An Object-Oriented library to convert video/audio files with FFmpeg / AVConv.
Check another amazing repo: PHP FFMpeg extras, you will find lots of Audio/Video formats there.
This library requires a working FFMpeg install. You will need both FFMpeg and FFProbe binaries to use it. Be sure that these binaries can be located with system PATH to get the benefit of the binary detection, otherwise you should have to explicitly give the binaries path on load.
For Windows users: Please find the binaries at http://ffmpeg.zeranoe.com/builds/.
- Using rotate and resize will produce a corrupted output when using libav 0.8. The bug is fixed in version 9. This bug does not appear in latest ffmpeg version.
The recommended way to install PHP-FFMpeg is through Composer.
$ composer require php-ffmpeg/php-ffmpeg
require 'vendor/autoload.php';
$ffmpeg = FFMpeg\FFMpeg::create();
$video = $ffmpeg->open('video.mpg');
$video
->filters()
->resize(new FFMpeg\Coordinate\Dimension(320, 240))
->synchronize();
$video
->frame(FFMpeg\Coordinate\TimeCode::fromSeconds(10))
->save('frame.jpg');
$video
->save(new FFMpeg\Format\Video\X264(), 'export-x264.mp4')
->save(new FFMpeg\Format\Video\WMV(), 'export-wmv.wmv')
->save(new FFMpeg\Format\Video\WebM(), 'export-webm.webm');
This documentation is an introduction to discover the API. It's recommended to browse the source code as it is self-documented.
FFMpeg\FFMpeg
is the main object to use to manipulate medias. To build it,
use the static FFMpeg\FFMpeg::create
:
$ffmpeg = FFMpeg\FFMpeg::create();
FFMpeg will autodetect ffmpeg and ffprobe binaries. If you want to give binary
paths explicitly, you can pass an array as configuration. A Psr\Logger\LoggerInterface
can also be passed to log binary executions.
$ffmpeg = FFMpeg\FFMpeg::create(array(
'ffmpeg.binaries' => '/opt/local/ffmpeg/bin/ffmpeg',
'ffprobe.binaries' => '/opt/local/ffmpeg/bin/ffprobe',
'timeout' => 3600, // The timeout for the underlying process
'ffmpeg.threads' => 12, // The number of threads that FFMpeg should use
), $logger);
FFMpeg\FFMpeg
creates media based on URIs. URIs could be either a pointer to a
local filesystem resource, an HTTP resource or any resource supported by FFmpeg.
Note: To list all supported resource type of your FFmpeg build, use the
-protocols
command:
ffmpeg -protocols
To open a resource, use the FFMpeg\FFMpeg::open
method.
$ffmpeg->open('video.mpeg');
Two types of media can be resolved: FFMpeg\Media\Audio
and FFMpeg\Media\Video
.
A third type, FFMpeg\Media\Frame
, is available through videos.
FFMpeg\Media\Video
can be transcoded, ie: change codec, isolate audio or
video. Frames can be extracted.
You can transcode videos using the FFMpeg\Media\Video:save
method. You will
pass a FFMpeg\Format\FormatInterface
for that.
Please note that audio and video bitrate are set on the format.
$format = new FFMpeg\Format\Video\X264();
$format->on('progress', function ($video, $format, $percentage) {
echo "$percentage % transcoded";
});
$format
->setKiloBitrate(1000)
->setAudioChannels(2)
->setAudioKiloBitrate(256);
$video->save($format, 'video.avi');
Transcoding progress can be monitored in realtime, see Format documentation below for more information.
You can extract a frame at any timecode using the FFMpeg\Media\Video::frame
method.
This code returns a FFMpeg\Media\Frame
instance corresponding to the second 42.
You can pass any FFMpeg\Coordinate\TimeCode
as argument, see dedicated
documentation below for more information.
$frame = $video->frame(FFMpeg\Coordinate\TimeCode::fromSeconds(42));
$frame->save('image.jpg');
If you want to extract multiple images from the video, you can use the following filter:
$video
->filters()
->extractMultipleFrames(FFMpeg\Filters\Video\ExtractMultipleFramesFilter::FRAMERATE_EVERY_10SEC, '/path/to/destination/folder/')
->synchronize();
$video
->save(new FFMpeg\Format\Video\X264(), '/path/to/new/file');
By default, this will save the frames as jpg
images.
