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|
/**
* Copyright 2013-2023 JogAmp Community. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without modification, are
* permitted provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this list of
* conditions and the following disclaimer.
*
* 2. 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 JogAmp Community ``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 JogAmp Community 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.
*
* The views and conclusions contained in the software and documentation are those of the
* authors and should not be interpreted as representing official policies, either expressed
* or implied, of JogAmp Community.
*/
package com.jogamp.openal.util;
import java.nio.ByteBuffer;
import java.util.Arrays;
import java.util.concurrent.TimeUnit;
import jogamp.openal.Debug;
import com.jogamp.common.ExceptionUtils;
import com.jogamp.common.av.AudioFormat;
import com.jogamp.common.av.AudioSink;
import com.jogamp.common.av.AudioSink.AudioFrame;
import com.jogamp.common.os.Clock;
import com.jogamp.common.util.LFRingbuffer;
import com.jogamp.common.util.PropertyAccess;
import com.jogamp.common.util.Ringbuffer;
import com.jogamp.openal.AL;
import com.jogamp.openal.ALC;
import com.jogamp.openal.ALCConstants;
import com.jogamp.openal.ALCcontext;
import com.jogamp.openal.ALCdevice;
import com.jogamp.openal.ALConstants;
import com.jogamp.openal.ALException;
import com.jogamp.openal.ALExt;
import com.jogamp.openal.ALExt.ALEVENTPROCSOFT;
import com.jogamp.openal.ALExtConstants;
import com.jogamp.openal.sound3d.AudioSystem3D;
import com.jogamp.openal.sound3d.Context;
import com.jogamp.openal.sound3d.Device;
import com.jogamp.openal.sound3d.Source;
/***
* OpenAL {@link AudioSink} implementation.
* <p>
* Besides given {@link AudioSink} functionality, implementation is fully functional regarding {@link AudioFormat} and all OpenAL parameter.<br/>
* <ul>
* <li>All OpenAL parameter can be queried</li>
* <li>Instance can be constructed with an OpenAL device and context, see {@link #ALAudioSink(ALCdevice, ALCcontext)}</li>
* <li>Initialization can be performed with OpenAL paramters, see {@link #init(int, int, int, int, int, float, int, int, int)}</li>
* </ul>
* </p>
*/
public final class ALAudioSink implements AudioSink {
private static final boolean DEBUG_TRACE;
private static final ALC alc;
private static final AL al;
private static final ALExt alExt;
private static final boolean staticsInitialized;
private final Device device;
private boolean hasSOFTBufferSamples;
private boolean hasEXTMcFormats;
private boolean hasEXTFloat32;
private boolean hasEXTDouble;
private boolean hasALC_thread_local_context;
private boolean hasAL_SOFT_events;
private int sourceCount;
private float defaultLatency;
private float latency;
private final AudioFormat nativeFormat;
private int userMaxChannels = 8;
private AudioFormat preferredFormat;
private final Context context;
/** Playback speed, range [0.5 - 2.0], default 1.0. */
private float playSpeed;
private float volume = 1.0f;
static class ALAudioFrame extends AudioFrame {
private final int alBuffer;
ALAudioFrame(final int alBuffer) {
this.alBuffer = alBuffer;
}
public ALAudioFrame(final int alBuffer, final int pts, final int duration, final int dataSize) {
super(pts, duration, dataSize);
this.alBuffer = alBuffer;
}
/** Get this frame's OpenAL buffer name */
public final int getALBuffer() { return alBuffer; }
@Override
public String toString() {
return "ALAudioFrame[pts " + pts + " ms, l " + duration + " ms, " + byteSize + " bytes, buffer "+alBuffer+"]";
}
}
private int[] alBufferNames = null;
/** queue grow amount in [ms] */
private int queueGrowAmount = 0;
/** queue limit in [ms] */
private int queueLimit = 0;
/** average frame duration in [s] */
private float avgFrameDuration = 0f;
private Ringbuffer<ALAudioFrame> alFramesFree = null;
private Ringbuffer<ALAudioFrame> alFramesPlaying = null;
private volatile int alBufferBytesQueued = 0;
private volatile int playingPTS = AudioFrame.INVALID_PTS;
private volatile int enqueuedFrameCount;
private final Source alSource = new Source();
private AudioFormat chosenFormat;
private int alChannelLayout;
private int alSampleType;
private int alFormat;
private volatile boolean available;
private volatile boolean playRequested = false;
static {
Debug.initSingleton();
DEBUG_TRACE = PropertyAccess.isPropertyDefined("joal.debug.AudioSink.trace", true);
alc = AudioSystem3D.getALC();
al = AudioSystem3D.getAL();
alExt = AudioSystem3D.getALExt();
staticsInitialized = AudioSystem3D.isAvailable();
}
/** Returns true if OpenAL has been loaded and static fields {@link ALC}, {@link AL} and {@link ALExt} have been initialized successfully, otherwise false. */
public static boolean isInitialized() {
return staticsInitialized;
}
private static Device createDevice(final String name) {
final Device d = new Device(name);
if( !d.isValid() ) {
throw new ALException(getThreadName()+": ALAudioSink: Error opening OpenAL device '"+name+"'");
}
return d;
}
/**
* Create a new instance with a new default {@link ALCdevice}
* @throws ALException if the default {@link ALCdevice} couldn't be fully created including its context.
*/
public ALAudioSink() throws ALException {
this((Device)null);
}
/**
* Create a new instance with a new named {@link ALCdevice}
* @param deviceName name of
* @throws ALException if the default {@link ALCdevice} couldn't be fully created including its context.
*/
public ALAudioSink(final String deviceName) throws ALException {
this(createDevice(deviceName));
}
/**
* Create a new instance with an optional given {@link ALCdevice}
*
* @param alDevice optional OpenAL {@link Device}, a default device is opened if null.
* @throws ALException if the default {@link ALCdevice} couldn't be fully created including its context.
