns true if the given IFD is a valid IFD. - */ - public static boolean isValidIfd(int ifdId) { - return ifdId == IfdId.TYPE_IFD_0 || ifdId == IfdId.TYPE_IFD_1 - || ifdId == IfdId.TYPE_IFD_EXIF || ifdId == IfdId.TYPE_IFD_INTEROPERABILITY - || ifdId == IfdId.TYPE_IFD_GPS; - } - - /** - * Returns true if a given type is a valid tag type. - */ - public static boolean isValidType(short type) { - return type == TYPE_UNSIGNED_BYTE || type == TYPE_ASCII || - type == TYPE_UNSIGNED_SHORT || type == TYPE_UNSIGNED_LONG || - type == TYPE_UNSIGNED_RATIONAL || type == TYPE_UNDEFINED || - type == TYPE_LONG || type == TYPE_RATIONAL; - } - - // Use builtTag in ExifInterface instead of constructor. - ExifTag(short tagId, short type, int componentCount, int ifd, - boolean hasDefinedComponentCount) { - mTagId = tagId; - mDataType = type; - mComponentCountActual = componentCount; - mHasDefinedDefaultComponentCount = hasDefinedComponentCount; - mIfd = ifd; - mValue = null; - } - - /** - * Gets the element size of the given data type in bytes. - * - * @see #TYPE_ASCII - * @see #TYPE_LONG - * @see #TYPE_RATIONAL - * @see #TYPE_UNDEFINED - * @see #TYPE_UNSIGNED_BYTE - * @see #TYPE_UNSIGNED_LONG - * @see #TYPE_UNSIGNED_RATIONAL - * @see #TYPE_UNSIGNED_SHORT - */ - public static int getElementSize(short type) { - return TYPE_TO_SIZE_MAP[type]; - } - - /** - * Returns the ID of the IFD this tag belongs to. - * - * @see IfdId#TYPE_IFD_0 - * @see IfdId#TYPE_IFD_1 - * @see IfdId#TYPE_IFD_EXIF - * @see IfdId#TYPE_IFD_GPS - * @see IfdId#TYPE_IFD_INTEROPERABILITY - */ - public int getIfd() { - return mIfd; - } - - protected void setIfd(int ifdId) { - mIfd = ifdId; - } - - /** - * Gets the TID of this tag. - */ - public short getTagId() { - return mTagId; - } - - /** - * Gets the data type of this tag - * - * @see #TYPE_ASCII - * @see #TYPE_LONG - * @see #TYPE_RATIONAL - * @see #TYPE_UNDEFINED - * @see #TYPE_UNSIGNED_BYTE - * @see #TYPE_UNSIGNED_LONG - * @see #TYPE_UNSIGNED_RATIONAL - * @see #TYPE_UNSIGNED_SHORT - */ - public short getDataType() { - return mDataType; - } - - /** - * Gets the total data size in bytes of the value of this tag. - */ - public int getDataSize() { - return getComponentCount() * getElementSize(getDataType()); - } - - /** - * Gets the component count of this tag. - */ - - // TODO: fix integer overflows with this - public int getComponentCount() { - return mComponentCountActual; - } - - /** - * Sets the component count of this tag. Call this function before - * setValue() if the length of value does not match the component count. - */ - protected void forceSetComponentCount(int count) { - mComponentCountActual = count; - } - - /** - * Returns true if this ExifTag contains value; otherwise, this tag will - * contain an offset value that is determined when the tag is written. - */ - public boolean hasValue() { - return mValue != null; - } - - /** - * Sets integer values into this tag. This method should be used for tags of - * type {@link #TYPE_UNSIGNED_SHORT}. This method will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_SHORT}, - * {@link #TYPE_UNSIGNED_LONG}, or {@link #TYPE_LONG}.</li> - * <li>The value overflows.</li> - * <li>The value.length does NOT match the component count in the definition - * for this tag.</li> - * </ul> - */ - public boolean setValue(int[] value) { - if (checkBadComponentCount(value.length)) { - return false; - } - if (mDataType != TYPE_UNSIGNED_SHORT && mDataType != TYPE_LONG && - mDataType != TYPE_UNSIGNED_LONG) { - return false; - } - if (mDataType == TYPE_UNSIGNED_SHORT && checkOverflowForUnsignedShort(value)) { - return false; - } else if (mDataType == TYPE_UNSIGNED_LONG && checkOverflowForUnsignedLong(value)) { - return false; - } - - long[] data = new long[value.length]; - for (int i = 0; i < value.length; i++) { - data[i] = value[i]; - } - mValue = data; - mComponentCountActual = value.length; - return true; - } - - /** - * Sets integer value into this tag. This method should be used for tags of - * type {@link #TYPE_UNSIGNED_SHORT}, or {@link #TYPE_LONG}. This method - * will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_SHORT}, - * {@link #TYPE_UNSIGNED_LONG}, or {@link #TYPE_LONG}.</li> - * <li>The value overflows.</li> - * <li>The component count in the definition of this tag is not 1.</li> - * </ul> - */ - public boolean setValue(int value) { - return setValue(new int[] { - value - }); - } - - /** - * Sets long values into this tag. This method should be used for tags of - * type {@link #TYPE_UNSIGNED_LONG}. This method will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_LONG}.</li> - * <li>The value overflows.</li> - * <li>The value.length does NOT match the component count in the definition - * for this tag.</li> - * </ul> - */ - public boolean setValue(long[] value) { - if (checkBadComponentCount(value.length) || mDataType != TYPE_UNSIGNED_LONG) { - return false; - } - if (checkOverflowForUnsignedLong(value)) { - return false; - } - mValue = value; - mComponentCountActual = value.length; - return true; - } - - /** - * Sets long values into this tag. This method should be used for tags of - * type {@link #TYPE_UNSIGNED_LONG}. This method will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_LONG}.</li> - * <li>The value overflows.</li> - * <li>The component count in the definition for this tag is not 1.</li> - * </ul> - */ - public boolean setValue(long value) { - return setValue(new long[] { - value - }); - } - - /** - * Sets a string value into this tag. This method should be used for tags of - * type {@link #TYPE_ASCII}. The string is converted to an ASCII string. - * Characters that cannot be converted are replaced with '?'. The length of - * the string must be equal to either (component count -1) or (component - * count). The final byte will be set to the string null terminator '\0', - * overwriting the last character in the string if the value.length is equal - * to the component count. This method will fail if: - * <ul> - * <li>The data type is not {@link #TYPE_ASCII} or {@link #TYPE_UNDEFINED}.</li> - * <li>The length of the string is not equal to (component count -1) or - * (component count) in the definition for this tag.</li> - * </ul> - */ - public boolean setValue(String value) { - if (mDataType != TYPE_ASCII && mDataType != TYPE_UNDEFINED) { - return false; - } - - byte[] buf = value.getBytes(US_ASCII); - byte[] finalBuf = buf; - if (buf.length > 0) { - finalBuf = (buf[buf.length - 1] == 0 || mDataType == TYPE_UNDEFINED) ? buf : Arrays - .copyOf(buf, buf.length + 1); - } else if (mDataType == TYPE_ASCII && mComponentCountActual == 1) { - finalBuf = new byte[] { 0 }; - } - int count = finalBuf.length; - if (checkBadComponentCount(count)) { - return false; - } - mComponentCountActual = count; - mValue = finalBuf; - return true; - } - - /** - * Sets Rational values into this tag. This method should be used for tags - * of type {@link #TYPE_UNSIGNED_RATIONAL}, or {@link #TYPE_RATIONAL}. This - * method will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_RATIONAL} - * or {@link #TYPE_RATIONAL}.</li> - * <li>The value overflows.</li> - * <li>The value.length does NOT match the component count in the definition - * for this tag.</li> - * </ul> - * - * @see Rational - */ - public boolean setValue(Rational[] value) { - if (checkBadComponentCount(value.length)) { - return false; - } - if (mDataType != TYPE_UNSIGNED_RATIONAL && mDataType != TYPE_RATIONAL) { - return false; - } - if (mDataType == TYPE_UNSIGNED_RATIONAL && checkOverflowForUnsignedRational(value)) { - return false; - } else if (mDataType == TYPE_RATIONAL && checkOverflowForRational(value)) { - return false; - } - - mValue = value; - mComponentCountActual = value.length; - return true; - } - - /** - * Sets a Rational value into this tag. This method should be used for tags - * of type {@link #TYPE_UNSIGNED_RATIONAL}, or {@link #TYPE_RATIONAL}. This - * method will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_RATIONAL} - * or {@link #TYPE_RATIONAL}.</li> - * <li>The value overflows.</li> - * <li>The component count in the definition for this tag is not 1.</li> - * </ul> - * - * @see Rational - */ - public boolean setValue(Rational value) { - return setValue(new Rational[] { - value - }); - } - - /** - * Sets byte values into this tag. This method should be used for tags of - * type {@link #TYPE_UNSIGNED_BYTE} or {@link #TYPE_UNDEFINED}. This method - * will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_BYTE} or - * {@link #TYPE_UNDEFINED} .</li> - * <li>The length does NOT match the component count in the definition for - * this tag.</li> - * </ul> - */ - public boolean setValue(byte[] value, int offset, int length) { - if (checkBadComponentCount(length)) { - return false; - } - if (mDataType != TYPE_UNSIGNED_BYTE && mDataType != TYPE_UNDEFINED) { - return false; - } - mValue = new byte[length]; - System.arraycopy(value, offset, mValue, 0, length); - mComponentCountActual = length; - return true; - } - - /** - * Equivalent to setValue(value, 0, value.length). - */ - public boolean setValue(byte[] value) { - return setValue(value, 0, value.length); - } - - /** - * Sets byte value into this tag. This method should be used for tags of - * type {@link #TYPE_UNSIGNED_BYTE} or {@link #TYPE_UNDEFINED}. This method - * will fail if: - * <ul> - * <li>The component type of this tag is not {@link #TYPE_UNSIGNED_BYTE} or - * {@link #TYPE_UNDEFINED} .</li> - * <li>The component count in the definition for this tag is not 1.</li> - * </ul> - */ - public boolean setValue(byte value) { - return setValue(new byte[] { - value - }); - } - - /** - * Sets the value for this tag using an appropriate setValue method for the - * given object. This method will fail if: - * <ul> - * <li>The corresponding setValue method for the class of the object passed - * in would fail.</li> - * <li>There is no obvious way to cast the object passed in into an EXIF tag - * type.</li> - * </ul> - */ - public boolean setValue(Object obj) { - if (obj == null) { - return false; - } else if (obj instanceof Short) { - return setValue(((Short) obj).shortValue() & 0x0ffff); - } else if (obj instanceof String) { - return setValue((String) obj); - } else if (obj instanceof int[]) { - return setValue((int[]) obj); - } else if (obj instanceof long[]) { - return setValue((long[]) obj); - } else if (obj instanceof Rational) { - return setValue((Rational) obj); - } else if (obj instanceof Rational[]) { - return setValue((Rational[]) obj); - } else if (obj instanceof byte[]) { - return setValue((byte[]) obj); - } else if (obj instanceof Integer) { - return setValue(((Integer) obj).intValue()); - } else if (obj instanceof Long) { - return setValue(((Long) obj).longValue()); - } else if (obj instanceof Byte) { - return setValue(((Byte) obj).byteValue()); - } else if (obj instanceof Short[]) { - // Nulls in this array are treated as zeroes. - Short[] arr = (Short[]) obj; - int[] fin = new int[arr.length]; - for (int i = 0; i < arr.length; i++) { - fin[i] = (arr[i] == null) ? 0 : arr[i].shortValue() & 0x0ffff; - } - return setValue(fin); - } else if (obj instanceof Integer[]) { - // Nulls in this array are treated as zeroes. - Integer[] arr = (Integer[]) obj; - int[] fin = new int[arr.length]; - for (int i = 0; i < arr.length; i++) { - fin[i] = (arr[i] == null) ? 0 : arr[i].intValue(); - } - return setValue(fin); - } else if (obj instanceof Long[]) { - // Nulls in this array are treated as zeroes. - Long[] arr = (Long[]) obj; - long[] fin = new long[arr.length]; - for (int i = 0; i < arr.length; i++) { - fin[i] = (arr[i] == null) ? 0 : arr[i].longValue(); - } - return setValue(fin); - } else if (obj instanceof Byte[]) { - // Nulls in this array are treated as zeroes. - Byte[] arr = (Byte[]) obj; - byte[] fin = new byte[arr.length]; - for (int i = 0; i < arr.length; i++) { - fin[i] = (arr[i] == null) ? 