/** * Convenience method, equivalent to: *<code> * return optimalInstance(LZFChunk.MAX_CHUNK_LEN, bufferRecycler); *</code> */ public static ChunkEncoder optimalInstance(BufferRecycler bufferRecycler) { return optimalInstance(LZFChunk.MAX_CHUNK_LEN, bufferRecycler); }
/** * Convenience method, equivalent to: *<code> * return optimalInstance(LZFChunk.MAX_CHUNK_LEN); *</code> */ public static ChunkEncoder optimalInstance() { return optimalInstance(LZFChunk.MAX_CHUNK_LEN); }
/** * Convenience method, equivalent to: *<code> * return optimalInstance(LZFChunk.MAX_CHUNK_LEN, bufferRecycler); *</code> */ public static ChunkEncoder optimalInstance(BufferRecycler bufferRecycler) { return optimalInstance(LZFChunk.MAX_CHUNK_LEN, bufferRecycler); }
@Override protected ChunkEncoder initialValue() { return ChunkEncoderFactory.optimalInstance(); } };
@Override protected ChunkEncoder initialValue() { return ChunkEncoderFactory.optimalInstance(); } };
/** * Convenience method, equivalent to: *<code> * return optimalInstance(LZFChunk.MAX_CHUNK_LEN); *</code> */ public static ChunkEncoder optimalInstance() { return optimalInstance(LZFChunk.MAX_CHUNK_LEN); }
public LZFOutputStream(final OutputStream outputStream, final BufferRecycler bufferRecycler) { this(ChunkEncoderFactory.optimalInstance(bufferRecycler), outputStream, bufferRecycler); }
@Override protected ChunkEncoder initialValue() { return ChunkEncoderFactory.optimalInstance(); } };
/** * Convenience method, equivalent to: *<code> * return optimalInstance(LZFChunk.MAX_CHUNK_LEN); *</code> */ public static ChunkEncoder optimalInstance() { return optimalInstance(LZFChunk.MAX_CHUNK_LEN); }
public LZFOutputStream(final OutputStream outputStream) { this(ChunkEncoderFactory.optimalInstance(DEFAULT_OUTPUT_BUFFER_SIZE), outputStream); }
/** * Convenience method, equivalent to: *<code> * return optimalInstance(LZFChunk.MAX_CHUNK_LEN, bufferRecycler); *</code> */ public static ChunkEncoder optimalInstance(BufferRecycler bufferRecycler) { return optimalInstance(LZFChunk.MAX_CHUNK_LEN, bufferRecycler); }
public LZFFileOutputStream(String name) throws FileNotFoundException { this(ChunkEncoderFactory.optimalInstance(OUTPUT_BUFFER_SIZE), name); }
public LZFOutputStream(final OutputStream outputStream, final BufferRecycler bufferRecycler) { this(ChunkEncoderFactory.optimalInstance(bufferRecycler), outputStream, bufferRecycler); }
public LZFFileOutputStream(File file, boolean append) throws FileNotFoundException { this(ChunkEncoderFactory.optimalInstance(OUTPUT_BUFFER_SIZE), file, append); }
public LZFFileOutputStream(File file, boolean append) throws FileNotFoundException { this(ChunkEncoderFactory.optimalInstance(OUTPUT_BUFFER_SIZE), file, append); }
public LZFOutputStream(final OutputStream outputStream) { this(ChunkEncoderFactory.optimalInstance(DEFAULT_OUTPUT_BUFFER_SIZE), outputStream); }
public LZFOutputStream(final OutputStream outputStream, final BufferRecycler bufferRecycler) { this(ChunkEncoderFactory.optimalInstance(bufferRecycler), outputStream, bufferRecycler); }
public LZFOutputStream(final OutputStream outputStream) { this(ChunkEncoderFactory.optimalInstance(DEFAULT_OUTPUT_BUFFER_SIZE), outputStream); }
public LZFFileOutputStream(FileDescriptor fdObj) { this(ChunkEncoderFactory.optimalInstance(OUTPUT_BUFFER_SIZE), fdObj); }
public LZFFileOutputStream(File file) throws FileNotFoundException { this(ChunkEncoderFactory.optimalInstance(OUTPUT_BUFFER_SIZE), file); }