Struct ffmpeg_next::format::stream::StreamMut
source · pub struct StreamMut<'a> { /* private fields */ }Implementations§
source§impl<'a> StreamMut<'a>
impl<'a> StreamMut<'a>
sourcepub fn set_time_base<R: Into<Rational>>(&mut self, value: R)
pub fn set_time_base<R: Into<Rational>>(&mut self, value: R)
Examples found in repository?
examples/transcode-audio.rs (line 117)
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fn transcoder<P: AsRef<Path> + ?Sized>(
ictx: &mut format::context::Input,
octx: &mut format::context::Output,
path: &P,
filter_spec: &str,
) -> Result<Transcoder, ffmpeg::Error> {
let input = ictx
.streams()
.best(media::Type::Audio)
.expect("could not find best audio stream");
let context = ffmpeg::codec::context::Context::from_parameters(input.parameters())?;
let mut decoder = context.decoder().audio()?;
let codec = ffmpeg::encoder::find(octx.format().codec(path, media::Type::Audio))
.expect("failed to find encoder")
.audio()?;
let global = octx
.format()
.flags()
.contains(ffmpeg::format::flag::Flags::GLOBAL_HEADER);
decoder.set_parameters(input.parameters())?;
let mut output = octx.add_stream(codec)?;
let context = ffmpeg::codec::context::Context::from_parameters(output.parameters())?;
let mut encoder = context.encoder().audio()?;
let channel_layout = codec
.channel_layouts()
.map(|cls| cls.best(decoder.channel_layout().channels()))
.unwrap_or(ffmpeg::channel_layout::ChannelLayout::STEREO);
if global {
encoder.set_flags(ffmpeg::codec::flag::Flags::GLOBAL_HEADER);
}
encoder.set_rate(decoder.rate() as i32);
encoder.set_channel_layout(channel_layout);
#[cfg(not(feature = "ffmpeg_7_0"))]
{
encoder.set_channels(channel_layout.channels());
}
encoder.set_format(
codec
.formats()
.expect("unknown supported formats")
.next()
.unwrap(),
);
encoder.set_bit_rate(decoder.bit_rate());
encoder.set_max_bit_rate(decoder.max_bit_rate());
encoder.set_time_base((1, decoder.rate() as i32));
output.set_time_base((1, decoder.rate() as i32));
let encoder = encoder.open_as(codec)?;
output.set_parameters(&encoder);
let filter = filter(filter_spec, &decoder, &encoder)?;
let in_time_base = decoder.time_base();
let out_time_base = output.time_base();
Ok(Transcoder {
stream: input.index(),
filter,
decoder,
encoder,
in_time_base,
out_time_base,
})
}pub fn set_rate<R: Into<Rational>>(&mut self, value: R)
pub fn set_avg_frame_rate<R: Into<Rational>>(&mut self, value: R)
sourcepub fn set_parameters<P: Into<Parameters>>(&mut self, parameters: P)
pub fn set_parameters<P: Into<Parameters>>(&mut self, parameters: P)
Examples found in repository?
examples/transcode-x264.rs (line 62)
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fn new(
ist: &format::stream::Stream,
octx: &mut format::context::Output,
ost_index: usize,
x264_opts: Dictionary,
enable_logging: bool,
) -> Result<Self, ffmpeg::Error> {
let global_header = octx.format().flags().contains(format::Flags::GLOBAL_HEADER);
let decoder = ffmpeg::codec::context::Context::from_parameters(ist.parameters())?
.decoder()
.video()?;
let codec = encoder::find(codec::Id::H264);
let mut ost = octx.add_stream(codec)?;
let mut encoder =
codec::context::Context::new_with_codec(codec.ok_or(ffmpeg::Error::InvalidData)?)
.encoder()
.video()?;
ost.set_parameters(&encoder);
encoder.set_height(decoder.height());
encoder.set_width(decoder.width());
encoder.set_aspect_ratio(decoder.aspect_ratio());
encoder.set_format(decoder.format());
encoder.set_frame_rate(decoder.frame_rate());
encoder.set_time_base(ist.time_base());
if global_header {
encoder.set_flags(codec::Flags::GLOBAL_HEADER);
}
let opened_encoder = encoder
.open_with(x264_opts)
.expect("error opening x264 with supplied settings");
ost.set_parameters(&opened_encoder);
Ok(Self {
ost_index,
decoder,
input_time_base: ist.time_base(),
encoder: opened_encoder,
logging_enabled: enable_logging,
frame_count: 0,
last_log_frame_count: 0,
starting_time: Instant::now(),
last_log_time: Instant::now(),
})
}
fn send_packet_to_decoder(&mut self, packet: &Packet) {
self.decoder.send_packet(packet).unwrap();
}
fn send_eof_to_decoder(&mut self) {
self.decoder.send_eof().unwrap();
}
fn receive_and_process_decoded_frames(
&mut self,
octx: &mut format::context::Output,
ost_time_base: Rational,
) {
let mut frame = frame::Video::empty();
while self.decoder.receive_frame(&mut frame).is_ok() {
self.frame_count += 1;
let timestamp = frame.timestamp();
self.log_progress(f64::from(
Rational(timestamp.unwrap_or(0) as i32, 1) * self.input_time_base,
));
frame.set_pts(timestamp);
frame.set_kind(picture::Type::None);
self.send_frame_to_encoder(&frame);
self.receive_and_process_encoded_packets(octx, ost_time_base);
}
}
fn send_frame_to_encoder(&mut self, frame: &frame::Video) {
self.encoder.send_frame(frame).unwrap();
}
fn send_eof_to_encoder(&mut self) {
self.encoder.send_eof().unwrap();
}
fn receive_and_process_encoded_packets(
&mut self,
octx: &mut format::context::Output,
ost_time_base: Rational,
) {
let mut encoded = Packet::empty();
while self.encoder.receive_packet(&mut encoded).is_ok() {
encoded.set_stream(self.ost_index);
encoded.rescale_ts(self.input_time_base, ost_time_base);
encoded.write_interleaved(octx).unwrap();
}
}
fn log_progress(&mut self, timestamp: f64) {
if !self.logging_enabled
|| (self.frame_count - self.last_log_frame_count < 100
&& self.last_log_time.elapsed().as_secs_f64() < 1.0)
{
return;
}
eprintln!(
"time elpased: \t{:8.2}\tframe count: {:8}\ttimestamp: {:8.2}",
self.starting_time.elapsed().as_secs_f64(),
self.frame_count,
timestamp
);
self.last_log_frame_count = self.frame_count;
self.last_log_time = Instant::now();
}
}
fn parse_opts<'a>(s: String) -> Option<Dictionary<'a>> {
let mut dict = Dictionary::new();
for keyval in s.split_terminator(',') {
let tokens: Vec<&str> = keyval.split('=').collect();
match tokens[..] {
[key, val] => dict.set(key, val),
_ => return None,
}
}
Some(dict)
}
fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
let x264_opts = parse_opts(
env::args()
.nth(3)
.unwrap_or_else(|| DEFAULT_X264_OPTS.to_string()),
)
.expect("invalid x264 options string");
eprintln!("x264 options: {:?}", x264_opts);
ffmpeg::init().unwrap();
log::set_level(log::Level::Info);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
format::context::input::dump(&ictx, 0, Some(&input_file));
let best_video_stream_index = ictx
.streams()
.best(media::Type::Video)
.map(|stream| stream.index());
let mut stream_mapping: Vec<isize> = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut ost_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut transcoders = HashMap::new();
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
if ist_medium == media::Type::Video {
// Initialize transcoder for video stream.