*/
public ALAudioSink(final Device alDevice) throws ALException {
available = false;
chosenFormat = null;
if( !staticsInitialized ) {
device = null;
context = null;
nativeFormat = DefaultFormat;
return;
}
if( null == alDevice ) {
device = createDevice(null); // default device
if( !device.isValid() ) {
throw new ALException(getThreadName()+": ALAudioSink: Couldn't open default device: "+device);
}
} else {
device = alDevice;
if( !device.open() ) {
throw new ALException(getThreadName()+": ALAudioSink: Error device not open or couldn't be opened "+device);
}
}
// Create audio context.
context = new Context(device, null);
if ( !context.isValid() ) {
throw new ALException(getThreadName()+": ALAudioSink: Error creating OpenAL context "+context);
}
makeCurrent(true /* throw */);
try {
hasSOFTBufferSamples = al.alIsExtensionPresent(ALHelpers.AL_SOFT_buffer_samples);
hasEXTMcFormats = al.alIsExtensionPresent(ALHelpers.AL_EXT_MCFORMATS);
hasEXTFloat32 = al.alIsExtensionPresent(ALHelpers.AL_EXT_FLOAT32);
hasEXTDouble = al.alIsExtensionPresent(ALHelpers.AL_EXT_DOUBLE);
hasALC_thread_local_context = context.hasALC_thread_local_context;
hasAL_SOFT_events = al.alIsExtensionPresent(ALHelpers.AL_SOFT_events);
int checkErrIter = 1;
AudioSystem3D.checkError(device, "init."+checkErrIter++, DEBUG, false);
int defaultSampleRate = DefaultFormat.sampleRate;
{
final int[] value = { 0 };
alc.alcGetIntegerv(device.getALDevice(), ALCConstants.ALC_FREQUENCY, 1, value, 0);
if( AudioSystem3D.checkError(device, "read ALC_FREQUENCY", DEBUG, false) || 0 == value[0] ) {
if( DEBUG ) {
System.err.println("ALAudioSink.queryDefaultSampleRate: failed, using default "+defaultSampleRate);
}
} else {
defaultSampleRate = value[0];
if( DEBUG ) {
System.err.println("ALAudioSink.queryDefaultSampleRate: OK "+defaultSampleRate);
}
}
value[0] = 0;
alc.alcGetIntegerv(device.getALDevice(), ALCConstants.ALC_MONO_SOURCES, 1, value, 0);
if( AudioSystem3D.checkError(device, "read ALC_MONO_SOURCES", DEBUG, false) ) {
sourceCount = -1;
if( DEBUG ) {
System.err.println("ALAudioSink.queryMonoSourceCount: failed");
}
} else {
sourceCount = value[0];
}
value[0] = 0;
alc.alcGetIntegerv(device.getALDevice(), ALCConstants.ALC_REFRESH, 1, value, 0);
if( AudioSystem3D.checkError(device, "read ALC_FREQUENCY", DEBUG, false) || 0 == value[0] ) {
defaultLatency = 20f/1000f; // OpenAL-Soft default seems to be 50 Hz -> 20ms min latency
if( DEBUG ) {
System.err.println("ALAudioSink.queryDefaultRefreshRate: failed");
}
} else {
defaultLatency = 1f/value[0]; // Hz -> s
if( DEBUG ) {
System.err.println("ALAudioSink.queryDefaultRefreshRate: OK "+value[0]+" Hz = "+(1000f*defaultLatency)+" ms");
}
}
}
nativeFormat = new AudioFormat(defaultSampleRate, DefaultFormat.sampleSize, getMaxSupportedChannels(false),
DefaultFormat.signed, DefaultFormat.fixedP, DefaultFormat.planar, DefaultFormat.littleEndian);
preferredFormat = nativeFormat;
if( DEBUG ) {
final int[] alcvers = { 0, 0 };
System.out.println("ALAudioSink: OpenAL Version: "+al.alGetString(ALConstants.AL_VERSION));
System.out.println("ALAudioSink: OpenAL Extensions: "+al.alGetString(ALConstants.AL_EXTENSIONS));
AudioSystem3D.checkError(device, "init."+checkErrIter++, DEBUG, false);
System.out.println("ALAudioSink: Null device OpenALC:");
alc.alcGetIntegerv(null, ALCConstants.ALC_MAJOR_VERSION, 1, alcvers, 0);
alc.alcGetIntegerv(null, ALCConstants.ALC_MINOR_VERSION, 1, alcvers, 1);
System.out.println(" Version: "+alcvers[0]+"."+alcvers[1]);
System.out.println(" Extensions: "+alc.alcGetString(null, ALCConstants.ALC_EXTENSIONS));
AudioSystem3D.checkError(device, "init."+checkErrIter++, DEBUG, false);
System.out.println("ALAudioSink: Device "+device+" OpenALC:");
alc.alcGetIntegerv(device.getALDevice(), ALCConstants.ALC_MAJOR_VERSION, 1, alcvers, 0);
alc.alcGetIntegerv(device.getALDevice(), ALCConstants.ALC_MINOR_VERSION, 1, alcvers, 1);
System.out.println(" Version: "+alcvers[0]+"."+alcvers[1]);
System.out.println(" Extensions: "+alc.alcGetString(device.getALDevice(), ALCConstants.ALC_EXTENSIONS));
System.out.println("ALAudioSink: hasSOFTBufferSamples "+hasSOFTBufferSamples);
System.out.println("ALAudioSink: hasEXTMcFormats "+hasEXTMcFormats);
System.out.println("ALAudioSink: hasEXTFloat32 "+hasEXTFloat32);
System.out.println("ALAudioSink: hasEXTDouble "+hasEXTDouble);
System.out.println("ALAudioSink: hasALC_thread_local_context "+hasALC_thread_local_context);
System.out.println("ALAudioSink: hasAL_SOFT_events "+hasAL_SOFT_events);
System.out.println("ALAudioSink: maxSupportedChannels "+getMaxSupportedChannels(false));
System.out.println("ALAudioSink: nativeAudioFormat "+nativeFormat);
System.out.println("ALAudioSink: defaultMixerRefreshRate "+(1000f*defaultLatency)+" ms, "+(1f/defaultLatency)+" Hz");
AudioSystem3D.checkError(device, "init."+checkErrIter++, DEBUG, false);
}
if( DEBUG ) {
System.err.println("ALAudioSink: Using device: " + device);
}
available = true;
} finally {
release(true /* throw */);
}
}
// Expose AudioSink OpenAL implementation specifics
/** Return OpenAL global {@link AL}. */
public static final AL getAL() { return al; }
/** Return OpenAL global {@link ALC}. */
public static final ALC getALC() { return alc; }
/** Return OpenAL global {@link ALExt}. */
public static final ALExt getALExt() { return alExt; }
/** Return this instance's OpenAL {@link Device}. */
public final Device getDevice() { return device; }
/** Return this instance's OpenAL {@link Context}. */
public final Context getContext() { return context; }
/** Return this instance's OpenAL {@link Source}. */
public final Source getSource() { return alSource; }
/** Return whether OpenAL extension <code>AL_SOFT_buffer_samples</code> is available. */
public final boolean hasSOFTBufferSamples() { return hasSOFTBufferSamples; }
/** Return whether OpenAL extension <code>AL_EXT_MCFORMATS</code> is available. */
public final boolean hasEXTMcFormats() { return hasEXTMcFormats; }
/** Return whether OpenAL extension <code>AL_EXT_FLOAT32</code> is available. */
public final boolean hasEXTFloat32() { return hasEXTFloat32; }
/** Return whether OpenAL extension <code>AL_EXT_DOUBLE</code> is available. */
