The following code fragment demonstrates a trivial compression * and decompression of a string using {@code Deflater} and * {@code Inflater}. * *
* try {
* // Encode a String into bytes
* String inputString = "blahblahblah\u20AC\u20AC";
* byte[] input = inputString.getBytes("UTF-8");
*
* // Compress the bytes
* byte[] output = new byte[100];
* Deflater compresser = new Deflater();
* compresser.setInput(input);
* compresser.finish();
* int compressedDataLength = compresser.deflate(output);
*
* // Decompress the bytes
* Inflater decompresser = new Inflater();
* decompresser.setInput(output, 0, compressedDataLength);
* byte[] result = new byte[100];
* int resultLength = decompresser.inflate(result);
* decompresser.end();
*
* // Decode the bytes into a String
* String outputString = new String(result, 0, resultLength, "UTF-8");
* } catch(java.io.UnsupportedEncodingException ex) {
* // handle
* } catch (java.util.zip.DataFormatException ex) {
* // handle
* }
* * Note: When using the 'nowrap' option it is also necessary to provide * an extra "dummy" byte as input. This is required by the ZLIB native * library in order to support certain optimizations. * * @param nowrap if true then support GZIP compatible compression */ public Inflater(boolean nowrap) { this.zsRef = ZStreamRef.get(this, () -> init(nowrap), Inflater::end); } /** * Creates a new decompressor. */ public Inflater() { this(false); } /** * Sets input data for decompression. Should be called whenever * needsInput() returns true indicating that more input data is * required. * @param b the input data bytes * @param off the start offset of the input data * @param len the length of the input data * @see Inflater#needsInput */ public void setInput(byte[] b, int off, int len) { if (b == null) { throw new NullPointerException(); } if (off < 0 || len < 0 || off > b.length - len) { throw new ArrayIndexOutOfBoundsException(); } synchronized (zsRef) { this.buf = b; this.off = off; this.len = len; } } /** * Sets input data for decompression. Should be called whenever * needsInput() returns true indicating that more input data is * required. * @param b the input data bytes * @see Inflater#needsInput */ public void setInput(byte[] b) { setInput(b, 0, b.length); } /** * Sets the preset dictionary to the given array of bytes. Should be * called when inflate() returns 0 and needsDictionary() returns true * indicating that a preset dictionary is required. The method getAdler() * can be used to get the Adler-32 value of the dictionary needed. * @param b the dictionary data bytes * @param off the start offset of the data * @param len the length of the data * @see Inflater#needsDictionary * @see Inflater#getAdler */ public void setDictionary(byte[] b, int off, int len) { if (b == null) { throw new NullPointerException(); } if (off < 0 || len < 0 || off > b.length - len) { throw new ArrayIndexOutOfBoundsException(); } synchronized (zsRef) { ensureOpen(); setDictionary(zsRef.address(), b, off, len); needDict = false; } } /** * Sets the preset dictionary to the given array of bytes. Should be * called when inflate() returns 0 and needsDictionary() returns true * indicating that a preset dictionary is required. The method getAdler() * can be used to get the Adler-32 value of the dictionary needed. * @param b the dictionary data bytes * @see Inflater#needsDictionary * @see Inflater#getAdler */ public void setDictionary(byte[] b) { setDictionary(b, 0, b.length); } /** * Returns the total number of bytes remaining in the input buffer. * This can be used to find out what bytes still remain in the input * buffer after decompression has finished. * @return the total number of bytes remaining in the input buffer */ public int getRemaining() { synchronized (zsRef) { return len; } } /** * Returns true if no data remains in the input buffer. This can * be used to determine if #setInput should be called in order * to provide more input. * @return true if no data remains in the input buffer */ public boolean needsInput() { synchronized (zsRef) { return len <= 0; } } /** * Returns true if a preset dictionary is needed for decompression. * @return true if a preset dictionary is needed for decompression * @see Inflater#setDictionary */ public boolean needsDictionary() { synchronized (zsRef) { return needDict; } } /** * Returns true if the end of the compressed data stream has been * reached. * @return true if the end of the compressed data stream has been * reached */ public boolean finished() { synchronized (zsRef) { return finished; } } /** * Uncompresses bytes into specified buffer. Returns actual number * of bytes uncompressed. A return value of 0 indicates that * needsInput() or needsDictionary() should be called in order to * determine if more input data or a preset dictionary is required. * In the latter case, getAdler() can be used to get the Adler-32 * value of the dictionary required. * @param