MajenkoProjects/AudiobookRecorder
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17 Commits
v0.1.5 ... v0.1.8

Author SHA1 Message Date
Matt Jenkins
babd3d2052 Release 0.1.8 2019-07-22 23:24:16 +01:00
Matt Jenkins
9464839b4d Turn on JTattoo 2019-07-22 23:24:07 +01:00
Matt Jenkins
bcf7875414 Scrap Sample object and use double[][] instead. Disable processed audio caching - it causes heap overflows 2019-07-22 23:23:03 +01:00
Matt Jenkins
732894a0fb Add Chain effect to connect effects together 2019-07-22 10:43:53 +01:00
Matt Jenkins
146bf5a3c2 Release 0.1.7 2019-07-21 20:03:05 +01:00
Matt Jenkins
b05bfde094 Add pan effect 2019-07-21 20:02:16 +01:00
Matt Jenkins
37d372b8f5 Fix caching of processed audio. Add effect icon and name to tree 2019-07-21 20:02:07 +01:00
Matt Jenkins
c01fee3b73 Switch to Sample object instead of double, and refactor effects for whole sampleset processing 2019-07-21 17:21:50 +01:00
Matt Jenkins
c907e735c6 Prevent stacking of default effect chain 2019-07-21 15:36:33 +01:00
Matt Jenkins
7545e33d2f Make effects two-layerd 2019-07-20 23:03:05 +01:00
Matt Jenkins
ebf961449a Reinstate sphinx to replace defunct Haven 2019-07-18 15:07:04 +01:00
Matt Jenkins
45d6882527 Remove defunct Haven processing 2019-07-18 14:31:59 +01:00
Matt Jenkins
2ec370ad61 Add Shift+Space for Play From 2019-07-18 11:51:07 +01:00
Matt Jenkins
63d5c4af8e Released 0.1.6 2019-07-17 23:14:29 +01:00
Matt Jenkins
9619fd574e Apply default effect to room noise 2019-07-17 23:13:39 +01:00
Matt Jenkins
adeb42070d Added more example filters 2019-07-15 00:50:58 +01:00
Matt Jenkins
d207d246bf Added clipping filter 2019-07-14 22:15:10 +01:00
32 changed files with 783 additions and 504 deletions
Expand all files Collapse all files

7
ExampleFilters/alien.eff Normal file
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@@ -0,0 +1,7 @@
<effect name="Alien">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<lfo frequency="100" depth="0.5" />
</effect>

4
ExampleFilters/bigecho.eff
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@@ -1,5 +1,7 @@
<effect name="Big Echo"> <effect name="Big Echo">
<biquad type="notch" fc="140" q="20" gain="-50" /> <biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<delayline> <delayline>
<delay samples="22000" gain="0.2" pan="-0.3"> <delay samples="22000" gain="0.2" pan="-0.3">
<biquad type="highpass" fc="300" q="1" gain="0" /> <biquad type="highpass" fc="300" q="1" gain="0" />

4
ExampleFilters/cuthum.eff
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@@ -1,4 +1,6 @@
<effect name="Cut Computer Hum"> <effect name="Cut Computer Hum">
<biquad type="notch" fc="140" q="20" gain="-50" /> <biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" /> <biquad type="lowpass" fc="10000" q="1" gain="-10" />
</effect> </effect>

7
ExampleFilters/cuthumagc.eff Normal file
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@@ -0,0 +1,7 @@
<effect name="Cut Computer Hum (with AGC)">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<agc ceiling="0.666" limit="1" attack="0.1" decay="0.01" />
</effect>

22
ExampleFilters/ethereal.eff
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@@ -1,21 +1,23 @@
<effect name="Ethereal Voice"> <effect name="Ethereal Voice">
<biquad type="notch" fc="140" q="20" gain="-50" /> <biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<amplifier gain="0.1" /> <amplifier gain="0.1" />
<delayline> <delayline>
<delay samples="4000" gain="1.0" pan="-0.3"> <delay samples="2000" gain="1.0" pan="-0.3">
<biquad type="highpass" fc="400" q="1" gain="0" /> <biquad type="highpass" fc="400" q="1" gain="0" />
</delay> </delay>
<delay samples="8000" gain="1.5" pan="0.3"> <delay samples="4000" gain="1.1" pan="0.3">
<biquad type="highpass" fc="300" q="1" gain="0" /> <biquad type="highpass" fc="800" q="1" gain="0" />
</delay> </delay>
<delay samples="12000" gain="2.0" pan="-0.5"> <delay samples="8000" gain="1.2" pan="-0.5">
<biquad type="highpass" fc="200" q="1" gain="0" /> <biquad type="highpass" fc="1000" q="1" gain="0" />
</delay> </delay>
<delay samples="16000" gain="3.0" pan="0.5"> <delay samples="10000" gain="1.3" pan="0.5">
<biquad type="highpass" fc="100" q="1" gain="0" /> <biquad type="highpass" fc="1500" q="1" gain="0" />
</delay> </delay>
<delay samples="20000" gain="15.0" pan="0" /> <delay samples="12000" gain="15.0" pan="0" />
</delayline> </delayline>
<biquad type="lowshelf" fc="1000" q="2.2" gain="-10" /> <biquad type="lowshelf" fc="2000" q="2.2" gain="-10" />
<amplifier gain="1.5" /> <amplifier gain="1.5" />
</effect> </effect>

18
ExampleFilters/largeroom.eff Normal file
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@@ -0,0 +1,18 @@
<effect name="Large Room (quiet)">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<delayline>
<delay samples="5500" gain="0.2" pan="-0.3">
<biquad type="highpass" fc="300" q="1" gain="0" />
</delay>
<delay samples="11000" gain="0.05" pan="0.3">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
<delay samples="16500" gain="0.01" pan="0.0">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
</delayline>
<amplifier gain="0.3" />
</effect>

18
ExampleFilters/largeroomloud.eff Normal file
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@@ -0,0 +1,18 @@
<effect name="Large Room (loud)">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowpass" fc="10000" q="1" gain="-10" />
<delayline>
<delay samples="5500" gain="0.2" pan="-0.3">
<biquad type="highpass" fc="300" q="1" gain="0" />
</delay>
<delay samples="11000" gain="0.05" pan="0.3">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
<delay samples="16500" gain="0.01" pan="0.0">
<biquad type="highpass" fc="600" q="1" gain="0" />
</delay>
</delayline>
<amplifier gain="0.9" />
</effect>

4
ExampleFilters/phone.eff
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@@ -1,5 +1,7 @@
<effect name="Telephone"> <effect name="Telephone">
<biquad type="notch" fc="140" q="20" gain="-50" /> <biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowshelf" fc="400" q="10" gain="-20" /> <biquad type="lowshelf" fc="400" q="10" gain="-20" />
<biquad type="highshelf" fc="8000" q="10" gain="-20" /> <biquad type="highshelf" fc="8000" q="10" gain="-20" />
<delayline> <delayline>

14
ExampleFilters/radio.eff Normal file
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@@ -0,0 +1,14 @@
<effect name="Radio">
<biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<amplifier gain="0.1" />
<biquad type="peak" fc="1000" q="10" gain="45" />
<lfo frequency="5000" depth="0.3" />
<clipping clip="0.3" />
<biquad type="highshelf" fc="8000" q="1" gain="-20" />
<delayline>
<delay samples="100" gain="0.7" />
<delay samples="200" gain="0.5" />
</delayline>
</effect>

4
ExampleFilters/robotic.eff
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@@ -1,5 +1,7 @@
<effect name="Robotic"> <effect name="Robotic">
<biquad type="notch" fc="140" q="20" gain="-50" /> <biquad type="notch" fc="28" q="20" gain="-50" />
<biquad type="notch" fc="91" q="20" gain="-50" />
<biquad type="notch" fc="120" q="20" gain="-50" />
<biquad type="lowshelf" fc="100" q="2" gain="-20" /> <biquad type="lowshelf" fc="100" q="2" gain="-20" />
<delayline> <delayline>
<delay samples="400" gain="1" pan="-0.3" /> <delay samples="400" gain="1" pan="-0.3" />

BIN
deps/sphinx4-core-5prealpha-SNAPSHOT.jar LFS vendored Normal file
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BIN
deps/sphinx4-data-5prealpha-SNAPSHOT.jar LFS vendored Normal file
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2
resources/uk/co/majenko/audiobookrecorder/config.txt
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@@ -1 +1 @@
version=0.1.5 version=0.1.8

24
src/uk/co/majenko/audiobookrecorder/AGC.java
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@@ -14,6 +14,7 @@ public class AGC implements Effect {
attack = a; attack = a;
decay = d; decay = d;
limit = l; limit = l;
gain = 1d;
} }
public String getName() { public String getName() {
@@ -24,27 +25,36 @@ public class AGC implements Effect {
return getName(); return getName();
} }
public double process(double sample) { public void process(double[][] samples) {
double absSample = Math.abs(sample) * gain; gain = 1d;
for (int i = 0; i < samples.length; i++) {
double absSampleLeft = Math.abs(samples[i][Sentence.LEFT]) * gain;
double absSampleRight = Math.abs(samples[i][Sentence.RIGHT]) * gain;
if (absSample > ceiling) { if (absSampleLeft > ceiling) {
gain -= attack; gain -= attack;
if (gain < 0) gain = 0; if (gain < 0) gain = 0;
} }
if (absSample < ceiling) { if (absSampleRight > ceiling) {
gain -= attack;
if (gain < 0) gain = 0;
}
if ((absSampleLeft < ceiling) && (absSampleRight < ceiling)) {
gain += decay; gain += decay;
if (gain > limit) { if (gain > limit) {
gain = limit; gain = limit;
} }
} }
sample *= gain; samples[i][Sentence.LEFT] *= gain;
samples[i][Sentence.RIGHT] *= gain;
return sample; }
} }
public void init(double sr) { public void init(double sr) {
gain = 1d;
} }
public void dump() { public void dump() {

