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

/*
 *  Copyright (c) 1999, 2000 by Matthias Pfisterer
 *  Copyright (c) 1999, 2000 by Florian Bomers 
 *
 *   This program is free software; you can redistribute it and/or modify
 *   it under the terms of the GNU Library General Public License as published
 *   by the Free Software Foundation; either version 2 of the License, or
 *   (at your option) any later version.
 *
 *   This program is distributed in the hope that it will be useful,
 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *   GNU Library General Public License for more details.
 *
 *   You should have received a copy of the GNU Library General Public
 *   License along with this program; if not, write to the Free Software
 *   Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 *
 */

/*
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*/

package org.tritonus.share.sampled.file;

import java.io.File;
import java.io.IOException;
import java.io.OutputStream;
import java.util.Collection;
import java.util.Iterator;

import javax.sound.sampled.AudioFormat;
import javax.sound.sampled.AudioFileFormat;
import javax.sound.sampled.AudioInputStream;
import javax.sound.sampled.AudioSystem;
import javax.sound.sampled.spi.AudioFileWriter;

import org.tritonus.share.TDebug;
import org.tritonus.share.sampled.AudioFormats;
import org.tritonus.share.sampled.AudioUtils;
import org.tritonus.share.sampled.TConversionTool;
import org.tritonus.share.ArraySet;

/**
 * Common base class for implementing classes of AudioFileWriter.
 * 

It provides often-used functionality and the new architecture using * an AudioOutputStream. *