0 : arr[i].byteValue(); - } - return setValue(fin); - } else { - return false; - } - } - - /** - * Sets a timestamp to this tag. The method converts the timestamp with the - * format of "yyyy:MM:dd kk:mm:ss" and calls {@link #setValue(String)}. This - * method will fail if the data type is not {@link #TYPE_ASCII} or the - * component count of this tag is not 20 or undefined. - * - * @param time the number of milliseconds since Jan. 1, 1970 GMT - * @return true on success - */ - public boolean setTimeValue(long time) { - // synchronized on TIME_FORMAT as SimpleDateFormat is not thread safe - synchronized (TIME_FORMAT) { - return setValue(TIME_FORMAT.format(new Date(time))); - } - } - - /** - * Gets the value as a String. This method should be used for tags of type - * {@link #TYPE_ASCII}. - * - * @return the value as a String, or null if the tag's value does not exist - * or cannot be converted to a String. - */ - public String getValueAsString() { - if (mValue == null) { - return null; - } else if (mValue instanceof String) { - return (String) mValue; - } else if (mValue instanceof byte[]) { - return new String((byte[]) mValue, US_ASCII); - } - return null; - } - - /** - * Gets the value as a String. This method should be used for tags of type - * {@link #TYPE_ASCII}. - * - * @param defaultValue the String to return if the tag's value does not - * exist or cannot be converted to a String. - * @return the tag's value as a String, or the defaultValue. - */ - public String getValueAsString(String defaultValue) { - String s = getValueAsString(); - if (s == null) { - return defaultValue; - } - return s; - } - - /** - * Gets the value as a byte array. This method should be used for tags of - * type {@link #TYPE_UNDEFINED} or {@link #TYPE_UNSIGNED_BYTE}. - * - * @return the value as a byte array, or null if the tag's value does not - * exist or cannot be converted to a byte array. - */ - public byte[] getValueAsBytes() { - if (mValue instanceof byte[]) { - return (byte[]) mValue; - } - return null; - } - - /** - * Gets the value as a byte. If there are more than 1 bytes in this value, - * gets the first byte. This method should be used for tags of type - * {@link #TYPE_UNDEFINED} or {@link #TYPE_UNSIGNED_BYTE}. - * - * @param defaultValue the byte to return if tag's value does not exist or - * cannot be converted to a byte. - * @return the tag's value as a byte, or the defaultValue. - */ - public byte getValueAsByte(byte defaultValue) { - byte[] b = getValueAsBytes(); - if (b == null || b.length < 1) { - return defaultValue; - } - return b[0]; - } - - /** - * Gets the value as an array of Rationals. This method should be used for - * tags of type {@link #TYPE_RATIONAL} or {@link #TYPE_UNSIGNED_RATIONAL}. - * - * @return the value as as an array of Rationals, or null if the tag's value - * does not exist or cannot be converted to an array of Rationals. - */ - public Rational[] getValueAsRationals() { - if (mValue instanceof Rational[]) { - return (Rational[]) mValue; - } - return null; - } - - /** - * Gets the value as a Rational. If there are more than 1 Rationals in this - * value, gets the first one. This method should be used for tags of type - * {@link #TYPE_RATIONAL} or {@link #TYPE_UNSIGNED_RATIONAL}. - * - * @param defaultValue the Rational to return if tag's value does not exist - * or cannot be converted to a Rational. - * @return the tag's value as a Rational, or the defaultValue. - */ - public Rational getValueAsRational(Rational defaultValue) { - Rational[] r = getValueAsRationals(); - if (r == null || r.length < 1) { - return defaultValue; - } - return r[0]; - } - - /** - * Gets the value as a Rational. If there are more than 1 Rationals in this - * value, gets the first one. This method should be used for tags of type - * {@link #TYPE_RATIONAL} or {@link #TYPE_UNSIGNED_RATIONAL}. - * - * @param defaultValue the numerator of the Rational to return if tag's - * value does not exist or cannot be converted to a Rational (the - * denominator will be 1). - * @return the tag's value as a Rational, or the defaultValue. - */ - public Rational getValueAsRational(long defaultValue) { - Rational defaultVal = new Rational(defaultValue, 1); - return getValueAsRational(defaultVal); - } - - /** - * Gets the value as an array of ints. This method should be used for tags - * of type {@link #TYPE_UNSIGNED_SHORT}, {@link #TYPE_UNSIGNED_LONG}. - * - * @return the value as as an array of ints, or null if the tag's value does - * not exist or cannot be converted to an array of ints. - */ - public int[] getValueAsInts() { - if (mValue == null) { - return null; - } else if (mValue instanceof long[]) { - long[] val = (long[]) mValue; - int[] arr = new int[val.length]; - for (int i = 0; i < val.length; i++) { - arr[i] = (int) val[i]; // Truncates - } - return arr; - } - return null; - } - - /** - * Gets the value as an int. If there are more than 1 ints in this value, - * gets the first one. This method should be used for tags of type - * {@link #TYPE_UNSIGNED_SHORT}, {@link #TYPE_UNSIGNED_LONG}. - * - * @param defaultValue the int to return if tag's value does not exist or - * cannot be converted to an int. - * @return the tag's value as a int, or the defaultValue. - */ - public int getValueAsInt(int defaultValue) { - int[] i = getValueAsInts(); - if (i == null || i.length < 1) { - return defaultValue; - } - return i[0]; - } - - /** - * Gets the value as an array of longs. This method should be used for tags - * of type {@link #TYPE_UNSIGNED_LONG}. - * - * @return the value as as an array of longs, or null if the tag's value - * does not exist or cannot be converted to an array of longs. - */ - public long[] getValueAsLongs() { - if (mValue instanceof long[]) { - return (long[]) mValue; - } - return null; - } - - /** - * Gets the value or null if none exists. If there are more than 1 longs in - * this value, gets the first one. This method should be used for tags of - * type {@link #TYPE_UNSIGNED_LONG}. - * - * @param defaultValue the long to return if tag's value does not exist or - * cannot be converted to a long. - * @return the tag's value as a long, or the defaultValue. - */ - public long getValueAsLong(long defaultValue) { - long[] l = getValueAsLongs(); - if (l == null || l.length < 1) { - return defaultValue; - } - return l[0]; - } - - /** - * Gets the tag's value or null if none exists. - */ - public Object getValue() { - return mValue; - } - - /** - * Gets a long representation of the value. - * - * @param defaultValue value to return if there is no value or value is a - * rational with a denominator of 0. - * @return the tag's value as a long, or defaultValue if no representation - * exists. - */ - public long forceGetValueAsLong(long defaultValue) { - long[] l = getValueAsLongs(); - if (l != null && l.length >= 1) { - return l[0]; - } - byte[] b = getValueAsBytes(); - if (b != null && b.length >= 1) { - return b[0]; - } - Rational[] r = getValueAsRationals(); - if (r != null && r.length >= 1 && r[0].getDenominator() != 0) { - return (long) r[0].toDouble(); - } - return defaultValue; - } - - /** - * Gets a string representation of the value. - */ - public String forceGetValueAsString() { - if (mValue == null) { - return ""; - } else if (mValue instanceof byte[]) { - if (mDataType == TYPE_ASCII) { - return new String((byte[]) mValue, US_ASCII); - } else { - return Arrays.toString((byte[]) mValue); - } - } else if (mValue instanceof long[]) { - if (((long[]) mValue).length == 1) { - return String.valueOf(((long[]) mValue)[0]); - } else { - return Arrays.toString((long[]) mValue); - } - } else if (mValue instanceof Object[]) { - if (((Object[]) mValue).length == 1) { - Object val = ((Object[]) mValue)[0]; - if (val == null) { - return ""; - } else { - return val.toString(); - } - } else { - return Arrays.toString((Object[]) mValue); - } - } else { - return mValue.toString(); - } - } - - /** - * Gets the value for type {@link #TYPE_ASCII}, {@link #TYPE_LONG}, - * {@link #TYPE_UNDEFINED}, {@link #TYPE_UNSIGNED_BYTE}, - * {@link #TYPE_UNSIGNED_LONG}, or {@link #TYPE_UNSIGNED_SHORT}. For - * {@link #TYPE_RATIONAL} or {@link #TYPE_UNSIGNED_RATIONAL}, call - * {@link #getRational(int)} instead. - * - * @exception IllegalArgumentException if the data type is - * {@link #TYPE_RATIONAL} or {@link #TYPE_UNSIGNED_RATIONAL}. - */ - protected long getValueAt(int index) { - if (mValue instanceof long[]) { - return ((long[]) mValue)[index]; - } else if (mValue instanceof byte[]) { - return ((byte[]) mValue)[index]; - } - throw new IllegalArgumentException("Cannot get integer value from " - + convertTypeToString(mDataType)); - } - - /** - * Gets the {@link #TYPE_ASCII} data. - * - * @exception IllegalArgumentException If the type is NOT - * {@link #TYPE_ASCII}. - */ - protected String getString() { - if (mDataType != TYPE_ASCII) { - throw new IllegalArgumentException("Cannot get ASCII value from " - + convertTypeToString(mDataType)); - } - return new String((byte[]) mValue, US_ASCII); - } - - /* - * Get the converted ascii byte. Used by ExifOutputStream. - */ - protected byte[] getStringByte() { - return (byte[]) mValue; - } - - /** - * Gets the {@link #TYPE_RATIONAL} or {@link #TYPE_UNSIGNED_RATIONAL} data. - * - * @exception IllegalArgumentException If the type is NOT - * {@link #TYPE_RATIONAL} or {@link #TYPE_UNSIGNED_RATIONAL}. - */ - protected Rational getRational(int index) { - if ((mDataType != TYPE_RATIONAL) && (mDataType != TYPE_UNSIGNED_RATIONAL)) { - throw new IllegalArgumentException("Cannot get RATIONAL value from " - + convertTypeToString(mDataType)); - } - return ((Rational[]) mValue)[index]; - } - - /** - * Equivalent to getBytes(buffer, 0, buffer.length). - */ - protected void getBytes(byte[] buf) { - getBytes(buf, 0, buf.length); - } - - /** - * Gets the {@link #TYPE_UNDEFINED} or {@link #TYPE_UNSIGNED_BYTE} data. - * - * @param buf the byte array in which to store the bytes read. - * @param offset the initial position in buffer to store the bytes. - * @param length the maximum number of bytes to store in buffer. If length > - * component count, only the valid bytes will be stored. - * @exception IllegalArgumentException If the type is NOT - * {@link #TYPE_UNDEFINED} or {@link #TYPE_UNSIGNED_BYTE}. - */ - protected void getBytes(byte[] buf, int offset, int length) { - if ((mDataType != TYPE_UNDEFINED) && (mDataType != TYPE_UNSIGNED_BYTE)) { - throw new IllegalArgumentException("Cannot get BYTE value from " - + convertTypeToString(mDataType)); - } - System.arraycopy(mValue, 0, buf, offset, - (length > mComponentCountActual) ? mComponentCountActual : length); - } - - /** - * Gets the offset of this tag. This is only valid if this data size > 4 and - * contains an offset to the location of the actual value. - */ - protected int getOffset() { - return mOffset; - } - - /** - * Sets the offset of this tag. - */ - protected void setOffset(int offset) { - mOffset = offset; - } - - protected void setHasDefinedCount(boolean d) { - mHasDefinedDefaultComponentCount = d; - } - - protected boolean hasDefinedCount() { - return mHasDefinedDefaultComponentCount; - } - - private boolean checkBadComponentCount(int count) { - if (mHasDefinedDefaultComponentCount && (mComponentCountActual != count)) { - return true; - } - return false; - } - - private static String convertTypeToString(short type) { - switch (type) { - case TYPE_UNSIGNED_BYTE: - return "UNSIGNED_BYTE"; - case TYPE_ASCII: - return "ASCII"; - case TYPE_UNSIGNED_SHORT: - return "UNSIGNED_SHORT"; - case TYPE_UNSIGNED_LONG: - return "UNSIGNED_LONG"; - case TYPE_UNSIGNED_RATIONAL: - return "UNSIGNED_RATIONAL"; - case TYPE_UNDEFINED: - return "UNDEFINED"; - case TYPE_LONG: - return "LONG"; - case TYPE_RATIONAL: - return "RATIONAL"; - default: - return ""; - } - } - - private boolean checkOverflowForUnsignedShort(int[] value) { - for (int v : value) { - if (v > UNSIGNED_SHORT_MAX || v < 0) { - return true; - } - } - return false; - } - - private boolean checkOverflowForUnsignedLong(long[] value) { - for (long v : value) { - if (v < 0 || v > UNSIGNED_LONG_MAX) { - return true; - } - } - return false; - } - - private boolean checkOverflowForUnsignedLong(int[] value) { - for (int v : value) { - if (v < 0) { - return true; - } - } - return false; - } - - private boolean checkOverflowForUnsignedRational(Rational[] value) { - for (Rational v : value) { - if (v.getNumerator() < 0 || v.getDenominator() < 0 - || v.getNumerator() > UNSIGNED_LONG_MAX - || v.getDenominator() > UNSIGNED_LONG_MAX) { - return true; - } - } - return false; - } - - private boolean checkOverflowForRational(Rational[] value) { - for (Rational v : value) { - if (v.getNumerator() < LONG_MIN || v.getDenominator() < LONG_MIN - || v.getNumerator() > LONG_MAX - || v.getDenominator() > LONG_MAX) { - return true; - } - } - return false; - } - - @Override - public boolean equals(Object obj) { - if (obj == null) { - return false; - } - if (obj instanceof ExifTag) { - ExifTag tag = (ExifTag) obj; - if (tag.mTagId != this.mTagId - || tag.mComponentCountActual != this.mComponentCountActual - || tag.mDataType != this.mDataType) { - return false; - } - if (mValue != null) { - if (tag.mValue == null) { - return false; - } else if (mValue instanceof long[]) { - if (!