You are able to override this using setFrameFileType
to save the frames in another format:
$frameFileType = 'jpg'; // either 'jpg', 'jpeg' or 'png'
$filter = new ExtractMultipleFramesFilter($frameRate, $destinationFolder);
$filter->setFrameFileType($frameFileType);
$video->addFilter($filter);
Cuts the video at a desired point. Use input seeking method. It is faster option than use filter clip.
$clip = $video->clip(FFMpeg\Coordinate\TimeCode::fromSeconds(30), FFMpeg\Coordinate\TimeCode::fromSeconds(15));
$clip->save(new FFMpeg\Format\Video\X264(), 'video.avi');
The clip filter takes two parameters:
$start
, an instance ofFFMpeg\Coordinate\TimeCode
, specifies the start point of the clip$duration
, optional, an instance ofFFMpeg\Coordinate\TimeCode
, specifies the duration of the clip
On clip you can apply same filters as on video. For example resizing filter.
$clip = $video->clip(FFMpeg\Coordinate\TimeCode::fromSeconds(30), FFMpeg\Coordinate\TimeCode::fromSeconds(15));
$clip->filters()->resize(new FFMpeg\Coordinate\Dimension(320, 240), FFMpeg\Filters\Video\ResizeFilter::RESIZEMODE_INSET, true);
$clip->save(new FFMpeg\Format\Video\X264(), 'video.avi');
You can generate a waveform of an audio file using the FFMpeg\Media\Audio::waveform
method.
This code returns a FFMpeg\Media\Waveform
instance.
You can optionally pass dimensions as the first two arguments and an array of hex string colors for ffmpeg to use for the waveform, see dedicated
documentation below for more information.
The output file MUST use the PNG extension.
$waveform = $audio->waveform(640, 120, array('#00FF00'));
$waveform->save('waveform.png');
If you want to get a waveform from a video, convert it in an audio file first.
// Open your video file
$video = $ffmpeg->open( 'video.mp4' );
// Set an audio format
$audio_format = new FFMpeg\Format\Audio\Mp3();
// Extract the audio into a new file as mp3
$video->save($audio_format, 'audio.mp3');
// Set the audio file
$audio = $ffmpeg->open( 'audio.mp3' );
// Create the waveform
$waveform = $audio->waveform();
$waveform->save( 'waveform.png' );
You can apply filters on FFMpeg\Media\Video
with the FFMpeg\Media\Video::addFilter
method. Video accepts Audio and Video filters.
You can build your own filters and some are bundled in PHP-FFMpeg - they are
accessible through the FFMpeg\Media\Video::filters
method.
Filters are chainable
$video
->filters()
->resize($dimension, $mode, $useStandards)
->framerate($framerate, $gop)
->synchronize();
Rotates a video to a given angle.
$video->filters()->rotate($angle);
The $angle
parameter must be one of the following constants :
FFMpeg\Filters\Video\RotateFilter::ROTATE_90
: 90° clockwiseFFMpeg\Filters\Video\RotateFilter::ROTATE_180
: 180°FFMpeg\Filters\Video\RotateFilter::ROTATE_270
: 90° counterclockwise
Resizes a video to a given size.
$video->filters()->resize($dimension, $mode, $useStandards);
The resize filter takes three parameters:
$dimension
, an instance ofFFMpeg\Coordinate\Dimension
$mode
, one of the constantsFFMpeg\Filters\Video\ResizeFilter::RESIZEMODE_*
constants$useStandards
, a boolean to force the use of the nearest aspect ratio standard.
If you want a video in a non-standard ratio, you can use the padding filter to resize your video in the desired size, and wrap it into black bars.
$video->filters()->pad($dimension);
The pad filter takes one parameter:
$dimension
, an instance ofFFMpeg\Coordinate\Dimension
Don't forget to save it afterwards.
$video->save(new FFMpeg\Format\Video\X264(), $new_file);
Watermark a video with a given image.
$video
->filters()
->watermark($watermarkPath, array(
'position' => 'relative',
'bottom' => 50,
'right' => 50,
));
The watermark filter takes two parameters:
$watermarkPath
, the path to your watermark file.
$coordinates
, an array defining how you want your watermark positioned. You can use relative positioning as demonstrated above or absolute as such:
$video
->filters()
->watermark($watermarkPath, array(
'position' => 'absolute',
'x' => 1180,
'y' => 620,
));
Changes the frame rate of the video.