public final boolean hasEXTDouble() { return hasEXTDouble; }
/** Return whether OpenAL extension <code>ALC_EXT_thread_local_context</code> is available. */
public final boolean hasALCThreadLocalContext() { return hasALC_thread_local_context; }
/** Return this instance's OpenAL channel layout, set after {@link #init(AudioFormat, float, int, int, int)}. */
public final int getALChannelLayout() { return alChannelLayout; }
/** Return this instance's OpenAL sample type, set after {@link #init(AudioFormat, float, int, int, int)}. */
public final int getALSampleType() { return alSampleType; }
/** Return this instance's OpenAL format, set after {@link #init(AudioFormat, float, int, int, int)}. */
public final int getALFormat() { return alFormat; }
// AudioSink implementation ...
@Override
public final boolean makeCurrent(final boolean throwException) {
return context.makeCurrent(throwException);
}
@Override
public final boolean release(final boolean throwException) {
return context.release(throwException);
}
private final void destroyContext() {
context.destroy();
}
@Override
public final String toString() {
final int alBuffersLen = null != alBufferNames ? alBufferNames.length : 0;
final int ctxHash = context != null ? context.hashCode() : 0;
final int alFramesFreeSize = alFramesFree != null ? alFramesFree.size() : 0;
final int alFramesPlayingSize = alFramesPlaying != null ? alFramesPlaying.size() : 0;
return String.format("ALAudioSink[playReq %b, device '%s', ctx 0x%x, alSource %d"+
", chosen %s, al[chan %s, type %s, fmt 0x%x, tlc %b, soft %b, latency %.2f/%.2f ms, sources %d]"+
", playSpeed %.2f, buffers[total %d, free %d], queued[%d, apts %d, %.1f ms, %d bytes, avg %.2f ms/frame], queue[g %d ms, l %d ms]]",
playRequested, device.getName(), ctxHash, alSource.getID(), chosenFormat,
ALHelpers.alChannelLayoutName(alChannelLayout), ALHelpers.alSampleTypeName(alSampleType),
alFormat, hasALC_thread_local_context, hasSOFTBufferSamples,
1000f*latency, 1000f*defaultLatency, sourceCount, playSpeed, alBuffersLen, alFramesFreeSize,
alFramesPlayingSize, getPTS(), 1000f*getQueuedTime(), alBufferBytesQueued, 1000f*avgFrameDuration,
queueGrowAmount, queueLimit
);
}
private final String shortString() {
final int ctxHash = context != null ? context.hashCode() : 0;
final int alFramesPlayingSize = alFramesPlaying != null ? alFramesPlaying.size() : 0;
return String.format("[ctx 0x%x, playReq %b, alSrc %d"+
", queued[%d, apts %d, %.1f ms, %d bytes, avg %.2f ms/frame], queue[g %d ms, l %d ms]]",
ctxHash, playRequested, alSource.getID(),
alFramesPlayingSize, getPTS(), 1000f*getQueuedTime(), alBufferBytesQueued, 1000f*avgFrameDuration,
queueGrowAmount, queueLimit
);
}
public final String getPerfString() {
final int alBuffersLen = null != alBufferNames ? alBufferNames.length : 0;
return String.format("Play [buffer %d/%d, apts %d, %.1f ms, %d bytes]",
alFramesPlaying.size(), alBuffersLen, getPTS(), 1000f*getQueuedTime(), alBufferBytesQueued);
}
@Override
public int getSourceCount() {
return sourceCount;
}
@Override
public float getDefaultLatency() {
return defaultLatency;
}
@Override
public float getLatency() {
return latency;
}
@Override
public final AudioFormat getNativeFormat() {
if( !staticsInitialized ) {
return null;
}
return nativeFormat;
}
@Override
public final AudioFormat getPreferredFormat() {
if( !staticsInitialized ) {
return null;
}
return preferredFormat;
}
@Override
public final void setChannelLimit(final int cc) {
userMaxChannels = Math.min(8, Math.max(1, cc));
preferredFormat = new AudioFormat(nativeFormat.sampleRate,
nativeFormat.sampleSize, getMaxSupportedChannels(true),
nativeFormat.signed, nativeFormat.fixedP,
nativeFormat.planar, nativeFormat.littleEndian);
if( DEBUG ) {
System.out.println("ALAudioSink: channelLimit "+userMaxChannels+", preferredFormat "+preferredFormat);
}
}
private final int getMaxSupportedChannels(final boolean considerLimit) {
if( !staticsInitialized ) {
return 0;
}
final int cc;
if( hasEXTMcFormats || hasSOFTBufferSamples ) {
cc = 8;
} else {
cc = 2;
}
return considerLimit ? Math.min(userMaxChannels, cc) : cc;
}
@Override
public final boolean isSupported(final AudioFormat format) {
if( !staticsInitialized ) {
return false;
}
if( format.planar != preferredFormat.planar ||
format.littleEndian != preferredFormat.littleEndian ||
format.sampleRate > preferredFormat.sampleRate ||
format.channelCount > preferredFormat.channelCount )
{
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.isSupported: NO.0 "+format);
}
return false;
}
final int alFormat = ALHelpers.getALFormat(format, al, alExt,
hasSOFTBufferSamples, hasEXTMcFormats,
hasEXTFloat32, hasEXTDouble);
if( ALConstants.AL_NONE != alFormat ) {
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.isSupported: OK "+format+", alFormat "+toHexString(alFormat));
}
return true;
} else {
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.isSupported: NO.1 "+format);
}
return false;
}
}
@Override
public final boolean init(final AudioFormat requestedFormat, final int frameDuration,
final int initialQueueSize, final int queueGrowAmount, final int queueLimit)
{
if( !staticsInitialized ) {
return false;
}
final int alChannelLayout = ALHelpers.getDefaultALChannelLayout(requestedFormat.channelCount);
final int alSampleType = ALHelpers.getALSampleType(requestedFormat.sampleSize, requestedFormat.signed, requestedFormat.fixedP);
final int alFormat;
if( ALConstants.AL_NONE != alChannelLayout && ALConstants.AL_NONE != alSampleType ) {
alFormat = ALHelpers.getALFormat(alChannelLayout, alSampleType, al, alExt,
hasSOFTBufferSamples, hasEXTMcFormats,
hasEXTFloat32, hasEXTDouble);
} else {
alFormat = ALConstants.AL_NONE;
}
if( ALConstants.AL_NONE == alFormat ) {
// not supported
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.init1: Not supported: "+requestedFormat+", "+toString());
}
return false;
}
return initImpl(requestedFormat, alChannelLayout, alSampleType, alFormat,
frameDuration/1000f, initialQueueSize, queueGrowAmount, queueLimit);
}
/**
* Initializes the sink using the given OpenAL audio parameter and streaming details.
