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/*
 * FloatInputStream.java
 *
 *	This file is part of Tritonus: http://www.tritonus.org/
 */

/*
 *  Copyright (c) 2006 by Florian Bomers 
 *  All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 *
 * - Redistributions of source code must retain the above copyright notice,
 *   this list of conditions and the following disclaimer.
 * - Redistributions in binary form must reproduce the above copyright
 *   notice, this list of conditions and the following disclaimer in the
 *   documentation and/or other materials provided with the distribution.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
 * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
 * COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
 * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
 * OF THE POSSIBILITY OF SUCH DAMAGE.
 */

/*
 |<---            this code is formatted to fit into 80 columns             --->|
 */
package org.tritonus.share.sampled;

import java.io.*;
import javax.sound.sampled.*;

/**
 * An implementation of AudioInputStream that implements the FloatSampleInput
 * interface. This is a convenience class to instantly make any AudioInputStream
 * capable of fulfilling the FloatSampleInput interface, or vice versa: make an
 * existing FloatSampleInput class compatible with AudioInputStream.
 * 

* All calls to FloatSampleInput.read() will cause implicit conversion to * FloatSampleBuffer. If the underlying stream implementes FloatSampleInput, the * FloatSampleInput.read method is used for reading. * * @author florian */ public class FloatInputStream extends AudioInputStream implements FloatSampleInput { // set this if we can read from an AudioInputStream private InputStream sourceStream; // set this if we can read from an FloatSampleInput private FloatSampleInput sourceInput; /** * true if the source stream returned eof, or if this stream was closed. */ private boolean eofReached = false; /** * a temporary byte buffer for reading from an underlying input stream */ private byte[] tempBuffer = null; /** * Create a new FloatInputStream that shadows the sourceStream. * * @param sourceStream * @throws IllegalArgumentException if the stream's format is not compatible */ public FloatInputStream(AudioInputStream sourceStream) { super(sourceStream, sourceStream.getFormat(), sourceStream.getFrameLength()); this.sourceStream = sourceStream; init(); } /** * Create a new FloatInputStream that shadows the sourceStream. * * @param sourceStream * @param format the native format of sourceStream * @param frameLength the length in frames of the streams, or * AudioSystem.NOT_SPECIFIED if not known or unlimited. * @throws IllegalArgumentException if the stream's format is not compatible */ public FloatInputStream(InputStream sourceStream, AudioFormat format, long frameLength) { super(sourceStream, format, frameLength); this.sourceStream = sourceStream; init(); } /** * Create a new FloatInputStream that will make the specified * FloatSampleInput a complete AudioInputStream. * * @param sourceInput * @param format the native format for the read(byte[]) method * @param frameLength the length in frames of the stream, or * AudioSystem.NOT_SPECIFIED if not known or unlimited. * @throws IllegalArgumentException if the format is not compatible */ public FloatInputStream(FloatSampleInput sourceInput, AudioFormat format, long frameLength) { super(new ByteArrayInputStream(new byte[0]), format, frameLength); this.sourceStream = null; this.sourceInput = sourceInput; init(); } // interface FloatSampleInput public void read(FloatSampleBuffer outBuffer) { read(outBuffer, 0, outBuffer.getSampleCount()); } private void init() { if (sourceStream != null && (sourceStream instanceof FloatSampleInput)) { sourceInput = (FloatSampleInput) sourceStream; } // make sure format is supported, and remember format code FloatSampleBuffer.checkFormatSupported(format); } public void read(FloatSampleBuffer buffer, int offset, int sampleCount) { if (sampleCount == 0 || isDone()) { buffer.setSampleCount(offset, true); return; } if (buffer.getChannelCount() != getChannels()) { throw new IllegalArgumentException( "read: passed buffer has different channel count"); } if (sourceInput != null) { sourceInput.read(buffer, offset, sampleCount); } else { // read into temporary byte buffer int byteBufferSize = buffer.getSampleCount() * getFormat().getFrameSize(); byte[] lTempBuffer = tempBuffer; if (lTempBuffer == null || byteBufferSize > lTempBuffer.length) { lTempBuffer = new byte[byteBufferSize]; tempBuffer = lTempBuffer; } int readSamples = 0; int byteOffset = 0; while (readSamples < sampleCount) { int readBytes; try { readBytes = sourceStream.read(lTempBuffer, byteOffset, byteBufferSize); } catch (IOException ioe) { readBytes = -1; } if (readBytes < 0) { eofReached = true; readBytes = 0; break; } else if (readBytes == 0) { Thread.yield(); } else { readSamples += readBytes / getFormat().getFrameSize(); byteBufferSize -= readBytes; byteOffset += readBytes; } } buffer.setSampleCount(offset + readSamples, (offset > 0)); if (readSamples > 0) { // convert buffer.setSamplesFromBytes(lTempBuffer, 0, getFormat(), offset, readSamples); } } } /* * (non-Javadoc) * * @see org.tritonus.share.sampled.FloatSampleInput#getChannels() */ public int getChannels() { return getFormat().getChannels(); } /* * (non-Javadoc) * * @see org.tritonus.share.sampled.FloatSampleInput#getSampleRate() */ public float getSampleRate() { return getFormat().getSampleRate(); } /* * (non-Javadoc) * * @see org.tritonus.share.sampled.FloatSampleInput#isDone() */ public boolean isDone() { if (!eofReached && sourceInput != null) { return sourceInput.isDone(); } return eofReached; } // interface AudioInputStream @Override public int read() throws IOException { if (getFormat().getFrameSize() != 1) { throw new IOException("frame size must be 1 to read a single byte"); } // very ugly, but efficient. Who uses this method anyway ? byte[] temp = new byte[1]; int result = read(temp); if (result <= 0) { return -1; } return temp[0] & 0xFF; } /** * @see #read(byte[], int, int) */ @Override public int read(byte[] abData) throws IOException { return read(abData, 0, abData.length); } private FloatSampleBuffer tempFloatBuffer = null; /** * If an underlying InputStream is available, read from it, otherwise read * from an underlying FloatSampleInput stream and convert to a byte array. */ @Override public int read(byte[] abData, int nOffset, int nLength) throws IOException { if (isDone()) { return -1; } // read from sourceStream, if available if (sourceStream != null) { return readBytesFromInputStream(abData, nOffset, nLength); } // otherwise read from sourceInput return readBytesFromFloatInput(abData, nOffset, nLength); } /** * internal method to read from the underlying InputStream.
* Precondition: sourceStream!=null */ protected int readBytesFromInputStream(byte[] abData, int nOffset, int nLength) throws IOException { int readBytes = sourceStream.read(abData, nOffset, nLength); if (readBytes < 0) { eofReached = true; } return readBytes; } /** * internal method to read from the underlying InputStream.
* Precondition: sourceInput!=null * * @param abData the byte array to fill, or null if just skipping */ protected int readBytesFromFloatInput(byte[] abData, int nOffset, int nLength) throws IOException { FloatSampleInput lInput = sourceInput; if (lInput.isDone()) { return -1; } int frameCount = nLength / getFormat().getFrameSize(); FloatSampleBuffer lTempBuffer = tempFloatBuffer; if (lTempBuffer == null) { lTempBuffer = new FloatSampleBuffer(getFormat().getChannels(), frameCount, getFormat().getSampleRate()); tempFloatBuffer = lTempBuffer; } else { lTempBuffer.setSampleCount(frameCount, false); } lInput.read(lTempBuffer); if (lInput.isDone()) { return -1; } if (abData != null) { int writtenBytes = tempFloatBuffer.convertToByteArray(abData, nOffset, getFormat()); return writtenBytes; } // special mode: allow abData to be null for skip() return frameCount * getFormat().getFrameSize(); } @Override public synchronized long skip(long nSkip) throws IOException { // only returns integral frames long skipFrames = nSkip / getFormat().getFrameSize(); if (sourceStream != null) { return sourceStream.skip(skipFrames * getFormat().getFrameSize()); } // for FloatSampleInput, there is no skip() method, so just read into // the tempBuffer if (isDone() || skipFrames <= 0) { // cannot skip backwards return 0; } return readBytesFromFloatInput(null, 0, (int) (skipFrames * getFormat().getFrameSize())); } @Override public int available() throws IOException { if (sourceStream != null) { return sourceStream.available(); } return AudioSystem.NOT_SPECIFIED; } @Override public void mark(int readlimit) { if (sourceStream != null) { sourceStream.mark(readlimit); } else { // what to do? } } @Override public void reset() throws IOException { if (sourceStream != null) { sourceStream.reset(); } else { // what to do? } } @Override public boolean markSupported() { if (sourceStream != null) { return sourceStream.markSupported(); } return false; } @Override public void close() throws IOException { if (eofReached) { return; } eofReached = true; if (sourceStream != null) { sourceStream.close(); } // clean memory, this will also be an indicator that // the stream is closed tempBuffer = null; tempFloatBuffer = null; } }





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