$video->filters()->framerate($framerate, $gop);
The framerate filter takes two parameters:
$framerate
, an instance ofFFMpeg\Coordinate\FrameRate
$gop
, a GOP value (integer)
Synchronizes audio and video.
Some containers may use a delay that results in desynchronized outputs. This filter solves this issue.
$video->filters()->synchronize();
Cuts the video at a desired point.
$video->filters()->clip(FFMpeg\Coordinate\TimeCode::fromSeconds(30), FFMpeg\Coordinate\TimeCode::fromSeconds(15));
The clip filter takes two parameters:
$start
, an instance ofFFMpeg\Coordinate\TimeCode
, specifies the start point of the clip$duration
, optional, an instance ofFFMpeg\Coordinate\TimeCode
, specifies the duration of the clip
Crops the video based on a width and height(a Point
)
$video->filters()->crop(new FFMpeg\Coordinate\Point("t*100", 0, true), new FFMpeg\Coordinate\Dimension(200, 600));
It takes two parameters:
$point
, an instance ofFFMpeg\Coordinate\Point
, specifies the point to crop$dimension
, an instance ofFFMpeg\Coordinate\Dimension
, specifies the dimension of the output video
FFMpeg\Media\Audio
can be transcoded too, ie: change codec, isolate audio or
video. Frames can be extracted.
You can transcode audios using the FFMpeg\Media\Audio:save
method. You will
pass a FFMpeg\Format\FormatInterface
for that.
Please note that audio kilobitrate is set on the audio format.
$ffmpeg = FFMpeg\FFMpeg::create();
$audio = $ffmpeg->open('track.mp3');
$format = new FFMpeg\Format\Audio\Flac();
$format->on('progress', function ($audio, $format, $percentage) {
echo "$percentage % transcoded";
});
$format
->setAudioChannels(2)
->setAudioKiloBitrate(256);
$audio->save($format, 'track.flac');
Transcoding progress can be monitored in realtime, see Format documentation below for more information.
You can apply filters on FFMpeg\Media\Audio
with the FFMpeg\Media\Audio::addFilter
method. It only accepts audio filters.
You can build your own filters and some are bundled in PHP-FFMpeg - they are
accessible through the FFMpeg\Media\Audio::filters
method.
Cuts the audio at a desired point.
$audio->filters()->clip(FFMpeg\Coordinate\TimeCode::fromSeconds(30), FFMpeg\Coordinate\TimeCode::fromSeconds(15));
Add metadata to audio files. Just pass an array of key=value pairs of all metadata you would like to add. If no arguments are passed into the filter all metadata will be removed from input file. Currently supported data is title, artist, album, artist, composer, track, year, description, artwork
$audio->filters()->addMetadata(["title" => "Some Title", "track" => 1]);
//remove all metadata and video streams from audio file
$audio->filters()->addMetadata();
Add artwork to the audio file
$audio->filters()->addMetadata(["artwork" => "/path/to/image/file.jpg"]);
NOTE: at present ffmpeg (version 3.2.2) only supports artwork output for .mp3 files
Resamples an audio file.
$audio->filters()->resample($rate);
The resample filter takes two parameters :
$rate
, a valid audio sample rate value (integer)
A frame is an image at a timecode of a video; see documentation above about frame extraction.
You can save frames using the FFMpeg\Media\Frame::save
method.
$frame->save('target.jpg');
This method has a second optional boolean parameter. Set it to true to get accurate images; it takes more time to execute.
A gif is an animated image extracted from a sequence of the video.
You can save gif files using the FFMpeg\Media\Gif::save
method.
$video = $ffmpeg->open( '/path/to/video' );
$video
->gif(FFMpeg\Coordinate\TimeCode::fromSeconds(2), new FFMpeg\Coordinate\Dimension(640, 480), 3)
->save($new_file);
This method has a third optional boolean parameter, which is the duration of the animation. If you don't set it, you will get a fixed gif image.
This feature allows you to generate one audio or video file, based on multiple sources.
There are two ways to concatenate videos, depending on the codecs of the sources.
If your sources have all been encoded with the same codec, you will want to use the FFMpeg\Media\Concatenate::saveFromSameCodecs
which has way better performances.