(tag.mValue instanceof long[])) { - return false; - } - return Arrays.equals((long[]) mValue, (long[]) tag.mValue); - } else if (mValue instanceof Rational[]) { - if (!(tag.mValue instanceof Rational[])) { - return false; - } - return Arrays.equals((Rational[]) mValue, (Rational[]) tag.mValue); - } else if (mValue instanceof byte[]) { - if (!(tag.mValue instanceof byte[])) { - return false; - } - return Arrays.equals((byte[]) mValue, (byte[]) tag.mValue); - } else { - return mValue.equals(tag.mValue); - } - } else { - return tag.mValue == null; - } - } - return false; - } - - @Override - public String toString() { - return String.format("tag id: %04X\n", mTagId) + "ifd id: " + mIfd + "\ntype: " - + convertTypeToString(mDataType) + "\ncount: " + mComponentCountActual - + "\noffset: " + mOffset + "\nvalue: " + forceGetValueAsString() + "\n"; - } - -} diff --git a/src/com/android/gallery3d/exif/IfdData.java b/src/com/android/gallery3d/exif/IfdData.java deleted file mode 100644 index 093944aec..000000000 --- a/src/com/android/gallery3d/exif/IfdData.java +++ /dev/null @@ -1,152 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import java.util.HashMap; -import java.util.Map; - -/** - * This class stores all the tags in an IFD. - * - * @see ExifData - * @see ExifTag - */ -class IfdData { - - private final int mIfdId; - private final Map<Short, ExifTag> mExifTags = new HashMap<Short, ExifTag>(); - private int mOffsetToNextIfd = 0; - private static final int[] sIfds = { - IfdId.TYPE_IFD_0, IfdId.TYPE_IFD_1, IfdId.TYPE_IFD_EXIF, - IfdId.TYPE_IFD_INTEROPERABILITY, IfdId.TYPE_IFD_GPS - }; - /** - * Creates an IfdData with given IFD ID. - * - * @see IfdId#TYPE_IFD_0 - * @see IfdId#TYPE_IFD_1 - * @see IfdId#TYPE_IFD_EXIF - * @see IfdId#TYPE_IFD_GPS - * @see IfdId#TYPE_IFD_INTEROPERABILITY - */ - IfdData(int ifdId) { - mIfdId = ifdId; - } - - static protected int[] getIfds() { - return sIfds; - } - - /** - * Get a array the contains all {@link ExifTag} in this IFD. - */ - protected ExifTag[] getAllTags() { - return mExifTags.values().toArray(new ExifTag[mExifTags.size()]); - } - - /** - * Gets the ID of this IFD. - * - * @see IfdId#TYPE_IFD_0 - * @see IfdId#TYPE_IFD_1 - * @see IfdId#TYPE_IFD_EXIF - * @see IfdId#TYPE_IFD_GPS - * @see IfdId#TYPE_IFD_INTEROPERABILITY - */ - protected int getId() { - return mIfdId; - } - - /** - * Gets the {@link ExifTag} with given tag id. Return null if there is no - * such tag. - */ - protected ExifTag getTag(short tagId) { - return mExifTags.get(tagId); - } - - /** - * Adds or replaces a {@link ExifTag}. - */ - protected ExifTag setTag(ExifTag tag) { - tag.setIfd(mIfdId); - return mExifTags.put(tag.getTagId(), tag); - } - - protected boolean checkCollision(short tagId) { - return mExifTags.get(tagId) != null; - } - - /** - * Removes the tag of the given ID - */ - protected void removeTag(short tagId) { - mExifTags.remove(tagId); - } - - /** - * Gets the tags count in the IFD. - */ - protected int getTagCount() { - return mExifTags.size(); - } - - /** - * Sets the offset of next IFD. - */ - protected void setOffsetToNextIfd(int offset) { - mOffsetToNextIfd = offset; - } - - /** - * Gets the offset of next IFD. - */ - protected int getOffsetToNextIfd() { - return mOffsetToNextIfd; - } - - /** - * Returns true if all tags in this two IFDs are equal. Note that tags of - * IFDs offset or thumbnail offset will be ignored. - */ - @Override - public boolean equals(Object obj) { - if (this == obj) { - return true; - } - if (obj == null) { - return false; - } - if (obj instanceof IfdData) { - IfdData data = (IfdData) obj; - if (data.getId() == mIfdId && data.getTagCount() == getTagCount()) { - ExifTag[] tags = data.getAllTags(); - for (ExifTag tag : tags) { - if (ExifInterface.isOffsetTag(tag.getTagId())) { - continue; - } - ExifTag tag2 = mExifTags.get(tag.getTagId()); - if (!tag.equals(tag2)) { - return false; - } - } - return true; - } - } - return false; - } -} diff --git a/src/com/android/gallery3d/exif/IfdId.java b/src/com/android/gallery3d/exif/IfdId.java deleted file mode 100644 index 7842edbd4..000000000 --- a/src/com/android/gallery3d/exif/IfdId.java +++ /dev/null @@ -1,31 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -/** - * The constants of the IFD ID defined in EXIF spec. - */ -public interface IfdId { - public static final int TYPE_IFD_0 = 0; - public static final int TYPE_IFD_1 = 1; - public static final int TYPE_IFD_EXIF = 2; - public static final int TYPE_IFD_INTEROPERABILITY = 3; - public static final int TYPE_IFD_GPS = 4; - /* This is used in ExifData to allocate enough IfdData */ - static final int TYPE_IFD_COUNT = 5; - -} diff --git a/src/com/android/gallery3d/exif/JpegHeader.java b/src/com/android/gallery3d/exif/JpegHeader.java deleted file mode 100644 index e3e787eff..000000000 --- a/src/com/android/gallery3d/exif/JpegHeader.java +++ /dev/null @@ -1,39 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -class JpegHeader { - public static final short SOI = (short) 0xFFD8; - public static final short APP1 = (short) 0xFFE1; - public static final short APP0 = (short) 0xFFE0; - public static final short EOI = (short) 0xFFD9; - - /** - * SOF (start of frame). All value between SOF0 and SOF15 is SOF marker except for DHT, JPG, - * and DAC marker. - */ - public static final short SOF0 = (short) 0xFFC0; - public static final short SOF15 = (short) 0xFFCF; - public static final short DHT = (short) 0xFFC4; - public static final short JPG = (short) 0xFFC8; - public static final short DAC = (short) 0xFFCC; - - public static final boolean isSofMarker(short marker) { - return marker >= SOF0 && marker <= SOF15 && marker != DHT && marker != JPG - && marker != DAC; - } -} diff --git a/src/com/android/gallery3d/exif/OrderedDataOutputStream.java b/src/com/android/gallery3d/exif/OrderedDataOutputStream.java deleted file mode 100644 index 428e6b9fc..000000000 --- a/src/com/android/gallery3d/exif/OrderedDataOutputStream.java +++ /dev/null @@ -1,56 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -import java.io.FilterOutputStream; -import java.io.IOException; -import java.io.OutputStream; -import java.nio.ByteBuffer; -import java.nio.ByteOrder; - -class OrderedDataOutputStream extends FilterOutputStream { - private final ByteBuffer mByteBuffer = ByteBuffer.allocate(4); - - public OrderedDataOutputStream(OutputStream out) { - super(out); - } - - public OrderedDataOutputStream setByteOrder(ByteOrder order) { - mByteBuffer.order(order); - return this; - } - - public OrderedDataOutputStream writeShort(short value) throws IOException { - mByteBuffer.rewind(); - mByteBuffer.putShort(value); - out.write(mByteBuffer.array(), 0, 2); - return this; - } - - public OrderedDataOutputStream writeInt(int value) throws IOException { - mByteBuffer.rewind(); - mByteBuffer.putInt(value); - out.write(mByteBuffer.array()); - return this; - } - - public OrderedDataOutputStream writeRational(Rational rational) throws IOException { - writeInt((int) rational.getNumerator()); - writeInt((int) rational.getDenominator()); - return this; - } -} diff --git a/src/com/android/gallery3d/exif/Rational.java b/src/com/android/gallery3d/exif/Rational.java deleted file mode 100644 index 591d63faf..000000000 --- a/src/com/android/gallery3d/exif/Rational.java +++ /dev/null @@ -1,88 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.exif; - -/** - * The rational data type of EXIF tag. Contains a pair of longs representing the - * numerator and denominator of a Rational number. - */ -public class Rational { - - private final long mNumerator; - private final long mDenominator; - - /** - * Create a Rational with a given numerator and denominator. - * - * @param nominator - * @param denominator - */ - public Rational(long nominator, long denominator) { - mNumerator = nominator; - mDenominator = denominator; - } - - /** - * Create a copy of a Rational. - */ - public Rational(Rational r) { - mNumerator = r.mNumerator; - mDenominator = r.mDenominator; - } - - /** - * Gets the numerator of the rational. - */ - public long getNumerator() { - return mNumerator; - } - - /** - * Gets the denominator of the rational - */ - public long getDenominator() { - return mDenominator; - } - - /** - * Gets the rational value as type double. Will cause a divide-by-zero error - * if the denominator is 0. - */ - public double toDouble() { - return mNumerator / (double) mDenominator; - } - - @Override - public boolean equals(Object obj) { - if (obj == null) { - return false; - } - if (this == obj) { - return true; - } - if (obj instanceof Rational) { - Rational data = (Rational) obj; - return mNumerator == data.mNumerator && mDenominator == data.mDenominator; - } - return false; - } - - @Override - public String toString() { - return mNumerator + "/" + mDenominator; - } -} diff --git a/src/com/android/gallery3d/glrenderer/BasicTexture.java b/src/com/android/gallery3d/glrenderer/BasicTexture.java deleted file mode 100644 index 2e77b903f..000000000 --- a/src/com/android/gallery3d/glrenderer/BasicTexture.java +++ /dev/null @@ -1,212 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - -import android.util.Log; - -import com.android.gallery3d.common.Utils; - -import java.util.WeakHashMap; - -// BasicTexture is a Texture corresponds to a real GL texture. -// The state of a BasicTexture indicates whether its data is loaded to GL memory. -// If a BasicTexture is loaded into GL memory, it has a GL texture id. -public abstract class BasicTexture implements Texture { - - @SuppressWarnings("unused") - private static final String TAG = "BasicTexture"; - protected static final int UNSPECIFIED = -1; - - protected static final int STATE_UNLOADED = 0; - protected static final int STATE_LOADED = 1; - protected static final int STATE_ERROR = -1; - - // Log a warning if a texture is larger along a dimension - private static final int MAX_TEXTURE_SIZE = 4096; - - protected int mId = -1; - protected int mState; - - protected int mWidth = UNSPECIFIED; - protected int mHeight = UNSPECIFIED; - - protected int mTextureWidth; - protected int mTextureHeight; - - private boolean mHasBorder; - - protected GLCanvas mCanvasRef = null; - private static WeakHashMap<BasicTexture, Object> sAllTextures - = new WeakHashMap<BasicTexture, Object>(); - private static ThreadLocal sInFinalizer = new ThreadLocal(); - - protected BasicTexture(GLCanvas canvas, int id, int state) { - setAssociatedCanvas(canvas); - mId = id; - mState = state; - synchronized (sAllTextures) { - sAllTextures.put(this, null); - } - } - - protected BasicTexture() { - this(null, 0, STATE_UNLOADED); - } - - protected void setAssociatedCanvas(GLCanvas canvas) { - mCanvasRef = canvas; - } - - /** - * Sets the content size