* @param alChannelLayout OpenAL channel layout
* @param alSampleType OpenAL sample type
* @param alFormat OpenAL format
* @param sampleRate sample rate, e.g. 44100
* @param sampleSize sample size in bits, e.g. 16
* @param frameDurationHint average {@link AudioFrame} duration hint in milliseconds.
* Assists to shape the {@link AudioFrame} initial queue size using `initialQueueSize`.
* Assists to adjust latency of the backend, as currently used for JOAL's ALAudioSink.
* A value below 30ms or {@link #DefaultFrameDuration} may increase the audio processing load.
* Assumed as {@link #DefaultFrameDuration}, if <code>frameDuration < 1 ms</code>.
* @param initialQueueSize initial queue size in milliseconds, see {@link #DefaultInitialQueueSize}.
* Uses `frameDurationHint` to determine initial {@link AudioFrame} queue size.
* @param queueGrowAmount queue grow size in milliseconds if queue is full, see {@link #DefaultQueueGrowAmount}.
* Uses {@link #getAvgFrameDuration()} to determine {@link AudioFrame} queue growth amount.
* @param queueLimit maximum time in milliseconds the queue can hold (and grow), see {@link #DefaultQueueLimitWithVideo} and {@link #DefaultQueueLimitAudioOnly}.
* Uses {@link #getAvgFrameDuration()} to determine {@link AudioFrame} queue limit.
* @return true if successful, otherwise false
* @see #enqueueData(int, ByteBuffer, int)
* @see #getAvgFrameDuration()
* @see ALHelpers#getAudioFormat(int, int, int, int, int)
* @see #init(AudioFormat, float, int, int, int)
*/
public final boolean init(final int alChannelLayout, final int alSampleType, final int alFormat,
final int sampleRate, final int sampleSize,
final int frameDurationHint, final int initialQueueSize, final int queueGrowAmount, final int queueLimit)
{
final AudioFormat requestedFormat = ALHelpers.getAudioFormat(alChannelLayout, alSampleType, alFormat, sampleRate, sampleSize);
if( null == requestedFormat ) {
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.init2: Invalid AL channelLayout "+toHexString(alChannelLayout)+
", sampleType "+toHexString(alSampleType)+", format "+toHexString(alFormat)+" or sample[rate "+sampleRate+", size "+sampleSize+"]; "+toString());
}
return false;
}
return initImpl(requestedFormat, alChannelLayout, alSampleType, alFormat,
frameDurationHint/1000f, initialQueueSize, queueGrowAmount, queueLimit);
}
private final synchronized boolean initImpl(final AudioFormat requestedFormat,
final int alChannelLayout, final int alSampleType, final int alFormat,
float frameDurationHintS, final int initialQueueSize, final int queueGrowAmount, final int queueLimit) {
this.alChannelLayout = alChannelLayout;
this.alSampleType = alSampleType;
this.alFormat = alFormat;
/**
* OpenAL is pretty relaxed on formats, so whall we.
* Deduced requested AudioFormat is already a validated OpenAL compatible one.
* Drop filtering ..