7
src/uk/co/majenko/audiobookrecorder/Amplifier.java
View File

@@ -19,8 +19,11 @@ public class Amplifier implements Effect {
return null; return null;
} }
public double process(double sample) { public void process(double[][] samples) {
return sample * gain; for (int i = 0; i < samples.length; i++) {
samples[i][Sentence.LEFT] *= gain;
samples[i][Sentence.RIGHT] *= gain;
}
} }
public double getGain() { public double getGain() {

193
src/uk/co/majenko/audiobookrecorder/AudiobookRecorder.java
View File

@@ -20,15 +20,21 @@ import javax.imageio.*;
import org.w3c.dom.*; import org.w3c.dom.*;
import javax.xml.parsers.*; import javax.xml.parsers.*;
import java.io.*; import java.io.*;
import edu.cmu.sphinx.api.*;
import edu.cmu.sphinx.decoder.adaptation.*;
import edu.cmu.sphinx.result.*;
import org.w3c.dom.Node;
public class AudiobookRecorder extends JFrame { public class AudiobookRecorder extends JFrame {
// Settings - tweakable // Settings - tweakable
public static final int PLAYBACK_CHUNK_SIZE = 256; // Was 1024 public static final int PLAYBACK_CHUNK_SIZE = 16384;
public static final String SPHINX_MODEL = "resource:/edu/cmu/sphinx/models/en-us/en-us";
static Properties config = new Properties(); static Properties config = new Properties();
HashMap<String, EffectGroup> effects; TreeMap<String, EffectGroup> effects;
String defaultEffectChain = "none"; String defaultEffectChain = "none";
@@ -68,8 +74,6 @@ public class AudiobookRecorder extends JFrame {
JScrollPane mainScroll; JScrollPane mainScroll;
JDialog equaliserWindow = null;
Book book = null; Book book = null;
JTree bookTree; JTree bookTree;
@@ -88,6 +92,7 @@ public class AudiobookRecorder extends JFrame {
JSpinner gainPercent; JSpinner gainPercent;
JCheckBox locked; JCheckBox locked;
JCheckBox attention; JCheckBox attention;
JCheckBox rawAudio;
JButtonSpacePlay reprocessAudioFFT; JButtonSpacePlay reprocessAudioFFT;
JButtonSpacePlay reprocessAudioPeak; JButtonSpacePlay reprocessAudioPeak;
@@ -101,19 +106,32 @@ public class AudiobookRecorder extends JFrame {
SourceDataLine play = null; SourceDataLine play = null;
public HavenQueue havenQueue = new HavenQueue();
public TargetDataLine microphone = null; public TargetDataLine microphone = null;
public AudioInputStream microphoneStream = null; public AudioInputStream microphoneStream = null;
public Configuration sphinxConfig;
public StreamSpeechRecognizer recognizer;
public static AudiobookRecorder window; public static AudiobookRecorder window;
void initSphinx() {
sphinxConfig = new Configuration();
sphinxConfig.setAcousticModelPath(AudiobookRecorder.SPHINX_MODEL);
sphinxConfig.setDictionaryPath("resource:/edu/cmu/sphinx/models/en-us/cmudict-en-us.dict");
sphinxConfig.setLanguageModelPath("resource:/edu/cmu/sphinx/models/en-us/en-us.lm.bin");
try {
recognizer = new StreamSpeechRecognizer(sphinxConfig);
} catch (Exception e) {
e.printStackTrace();
}
}
void buildToolbar(Container ob) { void buildToolbar(Container ob) {
toolBar = new MainToolBar(this); toolBar = new MainToolBar(this);
toolBar.addSeparator(); toolBar.addSeparator();
toolBar.add(Box.createHorizontalGlue()); toolBar.add(Box.createHorizontalGlue());
toolBar.add(havenQueue);
ob.add(toolBar, BorderLayout.NORTH); ob.add(toolBar, BorderLayout.NORTH);
} }
@@ -281,6 +299,7 @@ public class AudiobookRecorder extends JFrame {
window = this; window = this;
try { try {
String clsname = "com.jtattoo.plaf.hifi.HiFiLookAndFeel"; String clsname = "com.jtattoo.plaf.hifi.HiFiLookAndFeel";
UIManager.setLookAndFeel(clsname); UIManager.setLookAndFeel(clsname);
@@ -295,8 +314,6 @@ public class AudiobookRecorder extends JFrame {
Method mth = cls.getMethod("setCurrentTheme", cArg); Method mth = cls.getMethod("setCurrentTheme", cArg);
mth.invoke(cls, p); mth.invoke(cls, p);
} catch (Exception e) { } catch (Exception e) {
e.printStackTrace(); e.printStackTrace();
} }
@@ -440,6 +457,11 @@ public class AudiobookRecorder extends JFrame {
controlsLeft.add(reprocessAudioPeak); controlsLeft.add(reprocessAudioPeak);
controlsLeft.add(normalizeAudio); controlsLeft.add(normalizeAudio);
rawAudio = new JCheckBox("Raw Audio");
rawAudio.setFocusable(false);
controlsTop.add(rawAudio);
locked = new JCheckBox("Phrase locked"); locked = new JCheckBox("Phrase locked");
locked.setFocusable(false); locked.setFocusable(false);
@@ -562,6 +584,7 @@ public class AudiobookRecorder extends JFrame {
centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("released D"), "deleteLast"); centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("released D"), "deleteLast");
centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("SPACE"), "startStopPlayback"); centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("SPACE"), "startStopPlayback");
centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke(KeyEvent.VK_SPACE, InputEvent.SHIFT_DOWN_MASK), "startPlaybackFrom");
centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("E"), "startRerecord"); centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("E"), "startRerecord");
centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("released E"), "stopRecord"); centralPanel.getInputMap(JComponent.WHEN_IN_FOCUSED_WINDOW).put(KeyStroke.getKeyStroke("released E"), "stopRecord");
@@ -640,6 +663,15 @@ public class AudiobookRecorder extends JFrame {
} }
}); });
centralPanel.getActionMap().put("startPlaybackFrom", new AbstractAction() {
public void actionPerformed(ActionEvent e) {
if (bookTree.isEditing()) return;
if (playing == null) {
playFromSelectedSentence();
}
}
});
mainScroll = new JScrollPane(); mainScroll = new JScrollPane();
centralPanel.add(mainScroll, BorderLayout.CENTER); centralPanel.add(mainScroll, BorderLayout.CENTER);
@@ -721,7 +753,6 @@ public class AudiobookRecorder extends JFrame {
prefs.setProperty("chapter.close.pre-gap", Options.get("catenation.pre-chapter")); prefs.setProperty("chapter.close.pre-gap", Options.get("catenation.pre-chapter"));
prefs.setProperty("chapter.close.post-gap", Options.get("catenation.post-chapter")); prefs.setProperty("chapter.close.post-gap", Options.get("catenation.post-chapter"));
loadEffects();
buildBook(prefs); buildBook(prefs);
Options.set("path.last-book", book.getName()); Options.set("path.last-book", book.getName());
@@ -784,6 +815,42 @@ public class AudiobookRecorder extends JFrame {
} }
} }
class BatchConversionThread implements Runnable {
Chapter chapter;
public BatchConversionThread(Chapter c) {
chapter = c;
}
public void run() {
try {
Configuration sphinxConfig = new Configuration();
sphinxConfig.setAcousticModelPath(AudiobookRecorder.SPHINX_MODEL);
sphinxConfig.setDictionaryPath("resource:/edu/cmu/sphinx/models/en-us/cmudict-en-us.dict");
sphinxConfig.setLanguageModelPath("resource:/edu/cmu/sphinx/models/en-us/en-us.lm.bin");
sphinxConfig.setSampleRate((int)(book.getAudioFormat().getSampleRate() / 4f));
StreamSpeechRecognizer recognizer;
recognizer = new StreamSpeechRecognizer(sphinxConfig);
for (Enumeration s = chapter.children(); s.hasMoreElements();) {
Sentence snt = (Sentence)s.nextElement();
if (!snt.isLocked()) {
if (snt.getId().equals(snt.getText())) {
snt.doRecognition(recognizer);
}
}
}
} catch (Exception e) {
e.printStackTrace();
}
}
}
@SuppressWarnings("unchecked") @SuppressWarnings("unchecked")
void treePopup(MouseEvent e) { void treePopup(MouseEvent e) {
@@ -805,7 +872,7 @@ public class AudiobookRecorder extends JFrame {
JMenuObject o = (JMenuObject)e.getSource(); JMenuObject o = (JMenuObject)e.getSource();
Sentence s = (Sentence)o.getObject(); Sentence s = (Sentence)o.getObject();
if (!s.isLocked()) { if (!s.isLocked()) {
havenQueue.submit(s); s.recognise();
} }
} }
}); });
@@ -1115,12 +1182,9 @@ public class AudiobookRecorder extends JFrame {
public void actionPerformed(ActionEvent e) { public void actionPerformed(ActionEvent e) {
JMenuObject o = (JMenuObject)e.getSource(); JMenuObject o = (JMenuObject)e.getSource();
Chapter c = (Chapter)o.getObject(); Chapter c = (Chapter)o.getObject();
for (Enumeration s = c.children(); s.hasMoreElements();) { BatchConversionThread r = new BatchConversionThread(c);
Sentence snt = (Sentence)s.nextElement(); Thread t = new Thread(r);
if (snt.getId().equals(snt.getText())) { t.start();
havenQueue.submit(snt);
}
}
} }
}); });
@@ -1624,7 +1688,6 @@ public class AudiobookRecorder extends JFrame {
prefs.loadFromXML(fis); prefs.loadFromXML(fis);
File r = f.getParentFile(); File r = f.getParentFile();
loadEffects();
buildBook(prefs); buildBook(prefs);
@@ -1656,6 +1719,8 @@ public class AudiobookRecorder extends JFrame {
book.setComment(prefs.getProperty("book.comment")); book.setComment(prefs.getProperty("book.comment"));
book.setACX(prefs.getProperty("book.acx")); book.setACX(prefs.getProperty("book.acx"));
loadEffects();
defaultEffectChain = prefs.getProperty("audio.effect.default"); defaultEffectChain = prefs.getProperty("audio.effect.default");
if (defaultEffectChain == null) { if (defaultEffectChain == null) {
defaultEffectChain = "none"; defaultEffectChain = "none";
@@ -1689,6 +1754,7 @@ public class AudiobookRecorder extends JFrame {
InputMap im = bookTree.getInputMap(JComponent.WHEN_FOCUSED); InputMap im = bookTree.getInputMap(JComponent.WHEN_FOCUSED);
im.put(KeyStroke.getKeyStroke(KeyEvent.VK_SPACE, 0), "startStopPlayback"); im.put(KeyStroke.getKeyStroke(KeyEvent.VK_SPACE, 0), "startStopPlayback");
im.put(KeyStroke.getKeyStroke(KeyEvent.VK_SPACE, InputEvent.SHIFT_DOWN_MASK), "startPlaybackFrom");
roomNoise = new Sentence("room-noise", "Room Noise"); roomNoise = new Sentence("room-noise", "Room Noise");
@@ -1882,14 +1948,14 @@ public class AudiobookRecorder extends JFrame {
public double getNoiseFloor() { public double getNoiseFloor() {
if (roomNoise == null) return 0; if (roomNoise == null) return 0;
double[] samples = roomNoise.getDoubleAudioData(); double[][] samples = roomNoise.getDoubleAudioData();
if (samples == null) { if (samples == null) {
return 0; return 0;
} }
double ms = 0; double ms = 0;
for (int i = 0; i < samples.length; i++) { for (int i = 0; i < samples.length; i++) {
if (Math.abs(samples[i]) > ms) { if (Math.abs((samples[i][Sentence.LEFT] + samples[i][Sentence.RIGHT]) / 2d) > ms) {
ms = Math.abs(samples[i]); ms = Math.abs((samples[i][Sentence.LEFT] + samples[i][Sentence.RIGHT]) / 2d);
} }
} }
@@ -1940,7 +2006,7 @@ public class AudiobookRecorder extends JFrame {
try { try {
AudioFormat sampleformat = s.getAudioFormat(); AudioFormat sampleformat = s.getAudioFormat();
AudioFormat format = new AudioFormat(sampleformat.getSampleRate(), 16, 1, true, false); AudioFormat format = new AudioFormat(sampleformat.getSampleRate(), 16, 2, true, false);
play = AudioSystem.getSourceDataLine(format, Options.getPlaybackMixer()); play = AudioSystem.getSourceDataLine(format, Options.getPlaybackMixer());
play.open(format); play.open(format);
@@ -2034,7 +2100,7 @@ public class AudiobookRecorder extends JFrame {
try { try {
AudioFormat sampleformat = s.getAudioFormat(); AudioFormat sampleformat = s.getAudioFormat();
AudioFormat format = new AudioFormat(sampleformat.getSampleRate(), 16, 1, true, false); AudioFormat format = new AudioFormat(sampleformat.getSampleRate(), 16, 2, true, false);
play = AudioSystem.getSourceDataLine(format, Options.getPlaybackMixer()); play = AudioSystem.getSourceDataLine(format, Options.getPlaybackMixer());
play.open(format); play.open(format);
play.start(); play.start();
@@ -2053,6 +2119,16 @@ public class AudiobookRecorder extends JFrame {
play.write(data, 0, data.length); play.write(data, 0, data.length);
} }
data = s.getPCMData(); data = s.getPCMData();
DefaultMutableTreeNode next = s.getNextSibling();
// if (next != null) {
// Thread t = new Thread(new Runnable() {
// public void run() {
// Sentence ns = (Sentence)next;
// ns.getProcessedAudioData(); // Cache it
// }
// });
// t.start();
// }
for (int pos = 0; pos < data.length; pos += PLAYBACK_CHUNK_SIZE) { for (int pos = 0; pos < data.length; pos += PLAYBACK_CHUNK_SIZE) {
sampleWaveform.setPlayMarker(pos / format.getFrameSize()); sampleWaveform.setPlayMarker(pos / format.getFrameSize());
int l = data.length - pos; int l = data.length - pos;
@@ -2060,7 +2136,6 @@ public class AudiobookRecorder extends JFrame {
play.write(data, pos, l); play.write(data, pos, l);
} }
DefaultMutableTreeNode next = s.getNextSibling();
boolean last = false; boolean last = false;
if (next == null) { if (next == null) {
last = true; last = true;
@@ -2106,6 +2181,8 @@ public class AudiobookRecorder extends JFrame {
if (roomNoise == null) return null; if (roomNoise == null) return null;
roomNoise.setEffectChain(defaultEffectChain);
int len = roomNoise.getSampleSize(); int len = roomNoise.getSampleSize();
if (len == 0) return null; if (len == 0) return null;
@@ -2140,7 +2217,6 @@ public class AudiobookRecorder extends JFrame {
public boolean enableMicrophone() { public boolean enableMicrophone() {
AudioFormat format = Options.getAudioFormat(); AudioFormat format = Options.getAudioFormat();
System.err.println(format);
Mixer.Info mixer = Options.getRecordingMixer(); Mixer.Info mixer = Options.getRecordingMixer();
@@ -2573,12 +2649,16 @@ System.err.println(format);
public void updateWaveform() { public void updateWaveform() {
if (selectedSentence != null) { if (selectedSentence != null) {
if (rawAudio.isSelected()) {
sampleWaveform.setData(selectedSentence.getRawAudioData());
} else {
sampleWaveform.setData(selectedSentence.getDoubleAudioData()); sampleWaveform.setData(selectedSentence.getDoubleAudioData());
} }
} }
}
public void loadEffects() { public void loadEffects() {
effects = new HashMap<String,EffectGroup>(); effects = new TreeMap<String,EffectGroup>();
loadEffectsFromFolder(new File(Options.get("path.storage"), "System")); loadEffectsFromFolder(new File(Options.get("path.storage"), "System"));
if (book != null) { if (book != null) {
loadEffectsFromFolder(new File(Options.get("path.storage"), book.getName())); loadEffectsFromFolder(new File(Options.get("path.storage"), book.getName()));
@@ -2634,11 +2714,21 @@ System.err.println(format);
if (eff != null) { if (eff != null) {
group.addEffect(eff); group.addEffect(eff);
} }
} else if (e.getTagName().equals("pan")) {
Effect eff = (Effect)loadPan(e);
if (eff != null) {
group.addEffect(eff);
}
} else if (e.getTagName().equals("amplifier")) { } else if (e.getTagName().equals("amplifier")) {
Effect eff = (Effect)loadAmplifier(e); Effect eff = (Effect)loadAmplifier(e);
if (eff != null) { if (eff != null) {
group.addEffect(eff); group.addEffect(eff);
} }
} else if (e.getTagName().equals("chain")) {
Effect eff = (Effect)loadChain(e);
if (eff != null) {
group.addEffect(eff);
}
} else if (e.getTagName().equals("group")) { } else if (e.getTagName().equals("group")) {
Effect eff = (Effect)loadEffectGroup(e); Effect eff = (Effect)loadEffectGroup(e);
if (eff != null) { if (eff != null) {
@@ -2654,6 +2744,11 @@ System.err.println(format);
if (eff != null) { if (eff != null) {
group.addEffect(eff); group.addEffect(eff);
} }
} else if (e.getTagName().equals("clipping")) {
Effect eff = (Effect)loadClipping(e);
if (eff != null) {
group.addEffect(eff);
}
} }
} }
} }
@@ -2693,6 +2788,9 @@ System.err.println(format);
DelayLine line = new DelayLine(); DelayLine line = new DelayLine();
NodeList list = root.getChildNodes(); NodeList list = root.getChildNodes();
if (Utils.s2b(root.getAttribute("wetonly"))) {
line.setWetOnly(true);
}
for (int i = 0; i < list.getLength(); i++) { for (int i = 0; i < list.getLength(); i++) {
Node n = list.item(i); Node n = list.item(i);
@@ -2701,7 +2799,9 @@ System.err.println(format);
if (e.getTagName().equals("delay")) { if (e.getTagName().equals("delay")) {
int samples = Utils.s2i(e.getAttribute("samples")); int samples = Utils.s2i(e.getAttribute("samples"));
double gain = Utils.s2d(e.getAttribute("gain")); double gain = Utils.s2d(e.getAttribute("gain"));
DelayLineStore store = line.addDelayLine(samples, gain); double pan = Utils.s2d(e.getAttribute("pan"));
DelayLineStore store = line.addDelayLine(samples, gain, pan);
NodeList inner = e.getChildNodes(); NodeList inner = e.getChildNodes();
for (int j = 0; j < inner.getLength(); j++) { for (int j = 0; j < inner.getLength(); j++) {
@@ -2719,11 +2819,21 @@ System.err.println(format);
if (eff != null) { if (eff != null) {
store.addEffect(eff); store.addEffect(eff);
} }
} else if (ie.getTagName().equals("pan")) {
Effect eff = (Effect)loadPan(ie);
if (eff != null) {
store.addEffect(eff);
}
} else if (ie.getTagName().equals("amplifier")) { } else if (ie.getTagName().equals("amplifier")) {
Effect eff = (Effect)loadAmplifier(ie); Effect eff = (Effect)loadAmplifier(ie);
if (eff != null) { if (eff != null) {
store.addEffect(eff); store.addEffect(eff);
} }
} else if (ie.getTagName().equals("chain")) {
Effect eff = (Effect)loadChain(ie);
if (eff != null) {
store.addEffect(eff);
}
} else if (ie.getTagName().equals("group")) { } else if (ie.getTagName().equals("group")) {
Effect eff = (Effect)loadEffectGroup(ie); Effect eff = (Effect)loadEffectGroup(ie);
if (eff != null) { if (eff != null) {
@@ -2739,6 +2849,11 @@ System.err.println(format);
if (eff != null) { if (eff != null) {
store.addEffect(eff); store.addEffect(eff);
} }
} else if (ie.getTagName().equals("clipping")) {
Effect eff = (Effect)loadClipping(ie);
if (eff != null) {
store.addEffect(eff);
}
} }
} }
} }
@@ -2754,6 +2869,21 @@ System.err.println(format);
return a; return a;
} }
public Chain loadChain(Element root) {
Chain c = new Chain(root.getAttribute("src"));
return c;
}
public Pan loadPan(Element root) {
Pan p = new Pan(Utils.s2d(root.getAttribute("pan")));
return p;
}
public Clipping loadClipping(Element root) {
Clipping c = new Clipping(Utils.s2d(root.getAttribute("clip")));
return c;
}
public LFO loadLFO(Element root) { public LFO loadLFO(Element root) {
double f = Utils.s2d(root.getAttribute("frequency")); double f = Utils.s2d(root.getAttribute("frequency"));
double d = Utils.s2d(root.getAttribute("depth")); double d = Utils.s2d(root.getAttribute("depth"));
@@ -2782,6 +2912,9 @@ System.err.println(format);
while (effectChain.getItemCount() > 0) { while (effectChain.getItemCount() > 0) {
effectChain.removeItemAt(0); effectChain.removeItemAt(0);
} }
KVPair<String, String> none = new KVPair<String, String>("none", "None");
effectChain.addItem(none);
for (String k : effects.keySet()) { for (String k : effects.keySet()) {
Effect e = effects.get(k); Effect e = effects.get(k);
KVPair<String, String> p = new KVPair<String, String>(k, e.toString()); KVPair<String, String> p = new KVPair<String, String>(k, e.toString());
@@ -2812,4 +2945,8 @@ System.err.println(format);
updateWaveform(); updateWaveform();
} }
} }
public String getDefaultEffectsChain() {
return defaultEffectChain;
}
} }