of this texture. In OpenGL, the actual texture - * size must be of power of 2, the size of the content may be smaller. - */ - public void setSize(int width, int height) { - mWidth = width; - mHeight = height; - mTextureWidth = width > 0 ? Utils.nextPowerOf2(width) : 0; - mTextureHeight = height > 0 ? Utils.nextPowerOf2(height) : 0; - if (mTextureWidth > MAX_TEXTURE_SIZE || mTextureHeight > MAX_TEXTURE_SIZE) { - Log.w(TAG, String.format("texture is too large: %d x %d", - mTextureWidth, mTextureHeight), new Exception()); - } - } - - public boolean isFlippedVertically() { - return false; - } - - public int getId() { - return mId; - } - - @Override - public int getWidth() { - return mWidth; - } - - @Override - public int getHeight() { - return mHeight; - } - - // Returns the width rounded to the next power of 2. - public int getTextureWidth() { - return mTextureWidth; - } - - // Returns the height rounded to the next power of 2. - public int getTextureHeight() { - return mTextureHeight; - } - - // Returns true if the texture has one pixel transparent border around the - // actual content. This is used to avoid jigged edges. - // - // The jigged edges appear because we use GL_CLAMP_TO_EDGE for texture wrap - // mode (GL_CLAMP is not available in OpenGL ES), so a pixel partially - // covered by the texture will use the color of the edge texel. If we add - // the transparent border, the color of the edge texel will be mixed with - // appropriate amount of transparent. - // - // Currently our background is black, so we can draw the thumbnails without - // enabling blending. - public boolean hasBorder() { - return mHasBorder; - } - - protected void setBorder(boolean hasBorder) { - mHasBorder = hasBorder; - } - - @Override - public void draw(GLCanvas canvas, int x, int y) { - canvas.drawTexture(this, x, y, getWidth(), getHeight()); - } - - @Override - public void draw(GLCanvas canvas, int x, int y, int w, int h) { - canvas.drawTexture(this, x, y, w, h); - } - - // onBind is called before GLCanvas binds this texture. - // It should make sure the data is uploaded to GL memory. - abstract protected boolean onBind(GLCanvas canvas); - - // Returns the GL texture target for this texture (e.g. GL_TEXTURE_2D). - abstract protected int getTarget(); - - public boolean isLoaded() { - return mState == STATE_LOADED; - } - - // recycle() is called when the texture will never be used again, - // so it can free all resources. - public void recycle() { - freeResource(); - } - - // yield() is called when the texture will not be used temporarily, - // so it can free some resources. - // The default implementation unloads the texture from GL memory, so - // the subclass should make sure it can reload the texture to GL memory - // later, or it will have to override this method. - public void yield() { - freeResource(); - } - - private void freeResource() { - GLCanvas canvas = mCanvasRef; - if (canvas != null && mId != -1) { - canvas.unloadTexture(this); - mId = -1; // Don't free it again. - } - mState = STATE_UNLOADED; - setAssociatedCanvas(null); - } - - @Override - protected void finalize() { - sInFinalizer.set(BasicTexture.class); - recycle(); - sInFinalizer.set(null); - } - - // This is for deciding if we can call Bitmap's recycle(). - // We cannot call Bitmap's recycle() in finalizer because at that point - // the finalizer of Bitmap may already be called so recycle() will crash. - public static boolean inFinalizer() { - return sInFinalizer.get() != null; - } - - public static void yieldAllTextures() { - synchronized (sAllTextures) { - for (BasicTexture t : sAllTextures.keySet()) { - t.yield(); - } - } - } - - public static void invalidateAllTextures() { - synchronized (sAllTextures) { - for (BasicTexture t : sAllTextures.keySet()) { - t.mState = STATE_UNLOADED; - t.setAssociatedCanvas(null); - } - } - } -} diff --git a/src/com/android/gallery3d/glrenderer/BitmapTexture.java b/src/com/android/gallery3d/glrenderer/BitmapTexture.java deleted file mode 100644 index 100b0b3b9..000000000 --- a/src/com/android/gallery3d/glrenderer/BitmapTexture.java +++ /dev/null @@ -1,54 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - -import android.graphics.Bitmap; - -import junit.framework.Assert; - -// BitmapTexture is a texture whose content is specified by a fixed Bitmap. -// -// The texture does not own the Bitmap. The user should make sure the Bitmap -// is valid during the texture's lifetime. When the texture is recycled, it -// does not free the Bitmap. -public class BitmapTexture extends UploadedTexture { - protected Bitmap mContentBitmap; - - public BitmapTexture(Bitmap bitmap) { - this(bitmap, false); - } - - public BitmapTexture(Bitmap bitmap, boolean hasBorder) { - super(hasBorder); - Assert.assertTrue(bitmap != null && !bitmap.isRecycled()); - mContentBitmap = bitmap; - } - - @Override - protected void onFreeBitmap(Bitmap bitmap) { - // Do nothing. - } - - @Override - protected Bitmap onGetBitmap() { - return mContentBitmap; - } - - public Bitmap getBitmap() { - return mContentBitmap; - } -} diff --git a/src/com/android/gallery3d/glrenderer/GLCanvas.java b/src/com/android/gallery3d/glrenderer/GLCanvas.java deleted file mode 100644 index 305e90521..000000000 --- a/src/com/android/gallery3d/glrenderer/GLCanvas.java +++ /dev/null @@ -1,217 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - -import android.graphics.Bitmap; -import android.graphics.Rect; -import android.graphics.RectF; - -import javax.microedition.khronos.opengles.GL11; - -// -// GLCanvas gives a convenient interface to draw using OpenGL. -// -// When a rectangle is specified in this interface, it means the region -// [x, x+width) * [y, y+height) -// -public interface GLCanvas { - - public GLId getGLId(); - - // Tells GLCanvas the size of the underlying GL surface. This should be - // called before first drawing and when the size of GL surface is changed. - // This is called by GLRoot and should not be called by the clients - // who only want to draw on the GLCanvas. Both width and height must be - // nonnegative. - public abstract void setSize(int width, int height); - - // Clear the drawing buffers. This should only be used by GLRoot. - public abstract void clearBuffer(); - - public abstract void clearBuffer(float[] argb); - - // Sets and gets the current alpha, alpha must be in [0, 1]. - public abstract void setAlpha(float alpha); - - public abstract float getAlpha(); - - // (current alpha) = (current alpha) * alpha - public abstract void multiplyAlpha(float alpha); - - // Change the current transform matrix. - public abstract void translate(float x, float y, float z); - - public abstract void translate(float x, float y); - - public abstract void scale(float sx, float sy, float sz); - - public abstract void rotate(float angle, float x, float y, float z); - - public abstract void multiplyMatrix(float[] mMatrix, int offset); - - // Pushes the configuration state (matrix, and alpha) onto - // a private stack. - public abstract void save(); - - // Same as save(), but only save those specified in saveFlags. - public abstract void save(int saveFlags); - - public static final int SAVE_FLAG_ALL = 0xFFFFFFFF; - public static final int SAVE_FLAG_ALPHA = 0x01; - public static final int SAVE_FLAG_MATRIX = 0x02; - - // Pops from the top of the stack as current configuration state (matrix, - // alpha, and clip). This call balances a previous call to save(), and is - // used to remove all modifications to the configuration state since the - // last save call. - public abstract void restore(); - - // Draws a line using the specified paint from (x1, y1) to (x2, y2). - // (Both end points are included). - public abstract void drawLine(float x1, float y1, float x2, float y2, GLPaint paint); - - // Draws a rectangle using the specified paint from (x1, y1) to (x2, y2). - // (Both end points are included). - public abstract void drawRect(float x1, float y1, float x2, float y2, GLPaint paint); - - // Fills the specified rectangle with the specified color. - public abstract void fillRect(float x, float y, float width, float height, int color); - - // Draws a texture to the specified rectangle. - public abstract void drawTexture( - BasicTexture texture, int x, int y, int width, int height); - - public abstract void drawMesh(BasicTexture tex, int x, int y, int xyBuffer, - int uvBuffer, int indexBuffer, int indexCount); - - // Draws the source rectangle part of the texture to the target rectangle. - public abstract void drawTexture(BasicTexture texture, RectF source, RectF target); - - // Draw a texture with a specified texture transform. - public abstract void drawTexture(BasicTexture texture, float[] mTextureTransform, - int x, int y, int w, int h); - - // Draw two textures to the specified rectangle. The actual texture used is - // from * (1 - ratio) + to * ratio - // The two textures must have the same size. - public abstract void drawMixed(BasicTexture from, int toColor, - float ratio, int x, int y, int w, int h); - - // Draw a region of a texture and a specified color to the specified - // rectangle. The actual color used is from * (1 - ratio) + to * ratio. - // The region of the texture is defined by parameter "src". The target - // rectangle is specified by parameter "target". - public abstract void drawMixed(BasicTexture from, int toColor, - float ratio, RectF src, RectF target); - - // Unloads the specified texture from the canvas. The resource allocated - // to draw the texture will be released. The specified texture will return - // to the unloaded state. This function should be called only from - // BasicTexture or its descendant - public abstract boolean unloadTexture(BasicTexture texture); - - // Delete the specified buffer object, similar to unloadTexture. - public abstract void deleteBuffer(int bufferId); - - // Delete the textures and buffers in GL side. This function should only be - // called in the GL thread. - public abstract void deleteRecycledResources(); - - // Dump statistics information and clear the counters. For debug only. - public abstract void dumpStatisticsAndClear(); - - public abstract void beginRenderTarget(RawTexture texture); - - public abstract void endRenderTarget(); - - /** - * Sets texture parameters to use GL_CLAMP_TO_EDGE for both - * GL_TEXTURE_WRAP_S and GL_TEXTURE_WRAP_T. Sets texture parameters to be - * GL_LINEAR for GL_TEXTURE_MIN_FILTER and GL_TEXTURE_MAG_FILTER. - * bindTexture() must be called prior to this. - * - * @param texture The texture to set parameters on. - */ - public abstract void setTextureParameters(BasicTexture texture); - - /** - * Initializes the texture to a size by calling texImage2D on it. - * - * @param texture The texture to initialize the size. - * @param format The texture format (e.g. GL_RGBA) - * @param type The texture type (e.g. GL_UNSIGNED_BYTE) - */ - public abstract void initializeTextureSize(BasicTexture texture, int format, int type); - - /** - * Initializes the texture to a size by calling texImage2D on it. - * - * @param texture The texture to initialize the size. - * @param bitmap The bitmap to initialize the bitmap with. - */ - public abstract void initializeTexture(BasicTexture texture, Bitmap bitmap); - - /** - * Calls glTexSubImage2D to upload a bitmap to the texture. - * - * @param texture The target texture to write to. - * @param xOffset Specifies a texel offset in the x direction within the - * texture array. - * @param yOffset Specifies a texel offset in the y direction within the - * texture array. - * @param format The texture format (e.g. GL_RGBA) - * @param type The texture type (e.g. GL_UNSIGNED_BYTE) - */ - public abstract void texSubImage2D(BasicTexture texture, int xOffset, int yOffset, - Bitmap bitmap, - int format, int type); - - /** - * Generates buffers and uploads the buffer data. - * - * @param buffer The buffer to upload - * @return The buffer ID that was generated. - */ - public abstract int uploadBuffer(java.nio.FloatBuffer