transcoders.insert(
ist_index,
Transcoder::new(
&ist,
&mut octx,
ost_index as _,
x264_opts.to_owned(),
Some(ist_index) == best_video_stream_index,
)
.unwrap(),
);
} else {
// Set up for stream copy for non-video stream.
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
ost_index += 1;
}
octx.set_metadata(ictx.metadata().to_owned());
format::context::output::dump(&octx, 0, Some(&output_file));
octx.write_header().unwrap();
for (ost_index, _) in octx.streams().enumerate() {
ost_time_bases[ost_index] = octx.stream(ost_index as _).unwrap().time_base();
}
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost_time_base = ost_time_bases[ost_index as usize];
match transcoders.get_mut(&ist_index) {
Some(transcoder) => {
transcoder.send_packet_to_decoder(&packet);
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
}
None => {
// Do stream copy on non-video streams.
packet.rescale_ts(ist_time_bases[ist_index], ost_time_base);
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
}
}
// Flush encoders and decoders.
for (ost_index, transcoder) in transcoders.iter_mut() {
let ost_time_base = ost_time_bases[*ost_index];
transcoder.send_eof_to_decoder();
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
transcoder.send_eof_to_encoder();
transcoder.receive_and_process_encoded_packets(&mut octx, ost_time_base);
}
octx.write_trailer().unwrap();
}More examples
examples/remux.rs (line 33)
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fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
ffmpeg::init().unwrap();
log::set_level(log::Level::Warning);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
let mut stream_mapping = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 1); ictx.nb_streams() as _];
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
ost_index += 1;
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
octx.set_metadata(ictx.metadata().to_owned());
octx.write_header().unwrap();
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost = octx.stream(ost_index as _).unwrap();
packet.rescale_ts(ist_time_bases[ist_index], ost.time_base());
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
octx.write_trailer().unwrap();
}examples/transcode-audio.rs (line 120)
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fn transcoder<P: AsRef<Path> + ?Sized>(
ictx: &mut format::context::Input,
octx: &mut format::context::Output,
path: &P,
filter_spec: &str,
) -> Result<Transcoder, ffmpeg::Error> {
let input = ictx
.streams()
.best(media::Type::Audio)
.expect("could not find best audio stream");
let context = ffmpeg::codec::context::Context::from_parameters(input.parameters())?;
let mut decoder = context.decoder().audio()?;
let codec = ffmpeg::encoder::find(octx.format().codec(path, media::Type::Audio))
.expect("failed to find encoder")
.audio()?;
let global = octx
.format()
.flags()
.contains(ffmpeg::format::flag::Flags::GLOBAL_HEADER);
decoder.set_parameters(input.parameters())?;
let mut output = octx.add_stream(codec)?;
let context = ffmpeg::codec::context::Context::from_parameters(output.parameters())?;
let mut encoder = context.encoder().audio()?;
let channel_layout = codec
.channel_layouts()
.map(|cls| cls.best(decoder.channel_layout().channels()))
.unwrap_or(ffmpeg::channel_layout::ChannelLayout::STEREO);
if global {
encoder.set_flags(ffmpeg::codec::flag::Flags::GLOBAL_HEADER);
}
encoder.set_rate(decoder.rate() as i32);
encoder.set_channel_layout(channel_layout);
#[cfg(not(feature = "ffmpeg_7_0"))]
{
encoder.set_channels(channel_layout.channels());
}
encoder.set_format(
codec
.formats()
.expect("unknown supported formats")
.next()
.unwrap(),
);
encoder.set_bit_rate(decoder.bit_rate());
encoder.set_max_bit_rate(decoder.max_bit_rate());
encoder.set_time_base((1, decoder.rate() as i32));
output.set_time_base((1, decoder.rate() as i32));
let encoder = encoder.open_as(codec)?;
output.set_parameters(&encoder);
let filter = filter(filter_spec, &decoder, &encoder)?;
let in_time_base = decoder.time_base();
let out_time_base = output.time_base();
Ok(Transcoder {
stream: input.index(),
filter,
decoder,
encoder,
in_time_base,
out_time_base,
})
}pub fn set_metadata(&mut self, metadata: Dictionary<'_>)
Methods from Deref<Target = Stream<'a>>§
pub unsafe fn as_ptr(&self) -> *const AVStream
pub fn id(&self) -> i32
pub fn codec(&self) -> Context
sourcepub fn parameters(&self) -> Parameters
pub fn parameters(&self) -> Parameters
Examples found in repository?