b the buffer for the uncompressed data * @param off the start offset of the data * @param len the maximum number of uncompressed bytes * @return the actual number of uncompressed bytes * @exception DataFormatException if the compressed data format is invalid * @see Inflater#needsInput * @see Inflater#needsDictionary */ public int inflate(byte[] b, int off, int len) throws DataFormatException { if (b == null) { throw new NullPointerException(); } if (off < 0 || len < 0 || off > b.length - len) { throw new ArrayIndexOutOfBoundsException(); } synchronized (zsRef) { ensureOpen(); int thisLen = this.len; int n = inflateBytes(zsRef.address(), b, off, len); bytesWritten += n; bytesRead += (thisLen - this.len); return n; } } /** * Uncompresses bytes into specified buffer. Returns actual number * of bytes uncompressed. A return value of 0 indicates that * needsInput() or needsDictionary() should be called in order to * determine if more input data or a preset dictionary is required. * In the latter case, getAdler() can be used to get the Adler-32 * value of the dictionary required. * @param b the buffer for the uncompressed data * @return the actual number of uncompressed bytes * @exception DataFormatException if the compressed data format is invalid * @see Inflater#needsInput * @see Inflater#needsDictionary */ public int inflate(byte[] b) throws DataFormatException { return inflate(b, 0, b.length); } /** * Returns the ADLER-32 value of the uncompressed data. * @return the ADLER-32 value of the uncompressed data */ public int getAdler() { synchronized (zsRef) { ensureOpen(); return getAdler(zsRef.address()); } } /** * Returns the total number of compressed bytes input so far. * *
Since the number of bytes may be greater than * Integer.MAX_VALUE, the {@link #getBytesRead()} method is now * the preferred means of obtaining this information.
* * @return the total number of compressed bytes input so far */ public int getTotalIn() { return (int) getBytesRead(); } /** * Returns the total number of compressed bytes input so far. * * @return the total (non-negative) number of compressed bytes input so far * @since 1.5 */ public long getBytesRead() { synchronized (zsRef) { ensureOpen(); return bytesRead; } } /** * Returns the total number of uncompressed bytes output so far. * *Since the number of bytes may be greater than * Integer.MAX_VALUE, the {@link #getBytesWritten()} method is now * the preferred means of obtaining this information.
* * @return the total number of uncompressed bytes output so far */ public int getTotalOut() { return (int) getBytesWritten(); } /** * Returns the total number of uncompressed bytes output so far. * * @return the total (non-negative) number of uncompressed bytes output so far * @since 1.5 */ public long getBytesWritten() { synchronized (zsRef) { ensureOpen(); return bytesWritten; } } /** * Resets inflater so that a new set of input data can be processed. */ public void reset() { synchronized (zsRef) { ensureOpen(); reset(zsRef.address()); buf = defaultBuf; finished = false; needDict = false; off = len = 0; bytesRead = bytesWritten = 0; } } /** * Closes the decompressor and discards any unprocessed input. * * This method should be called when the decompressor is no longer * being used. Once this method is called, the behavior of the * Inflater object is undefined. */ public void end() { synchronized (zsRef) { zsRef.clean(); buf = null; } } /** * Closes the decompressor when garbage is collected. * * @implSpec * If this {@code Inflater} has been subclassed and the {@code end} method * has been overridden, the {@code end} method will be called when the * inflater is unreachable. * * @deprecated The {@code finalize} method has been deprecated and will be * removed. It is implemented as a no-op. Subclasses that override * {@code finalize} in order to perform cleanup should be modified to use * alternative cleanup mechanisms and remove the overriding {@code finalize} * method. The recommended cleanup for compressor is to explicitly call * {@code end} method when it is no longer in use. If the {@code end} is * not invoked explicitly the resource of the compressor will be released * when the instance becomes unreachable, */ @Deprecated(since="9", forRemoval=true) protected void finalize() {} private void ensureOpen () { assert Thread.holdsLock(zsRef); if (zsRef.address() == 0) throw new NullPointerException("Inflater has been closed"); } boolean ended() { synchronized (zsRef) { return zsRef.address() == 0; } } private static native void initIDs(); private static native long init(boolean nowrap); private static native void setDictionary(long addr, byte[] b, int off, int len); private native int inflateBytes(long addr, byte[] b, int off, int len) throws DataFormatException; private static native int getAdler(long addr); private static native void reset(long addr); private static native void end(long addr); }