If your sources have been encoded with different codecs, you will want to use the FFMpeg\Media\Concatenate::saveFromDifferentCodecs
.
The first function will use the initial codec as the one for the generated file. With the second function, you will be able to choose which codec you want for the generated file.
You also need to pay attention to the fact that, when using the saveFromDifferentCodecs method, your files MUST have video and audio streams.
In both cases, you will have to provide an array of files.
To concatenate videos encoded with the same codec, do as follow:
// In order to instantiate the video object, you HAVE TO pass a path to a valid video file.
// We recommend that you put there the path of any of the video you want to use in this concatenation.
$video = $ffmpeg->open( '/path/to/video' );
$video
->concat(array('/path/to/video1', '/path/to/video2'))
->saveFromSameCodecs('/path/to/new_file', TRUE);
The boolean parameter of the save function allows you to use the copy parameter which accelerates drastically the generation of the encoded file.
To concatenate videos encoded with the same codec, do as follow:
// In order to instantiate the video object, you HAVE TO pass a path to a valid video file.
// We recommend that you put there the path of any of the video you want to use in this concatenation.
$video = $ffmpeg->open( '/path/to/video' );
$format = new FFMpeg\Format\Video\X264();
$format->setAudioCodec("libmp3lame");
$video
->concat(array('/path/to/video1', '/path/to/video2'))
->saveFromDifferentCodecs($format, '/path/to/new_file');
More details about concatenation in FFMPEG can be found here, here and here.
AdvancedMedia may have multiple inputs and multiple outputs.
This class has been developed primarily to use with -filter_complex
.
So, its filters()
method accepts only filters that can be used inside -filter_complex
command.
AdvancedMedia already contains some built-in filters.
For example:
$advancedMedia = $ffmpeg->openAdvanced(array('video_1.mp4', 'video_2.mp4'));
$advancedMedia->filters()
->custom('[0:v][1:v]', 'hstack', '[v]');
$advancedMedia
->map(array('0:a', '[v]'), new X264('aac', 'libx264'), 'output.mp4')
->save();
This code takes 2 input videos, stacks they horizontally in 1 output video and adds to this new video the audio from the first video. (It is impossible with simple filtergraph that has only 1 input and only 1 output).
A more difficult example of possibilities of the AdvancedMedia. Consider all input videos already have the same resolution and duration. ("xstack" filter has been added in the 4.1 version of the ffmpeg).
$inputs = array(
'video_1.mp4',
'video_2.mp4',
'video_3.mp4',
'video_4.mp4',
);
$advancedMedia = $ffmpeg->openAdvanced($inputs);
$advancedMedia->filters()
->custom('[0:v]', 'negate', '[v0negate]')
->custom('[1:v]', 'edgedetect', '[v1edgedetect]')
->custom('[2:v]', 'hflip', '[v2hflip]')
->custom('[3:v]', 'vflip', '[v3vflip]')
->xStack('[v0negate][v1edgedetect][v2hflip][v3vflip]', XStackFilter::LAYOUT_2X2, 4, '[resultv]');
$advancedMedia
->map(array('0:a'), new Mp3(), 'video_1.mp3')
->map(array('1:a'), new Flac(), 'video_2.flac')
->map(array('2:a'), new Wav(), 'video_3.wav')
->map(array('3:a'), new Aac(), 'video_4.aac')
->map(array('[resultv]'), new X264('aac', 'libx264'), 'output.mp4')
->save();
This code takes 4 input videos, then the negates the first video, stores result in [v0negate]
stream, detects edges in the second video, stores result in [v1edgedetect]
stream, horizontally flips the third video, stores result in [v2hflip]
stream, vertically flips the fourth video, stores result in [v3vflip]
stream, then takes this 4 generated streams ans combine them in one 2x2 collage video.
Then saves audios from the original videos into the 4 different formats and saves the generated collage video into the separate file.
As you can see, you can take multiple input sources, perform the complicated processing for them and produce multiple output files in the same time, in the one ffmpeg command.