examples/dump-frames.rs (line 21)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
if let Ok(mut ictx) = input(&env::args().nth(1).expect("Cannot open file.")) {
let input = ictx
.streams()
.best(Type::Video)
.ok_or(ffmpeg::Error::StreamNotFound)?;
let video_stream_index = input.index();
let context_decoder = ffmpeg::codec::context::Context::from_parameters(input.parameters())?;
let mut decoder = context_decoder.decoder().video()?;
let mut scaler = Context::get(
decoder.format(),
decoder.width(),
decoder.height(),
Pixel::RGB24,
decoder.width(),
decoder.height(),
Flags::BILINEAR,
)?;
let mut frame_index = 0;
let mut receive_and_process_decoded_frames =
|decoder: &mut ffmpeg::decoder::Video| -> Result<(), ffmpeg::Error> {
let mut decoded = Video::empty();
while decoder.receive_frame(&mut decoded).is_ok() {
let mut rgb_frame = Video::empty();
scaler.run(&decoded, &mut rgb_frame)?;
save_file(&rgb_frame, frame_index).unwrap();
frame_index += 1;
}
Ok(())
};
for (stream, packet) in ictx.packets() {
if stream.index() == video_stream_index {
decoder.send_packet(&packet)?;
receive_and_process_decoded_frames(&mut decoder)?;
}
}
decoder.send_eof()?;
receive_and_process_decoded_frames(&mut decoder)?;
}
Ok(())
}More examples
examples/transcode-x264.rs (line 51)
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fn new(
ist: &format::stream::Stream,
octx: &mut format::context::Output,
ost_index: usize,
x264_opts: Dictionary,
enable_logging: bool,
) -> Result<Self, ffmpeg::Error> {
let global_header = octx.format().flags().contains(format::Flags::GLOBAL_HEADER);
let decoder = ffmpeg::codec::context::Context::from_parameters(ist.parameters())?
.decoder()
.video()?;
let codec = encoder::find(codec::Id::H264);
let mut ost = octx.add_stream(codec)?;
let mut encoder =
codec::context::Context::new_with_codec(codec.ok_or(ffmpeg::Error::InvalidData)?)
.encoder()
.video()?;
ost.set_parameters(&encoder);
encoder.set_height(decoder.height());
encoder.set_width(decoder.width());
encoder.set_aspect_ratio(decoder.aspect_ratio());
encoder.set_format(decoder.format());
encoder.set_frame_rate(decoder.frame_rate());
encoder.set_time_base(ist.time_base());
if global_header {
encoder.set_flags(codec::Flags::GLOBAL_HEADER);
}
let opened_encoder = encoder
.open_with(x264_opts)
.expect("error opening x264 with supplied settings");
ost.set_parameters(&opened_encoder);
Ok(Self {
ost_index,
decoder,
input_time_base: ist.time_base(),
encoder: opened_encoder,
logging_enabled: enable_logging,
frame_count: 0,
last_log_frame_count: 0,
starting_time: Instant::now(),
last_log_time: Instant::now(),
})
}
fn send_packet_to_decoder(&mut self, packet: &Packet) {
self.decoder.send_packet(packet).unwrap();
}
fn send_eof_to_decoder(&mut self) {
self.decoder.send_eof().unwrap();
}
fn receive_and_process_decoded_frames(
&mut self,
octx: &mut format::context::Output,
ost_time_base: Rational,
) {
let mut frame = frame::Video::empty();
while self.decoder.receive_frame(&mut frame).is_ok() {
self.frame_count += 1;
let timestamp = frame.timestamp();
self.log_progress(f64::from(
Rational(timestamp.unwrap_or(0) as i32, 1) * self.input_time_base,
));
frame.set_pts(timestamp);
frame.set_kind(picture::Type::None);
self.send_frame_to_encoder(&frame);
self.receive_and_process_encoded_packets(octx, ost_time_base);
}
}
fn send_frame_to_encoder(&mut self, frame: &frame::Video) {
self.encoder.send_frame(frame).unwrap();
}
fn send_eof_to_encoder(&mut self) {
self.encoder.send_eof().unwrap();
}
fn receive_and_process_encoded_packets(
&mut self,
octx: &mut format::context::Output,
ost_time_base: Rational,
) {
let mut encoded = Packet::empty();
while self.encoder.receive_packet(&mut encoded).is_ok() {
encoded.set_stream(self.ost_index);
encoded.rescale_ts(self.input_time_base, ost_time_base);
encoded.write_interleaved(octx).unwrap();
}
}
fn log_progress(&mut self, timestamp: f64) {
if !self.logging_enabled
|| (self.frame_count - self.last_log_frame_count < 100
&& self.last_log_time.elapsed().as_secs_f64() < 1.0)
{
return;
}
eprintln!(
"time elpased: \t{:8.2}\tframe count: {:8}\ttimestamp: {:8.2}",
self.starting_time.elapsed().as_secs_f64(),
self.frame_count,
timestamp
);
self.last_log_frame_count = self.frame_count;
self.last_log_time = Instant::now();
}
}
fn parse_opts<'a>(s: String) -> Option<Dictionary<'a>> {
let mut dict = Dictionary::new();
for keyval in s.split_terminator(',') {
let tokens: Vec<&str> = keyval.split('=').collect();
match tokens[..] {
[key, val] => dict.set(key, val),
_ => return None,
}
}
Some(dict)
}
fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
let x264_opts = parse_opts(
env::args()
.nth(3)
.unwrap_or_else(|| DEFAULT_X264_OPTS.to_string()),
)
.expect("invalid x264 options string");
eprintln!("x264 options: {:?}", x264_opts);
ffmpeg::init().unwrap();
log::set_level(log::Level::Info);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
format::context::input::dump(&ictx, 0, Some(&input_file));
let best_video_stream_index = ictx
.streams()
.best(media::Type::Video)
.map(|stream| stream.index());
let mut stream_mapping: Vec<isize> = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut ost_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut transcoders = HashMap::new();
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
if ist_medium == media::Type::Video {
// Initialize transcoder for video stream.
transcoders.insert(
ist_index,
Transcoder::new(
&ist,
&mut octx,
ost_index as _,
x264_opts.to_owned(),
Some(ist_index) == best_video_stream_index,
)
.unwrap(),
);
} else {
// Set up for stream copy for non-video stream.