45
src/uk/co/majenko/audiobookrecorder/Biquad.java
View File

@@ -32,7 +32,8 @@ public class Biquad implements Effect {
int type; int type;
double a0, a1, a2, b1, b2; double a0, a1, a2, b1, b2;
double Fc, Q, peakGain; double Fc, Q, peakGain;
double z1, z2; double lz1, lz2;
double rz1, rz2;
double sampleFrequency; double sampleFrequency;
public Biquad() { public Biquad() {
@@ -45,15 +46,19 @@ public class Biquad implements Effect {
Fc = 440d; Fc = 440d;
Q = 0.707d; Q = 0.707d;
peakGain = 0.0d; peakGain = 0.0d;
z1 = 0.0d; lz1 = 0.0d;
z2 = 0.0d; lz2 = 0.0d;
rz1 = 0.0d;
rz2 = 0.0d;
sampleFrequency = 44100d; sampleFrequency = 44100d;
} }
public Biquad(int type, double Fc, double Q, double peakGainDB) { public Biquad(int type, double Fc, double Q, double peakGainDB) {
setBiquad(type, Fc, Q, peakGainDB); setBiquad(type, Fc, Q, peakGainDB);
z1 = 0.0; lz1 = 0.0;
z2 = 0.0; lz2 = 0.0;
rz1 = 0.0;
rz2 = 0.0;
sampleFrequency = 44100d; sampleFrequency = 44100d;
} }
@@ -84,17 +89,33 @@ public class Biquad implements Effect {
setPeakGain(peakGainDB); setPeakGain(peakGainDB);
} }
public double process(double in) { public void process(double[][] samples) {
double out = in * a0 + z1; lz1 = 0d;
z1 = in * a1 + z2 - b1 * out; lz2 = 0d;
z2 = in * a2 - b2 * out; rz1 = 0d;
return out; rz2 = 0d;
for (double[] in : samples) {
double lout = in[Sentence.LEFT] * a0 + lz1;
lz1 = in[Sentence.LEFT] * a1 + lz2 - b1 * lout;
lz2 = in[Sentence.LEFT] * a2 - b2 * lout;
double rout = in[Sentence.RIGHT] * a0 + rz1;
rz1 = in[Sentence.RIGHT] * a1 + rz2 - b1 * rout;
rz2 = in[Sentence.RIGHT] * a2 - b2 * rout;
in[Sentence.LEFT] = lout;
in[Sentence.RIGHT] = rout;
}
} }
public void init(double sf) { public void init(double sf) {
sampleFrequency = sf; sampleFrequency = sf;
z1 = 0d; lz1 = 0d;
z2 = 0d; lz2 = 0d;
rz1 = 0d;
rz2 = 0d;
calcBiquad(); calcBiquad();
} }

6
src/uk/co/majenko/audiobookrecorder/BookTreeRenderer.java
View File

@@ -31,6 +31,12 @@ public class BookTreeRenderer extends DefaultTreeCellRenderer {
icn.add(Overlays.important, OverlayIcon.TOP_RIGHT); icn.add(Overlays.important, OverlayIcon.TOP_RIGHT);
} }
if (s.getEffectChain() != null) {
if (!s.getEffectChain().equals("none")) {
icn.add(Overlays.filter, OverlayIcon.BOTTOM_RIGHT);
}
}
ret.setIcon(icn); ret.setIcon(icn);
} else if (value instanceof Chapter) { } else if (value instanceof Chapter) {

58
src/uk/co/majenko/audiobookrecorder/Chain.java Normal file
View File

@@ -0,0 +1,58 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class Chain implements Effect {
String target;
public Chain(String t) {
target = t;
}
public Chain() {
target = null;
}
public void process(double[][] samples) {
if (target != null) {
Effect t = AudiobookRecorder.window.effects.get(target);
if (t != null) {
t.process(samples);
}
}
}
public void setTarget(String t) {
target = t;
}
public String getTarget() {
return target;
}
public String toString() {
return "Chain to " + target;
}
public void dump() {
System.out.println(toString());
}
public void init(double sf) {
if (target != null) {
Effect t = AudiobookRecorder.window.effects.get(target);
if (t != null) {
t.init(sf);
}
}
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public String getName() {
return toString();
}
}

2
src/uk/co/majenko/audiobookrecorder/Chapter.java
View File

@@ -122,7 +122,7 @@ public class Chapter extends DefaultMutableTreeNode {
AudioFormat sampleformat = AudiobookRecorder.window.roomNoise.getAudioFormat(); AudioFormat sampleformat = AudiobookRecorder.window.roomNoise.getAudioFormat();
AudioFormat format = new AudioFormat(sampleformat.getSampleRate(), 16, 1, true, false); AudioFormat format = new AudioFormat(sampleformat.getSampleRate(), 16, 2, true, false);
byte[] data; byte[] data;
int fullLength = 0; int fullLength = 0;

49
src/uk/co/majenko/audiobookrecorder/Clipping.java Normal file
View File

@@ -0,0 +1,49 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class Clipping implements Effect {
double clip;
public Clipping() {
clip = 1.0d;
}
public Clipping(double g) {
clip = g;
}
public String getName() {
return "Clipping (" + clip + ")";
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public void process(double[][] samples) {
for (double[] sample : samples) {
if (sample[Sentence.LEFT] > clip) sample[Sentence.LEFT] = clip;
if (sample[Sentence.LEFT] < -clip) sample[Sentence.LEFT] = -clip;
if (sample[Sentence.RIGHT] > clip) sample[Sentence.RIGHT] = clip;
if (sample[Sentence.RIGHT] < -clip) sample[Sentence.RIGHT] = -clip;
}
}
public double getClip() {
return clip;
}
public void setClip(double g) {
clip = g;
}
public String toString() {
return getName();
}
public void dump() {
System.out.println(toString());
}
public void init(double sf) {
}
}

77
src/uk/co/majenko/audiobookrecorder/DelayLine.java
View File

@@ -6,6 +6,8 @@ public class DelayLine implements Effect {
ArrayList<DelayLineStore> delayLines; ArrayList<DelayLineStore> delayLines;
boolean wetOnly = false;
public DelayLine() { public DelayLine() {
delayLines = new ArrayList<DelayLineStore>(); delayLines = new ArrayList<DelayLineStore>();
} }
@@ -14,23 +16,70 @@ public class DelayLine implements Effect {
return "Delay Line (" + delayLines.size() + " lines)"; return "Delay Line (" + delayLines.size() + " lines)";
} }
public double process(double sample) { public void process(double[][] samples) {
double s = sample; double[][] savedSamples = new double[samples.length][2];
for (DelayLineStore d : delayLines) { for (int i = 0; i < samples.length; i++) {
double echo = d.pass(sample); savedSamples[i][Sentence.LEFT] = samples[i][Sentence.LEFT];
s = mix(s, echo); savedSamples[i][Sentence.RIGHT] = samples[i][Sentence.RIGHT];
}
if (wetOnly) {
for (int i = 0; i < samples.length; i++) {
samples[i][Sentence.LEFT] = 0d;
samples[i][Sentence.RIGHT] = 0d;
} }
return s;
} }
double mix(double a, double b) { double[][] subSamples = new double[samples.length][2];
if ((a < 0) && (b < 0)) { for (int i = 0; i < samples.length; i++) {
return (a + b) - (a * b); subSamples[i][Sentence.LEFT] = savedSamples[i][Sentence.LEFT];
subSamples[i][Sentence.RIGHT] = savedSamples[i][Sentence.RIGHT];
} }
if ((a > 0) && (b > 0)) { for (DelayLineStore d : delayLines) {
return (a + b) - (a * b); for (int i = 0; i < samples.length; i++) {
subSamples[i][Sentence.LEFT] = savedSamples[i][Sentence.LEFT];
subSamples[i][Sentence.RIGHT] = savedSamples[i][Sentence.RIGHT];
} }
return a + b;
d.process(subSamples);
for (int i = 0; i < subSamples.length; i++) {
int off = i + d.getSamples();
if ((off < samples.length) && (off > 0)) {
double[] ns = mix(samples[off], subSamples[i]);
samples[off][Sentence.LEFT] = ns[Sentence.LEFT];
samples[off][Sentence.RIGHT] = ns[Sentence.RIGHT];
}
}
}
}
double[] mix(double[] a, double[] b) {
double[] out = new double[2];
if ((a[Sentence.LEFT] < 0) && (b[Sentence.LEFT] < 0)) {
out[Sentence.LEFT] = (a[Sentence.LEFT] + b[Sentence.LEFT]) - (a[Sentence.LEFT] * b[Sentence.LEFT]);
} else if ((a[Sentence.LEFT] > 0) && (b[Sentence.LEFT] > 0)) {
out[Sentence.LEFT] = (a[Sentence.LEFT] + b[Sentence.LEFT]) - (a[Sentence.LEFT] * b[Sentence.LEFT]);
} else {
out[Sentence.LEFT] = a[Sentence.LEFT] + b[Sentence.LEFT];
}
if ((a[Sentence.RIGHT] < 0) && (b[Sentence.RIGHT] < 0)) {
out[Sentence.RIGHT] = (a[Sentence.RIGHT] + b[Sentence.RIGHT]) - (a[Sentence.RIGHT] * b[Sentence.RIGHT]);
} else if ((a[Sentence.RIGHT] > 0) && (b[Sentence.RIGHT] > 0)) {
out[Sentence.RIGHT] = (a[Sentence.RIGHT] + b[Sentence.RIGHT]) - (a[Sentence.RIGHT] * b[Sentence.RIGHT]);
} else {
out[Sentence.RIGHT] = a[Sentence.RIGHT] + b[Sentence.RIGHT];
}
return out;
}
public DelayLineStore addDelayLine(int samples, double gain, double pan) {
DelayLineStore s = new DelayLineStore(samples, gain, pan);
delayLines.add(s);
return s;
} }
public DelayLineStore addDelayLine(int samples, double gain) { public DelayLineStore addDelayLine(int samples, double gain) {
@@ -60,5 +109,7 @@ public class DelayLine implements Effect {
} }
} }
public void setWetOnly(boolean b) {
wetOnly = b;
}
} }