if( !isSupported(requestedFormat) ) {
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.init: Requested format "+requestedFormat+" not supported, preferred is "+preferredFormat+", "+this);
}
return false;
}
*/
// Flush all old buffers
makeCurrent(true /* throw */);
if( context.getLockCount() != 1 ) {
release(false);
throw new ALException("init() must be called w/o makeCurrent: lockCount "+context+", "+this);
}
boolean releaseContext = true;
try {
stopImpl(true);
destroySource();
destroyBuffers();
frameDurationHintS = frameDurationHintS >= 1f/1000f ? frameDurationHintS : AudioSink.DefaultFrameDuration/1000f;
// Re-Create audio context if default latency is not sufficient
{
final int defRefreshRate = Math.round( 1f / defaultLatency ); // s -> Hz
final int expMixerRefreshRate = Math.round( 1f / frameDurationHintS ); // s -> Hz
if( frameDurationHintS < defaultLatency ) {
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.init: Re-create context as latency exp "+
(1000f*frameDurationHintS)+" ms ("+expMixerRefreshRate+" Hz) < default "+(1000f*defaultLatency)+" ms ("+defRefreshRate+" Hz)");
}
if( !context.recreate( new int[] { ALCConstants.ALC_REFRESH, expMixerRefreshRate } ) ) {
System.err.println(getThreadName()+": ALAudioSink: Error creating OpenAL context "+context);
return false;
}
} else if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.init: Keep context, latency exp "+
(1000f*frameDurationHintS)+" ms ("+expMixerRefreshRate+" Hz) >= default "+(1000f*defaultLatency)+" ms ("+defRefreshRate+" Hz)");
}
}
// Get actual refresh rate
{
final int[] value = { 0 };
alc.alcGetIntegerv(device.getALDevice(), ALCConstants.ALC_REFRESH, 1, value, 0);
if( AudioSystem3D.checkError(device, "read ALC_FREQUENCY", DEBUG, false) || 0 == value[0] ) {
latency = defaultLatency;
if( DEBUG ) {
System.err.println("ALAudioSink.queryRefreshRate: failed, claiming default "+(1000f*latency)+" ms");
}
} else {
latency = 1f/value[0]; // Hz -> ms
if( DEBUG ) {
System.err.println("ALAudioSink.queryRefreshRate: OK "+value[0]+" Hz = "+(1000f*latency)+" ms");
}
}
}
if( !createSource() ) {
destroyContext();
releaseContext = false;
return false;
}
// Allocate new buffers
{
final int initialFrameCount = requestedFormat.getFrameCount(
initialQueueSize > 0 ? initialQueueSize/1000f : AudioSink.DefaultInitialQueueSize/1000f, frameDurationHintS);
alBufferNames = new int[initialFrameCount];
al.alGenBuffers(initialFrameCount, alBufferNames, 0);
if( AudioSystem3D.checkALError("alGenBuffers", true, false) ) {
alBufferNames = null;
destroySource();
destroyContext();
releaseContext = false;
return false;
}
final ALAudioFrame[] alFrames = new ALAudioFrame[initialFrameCount];
for(int i=0; i<initialFrameCount; i++) {
alFrames[i] = new ALAudioFrame(alBufferNames[i]);
}
alFramesFree = new LFRingbuffer<ALAudioFrame>(alFrames);
alFramesPlaying = new LFRingbuffer<ALAudioFrame>(ALAudioFrame[].class, initialFrameCount);
this.queueGrowAmount = queueGrowAmount > 0 ? queueGrowAmount : AudioSink.DefaultQueueGrowAmount;
this.queueLimit = queueLimit > 0 ? queueLimit : AudioSink.DefaultQueueLimitWithVideo;
if( DEBUG_TRACE ) {
alFramesFree.dump(System.err, "Avail-init");
alFramesPlaying.dump(System.err, "Playi-init");
}
}
if( hasAL_SOFT_events ) {
alExt.alEventCallbackSOFT(alEventCallback, context.getALContext());
alExt.alEventControlSOFT(1, new int[] { ALExtConstants.AL_EVENT_TYPE_BUFFER_COMPLETED_SOFT }, 0, true);
}
} finally {
if( releaseContext ) {
release(false /* throw */);
}
}
chosenFormat = requestedFormat;
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink.init: OK "+requestedFormat+", "+toString());
}
return true;
}
@Override
public final AudioFormat getChosenFormat() {
return chosenFormat;
}
private static int[] concat(final int[] first, final int[] second) {
final int[] result = Arrays.copyOf(first, first.length + second.length);
System.arraycopy(second, 0, result, first.length, second.length);
return result;
}
/**
private static <T> T[] concat(T[] first, T[] second) {
final T[] result = Arrays.copyOf(first, first.length + second.length);
System.arraycopy(second, 0, result, first.length, second.length);
return result;
} */
private boolean growBuffers(final int addByteCount) {
if( !alFramesFree.isEmpty() || !alFramesPlaying.isFull() ) {
throw new InternalError("Buffers: Avail is !empty "+alFramesFree+" or Playing is !full "+alFramesPlaying+", while !hasAL_SOFT_events");
}
final float addDuration = chosenFormat.getBytesDuration(addByteCount); // [s]
final float queuedDuration = chosenFormat.getBytesDuration(alBufferBytesQueued); // [s]
final int newTotalDuration = Math.round( 1000f * ( queuedDuration + addDuration ) ); // [ms]
if( newTotalDuration > queueLimit ) {
if( DEBUG ) {
System.err.printf("%s: ALAudioSink.growBuffers: Queue limit %d ms reached (queued %.2f + %.2f)ms: %s%n",
getThreadName(), queueLimit, 1000f*queuedDuration, 1000f*addDuration, toString());
}
return false;
}
final int frameGrowAmount = chosenFormat.getFrameCount(queueGrowAmount/1000f, avgFrameDuration);
final int[] newALBufferNames = new int[frameGrowAmount];
al.alGenBuffers(frameGrowAmount, newALBufferNames, 0);
if( AudioSystem3D.checkALError("alGenBuffers to "+frameGrowAmount, true, false) ) {