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
ost_index += 1;
}
octx.set_metadata(ictx.metadata().to_owned());
format::context::output::dump(&octx, 0, Some(&output_file));
octx.write_header().unwrap();
for (ost_index, _) in octx.streams().enumerate() {
ost_time_bases[ost_index] = octx.stream(ost_index as _).unwrap().time_base();
}
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost_time_base = ost_time_bases[ost_index as usize];
match transcoders.get_mut(&ist_index) {
Some(transcoder) => {
transcoder.send_packet_to_decoder(&packet);
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
}
None => {
// Do stream copy on non-video streams.
packet.rescale_ts(ist_time_bases[ist_index], ost_time_base);
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
}
}
// Flush encoders and decoders.
for (ost_index, transcoder) in transcoders.iter_mut() {
let ost_time_base = ost_time_bases[*ost_index];
transcoder.send_eof_to_decoder();
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
transcoder.send_eof_to_encoder();
transcoder.receive_and_process_encoded_packets(&mut octx, ost_time_base);
}
octx.write_trailer().unwrap();
}examples/remux.rs (line 21)
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fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
ffmpeg::init().unwrap();
log::set_level(log::Level::Warning);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
let mut stream_mapping = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 1); ictx.nb_streams() as _];
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
ost_index += 1;
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
octx.set_metadata(ictx.metadata().to_owned());
octx.write_header().unwrap();
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost = octx.stream(ost_index as _).unwrap();
packet.rescale_ts(ist_time_bases[ist_index], ost.time_base());
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
octx.write_trailer().unwrap();
}examples/transcode-audio.rs (line 75)
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fn transcoder<P: AsRef<Path> + ?Sized>(
ictx: &mut format::context::Input,
octx: &mut format::context::Output,
path: &P,
filter_spec: &str,
) -> Result<Transcoder, ffmpeg::Error> {
let input = ictx
.streams()
.best(media::Type::Audio)
.expect("could not find best audio stream");
let context = ffmpeg::codec::context::Context::from_parameters(input.parameters())?;
let mut decoder = context.decoder().audio()?;
let codec = ffmpeg::encoder::find(octx.format().codec(path, media::Type::Audio))
.expect("failed to find encoder")
.audio()?;
let global = octx
.format()
.flags()
.contains(ffmpeg::format::flag::Flags::GLOBAL_HEADER);
decoder.set_parameters(input.parameters())?;
let mut output = octx.add_stream(codec)?;
let context = ffmpeg::codec::context::Context::from_parameters(output.parameters())?;
let mut encoder = context.encoder().audio()?;
let channel_layout = codec
.channel_layouts()
.map(|cls| cls.best(decoder.channel_layout().channels()))
.unwrap_or(ffmpeg::channel_layout::ChannelLayout::STEREO);
if global {
encoder.set_flags(ffmpeg::codec::flag::Flags::GLOBAL_HEADER);
}
encoder.set_rate(decoder.rate() as i32);
encoder.set_channel_layout(channel_layout);
#[cfg(not(feature = "ffmpeg_7_0"))]
{
encoder.set_channels(channel_layout.channels());
}
encoder.set_format(
codec
.formats()
.expect("unknown supported formats")
.next()
.unwrap(),
);
encoder.set_bit_rate(decoder.bit_rate());
encoder.set_max_bit_rate(decoder.max_bit_rate());
encoder.set_time_base((1, decoder.rate() as i32));
output.set_time_base((1, decoder.rate() as i32));
let encoder = encoder.open_as(codec)?;
output.set_parameters(&encoder);
let filter = filter(filter_spec, &decoder, &encoder)?;
let in_time_base = decoder.time_base();
let out_time_base = output.time_base();
Ok(Transcoder {
stream: input.index(),
filter,
decoder,
encoder,
in_time_base,
out_time_base,
})
}examples/metadata.rs (line 45)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}sourcepub fn index(&self) -> usize
pub fn index(&self) -> usize
Examples found in repository?