buffer); - - /** - * Generates buffers and uploads the element array buffer data. - * - * @param buffer The buffer to upload - * @return The buffer ID that was generated. - */ - public abstract int uploadBuffer(java.nio.ByteBuffer buffer); - - /** - * After LightCycle makes GL calls, this method is called to restore the GL - * configuration to the one expected by GLCanvas. - */ - public abstract void recoverFromLightCycle(); - - /** - * Gets the bounds given by x, y, width, and height as well as the internal - * matrix state. There is no special handling for non-90-degree rotations. - * It only considers the lower-left and upper-right corners as the bounds. - * - * @param bounds The output bounds to write to. - * @param x The left side of the input rectangle. - * @param y The bottom of the input rectangle. - * @param width The width of the input rectangle. - * @param height The height of the input rectangle. - */ - public abstract void getBounds(Rect bounds, int x, int y, int width, int height); -} diff --git a/src/com/android/gallery3d/glrenderer/GLES20Canvas.java b/src/com/android/gallery3d/glrenderer/GLES20Canvas.java deleted file mode 100644 index 4ead1315e..000000000 --- a/src/com/android/gallery3d/glrenderer/GLES20Canvas.java +++ /dev/null @@ -1,1009 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ -package com.android.gallery3d.glrenderer; - -import android.graphics.Bitmap; -import android.graphics.Rect; -import android.graphics.RectF; -import android.opengl.GLES20; -import android.opengl.GLUtils; -import android.opengl.Matrix; -import android.util.Log; - -import com.android.gallery3d.util.IntArray; - -import java.nio.Buffer; -import java.nio.ByteBuffer; -import java.nio.ByteOrder; -import java.nio.FloatBuffer; -import java.util.ArrayList; -import java.util.Arrays; - -public class GLES20Canvas implements GLCanvas { - // ************** Constants ********************** - private static final String TAG = GLES20Canvas.class.getSimpleName(); - private static final int FLOAT_SIZE = Float.SIZE / Byte.SIZE; - private static final float OPAQUE_ALPHA = 0.95f; - - private static final int COORDS_PER_VERTEX = 2; - private static final int VERTEX_STRIDE = COORDS_PER_VERTEX * FLOAT_SIZE; - - private static final int COUNT_FILL_VERTEX = 4; - private static final int COUNT_LINE_VERTEX = 2; - private static final int COUNT_RECT_VERTEX = 4; - private static final int OFFSET_FILL_RECT = 0; - private static final int OFFSET_DRAW_LINE = OFFSET_FILL_RECT + COUNT_FILL_VERTEX; - private static final int OFFSET_DRAW_RECT = OFFSET_DRAW_LINE + COUNT_LINE_VERTEX; - - private static final float[] BOX_COORDINATES = { - 0, 0, // Fill rectangle - 1, 0, - 0, 1, - 1, 1, - 0, 0, // Draw line - 1, 1, - 0, 0, // Draw rectangle outline - 0, 1, - 1, 1, - 1, 0, - }; - - private static final float[] BOUNDS_COORDINATES = { - 0, 0, 0, 1, - 1, 1, 0, 1, - }; - - private static final String POSITION_ATTRIBUTE = "aPosition"; - private static final String COLOR_UNIFORM = "uColor"; - private static final String MATRIX_UNIFORM = "uMatrix"; - private static final String TEXTURE_MATRIX_UNIFORM = "uTextureMatrix"; - private static final String TEXTURE_SAMPLER_UNIFORM = "uTextureSampler"; - private static final String ALPHA_UNIFORM = "uAlpha"; - private static final String TEXTURE_COORD_ATTRIBUTE = "aTextureCoordinate"; - - private static final String DRAW_VERTEX_SHADER = "" - + "uniform mat4 " + MATRIX_UNIFORM + ";\n" - + "attribute vec2 " + POSITION_ATTRIBUTE + ";\n" - + "void main() {\n" - + " vec4 pos = vec4(" + POSITION_ATTRIBUTE + ", 0.0, 1.0);\n" - + " gl_Position = " + MATRIX_UNIFORM + " * pos;\n" - + "}\n"; - - private static final String DRAW_FRAGMENT_SHADER = "" - + "precision mediump float;\n" - + "uniform vec4 " + COLOR_UNIFORM + ";\n" - + "void main() {\n" - + " gl_FragColor = " + COLOR_UNIFORM + ";\n" - + "}\n"; - - private static final String TEXTURE_VERTEX_SHADER = "" - + "uniform mat4 " + MATRIX_UNIFORM + ";\n" - + "uniform mat4 " + TEXTURE_MATRIX_UNIFORM + ";\n" - + "attribute vec2 " + POSITION_ATTRIBUTE + ";\n" - + "varying vec2 vTextureCoord;\n" - + "void main() {\n" - + " vec4 pos = vec4(" + POSITION_ATTRIBUTE + ", 0.0, 1.0);\n" - + " gl_Position = " + MATRIX_UNIFORM + " * pos;\n" - + " vTextureCoord = (" + TEXTURE_MATRIX_UNIFORM + " * pos).xy;\n" - + "}\n"; - - private static final String MESH_VERTEX_SHADER = "" - + "uniform mat4 " + MATRIX_UNIFORM + ";\n" - + "attribute vec2 " + POSITION_ATTRIBUTE + ";\n" - + "attribute vec2 " + TEXTURE_COORD_ATTRIBUTE + ";\n" - + "varying vec2 vTextureCoord;\n" - + "void main() {\n" - + " vec4 pos = vec4(" + POSITION_ATTRIBUTE + ", 0.0, 1.0);\n" - + " gl_Position = " + MATRIX_UNIFORM + " * pos;\n" - + " vTextureCoord = " + TEXTURE_COORD_ATTRIBUTE + ";\n" - + "}\n"; - - private static final String TEXTURE_FRAGMENT_SHADER = "" - + "precision mediump float;\n" - + "varying vec2 vTextureCoord;\n" - + "uniform float " + ALPHA_UNIFORM + ";\n" - + "uniform sampler2D " + TEXTURE_SAMPLER_UNIFORM + ";\n" - + "void main() {\n" - + " gl_FragColor = texture2D(" + TEXTURE_SAMPLER_UNIFORM + ", vTextureCoord);\n" - + " gl_FragColor *= " + ALPHA_UNIFORM + ";\n" - + "}\n"; - - private static final String OES_TEXTURE_FRAGMENT_SHADER = "" - + "#extension GL_OES_EGL_image_external : require\n" - + "precision mediump float;\n" - + "varying vec2 vTextureCoord;\n" - + "uniform float " + ALPHA_UNIFORM + ";\n" - + "uniform samplerExternalOES " + TEXTURE_SAMPLER_UNIFORM + ";\n" - + "void main() {\n" - + " gl_FragColor = texture2D(" + TEXTURE_SAMPLER_UNIFORM + ", vTextureCoord);\n" - + " gl_FragColor *= " + ALPHA_UNIFORM + ";\n" - + "}\n"; - - private static final int INITIAL_RESTORE_STATE_SIZE = 8; - private static final int MATRIX_SIZE = 16; - - // Keep track of restore state - private float[] mMatrices = new float[INITIAL_RESTORE_STATE_SIZE * MATRIX_SIZE]; - private float[] mAlphas = new float[INITIAL_RESTORE_STATE_SIZE]; - private IntArray mSaveFlags = new IntArray(); - - private int mCurrentAlphaIndex = 0; - private int mCurrentMatrixIndex = 0; - - // Viewport size - private int mWidth; - private int mHeight; - - // Projection matrix - private float[] mProjectionMatrix = new float[MATRIX_SIZE]; - - // Screen size for when we aren't bound to a texture - private int mScreenWidth; - private int mScreenHeight; - - // GL programs - private int mDrawProgram; - private int mTextureProgram; - private int mOesTextureProgram; - private int mMeshProgram; - - // GL buffer containing BOX_COORDINATES - private int mBoxCoordinates; - - // Handle indices -- common - private static final int INDEX_POSITION = 0; - private static final int INDEX_MATRIX = 1; - - // Handle indices -- draw - private static final int INDEX_COLOR = 2; - - // Handle indices -- texture - private static final int INDEX_TEXTURE_MATRIX = 2; - private static final int INDEX_TEXTURE_SAMPLER = 3; - private static final int INDEX_ALPHA = 4; - - // Handle indices -- mesh - private static final int INDEX_TEXTURE_COORD = 2; - - private abstract static class ShaderParameter { - public int handle; - protected final String mName; - - public ShaderParameter(String name) { - mName = name; - } - - public abstract void loadHandle(int program); - } - - private static class UniformShaderParameter extends ShaderParameter { - public UniformShaderParameter(String name) { - super(name); - } - - @Override - public void loadHandle(int program) { - handle = GLES20.glGetUniformLocation(program, mName); - checkError(); - } - } - - private static class AttributeShaderParameter extends ShaderParameter { - public AttributeShaderParameter(String name) { - super(name); - } - - @Override - public void loadHandle(int program) { - handle = GLES20.glGetAttribLocation(program, mName); - checkError(); - } - } - - ShaderParameter[] mDrawParameters = { - new AttributeShaderParameter(POSITION_ATTRIBUTE), // INDEX_POSITION - new UniformShaderParameter(MATRIX_UNIFORM), // INDEX_MATRIX - new UniformShaderParameter(COLOR_UNIFORM), // INDEX_COLOR - }; - ShaderParameter[] mTextureParameters = { - new AttributeShaderParameter(POSITION_ATTRIBUTE), // INDEX_POSITION - new UniformShaderParameter(MATRIX_UNIFORM), // INDEX_MATRIX - new UniformShaderParameter(TEXTURE_MATRIX_UNIFORM), // INDEX_TEXTURE_MATRIX - new UniformShaderParameter(TEXTURE_SAMPLER_UNIFORM), // INDEX_TEXTURE_SAMPLER - new UniformShaderParameter(ALPHA_UNIFORM), // INDEX_ALPHA - }; - ShaderParameter[] mOesTextureParameters = { - new AttributeShaderParameter(POSITION_ATTRIBUTE), // INDEX_POSITION - new UniformShaderParameter(MATRIX_UNIFORM), // INDEX_MATRIX - new UniformShaderParameter(TEXTURE_MATRIX_UNIFORM), // INDEX_TEXTURE_MATRIX - new UniformShaderParameter(TEXTURE_SAMPLER_UNIFORM), // INDEX_TEXTURE_SAMPLER - new UniformShaderParameter(ALPHA_UNIFORM), // INDEX_ALPHA - }; - ShaderParameter[] mMeshParameters = { - new AttributeShaderParameter(POSITION_ATTRIBUTE), // INDEX_POSITION - new UniformShaderParameter(MATRIX_UNIFORM), // INDEX_MATRIX - new AttributeShaderParameter(TEXTURE_COORD_ATTRIBUTE), // INDEX_TEXTURE_COORD - new UniformShaderParameter(TEXTURE_SAMPLER_UNIFORM), // INDEX_TEXTURE_SAMPLER - new UniformShaderParameter(ALPHA_UNIFORM), // INDEX_ALPHA - }; - - private final IntArray mUnboundTextures = new IntArray(); - private final IntArray mDeleteBuffers = new IntArray(); - - // Keep track of statistics for debugging - private int mCountDrawMesh = 0; - private int mCountTextureRect = 0; - private int mCountFillRect = 0; - private int mCountDrawLine = 0; - - // Buffer for framebuffer IDs -- we keep track so we can switch the attached - // texture. - private int[] mFrameBuffer = new int[1]; - - // Bound textures. - private ArrayList<RawTexture> mTargetTextures = new ArrayList<RawTexture>(); - - // Temporary variables used within calculations - private final float[] mTempMatrix = new float[32]; - private final float[] mTempColor = new float[4]; - private final RectF mTempSourceRect = new RectF(); - private final RectF mTempTargetRect = new RectF(); - private final float[] mTempTextureMatrix = new float[MATRIX_SIZE]; - private final int[] mTempIntArray = new int[1]; - - private static final GLId mGLId = new GLES20IdImpl(); - - public GLES20Canvas() { - Matrix.setIdentityM(mTempTextureMatrix, 0); - Matrix.setIdentityM(mMatrices, mCurrentMatrixIndex); - mAlphas[mCurrentAlphaIndex] = 1f; - mTargetTextures.add(null); - - FloatBuffer boxBuffer = createBuffer(BOX_COORDINATES); - mBoxCoordinates = uploadBuffer(boxBuffer); - - int drawVertexShader = loadShader(GLES20.GL_VERTEX_SHADER, DRAW_VERTEX_SHADER); - int textureVertexShader = loadShader(GLES20.GL_VERTEX_SHADER, TEXTURE_VERTEX_SHADER); - int meshVertexShader = loadShader(GLES20.GL_VERTEX_SHADER, MESH_VERTEX_SHADER); - int drawFragmentShader = loadShader(GLES20.GL_FRAGMENT_SHADER, DRAW_FRAGMENT_SHADER); - int textureFragmentShader = loadShader(GLES20.GL_FRAGMENT_SHADER, TEXTURE_FRAGMENT_SHADER); - int oesTextureFragmentShader = loadShader(GLES20.GL_FRAGMENT_SHADER, - OES_TEXTURE_FRAGMENT_SHADER); - - mDrawProgram = assembleProgram(drawVertexShader, drawFragmentShader, mDrawParameters); - mTextureProgram = assembleProgram(textureVertexShader, textureFragmentShader, - mTextureParameters); - mOesTextureProgram = assembleProgram(textureVertexShader, oesTextureFragmentShader, - mOesTextureParameters); - mMeshProgram = assembleProgram(meshVertexShader, textureFragmentShader, mMeshParameters); - GLES20.glBlendFunc(GLES20.GL_ONE, GLES20.GL_ONE_MINUS_SRC_ALPHA); - checkError(); - } - - private static FloatBuffer createBuffer(float[] values) { - // First create an nio buffer, then create a VBO from it. - int size = values.length * FLOAT_SIZE; - FloatBuffer buffer = ByteBuffer.allocateDirect(size).order(ByteOrder.nativeOrder()) - .asFloatBuffer(); - buffer.put(values, 0, values.length).position(0); - return buffer; - } - - private int assembleProgram(int vertexShader, int fragmentShader, ShaderParameter[] params) { - int program = GLES20.glCreateProgram(); - checkError(); - if (program == 0) { - throw new RuntimeException("Cannot create GL program: " + GLES20.glGetError()); - } - GLES20.glAttachShader(program, vertexShader); - checkError(); - GLES20.glAttachShader(program, fragmentShader); - checkError(); - GLES20.glLinkProgram(program); - checkError(); - int[] mLinkStatus = mTempIntArray; - GLES20.glGetProgramiv(program, GLES20.GL_LINK_STATUS, mLinkStatus, 0); - if (mLinkStatus[0] != GLES20.GL_TRUE) { - Log.e(TAG, "Could not link program: "); - Log.e(TAG, GLES20.glGetProgramInfoLog(program)); - GLES20.glDeleteProgram(program); - program = 0; - } - for (int i = 0; i < params.length; i++) { - params[i].loadHandle(program); - } - return program; - } - - private static int loadShader(int type, String shaderCode) { - // create a vertex shader type (GLES20.GL_VERTEX_SHADER) - // or a fragment shader type (GLES20.GL_FRAGMENT_SHADER) - int shader = GLES20.glCreateShader(type); - - // add the source code to the shader and compile it - GLES20.glShaderSource(shader, shaderCode); - checkError(); - GLES20.glCompileShader(shader); - checkError(); - - return shader; - } - - @Override - public void setSize(int width, int height) { - mWidth = width; - mHeight = height; - GLES20.glViewport(0, 0, mWidth, mHeight); - checkError(); - Matrix.setIdentityM(mMatrices, mCurrentMatrixIndex); - Matrix.orthoM(mProjectionMatrix, 0, 0, width, 0, height, -1, 1); - if (getTargetTexture() == null) { - mScreenWidth = width; - mScreenHeight = height; - Matrix.translateM(mMatrices, mCurrentMatrixIndex, 0, height, 0); - Matrix.scaleM(mMatrices, mCurrentMatrixIndex, 1, -1, 1); - } - } - - @Override - public void clearBuffer() { - GLES20.glClearColor(0f, 0f, 0f, 1f); - checkError(); - GLES20.glClear(GLES20.GL_COLOR_BUFFER_BIT); - checkError(); - } - - @Override - public void clearBuffer(float[] argb) { - GLES20.glClearColor(argb[1], argb[2], argb[3], argb[0]); - checkError(); - GLES20.glClear(GLES20.GL_COLOR_BUFFER_BIT); - checkError(); - } - - @Override - public float getAlpha() { - return mAlphas[mCurrentAlphaIndex]; - } - - @Override - public void setAlpha(float alpha) { - mAlphas[mCurrentAlphaIndex] = alpha; - } - - @Override - public void multiplyAlpha(float alpha) { - setAlpha(getAlpha() * alpha); - } - - @Override - public void translate(float x, float y, float z) { - Matrix.translateM(mMatrices, mCurrentMatrixIndex, x, y, z); - } - - // This is a faster version of translate(x, y, z) because - // (1) we knows z = 0, (2) we inline the Matrix.translateM call, - // (3) we unroll the loop - @Override - public void translate(float x, float y) { - int index = mCurrentMatrixIndex; - float[] m = mMatrices; - m[index + 12] += m[index + 0] * x + m[index + 4] * y; - m[index + 13] += m[index + 1] * x + m[index + 5] * y; - m[index + 14] += m[index + 2] * x + m[index + 6] * y; - m[index + 15] += m[index + 3] * x + m[index + 7] * y; - } - - @Override - public void scale(float sx, float sy, float sz) { - Matrix.scaleM(mMatrices, mCurrentMatrixIndex, sx, sy, sz); - } - - @Override - public void rotate(float angle, float x, float y, float z) { - if (angle == 0f) { - return; - } - float[] temp = mTempMatrix; - Matrix.setRotateM(temp, 0, angle, x, y, z); - float[] matrix = mMatrices; - int index = mCurrentMatrixIndex; - Matrix.multiplyMM(temp, MATRIX_SIZE, matrix, index, temp, 0); - System.arraycopy(temp, MATRIX_SIZE, matrix, index, MATRIX_SIZE); - } - - @Override - public void multiplyMatrix(float[] matrix, int offset) { - float[] temp = mTempMatrix; - float[] currentMatrix = mMatrices; - int index = mCurrentMatrixIndex; - Matrix.multiplyMM(temp, 0, currentMatrix, index, matrix, offset); - System.arraycopy(temp, 0, currentMatrix, index, 16); - } - - @Override - public void save() { - save(SAVE_FLAG_ALL); - } - - @Override - public void save(int saveFlags) { - boolean saveAlpha = (saveFlags & SAVE_FLAG_ALPHA) == SAVE_FLAG_ALPHA; - if (saveAlpha) { - float currentAlpha = getAlpha(); - mCurrentAlphaIndex++; - if (mAlphas.length <= mCurrentAlphaIndex) { - mAlphas = Arrays.copyOf(mAlphas, mAlphas.length * 2); - } - mAlphas[mCurrentAlphaIndex] = currentAlpha; - } - boolean saveMatrix = (saveFlags & SAVE_FLAG_MATRIX) == SAVE_FLAG_MATRIX; - if (saveMatrix) { - int currentIndex = mCurrentMatrixIndex; - mCurrentMatrixIndex += MATRIX_SIZE; - if (mMatrices.length <= mCurrentMatrixIndex) { - mMatrices = Arrays.copyOf(mMatrices, mMatrices.length * 2); - } - System.arraycopy(mMatrices, currentIndex, mMatrices, mCurrentMatrixIndex, MATRIX_SIZE); - } - mSaveFlags.add(saveFlags); - } - - @Override - public void restore() { - int restoreFlags = mSaveFlags.removeLast(); - boolean restoreAlpha = (restoreFlags & SAVE_FLAG_ALPHA) == SAVE_FLAG_ALPHA; - if (restoreAlpha) { - mCurrentAlphaIndex--; - } - boolean restoreMatrix = (restoreFlags & SAVE_FLAG_MATRIX) == SAVE_FLAG_MATRIX; - if (restoreMatrix) { - mCurrentMatrixIndex -= MATRIX_SIZE; - } - } - - @Override - public void drawLine(float x1, float y1, float x2, float y2, GLPaint paint) { - draw(GLES20.GL_LINE_STRIP, OFFSET_DRAW_LINE, COUNT_LINE_VERTEX, x1, y1, x2 - x1, y2 - y1, - paint); - mCountDrawLine++; - } - - @Override - public void drawRect(float x, float y, float width, float height, GLPaint paint) { - draw(GLES20.GL_LINE_LOOP, OFFSET_DRAW_RECT, COUNT_RECT_VERTEX, x, y, width, height, paint); - mCountDrawLine++; - } - - private void draw(int type, int offset, int count, float x, float y, float width, float height, - GLPaint paint) { - draw(type, offset, count, x, y, width, height, paint.getColor(), paint.getLineWidth()); - } - - private void draw(int type, int offset, int count, float x, float y, float width, float height, - int color, float lineWidth) { - prepareDraw(offset, color, lineWidth); - draw(mDrawParameters, type, count, x, y, width, height); - } - - private void prepareDraw(int offset, int color, float lineWidth) { - GLES20.glUseProgram(mDrawProgram); - checkError(); - if (lineWidth > 0) { - GLES20.glLineWidth(lineWidth); - checkError(); - } - float[] colorArray = getColor(color); - boolean blendingEnabled = (colorArray[3] < 1f); - enableBlending(blendingEnabled); - if (blendingEnabled) { - GLES20.glBlendColor(colorArray[0], colorArray[1], colorArray[2], colorArray[3]); - checkError(); - } - - GLES20.glUniform4fv(mDrawParameters[INDEX_COLOR].handle, 1, colorArray, 0); - setPosition(mDrawParameters, offset); - checkError(); - } - - private float[] getColor(int color) { - float alpha = ((color >>> 24) & 0xFF) / 255f * getAlpha(); - float red = ((color >>> 16) & 0xFF) / 255f * alpha; - float green = ((color >>> 8) & 0xFF) / 255f * alpha; - float blue = (color & 0xFF) / 255f * alpha; - mTempColor[0] = red; - mTempColor[1] = green; - mTempColor[2] = blue; - mTempColor[3] = alpha; - return mTempColor; - } - - private void enableBlending(boolean enableBlending) { - if (enableBlending) { - GLES20.glEnable(GLES20.GL_BLEND); - checkError(); - } else { - GLES20.glDisable(GLES20.GL_BLEND); - checkError(); - } - } - - private void setPosition(ShaderParameter[] params, int offset) { - GLES20.glBindBuffer(GLES20.GL_ARRAY_BUFFER, mBoxCoordinates); - checkError(); - GLES20.glVertexAttribPointer(params[INDEX_POSITION].handle, COORDS_PER_VERTEX, - GLES20.GL_FLOAT, false, VERTEX_STRIDE, offset * VERTEX_STRIDE); - checkError(); - GLES20.glBindBuffer(GLES20.GL_ARRAY_BUFFER, 0); - checkError(); - } - - private void draw(ShaderParameter[] params, int type, int count, float x, float y, float width, - float height) { - setMatrix(params, x, y, width, height); - int positionHandle = params[INDEX_POSITION].handle; - GLES20.glEnableVertexAttribArray(positionHandle); - checkError(); - GLES20.glDrawArrays(type, 0, count); - checkError(); - GLES20.glDisableVertexAttribArray(positionHandle); - checkError(); - } - - private void setMatrix(ShaderParameter[] params, float x, float y, float width, float height) { - Matrix.translateM(mTempMatrix, 0, mMatrices, mCurrentMatrixIndex, x, y, 0f); - Matrix.scaleM(mTempMatrix, 0, width, height, 1f); - Matrix.multiplyMM(mTempMatrix, MATRIX_SIZE, mProjectionMatrix, 0, mTempMatrix, 0); - GLES20.glUniformMatrix4fv(params[INDEX_MATRIX].handle, 1, false, mTempMatrix, MATRIX_SIZE); - checkError(); - } - - @Override - public void fillRect(float x, float y, float width, float height, int color) { - draw(GLES20.GL_TRIANGLE_STRIP, OFFSET_FILL_RECT, COUNT_FILL_VERTEX, x, y, width, height, - color, 0f); - mCountFillRect++; - } - - @Override - public void drawTexture(BasicTexture texture, int x, int y, int width, int height) { - if (width <= 0 || height <= 0) { - return; - } - copyTextureCoordinates(texture, mTempSourceRect); - mTempTargetRect.set(x, y, x + width, y + height); - convertCoordinate(mTempSourceRect, mTempTargetRect, texture); - drawTextureRect(texture, mTempSourceRect, mTempTargetRect); - } - - private static void copyTextureCoordinates(BasicTexture texture, RectF outRect) { - int left = 0; - int top = 0; - int right = texture.getWidth(); - int bottom = texture.getHeight(); - if (texture.hasBorder()) { - left = 1; - top = 1; - right -= 1; - bottom -= 1; - } - outRect.set(left, top, right, bottom); - } - - @Override - public void drawTexture(BasicTexture texture, RectF source, RectF target) { - if (target.width() <= 0 || target.height() <= 0) { - return; - } - mTempSourceRect.set(source); - mTempTargetRect.set(target); - - convertCoordinate(mTempSourceRect, mTempTargetRect, texture); - drawTextureRect(texture, mTempSourceRect, mTempTargetRect); - } - - @Override - public void drawTexture(BasicTexture texture, float[] textureTransform, int x, int y, int w, - int h) { - if (w <= 0 || h <= 0) { - return; - } - mTempTargetRect.set(x, y, x + w, y + h); - drawTextureRect(texture, textureTransform, mTempTargetRect); - } - - private void drawTextureRect(BasicTexture texture, RectF source, RectF target) { - setTextureMatrix(source); - drawTextureRect(texture, mTempTextureMatrix, target); - } - - private void setTextureMatrix(RectF source) { - mTempTextureMatrix[0] = source.width(); - mTempTextureMatrix[5] = source.height(); - mTempTextureMatrix[12] = source.left; - mTempTextureMatrix[13] = source.top; - } - - // This function changes the source coordinate to the texture coordinates. - // It also clips the source and target coordinates if it is beyond the - // bound of the texture. - private static void convertCoordinate(RectF source, RectF target, BasicTexture texture) { - int width = texture.getWidth(); - int height = texture.getHeight(); - int texWidth = texture.getTextureWidth(); - int texHeight = texture.getTextureHeight(); - // Convert to texture coordinates - source.left /= texWidth; - source.right /= texWidth; - source.top /= texHeight; - source.bottom /= texHeight; - - // Clip if the rendering range is beyond the bound of the texture. - float xBound = (float) width / texWidth; - if (source.right > xBound) { - target.right = target.left + target.width() * (xBound - source.left) / source.width(); - source.right = xBound; - } - float yBound = (float) height / texHeight; - if (source.bottom > yBound) { - target.bottom = target.top + target.height() * (yBound - source.top) / source.height(); - source.bottom = yBound; - } - } - - private void drawTextureRect(BasicTexture texture, float[] textureMatrix, RectF target) { - ShaderParameter[] params = prepareTexture(texture); - setPosition(params, OFFSET_FILL_RECT); - GLES20.glUniformMatrix4fv(params[INDEX_TEXTURE_MATRIX].handle, 1, false, textureMatrix, 0); - checkError(); - if (texture.isFlippedVertically()) { - save(SAVE_FLAG_MATRIX); - translate(0, target.centerY()); - scale(1, -1, 1); - translate(0, -target.centerY()); - } - draw(params, GLES20.GL_TRIANGLE_STRIP, COUNT_FILL_VERTEX, target.left, target.top, - target.width(), target.height()); - if (texture.isFlippedVertically()) { - restore(); - } - mCountTextureRect++; - } - - private ShaderParameter[] prepareTexture(BasicTexture texture) { - ShaderParameter[] params; - int