package net.sf.fmj.media.codec.audio.alaw;
import java.util.logging.Logger;
import javax.media.Buffer;
import javax.media.Format;
import javax.media.format.AudioFormat;
import net.sf.fmj.media.AbstractCodec;
import net.sf.fmj.utility.LoggerSingleton;
import net.sf.fmj.utility.LoggingStringUtils;
/**
* ALAW encoder Codec.
* @author Ken Larson
*
*/
public class Encoder extends AbstractCodec
{
private static final Logger logger = LoggerSingleton.logger;
@Override
public String getName()
{
return "ALAW Encoder";
}
public Encoder()
{
super();
this.inputFormats = new Format[] {
new AudioFormat(AudioFormat.LINEAR, -1.0, 16, 1, -1, AudioFormat.SIGNED, 16, -1.0, Format.byteArray)
};
}
// TODO: move to base class?
protected Format[] outputFormats = new Format[] {new AudioFormat(AudioFormat.ALAW, -1.0, 8, 1, -1, AudioFormat.SIGNED, 8, -1.0, Format.byteArray)};
@Override
public Format[] getSupportedOutputFormats(Format input)
{
if (input == null)
{ return outputFormats;
}
else
{
if (!(input instanceof AudioFormat))
{ logger.warning(this.getClass().getSimpleName() + ".getSupportedOutputFormats: input format does not match, returning format array of {null} for " + input); // this can cause an NPE in JMF if it ever happens.
return new Format[] {null};
}
final AudioFormat inputCast = (AudioFormat) input;
if (!inputCast.getEncoding().equals(AudioFormat.LINEAR) ||
(inputCast.getSampleSizeInBits() != 16 && inputCast.getSampleSizeInBits() != Format.NOT_SPECIFIED) ||
(inputCast.getChannels() != 1 && inputCast.getChannels() != Format.NOT_SPECIFIED) ||
(inputCast.getSigned() != AudioFormat.SIGNED && inputCast.getSigned() != Format.NOT_SPECIFIED) ||
(inputCast.getFrameSizeInBits() != 16 && inputCast.getFrameSizeInBits() != Format.NOT_SPECIFIED) ||
(inputCast.getDataType() != null && inputCast.getDataType() != Format.byteArray)
)
{
logger.warning(this.getClass().getSimpleName() + ".getSupportedOutputFormats: input format does not match, returning format array of {null} for " + input); // this can cause an NPE in JMF if it ever happens.
return new Format[] {null};
}
final AudioFormat result = new AudioFormat(AudioFormat.ALAW, inputCast.getSampleRate(), 8,
1, inputCast.getEndian(), AudioFormat.SIGNED, 8,
inputCast.getFrameRate(), Format.byteArray);
return new Format[] {result};
}
}
@Override
public void open()
{
}
@Override
public void close()
{
}
private static final boolean TRACE = false;
@Override
public int process(Buffer inputBuffer, Buffer outputBuffer)
{
if (TRACE) dump("input ", inputBuffer);
if (!checkInputBuffer(inputBuffer))
{
return BUFFER_PROCESSED_FAILED;
}
if (isEOM(inputBuffer))
{
propagateEOM(outputBuffer); // TODO: what about data? can there be any?
return BUFFER_PROCESSED_OK;
}
byte[] outputBufferData = (byte []) outputBuffer.getData();
if (outputBufferData == null || outputBufferData.length < inputBuffer.getLength() / 2)
{ outputBufferData = new byte[inputBuffer.getLength() / 2];
outputBuffer.setData(outputBufferData);
}
final boolean bigEndian = ((AudioFormat) inputBuffer.getFormat()).getEndian() == AudioFormat.BIG_ENDIAN; // TODO: check for undefined
ALawEncoderUtil.aLawEncode(bigEndian, (byte []) inputBuffer.getData(), inputBuffer.getOffset(), inputBuffer.getLength(), outputBufferData);
outputBuffer.setLength(inputBuffer.getLength() / 2);
outputBuffer.setOffset(0);
outputBuffer.setFormat(outputFormat);
final int result = BUFFER_PROCESSED_OK;
if (TRACE)
{ dump("input ", inputBuffer);
dump("output", outputBuffer);
System.out.println("Result=" + LoggingStringUtils.plugInResultToStr(result));
}
return result;
}
@Override
public Format setInputFormat(Format arg0)
{
// TODO: force sample size, etc
return super.setInputFormat(arg0);
}
@Override
public Format setOutputFormat(Format arg0)
{
return super.setOutputFormat(arg0);
}
}