examples/dump-frames.rs (line 19)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
if let Ok(mut ictx) = input(&env::args().nth(1).expect("Cannot open file.")) {
let input = ictx
.streams()
.best(Type::Video)
.ok_or(ffmpeg::Error::StreamNotFound)?;
let video_stream_index = input.index();
let context_decoder = ffmpeg::codec::context::Context::from_parameters(input.parameters())?;
let mut decoder = context_decoder.decoder().video()?;
let mut scaler = Context::get(
decoder.format(),
decoder.width(),
decoder.height(),
Pixel::RGB24,
decoder.width(),
decoder.height(),
Flags::BILINEAR,
)?;
let mut frame_index = 0;
let mut receive_and_process_decoded_frames =
|decoder: &mut ffmpeg::decoder::Video| -> Result<(), ffmpeg::Error> {
let mut decoded = Video::empty();
while decoder.receive_frame(&mut decoded).is_ok() {
let mut rgb_frame = Video::empty();
scaler.run(&decoded, &mut rgb_frame)?;
save_file(&rgb_frame, frame_index).unwrap();
frame_index += 1;
}
Ok(())
};
for (stream, packet) in ictx.packets() {
if stream.index() == video_stream_index {
decoder.send_packet(&packet)?;
receive_and_process_decoded_frames(&mut decoder)?;
}
}
decoder.send_eof()?;
receive_and_process_decoded_frames(&mut decoder)?;
}
Ok(())
}More examples
examples/remux.rs (line 46)
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fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
ffmpeg::init().unwrap();
log::set_level(log::Level::Warning);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
let mut stream_mapping = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 1); ictx.nb_streams() as _];
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
ost_index += 1;
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
octx.set_metadata(ictx.metadata().to_owned());
octx.write_header().unwrap();
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost = octx.stream(ost_index as _).unwrap();
packet.rescale_ts(ist_time_bases[ist_index], ost.time_base());
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
octx.write_trailer().unwrap();
}examples/transcode-audio.rs (line 128)
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fn transcoder<P: AsRef<Path> + ?Sized>(
ictx: &mut format::context::Input,
octx: &mut format::context::Output,
path: &P,
filter_spec: &str,
) -> Result<Transcoder, ffmpeg::Error> {
let input = ictx
.streams()
.best(media::Type::Audio)
.expect("could not find best audio stream");
let context = ffmpeg::codec::context::Context::from_parameters(input.parameters())?;
let mut decoder = context.decoder().audio()?;
let codec = ffmpeg::encoder::find(octx.format().codec(path, media::Type::Audio))
.expect("failed to find encoder")
.audio()?;
let global = octx
.format()
.flags()
.contains(ffmpeg::format::flag::Flags::GLOBAL_HEADER);
decoder.set_parameters(input.parameters())?;
let mut output = octx.add_stream(codec)?;
let context = ffmpeg::codec::context::Context::from_parameters(output.parameters())?;
let mut encoder = context.encoder().audio()?;
let channel_layout = codec
.channel_layouts()
.map(|cls| cls.best(decoder.channel_layout().channels()))
.unwrap_or(ffmpeg::channel_layout::ChannelLayout::STEREO);
if global {
encoder.set_flags(ffmpeg::codec::flag::Flags::GLOBAL_HEADER);
}
encoder.set_rate(decoder.rate() as i32);
encoder.set_channel_layout(channel_layout);
#[cfg(not(feature = "ffmpeg_7_0"))]
{
encoder.set_channels(channel_layout.channels());
}
encoder.set_format(
codec
.formats()
.expect("unknown supported formats")
.next()
.unwrap(),
);
encoder.set_bit_rate(decoder.bit_rate());
encoder.set_max_bit_rate(decoder.max_bit_rate());
encoder.set_time_base((1, decoder.rate() as i32));
output.set_time_base((1, decoder.rate() as i32));
let encoder = encoder.open_as(codec)?;
output.set_parameters(&encoder);
let filter = filter(filter_spec, &decoder, &encoder)?;
let in_time_base = decoder.time_base();
let out_time_base = output.time_base();
Ok(Transcoder {
stream: input.index(),
filter,
decoder,
encoder,
in_time_base,
out_time_base,
})
}
impl Transcoder {
fn send_frame_to_encoder(&mut self, frame: &ffmpeg::Frame) {
self.encoder.send_frame(frame).unwrap();
}
fn send_eof_to_encoder(&mut self) {
self.encoder.send_eof().unwrap();
}
fn receive_and_process_encoded_packets(&mut self, octx: &mut format::context::Output) {
let mut encoded = ffmpeg::Packet::empty();
while self.encoder.receive_packet(&mut encoded).is_ok() {
encoded.set_stream(0);
encoded.rescale_ts(self.in_time_base, self.out_time_base);
encoded.write_interleaved(octx).unwrap();
}
}
fn add_frame_to_filter(&mut self, frame: &ffmpeg::Frame) {
self.filter.get("in").unwrap().source().add(frame).unwrap();
}
fn flush_filter(&mut self) {
self.filter.get("in").unwrap().source().flush().unwrap();
}
fn get_and_process_filtered_frames(&mut self, octx: &mut format::context::Output) {
let mut filtered = frame::Audio::empty();
while self
.filter
.get("out")
.unwrap()
.sink()
.frame(&mut filtered)
.is_ok()
{
self.send_frame_to_encoder(&filtered);
self.receive_and_process_encoded_packets(octx);
}
}
fn send_packet_to_decoder(&mut self, packet: &ffmpeg::Packet) {
self.decoder.send_packet(packet).unwrap();
}
fn send_eof_to_decoder(&mut self) {
self.decoder.send_eof().unwrap();
}
fn receive_and_process_decoded_frames(&mut self, octx: &mut format::context::Output) {
let mut decoded = frame::Audio::empty();
while self.decoder.receive_frame(&mut decoded).is_ok() {
let timestamp = decoded.timestamp();
decoded.set_pts(timestamp);
self.add_frame_to_filter(&decoded);
self.get_and_process_filtered_frames(octx);
}
}
}
// Transcode the `best` audio stream of the input file into a the output file while applying a
// given filter. If no filter was specified the stream gets copied (`anull` filter).