You do not have to use -filter_complex
. You can use only -map
options. For example, just extract the audio from the video:
$advancedMedia = $ffmpeg->openAdvanced(array('video.mp4'));
$advancedMedia
->map(array('0:a'), new Mp3(), 'output.mp3')
->save();
If you need you can extra customize the result ffmpeg command of the AdvancedMedia:
$advancedMedia = $ffmpeg->openAdvanced($inputs);
$advancedMedia
->setInitialParameters(array('the', 'params', 'that', 'will', 'be', 'added', 'before', '-i', 'part', 'of', 'the', 'command'))
->setAdditionalParameters(array('the', 'params', 'that', 'will', 'be', 'added', 'at', 'the', 'end', 'of', 'the', 'command'));
A format implements FFMpeg\Format\FormatInterface
. To save to a video file,
use FFMpeg\Format\VideoInterface
, and FFMpeg\Format\AudioInterface
for
audio files.
A format can also extend FFMpeg\Format\ProgressableInterface
to get realtime
information about the transcoding.
Predefined formats already provide progress information as events.
$format = new FFMpeg\Format\Video\X264();
$format->on('progress', function ($video, $format, $percentage) {
echo "$percentage % transcoded";
});
$video->save($format, 'video.avi');
The callback provided for the event can be any callable.
You can add additional parameters to your encoding requests based on your video format.
The argument of the setAdditionalParameters method is an array.
$format = new FFMpeg\Format\Video\X264();
$format->setAdditionalParameters(array('foo', 'bar'));
$video->save($format, 'video.avi');
You can also add initial parameters to your encoding requests based on your video format. This can be expecially handy in overriding a default input codec in FFMpeg.
The argument of the setInitialParameters method is an array.
$format = new FFMpeg\Format\Video\X264();
$format->setInitialParameters(array('-acodec', 'libopus'));
$video->save($format, 'video.avi');
The easiest way to create a format is to extend the abstract
FFMpeg\Format\Video\DefaultVideo
and FFMpeg\Format\Audio\DefaultAudio
.
and implement the following methods.
class CustomWMVFormat extends FFMpeg\Format\Video\DefaultVideo
{
public function __construct($audioCodec = 'wmav2', $videoCodec = 'wmv2')
{
$this
->setAudioCodec($audioCodec)
->setVideoCodec($videoCodec);
}
public function supportBFrames()
{
return false;
}
public function getAvailableAudioCodecs()
{
return array('wmav2');
}
public function getAvailableVideoCodecs()
{
return array('wmv2');
}
}
FFMpeg uses many units for time and space coordinates.
FFMpeg\Coordinate\AspectRatio
represents an aspect ratio.FFMpeg\Coordinate\Dimension
represent a dimension.FFMpeg\Coordinate\FrameRate
represent a framerate.FFMpeg\Coordinate\Point
represent a point. (Supports dynamic points since v0.10.0)FFMpeg\Coordinate\TimeCode
represent a timecode.
FFMpeg\FFProbe
is used internally by FFMpeg\FFMpeg
to probe medias. You can
also use it to extract media metadata.
$ffprobe = FFMpeg\FFProbe::create();
$ffprobe
->streams('/path/to/video/mp4') // extracts streams informations
->videos() // filters video streams
->first() // returns the first video stream
->get('codec_name'); // returns the codec_name property
$ffprobe = FFMpeg\FFProbe::create();
$ffprobe
->format('/path/to/video/mp4') // extracts file informations
->get('duration'); // returns the duration property
(since 0.10.0) You can validate media files using PHP-FFMpeg's FFProbe wrapper.
$ffprobe = FFMpeg\FFProbe::create();
$ffprobe->isValid('/path/to/file/to/check'); // returns bool
The service provider is easy to set up:
$app = new Silex\Application();
$app->register(new FFMpeg\FFMpegServiceProvider());
$video = $app['ffmpeg']->open('video.mpeg');
Available options are as follow:
$app->register(new FFMpeg\FFMpegServiceProvider(), array(
'ffmpeg.configuration' => array(
'ffmpeg.threads' => 4,
'ffmpeg.timeout' => 300,
'ffmpeg.binaries' => '/opt/local/ffmpeg/bin/ffmpeg',
'ffprobe.timeout' => 30,
'ffprobe.binaries' => '/opt/local/ffmpeg/bin/ffprobe',
),
'ffmpeg.logger' => $logger,
));
This project is licensed under the MIT license.
Music: "Favorite Secrets" by Waylon Thornton From the Free Music Archive CC BY NC SA
Music: "Siesta" by Jahzzar From the Free Music Archive CC BY SA