Jaffree stands for JAva FFmpeg and FFprobe FREE command line wrapper. Jaffree supports programmatic video production and consumption (with transparency)
It integrates with ffmpeg via java.lang.Process
.
Inspired by ffmpeg-cli-wrapper
Tested with the help of GitHub Actions
OS: Ubuntu, MacOS, Windows
JDK: 8, 11, 14
<dependency>
<groupId>com.github.kokorin.jaffree</groupId>
<artifactId>jaffree</artifactId>
<version>${jaffree.version}</version>
</dependency>
<!--
You should also include slf4j into dependencies.
This is done intentionally to allow changing of slf4j version.
-->
<dependency>
<groupId>org.slf4j</groupId>
<artifactId>slf4j-api</artifactId>
<version>1.7.25</version>
</dependency>
See whole example here.
FFprobeResult result = FFprobe.atPath()
.setShowStreams(true)
.setInput(pathToVideo)
.execute();
for (Stream stream : result.getStreams()) {
System.out.println("Stream #" + stream.getIndex()
+ " type: " + stream.getCodecType()
+ " duration: " + stream.getDuration() + " seconds");
}
Sometimes ffprobe can't show exact duration, use ffmpeg trancoding to NULL output to get it.
See whole example here.
final AtomicLong durationMillis = new AtomicLong();
FFmpegResult ffmpegResult = FFmpeg.atPath()
.addInput(
UrlInput.fromUrl(pathToVideo)
)
.addOutput(new NullOutput())
.setProgressListener(new ProgressListener() {
@Override
public void onProgress(FFmpegProgress progress) {
durationMillis.set(progress.getTimeMillis());
}
})
.execute();
System.out.println("Exact duration: " + durationMillis.get() + " milliseconds");
See whole example here.
final AtomicLong duration = new AtomicLong();
FFmpeg.atPath()
.addInput(UrlInput.fromUrl(pathToSrc))
.setOverwriteOutput(true)
.addOutput(new NullOutput())
.setProgressListener(new ProgressListener() {
@Override
public void onProgress(FFmpegProgress progress) {
duration.set(progress.getTimeMillis());
}
})
.execute();
FFmpeg.atPath()
.addInput(UrlInput.fromUrl(pathToSrc))
.setOverwriteOutput(true)
.addArguments("-movflags", "faststart")
.addOutput(UrlOutput.toUrl(pathToDst))
.setProgressListener(new ProgressListener() {
@Override
public void onProgress(FFmpegProgress progress) {
double percents = 100. * progress.getTimeMillis() / duration.get();
System.out.println("Progress: " + percents + "%");
}
})
.execute();
Pay attention that arguments related to Input must be set at Input, not at FFmpeg.
See whole example here.
FFmpeg.atPath()
.addInput(
UrlInput.fromUrl(pathToSrc)
.setPosition(10, TimeUnit.SECONDS)
.setDuration(42, TimeUnit.SECONDS)
)
.setFilter(StreamType.VIDEO, "scale=160:-2")
.setOverwriteOutput(true)
.addArguments("-movflags", "faststart")
.addOutput(
UrlOutput.toUrl(pathToDst)
.setPosition(10, TimeUnit.SECONDS)
)
.execute();
See whole example here.
// StringBuffer - because it's thread safe
final StringBuffer loudnormReport = new StringBuffer();
FFmpeg.atPath()
.addInput(UrlInput.fromUrl(pathToVideo))
.addArguments("-af", "loudnorm=I=-16:TP=-1.5:LRA=11:print_format=json")
.addOutput(new NullOutput(false))
.setOutputListener(new OutputListener() {
@Override
public void onOutput(String line) {
loudnormReport.append(line);
}
})
.execute();
System.out.println("Loudnorm report:\n" + loudnormReport);
Ability to interact with SeekableByteChannel is one of the features, which distinct Jaffree from similar libraries. Under the hood Jaffree uses tiny FTP server to interact with SeekableByteChannel.
See whole example here.
try (SeekableByteChannel inputChannel =
Files.newByteChannel(pathToSrc, StandardOpenOption.READ);
SeekableByteChannel outputChannel =
Files.newByteChannel(pathToDst, StandardOpenOption.CREATE,
StandardOpenOption.WRITE, StandardOpenOption.READ,
StandardOpenOption.TRUNCATE_EXISTING)
) {
FFmpeg.atPath()
.addInput(ChannelInput.fromChannel(inputChannel))
.addOutput(ChannelOutput.toChannel(filename, outputChannel))
.execute();
}
Notice It's recommended to use ChannelInput
& ChannelOutput
since ffmpeg leverage seeking in input and
requires seekable output for many formats.