There should be only one set of audio formats supported by any given * class of TAudioFileWriter. This class assumes implicitely that all * supported file types have a common set of audio formats they can handle. * * @author Matthias Pfisterer * @author Florian Bomers */ public abstract class TAudioFileWriter extends AudioFileWriter { protected static final int ALL = AudioSystem.NOT_SPECIFIED; protected static final AudioFormat.Encoding PCM_SIGNED = AudioFormat.Encoding.PCM_SIGNED; protected static final AudioFormat.Encoding PCM_UNSIGNED = AudioFormat.Encoding.PCM_UNSIGNED; /** Buffer length for the loop in the write() method. * This is in bytes. Perhaps it should be in frames to give an * equal amount of latency. */ private static final int BUFFER_LENGTH = 16384; // only needed for Collection.toArray() protected static final AudioFileFormat.Type[] NULL_TYPE_ARRAY = new AudioFileFormat.Type[0]; /** The audio file types (AudioFileFormat.Type) that can be * handled by the AudioFileWriter. */ private Collection m_audioFileTypes; /** The AudioFormats that can be handled by the * AudioFileWriter. */ // IDEA: implement a special collection that uses matches() to test whether an element is already in private Collection m_audioFormats; /** * Inheriting classes should call this constructor * in order to make use of the functionality of TAudioFileWriter. */ protected TAudioFileWriter(Collection fileTypes, Collection audioFormats) { if (TDebug.TraceAudioFileWriter) { TDebug.out("TAudioFileWriter.(): begin"); } m_audioFileTypes = fileTypes; m_audioFormats = audioFormats; if (TDebug.TraceAudioFileWriter) { TDebug.out("TAudioFileWriter.(): end"); } } // implementing the interface @Override public AudioFileFormat.Type[] getAudioFileTypes() { return m_audioFileTypes.toArray(NULL_TYPE_ARRAY); } // implementing the interface @Override public boolean isFileTypeSupported(AudioFileFormat.Type fileType) { return m_audioFileTypes.contains(fileType); } // implementing the interface @Override public AudioFileFormat.Type[] getAudioFileTypes( AudioInputStream audioInputStream) { //$$fb 2000-08-16: rewrote this method. We need to check for *each* // file type, whether the format is supported ! AudioFormat format = audioInputStream.getFormat(); ArraySet res=new ArraySet(); Iterator it=m_audioFileTypes.iterator(); while (it.hasNext()) { AudioFileFormat.Type thisType = it.next(); if (isAudioFormatSupportedImpl(format, thisType)) { res.add(thisType); } } return res.toArray(NULL_TYPE_ARRAY); } // implementing the interface @Override public boolean isFileTypeSupported(AudioFileFormat.Type fileType, AudioInputStream audioInputStream) { // $$fb 2000-08-16: finally this method works reliably ! return isFileTypeSupported(fileType) && (isAudioFormatSupportedImpl(audioInputStream.getFormat(), fileType) || findConvertableFormat(audioInputStream.getFormat(), fileType)!=null); // we may soft it up by including the possibility of endian/sign // changing for PCM formats. // I prefer to return false if the format is not exactly supported // but still exectute the write, if only sign/endian changing is necessary. } // implementing the interface @Override public int write(AudioInputStream audioInputStream, AudioFileFormat.Type fileType, File file) throws IOException { if (TDebug.TraceAudioFileWriter) { TDebug.out(">TAudioFileWriter.write(.., File): called"); TDebug.out("class: "+getClass().getName()); } //$$fb added this check if (!isFileTypeSupported(fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("< file type is not supported"); } throw new IllegalArgumentException("file type is not supported."); } AudioFormat inputFormat = audioInputStream.getFormat(); if (TDebug.TraceAudioFileWriter) { TDebug.out("input format: " + inputFormat); } AudioFormat outputFormat = null; boolean bNeedsConversion = false; if (isAudioFormatSupportedImpl(inputFormat, fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("input format is supported directely"); } outputFormat = inputFormat; bNeedsConversion = false; } else { if (TDebug.TraceAudioFileWriter) { TDebug.out("input format is not supported directely; trying to find a convertable format"); } outputFormat = findConvertableFormat(inputFormat, fileType); if (outputFormat != null) { bNeedsConversion = true; // $$fb 2000-08-16 made consistent with new conversion trials // if 8 bit and only endianness changed, don't convert ! if (outputFormat.getSampleSizeInBits()==8 && outputFormat.getEncoding().equals(inputFormat.getEncoding())) { bNeedsConversion = false; } } else { if (TDebug.TraceAudioFileWriter) { TDebug.out("< input format is not supported and not convertable."); } throw new IllegalArgumentException("format not supported and not convertable"); } } long lLengthInBytes = AudioUtils.getLengthInBytes(audioInputStream); TDataOutputStream dataOutputStream = new TSeekableDataOutputStream(file); AudioOutputStream audioOutputStream = getAudioOutputStream( outputFormat, lLengthInBytes, fileType, dataOutputStream); int written=writeImpl(audioInputStream, audioOutputStream, bNeedsConversion); if (TDebug.TraceAudioFileWriter) { TDebug.out("< wrote "+written+" bytes."); } return written; } // implementing the interface @Override public int write(AudioInputStream audioInputStream, AudioFileFormat.Type fileType, OutputStream outputStream) throws IOException { //$$fb added this check if (!isFileTypeSupported(fileType)) { throw new IllegalArgumentException("file type is not supported."); } if (TDebug.TraceAudioFileWriter) { TDebug.out(">TAudioFileWriter.write(.., OutputStream): called"); TDebug.out("class: "+getClass().getName()); } AudioFormat inputFormat = audioInputStream.getFormat(); if (TDebug.TraceAudioFileWriter) { TDebug.out("input format: " + inputFormat); } AudioFormat outputFormat = null; boolean bNeedsConversion = false; if (isAudioFormatSupportedImpl(inputFormat, fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("input format is supported directely"); } outputFormat = inputFormat; bNeedsConversion = false; } else { if (TDebug.TraceAudioFileWriter) { TDebug.out("input format is not supported directely; trying to find a convertable format"); } outputFormat = findConvertableFormat(inputFormat, fileType); if (outputFormat != null) { bNeedsConversion = true; // $$fb 2000-08-16 made consistent with new conversion trials // if 8 bit and only endianness changed, don't convert ! if (outputFormat.getSampleSizeInBits()==8 && outputFormat.getEncoding().equals(inputFormat.getEncoding())) { bNeedsConversion = false; } } else { if (TDebug.TraceAudioFileWriter) { TDebug.out("< format is not supported"); } throw new IllegalArgumentException("format not supported and not convertable"); } } long lLengthInBytes = AudioUtils.getLengthInBytes(audioInputStream); TDataOutputStream dataOutputStream = new TNonSeekableDataOutputStream(outputStream); AudioOutputStream audioOutputStream = getAudioOutputStream( outputFormat, lLengthInBytes, fileType, dataOutputStream); int written=writeImpl(audioInputStream, audioOutputStream, bNeedsConversion); if (TDebug.TraceAudioFileWriter) { TDebug.out("< wrote "+written+" bytes."); } return written; } protected int writeImpl( AudioInputStream audioInputStream, AudioOutputStream audioOutputStream, boolean bNeedsConversion) throws IOException { if (TDebug.TraceAudioFileWriter) { TDebug.out(">TAudioFileWriter.writeImpl(): called"); TDebug.out("class: "+getClass().getName()); } int nTotalWritten = 0; AudioFormat outputFormat = audioOutputStream.getFormat(); // TODO: handle case when frame size is unknown ? int nBytesPerSample = outputFormat.getFrameSize() / outputFormat.getChannels(); //$$fb 2000-07-18: BUFFER_LENGTH must be a multiple of frame size... int nBufferSize=(BUFFER_LENGTH/outputFormat.getFrameSize())*outputFormat.getFrameSize(); byte[] abBuffer = new byte[nBufferSize]; while (true) { if (TDebug.TraceAudioFileWriter) { TDebug.out("trying to read (bytes): " + abBuffer.length); } int nBytesRead = audioInputStream.read(abBuffer); if (TDebug.TraceAudioFileWriter) { TDebug.out("read (bytes): " + nBytesRead); } if (nBytesRead == -1) { break; } if (bNeedsConversion) { TConversionTool.changeOrderOrSign(abBuffer, 0, nBytesRead, nBytesPerSample); } int nWritten = audioOutputStream.write(abBuffer, 0, nBytesRead); nTotalWritten += nWritten; } if (TDebug.TraceAudioFileWriter) { TDebug.out(" getSupportedAudioFormats(AudioFileFormat.Type fileType) { return m_audioFormats.iterator(); } /** Checks whether the passed AudioFormat can be handled. * In this simple implementation, it is only checked if the * passed AudioFormat matches one of the generally handled * formats (i.e. the fileType argument is ignored). If the * handled AudioFormats depend on the file type, this method * or getSupportedAudioFormats() (on which this method relies) * has to be overwritten by subclasses. *