//
// Example 1: Transcode *.mp3 file to *.wmv while speeding it up
// transcode-audio in.mp3 out.wmv "atempo=1.2"
//
// Example 2: Overlay an audio file
// transcode-audio in.mp3 out.mp3 "amovie=overlay.mp3 [ov]; [in][ov] amerge [out]"
//
// Example 3: Seek to a specified position (in seconds)
// transcode-audio in.mp3 out.mp3 anull 30
fn main() {
ffmpeg::init().unwrap();
let input = env::args().nth(1).expect("missing input");
let output = env::args().nth(2).expect("missing output");
let filter = env::args().nth(3).unwrap_or_else(|| "anull".to_owned());
let seek = env::args().nth(4).and_then(|s| s.parse::<i64>().ok());
let mut ictx = format::input(&input).unwrap();
let mut octx = format::output(&output).unwrap();
let mut transcoder = transcoder(&mut ictx, &mut octx, &output, &filter).unwrap();
if let Some(position) = seek {
// If the position was given in seconds, rescale it to ffmpegs base timebase.
let position = position.rescale((1, 1), rescale::TIME_BASE);
// If this seek was embedded in the transcoding loop, a call of `flush()`
// for every opened buffer after the successful seek would be advisable.
ictx.seek(position, ..position).unwrap();
}
octx.set_metadata(ictx.metadata().to_owned());
octx.write_header().unwrap();
for (stream, mut packet) in ictx.packets() {
if stream.index() == transcoder.stream {
packet.rescale_ts(stream.time_base(), transcoder.in_time_base);
transcoder.send_packet_to_decoder(&packet);
transcoder.receive_and_process_decoded_frames(&mut octx);
}
}
transcoder.send_eof_to_decoder();
transcoder.receive_and_process_decoded_frames(&mut octx);
transcoder.flush_filter();
transcoder.get_and_process_filtered_frames(&mut octx);
transcoder.send_eof_to_encoder();
transcoder.receive_and_process_encoded_packets(&mut octx);
octx.write_trailer().unwrap();
}examples/transcode-x264.rs (line 192)
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fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
let x264_opts = parse_opts(
env::args()
.nth(3)
.unwrap_or_else(|| DEFAULT_X264_OPTS.to_string()),
)
.expect("invalid x264 options string");
eprintln!("x264 options: {:?}", x264_opts);
ffmpeg::init().unwrap();
log::set_level(log::Level::Info);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
format::context::input::dump(&ictx, 0, Some(&input_file));
let best_video_stream_index = ictx
.streams()
.best(media::Type::Video)
.map(|stream| stream.index());
let mut stream_mapping: Vec<isize> = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut ost_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut transcoders = HashMap::new();
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
if ist_medium == media::Type::Video {
// Initialize transcoder for video stream.
transcoders.insert(
ist_index,
Transcoder::new(
&ist,
&mut octx,
ost_index as _,
x264_opts.to_owned(),
Some(ist_index) == best_video_stream_index,
)
.unwrap(),
);
} else {
// Set up for stream copy for non-video stream.
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
ost_index += 1;
}
octx.set_metadata(ictx.metadata().to_owned());
format::context::output::dump(&octx, 0, Some(&output_file));
octx.write_header().unwrap();
for (ost_index, _) in octx.streams().enumerate() {
ost_time_bases[ost_index] = octx.stream(ost_index as _).unwrap().time_base();
}
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost_time_base = ost_time_bases[ost_index as usize];
match transcoders.get_mut(&ist_index) {
Some(transcoder) => {
transcoder.send_packet_to_decoder(&packet);
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
}
None => {
// Do stream copy on non-video streams.
packet.rescale_ts(ist_time_bases[ist_index], ost_time_base);
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
}
}
// Flush encoders and decoders.
for (ost_index, transcoder) in transcoders.iter_mut() {
let ost_time_base = ost_time_bases[*ost_index];
transcoder.send_eof_to_decoder();
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
transcoder.send_eof_to_encoder();
transcoder.receive_and_process_encoded_packets(&mut octx, ost_time_base);
}
octx.write_trailer().unwrap();
}examples/metadata.rs (line 15)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}sourcepub fn time_base(&self) -> Rational
pub fn time_base(&self) -> Rational
Examples found in repository?
examples/transcode-x264.rs (line 68)
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fn new(
ist: &format::stream::Stream,
octx: &mut format::context::Output,
ost_index: usize,
x264_opts: Dictionary,
enable_logging: bool,
) -> Result<Self, ffmpeg::Error> {
let global_header = octx.format().flags().contains(format::Flags::GLOBAL_HEADER);
let decoder = ffmpeg::codec::context::Context::from_parameters(ist.parameters())?
.decoder()
.video()?;
let codec = encoder::find(codec::Id::H264);
let mut ost = octx.add_stream(codec)?;
let mut encoder =
codec::context::Context::new_with_codec(codec.ok_or(ffmpeg::Error::InvalidData)?)