52
src/uk/co/majenko/audiobookrecorder/DelayLineStore.java
View File

@@ -4,42 +4,46 @@ import java.util.concurrent.ArrayBlockingQueue;
import java.util.ArrayList; import java.util.ArrayList;
public class DelayLineStore { public class DelayLineStore {
ArrayBlockingQueue<Double> fifo;
double gain; double gain;
int numSamples; int numSamples;
double pan;
ArrayList<Effect> effects; ArrayList<Effect> effects;
public DelayLineStore(int s, double g) { public DelayLineStore(int s, double g, double p) {
fifo = new ArrayBlockingQueue<Double>(s);
for (int i = 0; i < s; i++) {
fifo.add(0d);
}
numSamples = s; numSamples = s;
gain = g; gain = g;
pan = p;
effects = new ArrayList<Effect>(); effects = new ArrayList<Effect>();
} }
public double pass(double s) { public DelayLineStore(int s, double g) {
try { numSamples = s;
gain = g;
pan = 0d;
effects = new ArrayList<Effect>();
}
public void process(double[][] samples) {
for (Effect e : effects) { for (Effect e : effects) {
s = e.process(s); e.process(samples);
}
for (double[] sample : samples) {
sample[Sentence.LEFT] *= gain;
sample[Sentence.RIGHT] *= gain;
if (pan < 0) {
double p = 1 + pan;
sample[Sentence.RIGHT] *= p;
} else {
double p = 1 - pan;
sample[Sentence.LEFT] *= p;
} }
double v = s * gain;
double t = fifo.poll();
fifo.add(v);
return t;
} catch (Exception e) {
e.printStackTrace();
} }
return 0d;
} }
public void setSamples(int s) { public void setSamples(int s) {
fifo = new ArrayBlockingQueue<Double>(s);
for (int i = 0; i < s; i++) {
fifo.add(0d);
}
numSamples = s; numSamples = s;
} }
@@ -55,13 +59,6 @@ public class DelayLineStore {
return gain; return gain;
} }
public void purge() {
fifo.clear();
for (int i = 0; i < numSamples; i++) {
fifo.add(0d);
}
}
public void addEffect(Effect e) { public void addEffect(Effect e) {
effects.add(e); effects.add(e);
} }
@@ -70,7 +67,6 @@ public class DelayLineStore {
for (Effect e : effects) { for (Effect e : effects) {
e.init(sf); e.init(sf);
} }
purge();
} }
public void dump() { public void dump() {

2
src/uk/co/majenko/audiobookrecorder/Effect.java
View File

@@ -3,7 +3,7 @@ package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList; import java.util.ArrayList;
public interface Effect { public interface Effect {
public double process(double sample); public void process(double[][] samples);
public String getName(); public String getName();
public ArrayList<Effect> getChildEffects(); public ArrayList<Effect> getChildEffects();
public void dump(); public void dump();

6
src/uk/co/majenko/audiobookrecorder/EffectGroup.java
View File

@@ -16,12 +16,10 @@ public class EffectGroup implements Effect {
effects = new ArrayList<Effect>(); effects = new ArrayList<Effect>();
} }
public double process(double sample) { public void process(double[][] samples) {
double out = sample;
for (Effect e : effects) { for (Effect e : effects) {
out = e.process(out); e.process(samples);
} }
return out;
} }
public void setName(String n) { public void setName(String n) {

83
src/uk/co/majenko/audiobookrecorder/HavenQueue.java
View File

@@ -1,83 +0,0 @@
package uk.co.majenko.audiobookrecorder;
import java.util.*;
import java.util.concurrent.*;
import javax.swing.*;
import java.awt.*;
import java.util.Timer;
public class HavenQueue extends JPanel {
ConcurrentLinkedQueue<Sentence> sentenceList = new ConcurrentLinkedQueue<Sentence>();
Timer timer = new Timer();
Sentence currentSentence = null;
JLabel count;
public HavenQueue() {
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 30000);
count = new JLabel("Haven queue: 0");
setLayout(new BorderLayout());
add(count, BorderLayout.CENTER);
count.setOpaque(false);
setOpaque(false);
count.setForeground(Color.WHITE);
}
public void processQueue() {
count.setText("Haven queue: " + sentenceList.size());
if (currentSentence == null) {
// Grab a new sentence to process.
currentSentence = sentenceList.poll();
if (currentSentence != null) {
if (!currentSentence.postHavenData()) { // Failed. Add to the end of the queue and wait a bit
submit(currentSentence);
currentSentence = null;
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 30000);
return;
}
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 5000);
return;
}
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 5000);
return;
}
if (currentSentence != null) {
currentSentence.processPendingHaven();
int status = currentSentence.getHavenStatus();
switch (status) {
case 0: // Um... not running...?
currentSentence = null;
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 30000);
return;
case 1: // Still processing...
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 5000);
return;
case 2: // Finished
currentSentence = null;
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 30000);
return;
case 3: // Failed
currentSentence = null;
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 30000);
return;
}
}
timer.schedule(new TimerTask() { public void run() { processQueue(); }}, 30000);
}
public void submit(Sentence s) {
s.setOverrideText("[queued...]");
AudiobookRecorder.window.bookTreeModel.reload(s);
sentenceList.add(s);
count.setText("Haven queue: " + sentenceList.size());
}
}

9
src/uk/co/majenko/audiobookrecorder/LFO.java
View File

@@ -22,7 +22,8 @@ public class LFO implements Effect {
phase = p; phase = p;
} }
public double process(double sample) { public void process(double[][] samples) {
for (double[] sample : samples) {
double v = Math.sin(phase); double v = Math.sin(phase);
phase += sampleStep; phase += sampleStep;
if (phase > (Math.PI * 2d)) { if (phase > (Math.PI * 2d)) {
@@ -37,9 +38,9 @@ public class LFO implements Effect {
v *= depth; v *= depth;
// Apply it to the sample // Apply it to the sample
sample += (sample * v); sample[Sentence.LEFT] += (sample[Sentence.LEFT] * v);
sample[Sentence.RIGHT] += (sample[Sentence.RIGHT] * v);
return sample; }
} }
public String getName() { return "Low Frequency Oscillator (" + frequency + " Hz, " + (depth * 100d) + "%)"; } public String getName() { return "Low Frequency Oscillator (" + frequency + " Hz, " + (depth * 100d) + "%)"; }

15
src/uk/co/majenko/audiobookrecorder/Options.java
View File

@@ -44,8 +44,6 @@ public class Options extends JDialog {
JSpinner etherealAttenuation; JSpinner etherealAttenuation;
JSpinner etherealOffset; JSpinner etherealOffset;
JTextField havenApiKey;
JTextField externalEditor; JTextField externalEditor;
JTextArea startupScript; JTextArea startupScript;
@@ -325,8 +323,7 @@ public class Options extends JDialog {
addSeparator(optionsPanel); addSeparator(optionsPanel);
enableParsing = addCheckBox(optionsPanel, "Enable automatic speech-to-text submission", getBoolean("process.haven.auto")); enableParsing = addCheckBox(optionsPanel, "Enable automatic sphinx speech-to-text (**SLOW**)", getBoolean("process.sphinx"));
havenApiKey = addTextField(optionsPanel, "Haven OnDemand API Key", get("process.haven.apikey"));
addSeparator(optionsPanel); addSeparator(optionsPanel);
@@ -584,9 +581,7 @@ public class Options extends JDialog {
defaultPrefs.put("audio.export.bitrate", "256000"); defaultPrefs.put("audio.export.bitrate", "256000");
defaultPrefs.put("audio.export.samplerate", "44100"); defaultPrefs.put("audio.export.samplerate", "44100");
defaultPrefs.put("process.sphinx", "false"); defaultPrefs.put("process.sphinx", "false");
defaultPrefs.put("process.haven.apikey", "");
defaultPrefs.put("editor.external", ""); defaultPrefs.put("editor.external", "");
@@ -710,7 +705,6 @@ public class Options extends JDialog {
set("audio.export.bitrate", ((KVPair)bitRate.getSelectedItem()).key); set("audio.export.bitrate", ((KVPair)bitRate.getSelectedItem()).key);
set("audio.export.samplerate", ((KVPair)exportRate.getSelectedItem()).key); set("audio.export.samplerate", ((KVPair)exportRate.getSelectedItem()).key);
set("process.sphinx", enableParsing.isSelected()); set("process.sphinx", enableParsing.isSelected());
set("process.haven.apikey", havenApiKey.getText());
set("editor.external", externalEditor.getText()); set("editor.external", externalEditor.getText());
set("cache.size", cacheSize.getValue()); set("cache.size", cacheSize.getValue());
set("audio.recording.trim.fft", fftThreshold.getValue()); set("audio.recording.trim.fft", fftThreshold.getValue());
@@ -781,9 +775,10 @@ public class Options extends JDialog {
} }
public static KVPair[] getTrimMethods() { public static KVPair[] getTrimMethods() {
KVPair[] pairs = new KVPair[2]; KVPair[] pairs = new KVPair[3];
pairs[0] = new KVPair<String, String>("peak", "Peak Amplitude"); pairs[0] = new KVPair<String, String>("none", "None");
pairs[1] = new KVPair<String, String>("fft", "FFT Analysis"); pairs[1] = new KVPair<String, String>("peak", "Peak Amplitude");
pairs[2] = new KVPair<String, String>("fft", "FFT Analysis");
return pairs; return pairs;
} }