return false;
}
alBufferNames = concat(alBufferNames, newALBufferNames);
final ALAudioFrame[] newALBuffers = new ALAudioFrame[frameGrowAmount];
for(int i=0; i<frameGrowAmount; i++) {
newALBuffers[i] = new ALAudioFrame(newALBufferNames[i]);
}
// alFrames = concat(alFrames , newALBuffers);
alFramesFree.growEmptyBuffer(newALBuffers);
alFramesPlaying.growFullBuffer(frameGrowAmount);
if( alFramesFree.isEmpty() || alFramesPlaying.isFull() ) {
throw new InternalError("Buffers: Avail is empty "+alFramesFree+" or Playing is full "+alFramesPlaying);
}
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink: Buffer grown "+frameGrowAmount+": Avail "+alFramesFree+", playing "+alFramesPlaying);
}
if( DEBUG_TRACE ) {
alFramesFree.dump(System.err, "Avail-grow");
alFramesPlaying.dump(System.err, "Playi-grow");
}
return true;
}
private void destroyBuffers() {
if( !staticsInitialized ) {
return;
}
if( null != alBufferNames ) {
try {
al.alDeleteBuffers(alBufferNames.length, alBufferNames, 0);
} catch (final Throwable t) {
if( DEBUG ) {
System.err.println("Caught "+t.getClass().getName()+": "+t.getMessage());
t.printStackTrace();
}
}
alFramesFree.clear();
alFramesFree = null;
alFramesPlaying.clear();
alFramesPlaying = null;
alBufferBytesQueued = 0;
// alFrames = null;
alBufferNames = null;
}
}
private void destroySource() {
if( !alSource.isValid() ) {
return;
}
alSource.delete();
}
private boolean createSource() {
if( alSource.isValid() ) {
return true;
}
return alSource.create();
}
@Override
public final void destroy() {
if( !available ) {
return;
}
available = false;
if( null != context ) {
makeCurrent(true /* throw */);
if( hasAL_SOFT_events ) {
alExt.alEventControlSOFT(3, new int[] { ALExtConstants.AL_EVENT_TYPE_BUFFER_COMPLETED_SOFT,
ALExtConstants.AL_EVENT_TYPE_SOURCE_STATE_CHANGED_SOFT,
ALExtConstants.AL_EVENT_TYPE_DISCONNECTED_SOFT
}, 0, false);
alExt.alEventCallbackSOFT(null, context.getALContext());
}
}
try {
stopImpl(true);
destroySource();
destroyBuffers();
} finally {
destroyContext();
}
device.close();
chosenFormat = null;
}
@Override
public final boolean isAvailable() {
return available;
}
final ALEVENTPROCSOFT alEventCallback = new ALEVENTPROCSOFT() {
@SuppressWarnings("unused")
@Override
public void callback(final int eventType, final int object, final int param,
final int length, final String message, final ALCcontext context) {
if( false ) {
final com.jogamp.openal.ALContextKey k = new com.jogamp.openal.ALContextKey(context);
System.err.println("ALAudioSink.Event: type "+toHexString(eventType)+", obj "+toHexString(object)+", param "+param+
", msg[len "+length+", val '"+message+"'], userParam "+k);
}
if( ALExtConstants.AL_EVENT_TYPE_BUFFER_COMPLETED_SOFT == eventType &&
alSource.getID() == object )
{
synchronized( eventReleasedBuffersLock ) {
eventReleasedBuffers += param;
eventReleasedBuffersLock.notifyAll();
}
}
}
};
private final Object eventReleasedBuffersLock = new Object();
private volatile int eventReleasedBuffers = 0;
/**
* Dequeuing playing audio frames.
* @param wait if true, waiting for completion of audio buffers
* @param ignoreBufferInconsistency
* @return dequeued buffer count
*/
private final int dequeueBuffer(final boolean wait, final boolean ignoreBufferInconsistency) {
final int releaseBufferCount;
if( alBufferBytesQueued > 0 ) {
final int releaseBufferLimes = Math.max(1, alFramesPlaying.size() / 4 );
final long sleepLimes = Math.round( releaseBufferLimes * 1000.0*avgFrameDuration );
int wait_cycles=0;
long slept = 0;
int releasedBuffers = 0;
boolean onceBusyDebug = true;
final long t0 = DEBUG ? Clock.currentNanos() : 0;
do {
if( hasAL_SOFT_events ) {
synchronized( eventReleasedBuffersLock ) {
while( wait && alBufferBytesQueued > 0 && eventReleasedBuffers < releaseBufferLimes ) {
wait_cycles++;
try {
eventReleasedBuffersLock.wait();
} catch (final InterruptedException e) { }
}
releasedBuffers = eventReleasedBuffers;
eventReleasedBuffers = 0;
if( DEBUG ) {
slept += TimeUnit.NANOSECONDS.toMillis(Clock.currentNanos()-t0);
System.err.println(getThreadName()+": ALAudioSink.Event.wait["+wait_cycles+"]: released buffer count "+releasedBuffers+", limes "+releaseBufferLimes+", slept "+slept+" ms, free total "+alFramesFree.size());
}
}
} else {
releasedBuffers = alSource.getBuffersProcessed();
if( wait && releasedBuffers < releaseBufferLimes ) {
wait_cycles++;
// clip wait at [avgFrameDuration .. 300] ms
final int sleep = Math.max(2, Math.min(300, Math.round( (releaseBufferLimes-releasedBuffers) * 1000f*avgFrameDuration) ) ) - 1; // 1 ms off for busy-loop
if( slept + sleep + 1 <= sleepLimes ) {
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink: Dequeue.wait-sleep["+wait_cycles+"].1:"+
"releaseBuffers "+releasedBuffers+"/"+releaseBufferLimes+", sleep "+sleep+"/"+slept+"/"+sleepLimes+
" ms, playImpl "+(ALConstants.AL_PLAYING == getSourceState(false))+", "+shortString());
}
release(true /* throw */);
try {
Thread.sleep( sleep );
slept += sleep;
} catch (final InterruptedException e) {
} finally {
makeCurrent(true /* throw */);
}
} else {
// Empirical best behavior w/ openal-soft (sort of needs min ~21ms to complete processing a buffer even if period < 20ms?)