.encoder()
.video()?;
ost.set_parameters(&encoder);
encoder.set_height(decoder.height());
encoder.set_width(decoder.width());
encoder.set_aspect_ratio(decoder.aspect_ratio());
encoder.set_format(decoder.format());
encoder.set_frame_rate(decoder.frame_rate());
encoder.set_time_base(ist.time_base());
if global_header {
encoder.set_flags(codec::Flags::GLOBAL_HEADER);
}
let opened_encoder = encoder
.open_with(x264_opts)
.expect("error opening x264 with supplied settings");
ost.set_parameters(&opened_encoder);
Ok(Self {
ost_index,
decoder,
input_time_base: ist.time_base(),
encoder: opened_encoder,
logging_enabled: enable_logging,
frame_count: 0,
last_log_frame_count: 0,
starting_time: Instant::now(),
last_log_time: Instant::now(),
})
}
fn send_packet_to_decoder(&mut self, packet: &Packet) {
self.decoder.send_packet(packet).unwrap();
}
fn send_eof_to_decoder(&mut self) {
self.decoder.send_eof().unwrap();
}
fn receive_and_process_decoded_frames(
&mut self,
octx: &mut format::context::Output,
ost_time_base: Rational,
) {
let mut frame = frame::Video::empty();
while self.decoder.receive_frame(&mut frame).is_ok() {
self.frame_count += 1;
let timestamp = frame.timestamp();
self.log_progress(f64::from(
Rational(timestamp.unwrap_or(0) as i32, 1) * self.input_time_base,
));
frame.set_pts(timestamp);
frame.set_kind(picture::Type::None);
self.send_frame_to_encoder(&frame);
self.receive_and_process_encoded_packets(octx, ost_time_base);
}
}
fn send_frame_to_encoder(&mut self, frame: &frame::Video) {
self.encoder.send_frame(frame).unwrap();
}
fn send_eof_to_encoder(&mut self) {
self.encoder.send_eof().unwrap();
}
fn receive_and_process_encoded_packets(
&mut self,
octx: &mut format::context::Output,
ost_time_base: Rational,
) {
let mut encoded = Packet::empty();
while self.encoder.receive_packet(&mut encoded).is_ok() {
encoded.set_stream(self.ost_index);
encoded.rescale_ts(self.input_time_base, ost_time_base);
encoded.write_interleaved(octx).unwrap();
}
}
fn log_progress(&mut self, timestamp: f64) {
if !self.logging_enabled
|| (self.frame_count - self.last_log_frame_count < 100
&& self.last_log_time.elapsed().as_secs_f64() < 1.0)
{
return;
}
eprintln!(
"time elpased: \t{:8.2}\tframe count: {:8}\ttimestamp: {:8.2}",
self.starting_time.elapsed().as_secs_f64(),
self.frame_count,
timestamp
);
self.last_log_frame_count = self.frame_count;
self.last_log_time = Instant::now();
}
}
fn parse_opts<'a>(s: String) -> Option<Dictionary<'a>> {
let mut dict = Dictionary::new();
for keyval in s.split_terminator(',') {
let tokens: Vec<&str> = keyval.split('=').collect();
match tokens[..] {
[key, val] => dict.set(key, val),
_ => return None,
}
}
Some(dict)
}
fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
let x264_opts = parse_opts(
env::args()
.nth(3)
.unwrap_or_else(|| DEFAULT_X264_OPTS.to_string()),
)
.expect("invalid x264 options string");
eprintln!("x264 options: {:?}", x264_opts);
ffmpeg::init().unwrap();
log::set_level(log::Level::Info);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
format::context::input::dump(&ictx, 0, Some(&input_file));
let best_video_stream_index = ictx
.streams()
.best(media::Type::Video)
.map(|stream| stream.index());
let mut stream_mapping: Vec<isize> = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut ost_time_bases = vec![Rational(0, 0); ictx.nb_streams() as _];
let mut transcoders = HashMap::new();
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
if ist_medium == media::Type::Video {
// Initialize transcoder for video stream.
transcoders.insert(
ist_index,
Transcoder::new(
&ist,
&mut octx,
ost_index as _,
x264_opts.to_owned(),
Some(ist_index) == best_video_stream_index,
)
.unwrap(),
);
} else {
// Set up for stream copy for non-video stream.
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
ost_index += 1;
}
octx.set_metadata(ictx.metadata().to_owned());
format::context::output::dump(&octx, 0, Some(&output_file));
octx.write_header().unwrap();
for (ost_index, _) in octx.streams().enumerate() {
ost_time_bases[ost_index] = octx.stream(ost_index as _).unwrap().time_base();
}
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost_time_base = ost_time_bases[ost_index as usize];
match transcoders.get_mut(&ist_index) {
Some(transcoder) => {
transcoder.send_packet_to_decoder(&packet);
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
}
None => {
// Do stream copy on non-video streams.
packet.rescale_ts(ist_time_bases[ist_index], ost_time_base);
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
}
}
// Flush encoders and decoders.
for (ost_index, transcoder) in transcoders.iter_mut() {
let ost_time_base = ost_time_bases[*ost_index];
transcoder.send_eof_to_decoder();
transcoder.receive_and_process_decoded_frames(&mut octx, ost_time_base);
transcoder.send_eof_to_encoder();
transcoder.receive_and_process_encoded_packets(&mut octx, ost_time_base);
}
octx.write_trailer().unwrap();
}More examples
examples/remux.rs (line 30)
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fn main() {
let input_file = env::args().nth(1).expect("missing input file");
let output_file = env::args().nth(2).expect("missing output file");
ffmpeg::init().unwrap();
log::set_level(log::Level::Warning);
let mut ictx = format::input(&input_file).unwrap();
let mut octx = format::output(&output_file).unwrap();
let mut stream_mapping = vec![0; ictx.nb_streams() as _];
let mut ist_time_bases = vec![Rational(0, 1); ictx.nb_streams() as _];
let mut ost_index = 0;
for (ist_index, ist) in ictx.streams().enumerate() {
let ist_medium = ist.parameters().medium();
if ist_medium != media::Type::Audio
&& ist_medium != media::Type::Video
&& ist_medium != media::Type::Subtitle
{
stream_mapping[ist_index] = -1;
continue;
}
stream_mapping[ist_index] = ost_index;
ist_time_bases[ist_index] = ist.time_base();
ost_index += 1;
let mut ost = octx.add_stream(encoder::find(codec::Id::None)).unwrap();
ost.set_parameters(ist.parameters());
// We need to set codec_tag to 0 lest we run into incompatible codec tag
// issues when muxing into a different container format. Unfortunately
// there's no high level API to do this (yet).