* This is the central method for checking if a FORMAT is supported. * Inheriting classes can overwrite this for performance * or to exclude/include special type/format combinations. *

* This method is only called when the fileType * is in the list of supported file types ! Overriding * classes need not check this. */ //$$fb 2000-08-16 changed name, changed documentation. Semantics ! protected boolean isAudioFormatSupportedImpl( AudioFormat audioFormat, AudioFileFormat.Type fileType) { if (TDebug.TraceAudioFileWriter) { TDebug.out("> TAudioFileWriter.isAudioFormatSupportedImpl(): format to test: " + audioFormat); TDebug.out("class: "+getClass().getName()); } Iterator audioFormats = getSupportedAudioFormats(fileType); while (audioFormats.hasNext()) { AudioFormat handledFormat = audioFormats.next(); if (TDebug.TraceAudioFileWriter) { TDebug.out("matching against format : " + handledFormat); } if (AudioFormats.matches(handledFormat, audioFormat)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("<...succeeded."); } return true; } } if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... failed"); } return false; } protected abstract AudioOutputStream getAudioOutputStream( AudioFormat audioFormat, long lLengthInBytes, AudioFileFormat.Type fileType, TDataOutputStream dataOutputStream) throws IOException; private AudioFormat findConvertableFormat( AudioFormat inputFormat, AudioFileFormat.Type fileType) { if (TDebug.TraceAudioFileWriter) { TDebug.out("TAudioFileWriter.findConvertableFormat(): input format: " + inputFormat); } if (!isFileTypeSupported(fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("< input file type is not supported."); } return null; } AudioFormat.Encoding inputEncoding = inputFormat.getEncoding(); if ((inputEncoding.equals(PCM_SIGNED) || inputEncoding.equals(PCM_UNSIGNED)) && inputFormat.getSampleSizeInBits() == 8) { AudioFormat outputFormat = convertFormat(inputFormat, true, false); if (TDebug.TraceAudioFileWriter) { TDebug.out("trying output format: " + outputFormat); } if (isAudioFormatSupportedImpl(outputFormat, fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... succeeded"); } return outputFormat; } //$$fb 2000-08-16: added trial of other endianness for 8bit. We try harder ! outputFormat = convertFormat(inputFormat, false, true); if (TDebug.TraceAudioFileWriter) { TDebug.out("trying output format: " + outputFormat); } if (isAudioFormatSupportedImpl(outputFormat, fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... succeeded"); } return outputFormat; } outputFormat = convertFormat(inputFormat, true, true); if (TDebug.TraceAudioFileWriter) { TDebug.out("trying output format: " + outputFormat); } if (isAudioFormatSupportedImpl(outputFormat, fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... succeeded"); } return outputFormat; } if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... failed"); } return null; } else if (inputEncoding.equals(PCM_SIGNED) && (inputFormat.getSampleSizeInBits() == 16 || inputFormat.getSampleSizeInBits() == 24 || inputFormat.getSampleSizeInBits() == 32) ) { // TODO: possible to allow all sample sized > 8 bit? // $$ fb: don't think that this is necessary. Well, let's talk about that in 5 years :) AudioFormat outputFormat = convertFormat(inputFormat, false, true); if (TDebug.TraceAudioFileWriter) { TDebug.out("trying output format: " + outputFormat); } if (isAudioFormatSupportedImpl(outputFormat, fileType)) { if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... succeeded"); } return outputFormat; } else { if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... failed"); } return null; } } else { if (TDebug.TraceAudioFileWriter) { TDebug.out("< ... failed"); } return null; } } // $$fb 2000-08-16: added convenience method private AudioFormat convertFormat(AudioFormat format, boolean changeSign, boolean changeEndian) { AudioFormat.Encoding enc=PCM_SIGNED; if (format.getEncoding().equals(PCM_UNSIGNED)!=changeSign) { enc=PCM_UNSIGNED; } return new AudioFormat( enc, format.getSampleRate(), format.getSampleSizeInBits(), format.getChannels(), format.getFrameSize(), format.getFrameRate(), format.isBigEndian() ^ changeEndian); } } /*** TAudioFileWriter.java ***/





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