if( DEBUG ) {
if( onceBusyDebug ) {
System.err.println(getThreadName()+": ALAudioSink: Dequeue.wait-sleep["+wait_cycles+"].2:"+
"releaseBuffers "+releasedBuffers+"/"+releaseBufferLimes+", sleep "+sleep+"->1/"+slept+"/"+sleepLimes+
" ms, playImpl "+(ALConstants.AL_PLAYING == getSourceState(false))+", "+shortString());
onceBusyDebug = false;
}
}
release(true /* throw */);
try {
Thread.sleep( 1 );
slept += 1;
} catch (final InterruptedException e) {
} finally {
makeCurrent(true /* throw */);
}
}
}
}
} while ( wait && alBufferBytesQueued > 0 && releasedBuffers < releaseBufferLimes );
releaseBufferCount = releasedBuffers;
if( DEBUG ) {
final long t1 = Clock.currentNanos();
System.err.println(getThreadName()+": ALAudioSink: Dequeue.wait-done["+wait_cycles+"]: "+TimeUnit.NANOSECONDS.toMillis(t1-t0)+
"ms , releaseBuffers "+releaseBufferCount+"/"+releaseBufferLimes+", slept "+slept+" ms, playImpl "+(ALConstants.AL_PLAYING == getSourceState(false))+
", "+shortString());
}
} else {
releaseBufferCount = 0;
}
if( releaseBufferCount > 0 ) {
final int[] buffers = new int[releaseBufferCount];
alSource.unqueueBuffers(buffers);
for ( int i=0; i<releaseBufferCount; i++ ) {
final ALAudioFrame releasedBuffer = alFramesPlaying.get();
if( null == releasedBuffer ) {
if( !ignoreBufferInconsistency ) {
throw new InternalError("Internal Error: "+this);
}
} else {
if(DEBUG_TRACE) {
System.err.println("< [al "+buffers[i]+", q "+releasedBuffer.alBuffer+"] <- "+shortString()+" @ "+getThreadName());
}
if( releasedBuffer.alBuffer != buffers[i] ) {
if( !ignoreBufferInconsistency ) {
alFramesFree.dump(System.err, "Avail-deq02-post");
alFramesPlaying.dump(System.err, "Playi-deq02-post");
throw new InternalError("Buffer name mismatch: dequeued: "+buffers[i]+", released "+releasedBuffer+", "+this);
}
}
alBufferBytesQueued -= releasedBuffer.getByteSize();
if( !alFramesFree.put(releasedBuffer) ) {
throw new InternalError("Internal Error: "+this);
}
if(DEBUG_TRACE) {
System.err.println("<< [al "+buffers[i]+", q "+releasedBuffer.alBuffer+"] <- "+shortString()+" @ "+getThreadName());
}
}
}
}
return releaseBufferCount;
}
private final void dequeueForceAll() {
if(DEBUG_TRACE) {
System.err.println("< _FLUSH_ <- "+shortString()+" @ "+getThreadName());
}
int processedBufferCount = 0;
al.alSourcei(alSource.getID(), ALConstants.AL_BUFFER, 0); // explicit force zero buffer!
if(DEBUG_TRACE) {
processedBufferCount = alSource.getBuffersProcessed();
}
final int alErr = al.alGetError();
while ( !alFramesPlaying.isEmpty() ) {
final ALAudioFrame releasedBuffer = alFramesPlaying.get();
if( null == releasedBuffer ) {
throw new InternalError("Internal Error: "+this);
}
alBufferBytesQueued -= releasedBuffer.getByteSize();
if( !alFramesFree.put(releasedBuffer) ) {
throw new InternalError("Internal Error: "+this);
}
}
alBufferBytesQueued = 0;
if(DEBUG_TRACE) {
System.err.println("<< _FLUSH_ [al "+processedBufferCount+", err "+toHexString(alErr)+"] <- "+shortString()+" @ "+getThreadName());
ExceptionUtils.dumpStack(System.err);
}
}
/**
* Dequeuing playing audio frames.
* @param wait if true, waiting for completion of audio buffers
* @param inPTS pts in milliseconds
* @param inDuration in seconds
* @return dequeued buffer count
*/
private final int dequeueBuffer(final boolean wait, final int inPTS, final float inDuration) {
final int dequeuedBufferCount = dequeueBuffer( wait, false /* ignoreBufferInconsistency */ );
final ALAudioFrame currentBuffer = alFramesPlaying.peek();
if( null != currentBuffer ) {
playingPTS = currentBuffer.getPTS();
} else {
playingPTS = inPTS;
}
if( DEBUG ) {
if( dequeuedBufferCount > 0 ) {
System.err.printf("%s: ALAudioSink: Write pts %d ms, %.2f ms, dequeued %d, wait %b, %s%n",
getThreadName(), inPTS, 1000f*inDuration, dequeuedBufferCount, wait, getPerfString());
}
}
return dequeuedBufferCount;
}
@Override
public final AudioFrame enqueueData(final int pts, final ByteBuffer bytes, final int byteCount) {
if( !available || null == chosenFormat ) {
return null;
}
final ALAudioFrame alFrame;
// OpenAL consumes buffers in the background
// we first need to initialize the OpenAL buffers then
// start continuous playback.
makeCurrent(true /* throw */);
try {
final float duration = chosenFormat.getBytesDuration(byteCount);
if( alFramesFree.isEmpty() ) {
// Queue is full, no free frames left, hence alBufferBytesQueued and alFramesPlaying.size() is > 0
// and meaningful to represent actual used average frame duration
avgFrameDuration = chosenFormat.getBytesDuration( alBufferBytesQueued ) / alFramesPlaying.size();
// try to dequeue w/o waiting first
dequeueBuffer(false /* wait */, pts, duration);
if( alFramesFree.isEmpty() ) {
// try to grow
growBuffers(byteCount);
}
if( alFramesFree.isEmpty() && alFramesPlaying.size() > 0 && isPlayingImpl() ) {
// possible if grow failed or already exceeds it's limit - only possible if playing ..
dequeueBuffer(true /* wait */, pts, duration);
}
}
alFrame = alFramesFree.get();
if( null == alFrame ) {
alFramesFree.dump(System.err, "Avail");
throw new InternalError("Internal Error: avail.get null "+alFramesFree+", "+this);
}
alFrame.setPTS(pts);
alFrame.setDuration(Math.round(1000f*duration));
alFrame.setByteSize(byteCount);
if( !alFramesPlaying.put( alFrame ) ) {
throw new InternalError("Internal Error: "+this);
}
final int[] alBufferNames = new int[] { alFrame.alBuffer };
if( hasSOFTBufferSamples ) {
final int samplesPerChannel = chosenFormat.getBytesSampleCount(byteCount) / chosenFormat.channelCount;
// final int samplesPerChannel = ALHelpers.bytesToSampleCount(byteCount, alChannelLayout, alSampleType);
alExt.alBufferSamplesSOFT(alFrame.alBuffer, chosenFormat.sampleRate, alFormat,
samplesPerChannel, alChannelLayout, alSampleType, bytes);
} else {
al.alBufferData(alFrame.alBuffer, alFormat, bytes, byteCount, chosenFormat.sampleRate);
}
if(DEBUG_TRACE) {
System.err.println("> "+alFrame.alBuffer+" -> "+shortString()+" @ "+getThreadName());
}
alSource.queueBuffers(alBufferNames);
alBufferBytesQueued += byteCount;
enqueuedFrameCount++; // safe: only written-to while locked!
if(DEBUG_TRACE) {
System.err.println(">> "+alFrame.alBuffer+" -> "+shortString()+" @ "+getThreadName());
}
playImpl(); // continue playing, fixes issue where we ran out of enqueued data!