52
src/uk/co/majenko/audiobookrecorder/Pan.java Normal file
View File

@@ -0,0 +1,52 @@
package uk.co.majenko.audiobookrecorder;
import java.util.ArrayList;
public class Pan implements Effect {
double pan;
public Pan() {
pan = 0.0d;
}
public Pan(double p) {
pan = p;
}
public String getName() {
return "Pan (" + pan + ")";
}
public ArrayList<Effect> getChildEffects() {
return null;
}
public void process(double[][] samples) {
for (double[] sample : samples) {
if (pan < 0) {
double p = 1 + pan;
sample[Sentence.RIGHT] *= p;
} else {
double p = 1 - pan;
sample[Sentence.LEFT] *= p;
}
}
}
public double getPan() {
return pan;
}
public void setPan(double p) {
pan = p;
}
public String toString() {
return getName();
}
public void dump() {
System.out.println(toString());
}
public void init(double sf) {
}
}

28
src/uk/co/majenko/audiobookrecorder/Sample.java
View File

@@ -1,28 +0,0 @@
package uk.co.majenko.audiobookrecorder;
public class Sample {
double left;
double right;
public Sample(double m) {
left = m;
right = m;
}
public Sample(double l, double r) {
left = l;
right = r;
}
public double getLeft() {
return left;
}
public double getRight() {
return right;
}
public double getMono() {
return (left + right) / 2.0;
}
}