Under the hood pipes are not OS pipes, but TCP Sockets. This allows much higher bandwidth.
See whole example here.
try (InputStream inputStream =
Files.newInputStream(pathToSrc);
OutputStream outputStream =
Files.newOutputStream(pathToDst, StandardOpenOption.CREATE,
StandardOpenOption.WRITE, StandardOpenOption.TRUNCATE_EXISTING)
) {
FFmpeg.atPath()
.addInput(PipeInput.pumpFrom(inputStream))
.addOutput(
PipeOutput.pumpTo(outputStream)
.setFormat("flv")
)
.execute();
}
See whole example here.
FFmpeg.atPath()
.addInput(CaptureInput
.captureDesktop()
.setCaptureFrameRate(30)
.setCaptureCursor(true)
)
.addOutput(UrlOutput
.toPath(pathToVideo)
// Record with ultrafast to lower CPU usage
.addArguments("-preset", "ultrafast")
.setDuration(30, TimeUnit.SECONDS)
)
.setOverwriteOutput(true)
.execute();
//Re-encode when record is completed to optimize file size
Path pathToOptimized = pathToVideo.resolveSibling("optimized-" + pathToVideo.getFileName());
FFmpeg.atPath()
.addInput(UrlInput.fromPath(pathToVideo))
.addOutput(UrlOutput.toPath(pathToOptimized))
.execute();
Files.move(pathToOptimized, pathToVideo, StandardCopyOption.REPLACE_EXISTING);
See whole example here. Check also more advanced example which produce both audio and video
FrameProducer producer = new FrameProducer() {
private long frameCounter = 0;
@Override
public List<Stream> produceStreams() {
return Collections.singletonList(new Stream()
.setType(Stream.Type.VIDEO)
.setTimebase(1000L)
.setWidth(320)
.setHeight(240)
);
}
@Override
public Frame produce() {
if (frameCounter > 30) {
return null; // return null when End of Stream is reached
}
BufferedImage image = new BufferedImage(320, 240, BufferedImage.TYPE_3BYTE_BGR);
Graphics2D graphics = image.createGraphics();
graphics.setPaint(new Color(frameCounter * 1.0f / 30, 0, 0));
graphics.fillRect(0, 0, 320, 240);
long pts = frameCounter * 1000 / 10; // Frame PTS in Stream Timebase
Frame videoFrame = Frame.createVideoFrame(0, pts, image);
frameCounter++;
return videoFrame;
}
};
FFmpeg.atPath()
.addInput(FrameInput.withProducer(producer))
.addOutput(UrlOutput.toUrl(pathToVideo))
.execute();
Here is an output of the above example:
See whole example here.
FFmpeg.atPath()
.addInput(UrlInput
.fromPath(pathToSrc)
)
.addOutput(FrameOutput
.withConsumer(
new FrameConsumer() {
private long num = 1;
@Override
public void consumeStreams(List<Stream> streams) {
// All stream type except video are disabled. just ignore
}
@Override
public void consume(Frame frame) {
// End of Stream
if (frame == null) {
return;
}
try {
String filename = "frame_" + num++ + ".png";
Path output = pathToDstDir.resolve(filename);
ImageIO.write(frame.getImage(), "png", output.toFile());
} catch (Exception e) {
e.printStackTrace();
}
}
}
)
// No more then 100 frames
.setFrameCount(StreamType.VIDEO, 100L)
// 1 frame every 10 seconds
.setFrameRate(0.1)
// Disable all streams except video
.disableStream(StreamType.AUDIO)
.disableStream(StreamType.SUBTITLE)
.disableStream(StreamType.DATA)
)
.execute();
See whole examples here.
Start ffmpeg with FFmpeg#executeAsync
and stop it with FFmpegResultFuture#graceStop
(ffmpeg only).
This will pass q
symbol to ffmpeg's stdin.
Note output media finalization may take some time - up to several seconds.
FFmpegResultFuture future = ffmpeg.executeAsync();
Thread.sleep(5_000);
future.graceStop();
There are 3 ways to stop ffmpeg forcefully.
Note: ffmpeg may not (depending on output format) correctly finalize output. It's very likely that produced media will be corrupted with force stop.