program; - if (texture.getTarget() == GLES20.GL_TEXTURE_2D) { - params = mTextureParameters; - program = mTextureProgram; - } else { - params = mOesTextureParameters; - program = mOesTextureProgram; - } - prepareTexture(texture, program, params); - return params; - } - - private void prepareTexture(BasicTexture texture, int program, ShaderParameter[] params) { - GLES20.glUseProgram(program); - checkError(); - enableBlending(!texture.isOpaque() || getAlpha() < OPAQUE_ALPHA); - GLES20.glActiveTexture(GLES20.GL_TEXTURE0); - checkError(); - texture.onBind(this); - GLES20.glBindTexture(texture.getTarget(), texture.getId()); - checkError(); - GLES20.glUniform1i(params[INDEX_TEXTURE_SAMPLER].handle, 0); - checkError(); - GLES20.glUniform1f(params[INDEX_ALPHA].handle, getAlpha()); - checkError(); - } - - @Override - public void drawMesh(BasicTexture texture, int x, int y, int xyBuffer, int uvBuffer, - int indexBuffer, int indexCount) { - prepareTexture(texture, mMeshProgram, mMeshParameters); - - GLES20.glBindBuffer(GLES20.GL_ELEMENT_ARRAY_BUFFER, indexBuffer); - checkError(); - - GLES20.glBindBuffer(GLES20.GL_ARRAY_BUFFER, xyBuffer); - checkError(); - int positionHandle = mMeshParameters[INDEX_POSITION].handle; - GLES20.glVertexAttribPointer(positionHandle, COORDS_PER_VERTEX, GLES20.GL_FLOAT, false, - VERTEX_STRIDE, 0); - checkError(); - - GLES20.glBindBuffer(GLES20.GL_ARRAY_BUFFER, uvBuffer); - checkError(); - int texCoordHandle = mMeshParameters[INDEX_TEXTURE_COORD].handle; - GLES20.glVertexAttribPointer(texCoordHandle, COORDS_PER_VERTEX, GLES20.GL_FLOAT, - false, VERTEX_STRIDE, 0); - checkError(); - GLES20.glBindBuffer(GLES20.GL_ARRAY_BUFFER, 0); - checkError(); - - GLES20.glEnableVertexAttribArray(positionHandle); - checkError(); - GLES20.glEnableVertexAttribArray(texCoordHandle); - checkError(); - - setMatrix(mMeshParameters, x, y, 1, 1); - GLES20.glDrawElements(GLES20.GL_TRIANGLE_STRIP, indexCount, GLES20.GL_UNSIGNED_BYTE, 0); - checkError(); - - GLES20.glDisableVertexAttribArray(positionHandle); - checkError(); - GLES20.glDisableVertexAttribArray(texCoordHandle); - checkError(); - GLES20.glBindBuffer(GLES20.GL_ELEMENT_ARRAY_BUFFER, 0); - checkError(); - mCountDrawMesh++; - } - - @Override - public void drawMixed(BasicTexture texture, int toColor, float ratio, int x, int y, int w, int h) { - copyTextureCoordinates(texture, mTempSourceRect); - mTempTargetRect.set(x, y, x + w, y + h); - drawMixed(texture, toColor, ratio, mTempSourceRect, mTempTargetRect); - } - - @Override - public void drawMixed(BasicTexture texture, int toColor, float ratio, RectF source, RectF target) { - if (target.width() <= 0 || target.height() <= 0) { - return; - } - save(SAVE_FLAG_ALPHA); - - float currentAlpha = getAlpha(); - float cappedRatio = Math.min(1f, Math.max(0f, ratio)); - - float textureAlpha = (1f - cappedRatio) * currentAlpha; - setAlpha(textureAlpha); - drawTexture(texture, source, target); - - float colorAlpha = cappedRatio * currentAlpha; - setAlpha(colorAlpha); - fillRect(target.left, target.top, target.width(), target.height(), toColor); - - restore(); - } - - @Override - public boolean unloadTexture(BasicTexture texture) { - boolean unload = texture.isLoaded(); - if (unload) { - synchronized (mUnboundTextures) { - mUnboundTextures.add(texture.getId()); - } - } - return unload; - } - - @Override - public void deleteBuffer(int bufferId) { - synchronized (mUnboundTextures) { - mDeleteBuffers.add(bufferId); - } - } - - @Override - public void deleteRecycledResources() { - synchronized (mUnboundTextures) { - IntArray ids = mUnboundTextures; - if (mUnboundTextures.size() > 0) { - mGLId.glDeleteTextures(null, ids.size(), ids.getInternalArray(), 0); - ids.clear(); - } - - ids = mDeleteBuffers; - if (ids.size() > 0) { - mGLId.glDeleteBuffers(null, ids.size(), ids.getInternalArray(), 0); - ids.clear(); - } - } - } - - @Override - public void dumpStatisticsAndClear() { - String line = String.format("MESH:%d, TEX_RECT:%d, FILL_RECT:%d, LINE:%d", mCountDrawMesh, - mCountTextureRect, mCountFillRect, mCountDrawLine); - mCountDrawMesh = 0; - mCountTextureRect = 0; - mCountFillRect = 0; - mCountDrawLine = 0; - Log.d(TAG, line); - } - - @Override - public void endRenderTarget() { - RawTexture oldTexture = mTargetTextures.remove(mTargetTextures.size() - 1); - RawTexture texture = getTargetTexture(); - setRenderTarget(oldTexture, texture); - restore(); // restore matrix and alpha - } - - @Override - public void beginRenderTarget(RawTexture texture) { - save(); // save matrix and alpha and blending - RawTexture oldTexture = getTargetTexture(); - mTargetTextures.add(texture); - setRenderTarget(oldTexture, texture); - } - - private RawTexture getTargetTexture() { - return mTargetTextures.get(mTargetTextures.size() - 1); - } - - private void setRenderTarget(BasicTexture oldTexture, RawTexture texture) { - if (oldTexture == null && texture != null) { - GLES20.glGenFramebuffers(1, mFrameBuffer, 0); - checkError(); - GLES20.glBindFramebuffer(GLES20.GL_FRAMEBUFFER, mFrameBuffer[0]); - checkError(); - } else if (oldTexture != null && texture == null) { - GLES20.glBindFramebuffer(GLES20.GL_FRAMEBUFFER, 0); - checkError(); - GLES20.glDeleteFramebuffers(1, mFrameBuffer, 0); - checkError(); - } - - if (texture == null) { - setSize(mScreenWidth, mScreenHeight); - } else { - setSize(texture.getWidth(), texture.getHeight()); - - if (!texture.isLoaded()) { - texture.prepare(this); - } - - GLES20.glFramebufferTexture2D(GLES20.GL_FRAMEBUFFER, GLES20.GL_COLOR_ATTACHMENT0, - texture.getTarget(), texture.getId(), 0); - checkError(); - - checkFramebufferStatus(); - } - } - - private static void checkFramebufferStatus() { - int status = GLES20.glCheckFramebufferStatus(GLES20.GL_FRAMEBUFFER); - if (status != GLES20.GL_FRAMEBUFFER_COMPLETE) { - String msg = ""; - switch (status) { - case GLES20.GL_FRAMEBUFFER_INCOMPLETE_ATTACHMENT: - msg = "GL_FRAMEBUFFER_INCOMPLETE_ATTACHMENT"; - break; - case GLES20.GL_FRAMEBUFFER_INCOMPLETE_DIMENSIONS: - msg = "GL_FRAMEBUFFER_INCOMPLETE_DIMENSIONS"; - break; - case GLES20.GL_FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT: - msg = "GL_FRAMEBUFFER_INCOMPLETE_MISSING_ATTACHMENT"; - break; - case GLES20.GL_FRAMEBUFFER_UNSUPPORTED: - msg = "GL_FRAMEBUFFER_UNSUPPORTED"; - break; - } - throw new RuntimeException(msg + ":" + Integer.toHexString(status)); - } - } - - @Override - public void setTextureParameters(BasicTexture texture) { - int target = texture.getTarget(); - GLES20.glBindTexture(target, texture.getId()); - checkError(); - GLES20.glTexParameteri(target, GLES20.GL_TEXTURE_WRAP_S, GLES20.GL_CLAMP_TO_EDGE); - GLES20.glTexParameteri(target, GLES20.GL_TEXTURE_WRAP_T, GLES20.GL_CLAMP_TO_EDGE); - GLES20.glTexParameterf(target, GLES20.GL_TEXTURE_MIN_FILTER, GLES20.GL_LINEAR); - GLES20.glTexParameterf(target, GLES20.GL_TEXTURE_MAG_FILTER, GLES20.GL_LINEAR); - } - - @Override - public void initializeTextureSize(BasicTexture texture, int format, int type) { - int target = texture.getTarget(); - GLES20.glBindTexture(target, texture.getId()); - checkError(); - int width = texture.getTextureWidth(); - int height = texture.getTextureHeight(); - GLES20.glTexImage2D(target, 0, format, width, height, 0, format, type, null); - } - - @Override - public void initializeTexture(BasicTexture texture, Bitmap bitmap) { - int target = texture.getTarget(); - GLES20.glBindTexture(target, texture.getId()); - checkError(); - GLUtils.texImage2D(target, 0, bitmap, 0); - } - - @Override - public void texSubImage2D(BasicTexture texture, int xOffset, int yOffset, Bitmap bitmap, - int format, int type) { - int target = texture.getTarget(); - GLES20.glBindTexture(target, texture.getId()); - checkError(); - GLUtils.texSubImage2D(target, 0, xOffset, yOffset, bitmap, format, type); - } - - @Override - public int uploadBuffer(FloatBuffer buf) { - return uploadBuffer(buf, FLOAT_SIZE); - } - - @Override - public int uploadBuffer(ByteBuffer buf) { - return uploadBuffer(buf, 1); - } - - private int uploadBuffer(Buffer buffer, int elementSize) { - mGLId.glGenBuffers(1, mTempIntArray, 0); - checkError(); - int bufferId = mTempIntArray[0]; - GLES20.glBindBuffer(GLES20.GL_ARRAY_BUFFER, bufferId); - checkError(); - GLES20.glBufferData(GLES20.GL_ARRAY_BUFFER, buffer.capacity() * elementSize, buffer, - GLES20.GL_STATIC_DRAW); - checkError(); - return bufferId; - } - - public static void checkError() { - int error = GLES20.glGetError(); - if (error != 0) { - Throwable t = new Throwable(); - Log.e(TAG, "GL error: " + error, t); - } - } - - @SuppressWarnings("unused") - private static void printMatrix(String message, float[] m, int offset) { - StringBuilder b = new StringBuilder(message); - for (int i = 0; i < MATRIX_SIZE; i++) { - b.append(' '); - if (i % 4 == 0) { - b.append('\n'); - } - b.append(m[offset + i]); - } - Log.v(TAG, b.toString()); - } - - @Override - public void recoverFromLightCycle() { - GLES20.glViewport(0, 0, mWidth, mHeight); - GLES20.glDisable(GLES20.GL_DEPTH_TEST); - GLES20.glBlendFunc(GLES20.GL_ONE, GLES20.GL_ONE_MINUS_SRC_ALPHA); - checkError(); - } - - @Override - public void getBounds(Rect bounds, int x, int y, int width, int height) { - Matrix.translateM(mTempMatrix, 0, mMatrices, mCurrentMatrixIndex, x, y, 0f); - Matrix.scaleM(mTempMatrix, 0, width, height, 1f); - Matrix.multiplyMV(mTempMatrix, MATRIX_SIZE, mTempMatrix, 0, BOUNDS_COORDINATES, 0); - Matrix.multiplyMV(mTempMatrix, MATRIX_SIZE + 4, mTempMatrix, 0, BOUNDS_COORDINATES, 4); - bounds.left = Math.round(mTempMatrix[MATRIX_SIZE]); - bounds.right = Math.round(mTempMatrix[MATRIX_SIZE + 4]); - bounds.top = Math.round(mTempMatrix[MATRIX_SIZE + 1]); - bounds.bottom = Math.round(mTempMatrix[MATRIX_SIZE + 5]); - bounds.sort(); - } - - @Override - public GLId getGLId() { - return mGLId; - } -} diff --git a/src/com/android/gallery3d/glrenderer/GLES20IdImpl.java b/src/com/android/gallery3d/glrenderer/GLES20IdImpl.java deleted file mode 100644 index 6cd7149cb..000000000 --- a/src/com/android/gallery3d/glrenderer/GLES20IdImpl.java +++ /dev/null @@ -1,42 +0,0 @@ -package com.android.gallery3d.glrenderer; - -import android.opengl.GLES20; - -import javax.microedition.khronos.opengles.GL11; -import javax.microedition.khronos.opengles.GL11ExtensionPack; - -public class GLES20IdImpl implements GLId { - private final int[] mTempIntArray = new int[1]; - - @Override - public int generateTexture() { - GLES20.glGenTextures(1, mTempIntArray, 0); - GLES20Canvas.checkError(); - return mTempIntArray[0]; - } - - @Override - public void glGenBuffers(int n, int[] buffers, int offset) { - GLES20.glGenBuffers(n, buffers, offset); - GLES20Canvas.checkError(); - } - - @Override - public void glDeleteTextures(GL11 gl, int n, int[] textures, int offset) { - GLES20.glDeleteTextures(n, textures, offset); - GLES20Canvas.checkError(); - } - - - @Override - public void glDeleteBuffers(GL11 gl, int n, int[] buffers, int offset) { - GLES20.glDeleteBuffers(n, buffers, offset); - GLES20Canvas.checkError(); - } - - @Override - public void glDeleteFramebuffers(GL11ExtensionPack gl11ep, int n, int[] buffers, int offset) { - GLES20.glDeleteFramebuffers(n, buffers, offset); - GLES20Canvas.checkError(); - } -} diff --git a/src/com/android/gallery3d/glrenderer/GLId.java b/src/com/android/gallery3d/glrenderer/GLId.java deleted file mode 100644 index 3cec558f6..000000000 --- a/src/com/android/gallery3d/glrenderer/GLId.java +++ /dev/null @@ -1,33 +0,0 @@ -/* - * Copyright (C) 2012 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - -import javax.microedition.khronos.opengles.GL11; -import javax.microedition.khronos.opengles.GL11ExtensionPack; - -// This mimics corresponding GL functions. -public interface GLId { - public int generateTexture(); - - public void glGenBuffers(int n, int[] buffers, int offset); - - public void glDeleteTextures(GL11 gl, int n, int[] textures, int offset); - - public void glDeleteBuffers(GL11 gl, int n, int[] buffers, int offset); - - public void