415
src/uk/co/majenko/audiobookrecorder/Sentence.java
View File

@@ -21,6 +21,10 @@ import org.apache.http.impl.client.CloseableHttpClient;
import org.apache.http.impl.client.HttpClients; import org.apache.http.impl.client.HttpClients;
import org.apache.http.util.EntityUtils; import org.apache.http.util.EntityUtils;
import edu.cmu.sphinx.api.*;
import edu.cmu.sphinx.decoder.adaptation.*;
import edu.cmu.sphinx.result.*;
import org.json.*; import org.json.*;
import java.util.Timer; import java.util.Timer;
@@ -49,25 +53,22 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
double gain = 1.0d; double gain = 1.0d;
String havenJobId = "";
// 0: Not processed
// 1: Submitted
// 2: Procesisng finished
// 3: Processing failed
int havenStatus = 0;
String overrideText = null; String overrideText = null;
public void setOverrideText(String s) { overrideText = s; } public void setOverrideText(String s) { overrideText = s; }
public String getOverrideText() { return overrideText; } public String getOverrideText() { return overrideText; }
public static final int LEFT = 0;
public static final int RIGHT = 1;
TargetDataLine line; TargetDataLine line;
AudioInputStream inputStream; AudioInputStream inputStream;
AudioFormat storedFormat = null; AudioFormat storedFormat = null;
double storedLength = -1d; double storedLength = -1d;
double[] audioData = null; double[][] audioData = null;
// double[][] processedAudio = null;
RecordingThread recordingThread; RecordingThread recordingThread;
@@ -137,7 +138,6 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
} }
public Sentence() { public Sentence() {
super(""); super("");
id = UUID.randomUUID().toString(); id = UUID.randomUUID().toString();
@@ -176,63 +176,43 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
try { try {
Thread.sleep(10); Thread.sleep(10);
} catch (Exception e) { } catch (Exception e) {
e.printStackTrace();
} }
} }
audioData = null; audioData = null;
// processedAudio = null;
storedFormat = null; storedFormat = null;
storedLength = -1; storedLength = -1;
if (!id.equals("room-noise")) { if (!id.equals("room-noise")) {
String tm = Options.get("audio.recording.trim"); String tm = Options.get("audio.recording.trim");
if (tm.equals("peak")) { if (tm.equals("peak")) {
autoTrimSamplePeak(); autoTrimSamplePeak(true);
} else if (tm.equals("fft")) { } else if (tm.equals("fft")) {
autoTrimSampleFFT(); autoTrimSampleFFT(true);
} }
if (Options.getBoolean("process.haven.auto")) { if (Options.getBoolean("process.sphinx")) {
recognise(); recognise();
} }
} }
} }
public static final int FFTBuckets = 1024; public static final int FFTBuckets = 1024;
public double[][] getFFTProfile() {
double[] real = new double[FFTBuckets];
double[] imag = new double[FFTBuckets];
double[] samples = getProcessedAudioData();
int slices = (samples.length / FFTBuckets) + 1;
double[][] out = new double[slices][];
int slice = 0;
for (int i = 0; i < samples.length; i += FFTBuckets) {
for (int j = 0; j < FFTBuckets; j++) {
if (i + j < samples.length) {
real[j] = samples[i+j];
imag[j] = 0;
} else {
real[j] = 0;
imag[j] = 0;
}
}
out[slice++] = FFT.fft(real, imag, true);
}
return out;
}
public void autoTrimSampleFFT() { public void autoTrimSampleFFT() {
autoTrimSampleFFT(false);
}
public void autoTrimSampleFFT(boolean useRaw) {
crossStartOffset = -1; crossStartOffset = -1;
crossEndOffset = -1; crossEndOffset = -1;
double[] samples = getProcessedAudioData(); double[][] samples;
if (useRaw) {
samples = getRawAudioData();
} else {
samples = getProcessedAudioData();
}
if (samples == null) return; if (samples == null) return;
int blocks = samples.length / 4096 + 1; int blocks = samples.length / 4096 + 1;
@@ -246,7 +226,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
for (int j = 0; j < 4096; j++) { for (int j = 0; j < 4096; j++) {
if (i + j < samples.length) { if (i + j < samples.length) {
real[j] = samples[i+j]; real[j] = (samples[i+j][LEFT] + samples[i+j][RIGHT]) / 2d;
imag[j] = 0; imag[j] = 0;
} else { } else {
real[j] = 0; real[j] = 0;
@@ -313,9 +293,18 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public void autoTrimSamplePeak() { public void autoTrimSamplePeak() {
autoTrimSamplePeak(false);
}
public void autoTrimSamplePeak(boolean useRaw) {
crossStartOffset = -1; crossStartOffset = -1;
crossEndOffset = -1; crossEndOffset = -1;
double[] samples = getProcessedAudioData(); double[][] samples;
if (useRaw) {
samples = getRawAudioData();
} else {
samples = getProcessedAudioData();
}
if (samples == null) return; if (samples == null) return;
double noiseFloor = AudiobookRecorder.window.getNoiseFloor(); double noiseFloor = AudiobookRecorder.window.getNoiseFloor();
noiseFloor *= 1.1; noiseFloor *= 1.1;
@@ -323,7 +312,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
// Find start // Find start
for (int i = 0; i < samples.length; i++) { for (int i = 0; i < samples.length; i++) {
startOffset = i; startOffset = i;
if (Math.abs(samples[i]) > noiseFloor) { if (Math.abs((samples[i][LEFT] + samples[i][RIGHT])/2d) > noiseFloor) {
startOffset --; startOffset --;
if (startOffset < 0) startOffset = 0; if (startOffset < 0) startOffset = 0;
break; break;
@@ -338,7 +327,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
for (int i = samples.length-1; i >= 0; i--) { for (int i = samples.length-1; i >= 0; i--) {
endOffset = i; endOffset = i;
if (Math.abs(samples[i]) > noiseFloor) { if (Math.abs((samples[i][LEFT] + samples[i][RIGHT])/2d) > noiseFloor) {
endOffset ++; endOffset ++;
if (endOffset >= samples.length-1) endOffset = samples.length-1; if (endOffset >= samples.length-1) endOffset = samples.length-1;
break; break;
@@ -396,7 +385,11 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public String toString() { public String toString() {
return text; if (effectChain == null) return text;
if (effectChain.equals("none")) return text;
Effect e = AudiobookRecorder.window.effects.get(effectChain);
if (e == null) return text;
return text + " (" + e.toString() + ")";
} }
public boolean isRecording() { public boolean isRecording() {
@@ -494,8 +487,57 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
return null; return null;
} }
public void doRecognition(StreamSpeechRecognizer recognizer) {
try {
setText("[recognising...]");
AudiobookRecorder.window.bookTreeModel.reload(this);
byte[] inData = getPCMData();
ByteArrayInputStream bas = new ByteArrayInputStream(inData);
recognizer.startRecognition(bas);
SpeechResult result;
String res = "";
while ((result = recognizer.getResult()) != null) {
res += result.getHypothesis();
res += " ";
}
recognizer.stopRecognition();
setText(res);
AudiobookRecorder.window.bookTreeModel.reload(this);
} catch (Exception e) {
e.printStackTrace();
}
}
public void recognise() { public void recognise() {
AudiobookRecorder.window.havenQueue.submit(Sentence.this); Thread t = new Thread(new Runnable() {
public void run() {
try {
Configuration sphinxConfig = new Configuration();
sphinxConfig.setAcousticModelPath(AudiobookRecorder.SPHINX_MODEL);
sphinxConfig.setDictionaryPath("resource:/edu/cmu/sphinx/models/en-us/cmudict-en-us.dict");
sphinxConfig.setLanguageModelPath("resource:/edu/cmu/sphinx/models/en-us/en-us.lm.bin");
AudioInputStream s = AudioSystem.getAudioInputStream(getFile());
AudioFormat format = getAudioFormat();
sphinxConfig.setSampleRate((int)(format.getSampleRate()));
StreamSpeechRecognizer recognizer;
recognizer = new StreamSpeechRecognizer(sphinxConfig);
doRecognition(recognizer);
} catch (Exception e) {
e.printStackTrace();
}
}
});
t.start();
} }
public void setLocked(boolean l) { public void setLocked(boolean l) {
@@ -516,6 +558,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
public void clearCache() { public void clearCache() {
audioData = null; audioData = null;
// processedAudio = null;
} }
public boolean lockedInCache() { public boolean lockedInCache() {
@@ -523,7 +566,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
public int findNearestZeroCrossing(int pos, int range) { public int findNearestZeroCrossing(int pos, int range) {
double[] data = getProcessedAudioData(); double[][] data = getProcessedAudioData();
if (data == null) return 0; if (data == null) return 0;
if (data.length == 0) return 0; if (data.length == 0) return 0;
@@ -533,19 +576,19 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
int backwards = pos; int backwards = pos;
int forwards = pos; int forwards = pos;
double backwardsPrev = data[backwards]; double backwardsPrev = (data[backwards][LEFT] + data[backwards][RIGHT]) / 2d;
double forwardsPrev = data[forwards]; double forwardsPrev = (data[forwards][LEFT] + data[forwards][RIGHT]) / 2d;
while (backwards > 0 || forwards < data.length-2) { while (backwards > 0 || forwards < data.length-2) {
if (forwards < data.length-2) forwards++; if (forwards < data.length-2) forwards++;
if (backwards > 0) backwards--; if (backwards > 0) backwards--;
if (backwardsPrev >= 0 && data[backwards] < 0) { // Found one! if (backwardsPrev >= 0 && ((data[backwards][LEFT] + data[backwards][RIGHT]) / 2d) < 0) { // Found one!
return backwards; return backwards;
} }
if (forwardsPrev < 0 && data[forwards] >= 0) { if (forwardsPrev < 0 && ((data[forwards][LEFT] + data[forwards][RIGHT]) / 2d) >= 0) {
return forwards; return forwards;
} }
@@ -554,8 +597,8 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
return pos; return pos;
} }
backwardsPrev = data[backwards]; backwardsPrev = (data[backwards][LEFT] + data[backwards][RIGHT]) / 2d;
forwardsPrev = data[forwards]; forwardsPrev = (data[forwards][LEFT] + data[forwards][RIGHT]) / 2d;
} }
return pos; return pos;
} }
@@ -596,149 +639,18 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
return attention; return attention;
} }
public String getHavenJobId() {
return havenJobId;
}
public void setHavenJobId(String i) {
havenJobId = i;
}
public int getHavenStatus() {
return havenStatus;
}
public void setHavenStatus(int i) {
havenStatus = i;
}
@SuppressWarnings("deprecation")
public boolean postHavenData() {
String apiKey = Options.get("process.haven.apikey");
if (apiKey == null || apiKey.equals("")) return false;
CloseableHttpClient httpclient = HttpClients.createDefault();
setOverrideText("[submitting...]");
AudiobookRecorder.window.bookTreeModel.reload(this);
try {
HttpPost httppost = new HttpPost("https://api.havenondemand.com/1/api/async/recognizespeech/v2?apikey=" + apiKey);
FileBody bin = new FileBody(getFile());
StringBody language = new StringBody("en-GB");
HttpEntity reqEntity = MultipartEntityBuilder.create()
.addPart("language_model", language)
.addPart("file", bin)
.build();
httppost.setEntity(reqEntity);
CloseableHttpResponse response = httpclient.execute(httppost);
try {
if (response.getStatusLine().getStatusCode() != 200) {
System.err.println("Error posting data: " + response.getStatusLine().getStatusCode());
return false;
}
HttpEntity resEntity = response.getEntity();
if (resEntity != null) {
JSONObject obj = new JSONObject(EntityUtils.toString(resEntity));
havenJobId = obj.getString("jobID");
System.err.println("Submitted new Haven OnDemand job #" + havenJobId);
havenStatus = 1;
}
EntityUtils.consume(resEntity);
} catch (Exception ex) {
ex.printStackTrace();
return false;
}
} catch (Exception ex) {
ex.printStackTrace();
return false;
}
return true;
// eddec91c-6018-4dcd-bd8d-5e96b23e334c --form "language_model=en-US" --form "file=@3e67460c-f298-4e2c-a412-d375d489e1b3.wav"
}
public void processPendingHaven() {
if (havenStatus != 1) return;
String apiKey = Options.get("process.haven.apikey");
if (apiKey == null || apiKey.equals("")) return;
CloseableHttpClient httpclient = HttpClients.createDefault();
try {
HttpPost httppost = new HttpPost("https://api.havenondemand.com/1/job/status/" + havenJobId + "?apikey=" + apiKey);
