view src/com/aurellem/capture/audio/AudioSendRenderer.java @ 66:0d7347b916ae

removed unnessary build dependency
author Robert McIntyre <rlm@mit.edu>
date Tue, 28 Feb 2012 11:10:14 -0600
parents 23e3df41db3c
children
line wrap: on
line source
1 package com.aurellem.capture.audio;
3 import java.io.IOException;
4 import java.lang.reflect.Field;
5 import java.nio.ByteBuffer;
6 import java.util.HashMap;
7 import java.util.Vector;
8 import java.util.concurrent.CountDownLatch;
9 import java.util.logging.Level;
10 import java.util.logging.Logger;
12 import javax.sound.sampled.AudioFormat;
14 import org.lwjgl.LWJGLException;
15 import org.lwjgl.openal.AL;
16 import org.lwjgl.openal.AL10;
17 import org.lwjgl.openal.ALCdevice;
18 import org.lwjgl.openal.OpenALException;
20 import com.aurellem.send.AudioSend;
21 import com.jme3.audio.Listener;
22 import com.jme3.audio.lwjgl.LwjglAudioRenderer;
23 import com.jme3.math.Vector3f;
24 import com.jme3.system.JmeSystem;
25 import com.jme3.system.Natives;
26 import com.jme3.util.BufferUtils;
28 public class AudioSendRenderer
30 extends LwjglAudioRenderer implements MultiListener {
32 private AudioSend audioSend;
33 private AudioFormat outFormat;
35 /**
36 * Keeps track of all the listeners which have been registered
37 * so far. The first element is <code>null</code>, which
38 * represents the zeroth LWJGL listener which is created
39 * automatically.
40 */
41 public Vector<Listener> listeners = new Vector<Listener>();
43 public void initialize(){
44 super.initialize();
45 listeners.add(null);
46 }
48 /**
49 * This is to call the native methods which require the OpenAL
50 * device ID. Currently it is obtained through reflection.
51 */
52 private long deviceID;
54 /**
55 * To ensure that <code>deviceID<code> and
56 * <code>listeners<code> are properly initialized before any
57 * additional listeners are added.
58 */
59 private CountDownLatch latch = new CountDownLatch(1);
61 /**
62 * Each listener (including the main LWJGL listener) can be
63 * registered with a <code>SoundProcessor</code>, which this
64 * Renderer will call whenever there is new audio data to be
65 * processed.
66 */
67 public HashMap<Listener, SoundProcessor> soundProcessorMap =
68 new HashMap<Listener, SoundProcessor>();
70 /**
71 * Create a new slave context on the recorder device which
72 * will render all the sounds in the main LWJGL context with
73 * respect to this listener.
74 */
75 public void addListener(Listener l) {
76 try {this.latch.await();}
77 catch (InterruptedException e) {e.printStackTrace();}
78 audioSend.addListener();
79 this.listeners.add(l);
80 l.setRenderer(this);
81 }
83 /**
84 * Whenever new data is rendered in the perspective of this
85 * listener, this Renderer will send that data to the
86 * SoundProcessor of your choosing.
87 */
88 public void registerSoundProcessor(Listener l, SoundProcessor sp) {
89 this.soundProcessorMap.put(l, sp);
90 }
92 /**
93 * Registers a SoundProcessor for the main LWJGL context. Ig all
94 * you want to do is record the sound you would normally hear in
95 * your application, then this is the only method you have to
96 * worry about.
97 */
98 public void registerSoundProcessor(SoundProcessor sp){
99 // register a sound processor for the default listener.
100 this.soundProcessorMap.put(null, sp);
101 }
103 private static final Logger logger =
104 Logger.getLogger(AudioSendRenderer.class.getName());
106 /**
107 * Instead of taking whatever device is available on the system,
108 * this call creates the "Multiple Audio Send" device, which
109 * supports multiple listeners in a limited capacity. For each
110 * listener, the device renders it not to the sound device, but
111 * instead to buffers which it makes available via JNI.