} finally {
release(true /* throw */);
}
return alFrame;
}
@Override
public final boolean isPlaying() {
if( !available || null == chosenFormat ) {
return false;
}
if( playRequested ) {
makeCurrent(true /* throw */);
try {
return isPlayingImpl();
} finally {
release(true /* throw */);
}
} else {
return false;
}
}
private final boolean isPlayingImpl() {
if( playRequested ) {
return ALConstants.AL_PLAYING == getSourceState(false);
} else {
return false;
}
}
private final int getSourceState(final boolean ignoreError) {
if( !alSource.isValid() ) {
final String msg = getThreadName()+": getSourceState: invalid "+alSource;
if( ignoreError ) {
if( DEBUG ) {
System.err.println(msg);
}
return ALConstants.AL_NONE;
} else {
throw new ALException(msg);
}
}
final int[] val = { ALConstants.AL_NONE };
al.alGetSourcei(alSource.getID(), ALConstants.AL_SOURCE_STATE, val, 0);
if( AudioSystem3D.checkALError("alGetSourcei", true, false) ) {
final String msg = getThreadName()+": Error while querying SOURCE_STATE. "+this;
if( ignoreError ) {
if( DEBUG ) {
System.err.println(msg);
}
return ALConstants.AL_NONE;
} else {
throw new ALException(msg);
}
}
return val[0];
}
@Override
public final void play() {
if( !available || null == chosenFormat ) {
return;
}
playRequested = true;
makeCurrent(true /* throw */);
try {
playImpl();
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink: PLAY playImpl "+(ALConstants.AL_PLAYING == getSourceState(false))+", "+this);
}
} finally {
release(true /* throw */);
}
}
private final void playImpl() {
if( playRequested && ALConstants.AL_PLAYING != getSourceState(false) ) {
alSource.play();
AudioSystem3D.checkALError("alSourcePlay", true, true);
}
}
@Override
public final void pause() {
if( !available || null == chosenFormat ) {
return;
}
if( playRequested ) {
makeCurrent(true /* throw */);
try {
pauseImpl();
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink: PAUSE playImpl "+(ALConstants.AL_PLAYING == getSourceState(false))+", "+this);
}
} finally {
release(true /* throw */);
}
}
}
private final void pauseImpl() {
if( isPlayingImpl() ) {
playRequested = false;
alSource.pause();
AudioSystem3D.checkALError("alSourcePause", true, true);
}
}
private final void stopImpl(final boolean ignoreError) {
if( !alSource.isValid() ) {
return;
}
if( ALConstants.AL_STOPPED != getSourceState(ignoreError) ) {
playRequested = false;
alSource.stop();
if( AudioSystem3D.checkALError("alSourcePause", true, false) ) {
final String msg = "Error while stopping. "+this;
if( ignoreError ) {
if( DEBUG ) {
System.err.println(getThreadName()+": "+msg);
}
} else {
throw new ALException(getThreadName()+": Error while stopping. "+this);
}
}
}
}
@Override
public final float getPlaySpeed() { return playSpeed; }
@Override
public final boolean setPlaySpeed(float rate) {
if( !available || null == chosenFormat ) {
return false;
}
makeCurrent(true /* throw */);
try {
if( Math.abs(1.0f - rate) < 0.01f ) {
rate = 1.0f;
}
if( 0.5f <= rate && rate <= 2.0f ) { // OpenAL limits
playSpeed = rate;
alSource.setPitch(playSpeed);
return true;
}
} finally {
release(true /* throw */);
}
return false;
}
@Override
public final float getVolume() {
return volume;
}
@Override
public final boolean setVolume(float v) {
if( !available || null == chosenFormat ) {
return false;
}
makeCurrent(true /* throw */);
try {
if( Math.abs(v) < 0.01f ) {
v = 0.0f;
} else if( Math.abs(1.0f - v) < 0.01f ) {
v = 1.0f;
}
if( 0.0f <= v && v <= 1.0f ) { // OpenAL limits
volume = v;
alSource.setGain(v);
return true;
}
} finally {
release(true /* throw */);
}
return false;
}
@Override
public final void flush() {
if( !available || null == chosenFormat ) {
return;
}
makeCurrent(true /* throw */);
try {
// pauseImpl();
stopImpl(false);
// Redundant: dequeueBuffer( false /* wait */, true /* ignoreBufferInconsistency */);
dequeueForceAll();
if( alBufferNames.length != alFramesFree.size() || alFramesPlaying.size() != 0 ) {
throw new InternalError("XXX: "+this);
}
if( DEBUG ) {
System.err.println(getThreadName()+": ALAudioSink: FLUSH playImpl "+(ALConstants.AL_PLAYING == getSourceState(false))+", "+this);
}
} finally {
release(true /* throw */);
}
}
@Override
public final int getEnqueuedFrameCount() {
return enqueuedFrameCount;
}
@Override
public final int getFrameCount() {
return null != alBufferNames ? alBufferNames.length : 0;
}
@Override
public final int getQueuedFrameCount() {
if( !available || null == chosenFormat ) {
return 0;
}
return alFramesPlaying.size();
}
@Override
public final int getFreeFrameCount() {
if( !available || null == chosenFormat ) {
return 0;
}
return alFramesFree.size();
}
@Override
public final int getQueuedByteCount() {
if( !available || null == chosenFormat ) {
return 0;
}
return alBufferBytesQueued;
}
@Override
public final float getQueuedTime() {
if( !available || null == chosenFormat ) {
return 0;
}
return chosenFormat.getBytesDuration(alBufferBytesQueued);
}
@Override
public float getAvgFrameDuration() {
return avgFrameDuration;
}
@Override
public final int getPTS() { return playingPTS; }
private static final String toHexString(final int v) { return "0x"+Integer.toHexString(v); }
private static final String toHexString(final long v) { return "0x"+Long.toHexString(v); }
private static final String getThreadName() { return Thread.currentThread().getName(); }
}
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