HttpEntity reqEntity = MultipartEntityBuilder.create().build();
httppost.setEntity(reqEntity);
CloseableHttpResponse response = httpclient.execute(httppost);
try {
if (response.getStatusLine().getStatusCode() != 200) {
havenStatus = 3;
return;
}
HttpEntity resEntity = response.getEntity();
if (resEntity != null) {
JSONObject obj = new JSONObject(EntityUtils.toString(resEntity));
System.err.println(havenJobId + ": " + obj.getString("status"));
if (obj.getString("status").equals("finished")) {
havenStatus = 2;
JSONArray textItems = obj.getJSONArray("actions").getJSONObject(0).getJSONObject("result").getJSONArray("items");
StringBuilder out = new StringBuilder();
for (int i = 0; i < textItems.length(); i++) {
out.append(textItems.getJSONObject(i).getString("text"));
out.append(" ");
}
String result = out.toString();
setText(result.trim());
AudiobookRecorder.window.bookTreeModel.reload(Sentence.this);
System.err.println(result);
} else if (obj.getString("status").equals("queued")) {
havenStatus = 1;
setOverrideText("[processing...]");
AudiobookRecorder.window.bookTreeModel.reload(Sentence.this);
} else {
text = id;
AudiobookRecorder.window.bookTreeModel.reload(Sentence.this);
havenStatus = 3;
return;
}
}
EntityUtils.consume(resEntity);
} catch (Exception ex) {
ex.printStackTrace();
}
} catch (Exception ex) {
ex.printStackTrace();
}
}
public double getPeakValue() { public double getPeakValue() {
double oldGain = gain; double oldGain = gain;
gain = 1.0d; gain = 1.0d;
double[] samples = getProcessedAudioData(); double[][] samples = getProcessedAudioData();
gain = oldGain; gain = oldGain;
if (samples == null) { if (samples == null) {
return 0; return 0;
} }
double ms = 0; double ms = 0;
for (int i = 0; i < samples.length; i++) { for (int i = 0; i < samples.length; i++) {
if (Math.abs(samples[i]) > ms) { if (Math.abs((samples[i][LEFT] + samples[i][RIGHT]) / 2d) > ms) {
ms = Math.abs(samples[i]); ms = Math.abs((samples[i][LEFT] + samples[i][RIGHT]) / 2d);
} }
} }
return ms; return ms;
@@ -756,9 +668,12 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
public void setGain(double g) { public void setGain(double g) {
if (g <= 0.0001d) g = 1.0d; if (g <= 0.0001d) g = 1.0d;
if (g == gain) return; if (g == gain) return;
gain = g;
if (gain != g) {
clearCache(); clearCache();
} }
gain = g;
}
public double getGain() { public double getGain() {
return gain; return gain;
@@ -938,19 +853,18 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
AudiobookRecorder.window.updateWaveform(); AudiobookRecorder.window.updateWaveform();
} }
public double[] getDoubleDataS16LE(AudioInputStream s, AudioFormat format) throws IOException { public double[][] getDoubleDataS16LE(AudioInputStream s, AudioFormat format) throws IOException {
long len = s.getFrameLength(); long len = s.getFrameLength();
int frameSize = format.getFrameSize(); int frameSize = format.getFrameSize();
int chans = format.getChannels(); int chans = format.getChannels();
int bytes = frameSize / chans; int bytes = frameSize / chans;
byte[] frame = new byte[frameSize]; byte[] frame = new byte[frameSize];
double[] samples = new double[(int)len]; double[][] samples = new double[(int)len][2];
for (long fno = 0; fno < len; fno++) { for (long fno = 0; fno < len; fno++) {
s.read(frame); s.read(frame);
int sample = 0;
if (chans == 2) { // Stereo if (chans == 2) { // Stereo
int ll = frame[0] >= 0 ? frame[0] : 256 + frame[0]; int ll = frame[0] >= 0 ? frame[0] : 256 + frame[0];
int lh = frame[1] >= 0 ? frame[1] : 256 + frame[1]; int lh = frame[1] >= 0 ? frame[1] : 256 + frame[1];
@@ -960,27 +874,29 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
int right = (rh << 8) | rl; int right = (rh << 8) | rl;
if ((left & 0x8000) == 0x8000) left |= 0xFFFF0000; if ((left & 0x8000) == 0x8000) left |= 0xFFFF0000;
if ((right & 0x8000) == 0x8000) right |= 0xFFFF0000; if ((right & 0x8000) == 0x8000) right |= 0xFFFF0000;
sample = (left + right) / 2; samples[(int)fno][LEFT] = (double)left / 32768d;
samples[(int)fno][RIGHT] = (double)right / 32768d;
} else { } else {
int l = frame[0] >= 0 ? frame[0] : 256 + frame[0]; int l = frame[0] >= 0 ? frame[0] : 256 + frame[0];
int h = frame[1] >= 0 ? frame[1] : 256 + frame[1]; int h = frame[1] >= 0 ? frame[1] : 256 + frame[1];
sample = (h << 8) | l; int mono = (h << 8) | l;
if ((sample & 0x8000) == 0x8000) sample |= 0xFFFF0000; if ((mono & 0x8000) == 0x8000) mono |= 0xFFFF0000;
samples[(int)fno][LEFT] = (double)mono / 32768d;
samples[(int)fno][RIGHT] = (double)mono / 32768d;
} }
samples[(int)fno] = (double)sample / 32768d;
} }
return samples; return samples;
} }
public double[] getDoubleDataS24LE(AudioInputStream s, AudioFormat format) throws IOException { public double[][] getDoubleDataS24LE(AudioInputStream s, AudioFormat format) throws IOException {
long len = s.getFrameLength(); long len = s.getFrameLength();
int frameSize = format.getFrameSize(); int frameSize = format.getFrameSize();
int chans = format.getChannels(); int chans = format.getChannels();
int bytes = frameSize / chans; int bytes = frameSize / chans;
byte[] frame = new byte[frameSize]; byte[] frame = new byte[frameSize];
double[] samples = new double[(int)len]; double[][] samples = new double[(int)len][2];
for (long fno = 0; fno < len; fno++) { for (long fno = 0; fno < len; fno++) {
@@ -997,22 +913,22 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
int right = (rh << 16) | (rm << 8) | rl; int right = (rh << 16) | (rm << 8) | rl;
if ((left & 0x800000) == 0x800000) left |= 0xFF000000; if ((left & 0x800000) == 0x800000) left |= 0xFF000000;
if ((right & 0x800000) == 0x800000) right |= 0xFF000000; if ((right & 0x800000) == 0x800000) right |= 0xFF000000;
sample = (left + right) / 2; samples[(int)fno][LEFT] = (double)left / 8388608d;
samples[(int)fno][RIGHT] = (double)right / 8388608d;
} else { } else {
int l = frame[0] >= 0 ? frame[0] : 256 + frame[0]; int l = frame[0] >= 0 ? frame[0] : 256 + frame[0];
int m = frame[1] >= 0 ? frame[1] : 256 + frame[1]; int m = frame[1] >= 0 ? frame[1] : 256 + frame[1];
int h = frame[2] >= 0 ? frame[2] : 256 + frame[2]; int h = frame[2] >= 0 ? frame[2] : 256 + frame[2];
sample = (h << 16) | (m << 8) | l; int mono = (h << 16) | (m << 8) | l;
if ((sample & 0x800000) == 0x800000) sample |= 0xFF000000; if ((mono & 0x800000) == 0x800000) mono |= 0xFF000000;
samples[(int)fno][LEFT] = (double)mono / 8388608d;
samples[(int)fno][RIGHT] = (double)mono / 8388608d;
} }
samples[(int)fno] = (double)sample / 8388608d;
} }
return samples; return samples;
} }
public void loadFile() { public void loadFile() {
if (audioData != null) return; if (audioData != null) return;
@@ -1021,7 +937,7 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
AudioInputStream s = AudioSystem.getAudioInputStream(f); AudioInputStream s = AudioSystem.getAudioInputStream(f);
AudioFormat format = getAudioFormat(); AudioFormat format = getAudioFormat();
double[] samples = null; double[][] samples = null;
switch (format.getSampleSizeInBits()) { switch (format.getSampleSizeInBits()) {
case 16: case 16:
@@ -1040,84 +956,101 @@ public class Sentence extends DefaultMutableTreeNode implements Cacheable {
} }
} }
public double[] getProcessedAudioData() { synchronized public double[][] getRawAudioData() {
loadFile(); loadFile();
return audioData;
}
synchronized public double[][] getProcessedAudioData() {
loadFile();
// if (processedAudio != null) return processedAudio;
if (audioData == null) return null; if (audioData == null) return null;
double[] samples = new double[audioData.length]; double[][] processedAudio = new double[audioData.length][2];
for (int i = 0; i < audioData.length; i++) { for (int i = 0; i < audioData.length; i++) {
samples[i] = audioData[i]; processedAudio[i][LEFT] = audioData[i][LEFT];
processedAudio[i][RIGHT] = audioData[i][RIGHT];
} }
// Add processing in here. // Add processing in here.
if (effectChain == null) effectChain = AudiobookRecorder.window.defaultEffectChain;
Effect eff = AudiobookRecorder.window.effects.get(effectChain); String def = AudiobookRecorder.window.getDefaultEffectsChain();
if (eff == null) { Effect eff = AudiobookRecorder.window.effects.get(def);
effectChain = AudiobookRecorder.window.defaultEffectChain;
eff = AudiobookRecorder.window.effects.get(effectChain);
}
if (eff != null) { if (eff != null) {
eff.init(getAudioFormat().getFrameRate()); eff.init(getAudioFormat().getFrameRate());
for (int i = 0; i < samples.length; i++) { eff.process(processedAudio);
samples[i] = eff.process(samples[i]);
}
} }
// Cuts out the computer hum. if (effectChain != null) {
// Biquad bq = new Biquad(Biquad.Notch, 140d/44100d, 20.0d, -50); // Don't double up the default chain
// DelayLine dl = new DelayLine(); if (!effectChain.equals(def)) {
// dl.addDelayLine(2205, 0.8); eff = AudiobookRecorder.window.effects.get(effectChain);
// dl.addDelayLine(4410, 0.4); if (eff != null) {
// dl.addDelayLine(6615, 0.2); eff.init(getAudioFormat().getFrameRate());
eff.process(processedAudio);
}
}
}
// Add final master gain stage // Add final master gain stage
for (int i = 0; i < samples.length; i++) { for (int i = 0; i < processedAudio.length; i++) {
samples[i] = samples[i] * gain; processedAudio[i][LEFT] *= gain;
processedAudio[i][RIGHT] *= gain;
} }
return samples; return processedAudio;
} }
public double[] getDoubleAudioData() { public double[][] getDoubleAudioData() {
return getProcessedAudioData(); return getProcessedAudioData();
} }
public double[] getCroppedAudioData() { public double[][] getCroppedAudioData() {
double[] inSamples = getDoubleAudioData(); double[][] inSamples = getDoubleAudioData();
if (inSamples == null) return null; if (inSamples == null) return null;
updateCrossings(); updateCrossings();
int length = crossEndOffset - crossStartOffset; int length = crossEndOffset - crossStartOffset;
double[] samples = new double[length]; double[][] samples = new double[length][2];
for (int i = 0; i < length; i++) { for (int i = 0; i < length; i++) {
samples[i] = inSamples[crossStartOffset + i]; samples[i][LEFT] = inSamples[crossStartOffset + i][LEFT];
samples[i][RIGHT] = inSamples[crossStartOffset + i][RIGHT];
} }
return samples; return samples;
} }
public byte[] getPCMData() { public byte[] getPCMData() {
double[] croppedData = getCroppedAudioData(); double[][] croppedData = getCroppedAudioData();
if (croppedData == null) return null; if (croppedData == null) return null;
int length = croppedData.length; int length = croppedData.length;
byte[] pcmData = new byte[length * 2]; byte[] pcmData = new byte[length * 4];
for (int i = 0; i < length; i++) { for (int i = 0; i < length; i++) {
double sd = croppedData[i] * 32768d; double sd = croppedData[i][LEFT] * 32768d;
int si = (int)sd; int si = (int)sd;
if (si > 32767) si = 32767; if (si > 32767) si = 32767;
if (si < -32768) si = -32768; if (si < -32768) si = -32768;
pcmData[i * 2] = (byte)(si & 0xFF); pcmData[i * 4] = (byte)(si & 0xFF);
pcmData[(i * 2) + 1] = (byte)((si & 0xFF00) >> 8); pcmData[(i * 4) + 1] = (byte)((si & 0xFF00) >> 8);
sd = croppedData[i][RIGHT] * 32768d;
si = (int)sd;
if (si > 32767) si = 32767;
if (si < -32768) si = -32768;
pcmData[(i * 4) + 2] = (byte)(si & 0xFF);
pcmData[(i * 4) + 3] = (byte)((si & 0xFF00) >> 8);
} }
return pcmData; return pcmData;
} }
public void setEffectChain(String key) { public void setEffectChain(String key) {
if ((effectChain != null) && (!effectChain.equals(key))) {
clearCache();
}
effectChain = key; effectChain = key;
} }
public String getEffectChain() { public String getEffectChain() {
if (effectChain == null) return AudiobookRecorder.window.defaultEffectChain; if (effectChain == null) return "none";
return effectChain; return effectChain;
} }
} }