112 */
113 public void initInThread(){
114 try{
115 switch (JmeSystem.getPlatform()){
116 case Windows64:
117 Natives.extractNativeLib("windows/audioSend",
118 "OpenAL64", true, true);
119 break;
120 case Windows32:
121 Natives.extractNativeLib("windows/audioSend",
122 "OpenAL32", true, true);
123 break;
124 case Linux64:
125 Natives.extractNativeLib("linux/audioSend",
126 "openal64", true, true);
127 break;
128 case Linux32:
129 Natives.extractNativeLib("linux/audioSend",
130 "openal", true, true);
131 break;
132 }
133 }
134 catch (IOException ex) {ex.printStackTrace();}
136 try{
137 if (!AL.isCreated()){
138 AL.create("Multiple Audio Send", 44100, 60, false);
139 }
140 }catch (OpenALException ex){
141 logger.log(Level.SEVERE, "Failed to load audio library", ex);
142 System.exit(1);
143 return;
144 }catch (LWJGLException ex){
145 logger.log(Level.SEVERE, "Failed to load audio library", ex);
146 System.exit(1);
147 return;
148 }
149 super.initInThread();
151 ALCdevice device = AL.getDevice();
153 // RLM: use reflection to grab the ID of our device for use
154 // later.
155 try {
156 Field deviceIDField;
157 deviceIDField = ALCdevice.class.getDeclaredField("device");
158 deviceIDField.setAccessible(true);
159 try {deviceID = (Long)deviceIDField.get(device);}
160 catch (IllegalArgumentException e) {e.printStackTrace();}
161 catch (IllegalAccessException e) {e.printStackTrace();}
162 deviceIDField.setAccessible(false);}
163 catch (SecurityException e) {e.printStackTrace();}
164 catch (NoSuchFieldException e) {e.printStackTrace();}
166 this.audioSend = new AudioSend(this.deviceID);
167 this.outFormat = audioSend.getAudioFormat();
168 initBuffer();
170 // The LWJGL context must be established as the master context
171 // before any other listeners can be created on this device.
172 audioSend.initDevice();
173 // Now, everything is initialized, and it is safe to add more
174 // listeners.
175 latch.countDown();
176 }
178 public void cleanup(){
179 for(SoundProcessor sp : this.soundProcessorMap.values()){
180 sp.cleanup();
181 }
182 super.cleanup();
183 }
185 public void updateAllListeners(){
186 for (int i = 0; i < this.listeners.size(); i++){
187 Listener lis = this.listeners.get(i);
188 if (null != lis){
189 Vector3f location = lis.getLocation();
190 Vector3f velocity = lis.getVelocity();
191 Vector3f orientation = lis.getUp();
192 float gain = lis.getVolume();
193 audioSend.setNthListener3f
194 (AL10.AL_POSITION,
195 location.x, location.y, location.z, i);
196 audioSend.setNthListener3f
197 (AL10.AL_VELOCITY,
198 velocity.x, velocity.y, velocity.z, i);
199 audioSend.setNthListener3f
200 (AL10.AL_ORIENTATION,
201 orientation.x, orientation.y, orientation.z, i);
202 audioSend.setNthListenerf(AL10.AL_GAIN, gain, i);
203 }
204 }
205 }
207 private ByteBuffer buffer;;
209 public static final int MIN_FRAMERATE = 10;
211 private void initBuffer(){
212 int bufferSize =
213 (int)(this.outFormat.getSampleRate() /
214 ((float)MIN_FRAMERATE)) *
215 this.outFormat.getFrameSize();
217 this.buffer = BufferUtils.createByteBuffer(bufferSize);
218 }
220 public void dispatchAudio(float tpf){
222 int samplesToGet = (int) (tpf * outFormat.getSampleRate());
223 try {latch.await();}
224 catch (InterruptedException e) {e.printStackTrace();}
225 audioSend.step(samplesToGet);
226 updateAllListeners();
228 for (int i = 0; i < this.listeners.size(); i++){
229 buffer.clear();
230 audioSend.getSamples(buffer, samplesToGet, i);
231 SoundProcessor sp =
232 this.soundProcessorMap.get(this.listeners.get(i));
233 if (null != sp){
234 sp.process
235 (buffer,
236 samplesToGet*outFormat.getFrameSize(), outFormat);}
237 }
238 }
240 public void update(float tpf){
241 super.update(tpf);
242 dispatchAudio(tpf);
243 }
244 }