glDeleteFramebuffers(GL11ExtensionPack gl11ep, int n, int[] buffers, int offset); -} diff --git a/src/com/android/gallery3d/glrenderer/GLPaint.java b/src/com/android/gallery3d/glrenderer/GLPaint.java deleted file mode 100644 index 16b220690..000000000 --- a/src/com/android/gallery3d/glrenderer/GLPaint.java +++ /dev/null @@ -1,41 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - -import junit.framework.Assert; - -public class GLPaint { - private float mLineWidth = 1f; - private int mColor = 0; - - public void setColor(int color) { - mColor = color; - } - - public int getColor() { - return mColor; - } - - public void setLineWidth(float width) { - Assert.assertTrue(width >= 0); - mLineWidth = width; - } - - public float getLineWidth() { - return mLineWidth; - } -} diff --git a/src/com/android/gallery3d/glrenderer/RawTexture.java b/src/com/android/gallery3d/glrenderer/RawTexture.java deleted file mode 100644 index 93f0fdff9..000000000 --- a/src/com/android/gallery3d/glrenderer/RawTexture.java +++ /dev/null @@ -1,73 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - -import android.util.Log; - -import javax.microedition.khronos.opengles.GL11; - -public class RawTexture extends BasicTexture { - private static final String TAG = "RawTexture"; - - private final boolean mOpaque; - private boolean mIsFlipped; - - public RawTexture(int width, int height, boolean opaque) { - mOpaque = opaque; - setSize(width, height); - } - - @Override - public boolean isOpaque() { - return mOpaque; - } - - @Override - public boolean isFlippedVertically() { - return mIsFlipped; - } - - public void setIsFlippedVertically(boolean isFlipped) { - mIsFlipped = isFlipped; - } - - protected void prepare(GLCanvas canvas) { - GLId glId = canvas.getGLId(); - mId = glId.generateTexture(); - canvas.initializeTextureSize(this, GL11.GL_RGBA, GL11.GL_UNSIGNED_BYTE); - canvas.setTextureParameters(this); - mState = STATE_LOADED; - setAssociatedCanvas(canvas); - } - - @Override - protected boolean onBind(GLCanvas canvas) { - if (isLoaded()) return true; - Log.w(TAG, "lost the content due to context change"); - return false; - } - - @Override - public void yield() { - // we cannot free the texture because we have no backup. - } - - @Override - protected int getTarget() { - return GL11.GL_TEXTURE_2D; - } -} diff --git a/src/com/android/gallery3d/glrenderer/Texture.java b/src/com/android/gallery3d/glrenderer/Texture.java deleted file mode 100644 index 3dcae4aec..000000000 --- a/src/com/android/gallery3d/glrenderer/Texture.java +++ /dev/null @@ -1,44 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - - -// Texture is a rectangular image which can be drawn on GLCanvas. -// The isOpaque() function gives a hint about whether the texture is opaque, -// so the drawing can be done faster. -// -// This is the current texture hierarchy: -// -// Texture -// -- ColorTexture -// -- FadeInTexture -// -- BasicTexture -// -- UploadedTexture -// -- BitmapTexture -// -- Tile -// -- ResourceTexture -// -- NinePatchTexture -// -- CanvasTexture -// -- StringTexture -// -public interface Texture { - public int getWidth(); - public int getHeight(); - public void draw(GLCanvas canvas, int x, int y); - public void draw(GLCanvas canvas, int x, int y, int w, int h); - public boolean isOpaque(); -} diff --git a/src/com/android/gallery3d/glrenderer/UploadedTexture.java b/src/com/android/gallery3d/glrenderer/UploadedTexture.java deleted file mode 100644 index f41a979b7..000000000 --- a/src/com/android/gallery3d/glrenderer/UploadedTexture.java +++ /dev/null @@ -1,298 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.glrenderer; - -import android.graphics.Bitmap; -import android.graphics.Bitmap.Config; -import android.opengl.GLUtils; - -import junit.framework.Assert; - -import java.util.HashMap; - -import javax.microedition.khronos.opengles.GL11; - -// UploadedTextures use a Bitmap for the content of the texture. -// -// Subclasses should implement onGetBitmap() to provide the Bitmap and -// implement onFreeBitmap(mBitmap) which will be called when the Bitmap -// is not needed anymore. -// -// isContentValid() is meaningful only when the isLoaded() returns true. -// It means whether the content needs to be updated. -// -// The user of this class should call recycle() when the texture is not -// needed anymore. -// -// By default an UploadedTexture is opaque (so it can be drawn faster without -// blending). The user or subclass can override it using setOpaque(). -public abstract class UploadedTexture extends BasicTexture { - - // To prevent keeping allocation the borders, we store those used borders here. - // Since the length will be power of two, it won't use too much memory. - private static HashMap<BorderKey, Bitmap> sBorderLines = - new HashMap<BorderKey, Bitmap>(); - private static BorderKey sBorderKey = new BorderKey(); - - @SuppressWarnings("unused") - private static final String TAG = "Texture"; - private boolean mContentValid = true; - - // indicate this textures is being uploaded in background - private boolean mIsUploading = false; - private boolean mOpaque = true; - private boolean mThrottled = false; - private static int sUploadedCount; - private static final int UPLOAD_LIMIT = 100; - - protected Bitmap mBitmap; - private int mBorder; - - protected UploadedTexture() { - this(false); - } - - protected UploadedTexture(boolean hasBorder) { - super(null, 0, STATE_UNLOADED); - if (hasBorder) { - setBorder(true); - mBorder = 1; - } - } - - protected void setIsUploading(boolean uploading) { - mIsUploading = uploading; - } - - public boolean isUploading() { - return mIsUploading; - } - - private static class BorderKey implements Cloneable { - public boolean vertical; - public Config config; - public int length; - - @Override - public int hashCode() { - int x = config.hashCode() ^ length; - return vertical ? x : -x; - } - - @Override - public boolean equals(Object object) { - if (!(object instanceof BorderKey)) return false; - BorderKey o = (BorderKey) object; - return vertical == o.vertical - && config == o.config && length == o.length; - } - - @Override - public BorderKey clone() { - try { - return (BorderKey) super.clone(); - } catch (CloneNotSupportedException e) { - throw new AssertionError(e); - } - } - } - - protected void setThrottled(boolean throttled) { - mThrottled = throttled; - } - - private static Bitmap getBorderLine( - boolean vertical, Config config, int length) { - BorderKey key = sBorderKey; - key.vertical = vertical; - key.config = config; - key.length = length; - Bitmap bitmap = sBorderLines.get(key); - if (bitmap == null) { - bitmap = vertical - ? Bitmap.createBitmap(1, length, config) - : Bitmap.createBitmap(length, 1, config); - sBorderLines.put(key.clone(), bitmap); - } - return bitmap; - } - - private Bitmap getBitmap() { - if (mBitmap == null) { - mBitmap = onGetBitmap(); - int w = mBitmap.getWidth() + mBorder * 2; - int h = mBitmap.getHeight() + mBorder * 2; - if (mWidth == UNSPECIFIED) { - setSize(w, h); - } - } - return mBitmap; - } - - private void freeBitmap() { - Assert.assertTrue(mBitmap != null); - onFreeBitmap(mBitmap); - mBitmap = null; - } - - @Override - public int getWidth() { - if (mWidth == UNSPECIFIED) getBitmap(); - return mWidth; - } - - @Override - public int getHeight() { - if (mWidth == UNSPECIFIED) getBitmap(); - return mHeight; - } - - protected abstract Bitmap onGetBitmap(); - - protected abstract void onFreeBitmap(Bitmap bitmap); - - protected void invalidateContent() { - if (mBitmap != null) freeBitmap(); - mContentValid = false; - mWidth = UNSPECIFIED; - mHeight = UNSPECIFIED; - } - - /** - * Whether the content on GPU is valid. - */ - public boolean isContentValid() { - return isLoaded() && mContentValid; - } - - /** - * Updates the content on GPU's memory. - * @param canvas - */ - public void updateContent(GLCanvas canvas) { - if (!isLoaded()) { - if (mThrottled && ++sUploadedCount > UPLOAD_LIMIT) { - return; - } - uploadToCanvas(canvas); - } else if (!mContentValid) { - Bitmap bitmap = getBitmap(); - int format = GLUtils.getInternalFormat(bitmap); - int type = GLUtils.getType(bitmap); - canvas.texSubImage2D(this, mBorder, mBorder, bitmap, format, type); - freeBitmap(); - mContentValid = true; - } - } - - public static void resetUploadLimit() { - sUploadedCount = 0; - } - - public static boolean uploadLimitReached() { - return sUploadedCount > UPLOAD_LIMIT; - } - - private void uploadToCanvas(GLCanvas canvas) { - - Bitmap bitmap = getBitmap(); - if (bitmap != null) { - try { - int bWidth = bitmap.getWidth(); - int bHeight = bitmap.getHeight(); - int width = bWidth + mBorder * 2; - int height = bHeight + mBorder * 2; - int texWidth = getTextureWidth(); - int texHeight = getTextureHeight(); - - Assert.assertTrue(bWidth <= texWidth && bHeight <= texHeight); - - // Upload the bitmap to a new texture. - mId = canvas.getGLId().generateTexture(); - canvas.setTextureParameters(this); - - if (bWidth == texWidth && bHeight == texHeight) { - canvas.initializeTexture(this, bitmap); - } else { - int format = GLUtils.getInternalFormat(bitmap); - int type = GLUtils.getType(bitmap); - Config config = bitmap.getConfig(); - - canvas.initializeTextureSize(this, format, type); - canvas.texSubImage2D(this, mBorder, mBorder, bitmap, format, type); - - if (mBorder > 0) { - // Left border - Bitmap line = getBorderLine(true, config, texHeight); - canvas.texSubImage2D(this, 0, 0, line, format, type); - - // Top border - line = getBorderLine(false, config, texWidth); - canvas.texSubImage2D(this, 0, 0, line, format, type); - } - - // Right border - if (mBorder + bWidth < texWidth) { - Bitmap line = getBorderLine(true, config, texHeight); - canvas.texSubImage2D(this, mBorder + bWidth, 0, line, format, type); - } - - // Bottom border - if (mBorder + bHeight < texHeight) { - Bitmap line = getBorderLine(false, config, texWidth); - canvas.texSubImage2D(this, 0, mBorder + bHeight, line, format, type); - } - } - } finally { - freeBitmap(); - } - // Update texture state. - setAssociatedCanvas(canvas); - mState = STATE_LOADED; - mContentValid = true; - } else { - mState = STATE_ERROR; - throw new RuntimeException("Texture load fail, no bitmap"); - } - } - - @Override - protected boolean onBind(GLCanvas canvas) { - updateContent(canvas); - return isContentValid(); - } - - @Override - protected int getTarget() { - return GL11.GL_TEXTURE_2D; - } - - public void setOpaque(boolean isOpaque) { - mOpaque = isOpaque; - } - - @Override - public boolean isOpaque() { - return mOpaque; - } - - @Override - public void recycle() { - super.recycle(); - if (mBitmap != null) freeBitmap(); - } -} diff --git a/src/com/android/gallery3d/util/IntArray.java b/src/com/android/gallery3d/util/IntArray.java deleted file mode 100644 index 2c4dc2c83..000000000 --- a/src/com/android/gallery3d/util/IntArray.java +++ /dev/null @@ -1,60 +0,0 @@ -/* - * Copyright (C) 2010 The Android Open Source Project - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License for the specific language governing permissions and - * limitations under the License. - */ - -package com.android.gallery3d.util; - -public class IntArray { - private static final int INIT_CAPACITY = 8; - - private int mData[] = new int[INIT_CAPACITY]; - private int mSize = 0; - - public void add(int value) { - if (mData.length == mSize) { - int temp[] = new int[mSize + mSize]; - System.arraycopy(mData, 0, temp, 0, mSize); - mData = temp; - } - mData[mSize++] = value; - } - - public int removeLast() { - mSize--; - return mData[mSize]; - } - - public int size() { - return mSize; - } - - // For testing only - public int[] toArray(int[] result) { - if (result == null || result.length < mSize) { - result = new int[mSize]; - } - System.arraycopy(mData, 0, result, 0, mSize); - return result; - } - - public int[] getInternalArray() { - return mData; - } - - public void clear() { - mSize = 0; - if (mData.length != INIT_CAPACITY) mData = new int[INIT_CAPACITY]; - } -} |