- Throw an exception in
ProgressListener
(ffmpeg only)
final AtomicBoolean stopped = new AtomicBoolean();
ffmpeg.setProgressListener(
new ProgressListener() {
@Override
public void onProgress(FFmpegProgress progress) {
if (stopped.get()) {
throw new RuntimeException("Stopped with exception!");
}
}
}
);
- Start ffmpeg with
FFmpeg#executeAsync
and stop it withFFmpegResultFuture#forceStop
(ffmpeg only)
FFmpegResultFuture future = ffmpeg.executeAsync();
Thread.sleep(5_000);
future.forceStop();
- Start ffmpeg with
FFmpeg#execute
(or ffprobe withFFprobe#execute
) and interrupt thread
Thread thread = new Thread() {
@Override
public void run() {
ffmpeg.execute();
}
};
thread.start();
Thread.sleep(5_000);
thread.interrupt();
See whole examples here.
ffmpeg.executeAsync().toCompletableFuture()
.thenAccept(res -> {
// get the result of the operation when it is done
})
.exceptionally(ex -> {
// handle exceptions produced during operation
});
More details about this example can be found on ffmpeg wiki: Create a mosaic out of several input videos
FFmpegResult result = FFmpeg.atPath(BIN)
.addInput(UrlInput.fromPath(VIDEO1_MP4).setDuration(10, TimeUnit.SECONDS))
.addInput(UrlInput.fromPath(VIDEO2_MP4).setDuration(10, TimeUnit.SECONDS))
.addInput(UrlInput.fromPath(VIDEO3_MP4).setDuration(10, TimeUnit.SECONDS))
.addInput(UrlInput.fromPath(VIDEO4_MP4).setDuration(10, TimeUnit.SECONDS))
.setComplexFilter(FilterGraph.of(
FilterChain.of(
Filter.withName("nullsrc")
.addArgument("size", "640x480")
.addOutputLink("base")
),
FilterChain.of(
Filter.fromInputLink(StreamSpecifier.withInputIndexAndType(0, StreamType.ALL_VIDEO))
.setName("setpts")
.addArgument("PTS-STARTPTS"),
Filter.withName("scale")
.addArgument("320x240")
.addOutputLink("upperleft")
),
FilterChain.of(
Filter.fromInputLink(StreamSpecifier.withInputIndexAndType(1, StreamType.ALL_VIDEO))
.setName("setpts")
.addArgument("PTS-STARTPTS"),
Filter.withName("scale")
.addArgument("320x240")
.addOutputLink("upperright")
),
FilterChain.of(
Filter.fromInputLink(StreamSpecifier.withInputIndexAndType(2, StreamType.ALL_VIDEO))
.setName("setpts")
.addArgument("PTS-STARTPTS"),
Filter.withName("scale")
.addArgument("320x240")
.addOutputLink("lowerleft")
),
FilterChain.of(
Filter.fromInputLink(StreamSpecifier.withInputIndexAndType(3, StreamType.ALL_VIDEO))
.setName("setpts")
.addArgument("PTS-STARTPTS"),
Filter.withName("scale")
.addArgument("320x240")
.addOutputLink("lowerright")
),
FilterChain.of(
Filter.fromInputLink("base")
.addInputLink("upperleft")
.setName("overlay")
.addArgument("shortest", "1")
.addOutputLink("tmp1")
),
FilterChain.of(
Filter.fromInputLink("tmp1")
.addInputLink("upperright")
.setName("overlay")
//.addArgument("shortest", "1")
.addArgument("x", "320")
.addOutputLink("tmp2")
),
FilterChain.of(
Filter.fromInputLink("tmp2")
.addInputLink("lowerleft")
.setName("overlay")
//.addArgument("shortest", "1")
.addArgument("y", "240")
.addOutputLink("tmp3")
),
FilterChain.of(
Filter.fromInputLink("tmp3")
.addInputLink("lowerright")
.setName("overlay")
//.addArgument("shortest", "1")
.addArgument("x", "320")
.addArgument("y", "240")
)
))
.addOutput(UrlOutput.toPath(outputPath))
.execute();
Jaffree allows simultaneous reading from several sources (with one instance per every source and target). You can find details in Mosaic example.
This project uses maven-git-versioning-extension to set project version automatically. Check its intellij-setup documentation.
JDK8 is required to compile this project. JDK9 is required to compile this project with Java 9 module support.
mvn clean install
Maven profile J9-module
enables two pass compilation:
- Compile all sources with Java 9 target version (including
module-info.java
). - Recompile all sources (except
module-info.java
) with Java 8 target version.
After this all classes will have Java 8 bytecode (version 52), while module-info.class
will have Java 9 bytecode (version 53).
mvn clean install -PJ9-module