6
src/uk/co/majenko/audiobookrecorder/Waveform.java
View File

@@ -9,7 +9,7 @@ import javax.sound.sampled.*;
public class Waveform extends JPanel implements MouseListener, MouseMotionListener { public class Waveform extends JPanel implements MouseListener, MouseMotionListener {
double[] samples = null; double[][] samples = null;
int leftMarker = 0; int leftMarker = 0;
int rightMarker = 0; int rightMarker = 0;
@@ -92,7 +92,7 @@ public class Waveform extends JPanel implements MouseListener, MouseMotionListen
double lmax = 0; double lmax = 0;
for (int o = 0; o < step; o++) { for (int o = 0; o < step; o++) {
double sample = samples[offset + (n * step) + o]; double sample = (samples[offset + (n * step) + o][Sentence.LEFT] + samples[offset + (n * step) + o][Sentence.RIGHT]) / 2d;
if (sample >= 0) { if (sample >= 0) {
have += sample; have += sample;
hcnt++; hcnt++;
@@ -189,7 +189,7 @@ public class Waveform extends JPanel implements MouseListener, MouseMotionListen
repaint(); repaint();
} }
public void setData(double[] s) { public void setData(double[][] s) {
samples = s; samples = s;
playMarker = 0; playMarker = 0;
repaint(); repaint();