unsafe {
(*ost.parameters().as_mut_ptr()).codec_tag = 0;
}
}
octx.set_metadata(ictx.metadata().to_owned());
octx.write_header().unwrap();
for (stream, mut packet) in ictx.packets() {
let ist_index = stream.index();
let ost_index = stream_mapping[ist_index];
if ost_index < 0 {
continue;
}
let ost = octx.stream(ost_index as _).unwrap();
packet.rescale_ts(ist_time_bases[ist_index], ost.time_base());
packet.set_position(-1);
packet.set_stream(ost_index as _);
packet.write_interleaved(&mut octx).unwrap();
}
octx.write_trailer().unwrap();
}examples/transcode-audio.rs (line 125)
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fn transcoder<P: AsRef<Path> + ?Sized>(
ictx: &mut format::context::Input,
octx: &mut format::context::Output,
path: &P,
filter_spec: &str,
) -> Result<Transcoder, ffmpeg::Error> {
let input = ictx
.streams()
.best(media::Type::Audio)
.expect("could not find best audio stream");
let context = ffmpeg::codec::context::Context::from_parameters(input.parameters())?;
let mut decoder = context.decoder().audio()?;
let codec = ffmpeg::encoder::find(octx.format().codec(path, media::Type::Audio))
.expect("failed to find encoder")
.audio()?;
let global = octx
.format()
.flags()
.contains(ffmpeg::format::flag::Flags::GLOBAL_HEADER);
decoder.set_parameters(input.parameters())?;
let mut output = octx.add_stream(codec)?;
let context = ffmpeg::codec::context::Context::from_parameters(output.parameters())?;
let mut encoder = context.encoder().audio()?;
let channel_layout = codec
.channel_layouts()
.map(|cls| cls.best(decoder.channel_layout().channels()))
.unwrap_or(ffmpeg::channel_layout::ChannelLayout::STEREO);
if global {
encoder.set_flags(ffmpeg::codec::flag::Flags::GLOBAL_HEADER);
}
encoder.set_rate(decoder.rate() as i32);
encoder.set_channel_layout(channel_layout);
#[cfg(not(feature = "ffmpeg_7_0"))]
{
encoder.set_channels(channel_layout.channels());
}
encoder.set_format(
codec
.formats()
.expect("unknown supported formats")
.next()
.unwrap(),
);
encoder.set_bit_rate(decoder.bit_rate());
encoder.set_max_bit_rate(decoder.max_bit_rate());
encoder.set_time_base((1, decoder.rate() as i32));
output.set_time_base((1, decoder.rate() as i32));
let encoder = encoder.open_as(codec)?;
output.set_parameters(&encoder);
let filter = filter(filter_spec, &decoder, &encoder)?;
let in_time_base = decoder.time_base();
let out_time_base = output.time_base();
Ok(Transcoder {
stream: input.index(),
filter,
decoder,
encoder,
in_time_base,
out_time_base,
})
}
impl Transcoder {
fn send_frame_to_encoder(&mut self, frame: &ffmpeg::Frame) {
self.encoder.send_frame(frame).unwrap();
}
fn send_eof_to_encoder(&mut self) {
self.encoder.send_eof().unwrap();
}
fn receive_and_process_encoded_packets(&mut self, octx: &mut format::context::Output) {
let mut encoded = ffmpeg::Packet::empty();
while self.encoder.receive_packet(&mut encoded).is_ok() {
encoded.set_stream(0);
encoded.rescale_ts(self.in_time_base, self.out_time_base);
encoded.write_interleaved(octx).unwrap();
}
}
fn add_frame_to_filter(&mut self, frame: &ffmpeg::Frame) {
self.filter.get("in").unwrap().source().add(frame).unwrap();
}
fn flush_filter(&mut self) {
self.filter.get("in").unwrap().source().flush().unwrap();
}
fn get_and_process_filtered_frames(&mut self, octx: &mut format::context::Output) {
let mut filtered = frame::Audio::empty();
while self
.filter
.get("out")
.unwrap()
.sink()
.frame(&mut filtered)
.is_ok()
{
self.send_frame_to_encoder(&filtered);
self.receive_and_process_encoded_packets(octx);
}
}
fn send_packet_to_decoder(&mut self, packet: &ffmpeg::Packet) {
self.decoder.send_packet(packet).unwrap();
}
fn send_eof_to_decoder(&mut self) {
self.decoder.send_eof().unwrap();
}
fn receive_and_process_decoded_frames(&mut self, octx: &mut format::context::Output) {
let mut decoded = frame::Audio::empty();
while self.decoder.receive_frame(&mut decoded).is_ok() {
let timestamp = decoded.timestamp();
decoded.set_pts(timestamp);
self.add_frame_to_filter(&decoded);
self.get_and_process_filtered_frames(octx);
}
}
}
// Transcode the `best` audio stream of the input file into a the output file while applying a
// given filter. If no filter was specified the stream gets copied (`anull` filter).
//
// Example 1: Transcode *.mp3 file to *.wmv while speeding it up
// transcode-audio in.mp3 out.wmv "atempo=1.2"
//
// Example 2: Overlay an audio file
// transcode-audio in.mp3 out.mp3 "amovie=overlay.mp3 [ov]; [in][ov] amerge [out]"
//
// Example 3: Seek to a specified position (in seconds)
// transcode-audio in.mp3 out.mp3 anull 30
fn main() {
ffmpeg::init().unwrap();
let input = env::args().nth(1).expect("missing input");
let output = env::args().nth(2).expect("missing output");
let filter = env::args().nth(3).unwrap_or_else(|| "anull".to_owned());
let seek = env::args().nth(4).and_then(|s| s.parse::<i64>().ok());
let mut ictx = format::input(&input).unwrap();
let mut octx = format::output(&output).unwrap();
let mut transcoder = transcoder(&mut ictx, &mut octx, &output, &filter).unwrap();
if let Some(position) = seek {
// If the position was given in seconds, rescale it to ffmpegs base timebase.
let position = position.rescale((1, 1), rescale::TIME_BASE);
// If this seek was embedded in the transcoding loop, a call of `flush()`
// for every opened buffer after the successful seek would be advisable.
ictx.seek(position, ..position).unwrap();
}
octx.set_metadata(ictx.metadata().to_owned());
octx.write_header().unwrap();
for (stream, mut packet) in ictx.packets() {
if stream.index() == transcoder.stream {
packet.rescale_ts(stream.time_base(), transcoder.in_time_base);
transcoder.send_packet_to_decoder(&packet);
transcoder.receive_and_process_decoded_frames(&mut octx);
}
}
transcoder.send_eof_to_decoder();
transcoder.receive_and_process_decoded_frames(&mut octx);
transcoder.flush_filter();
transcoder.get_and_process_filtered_frames(&mut octx);
transcoder.send_eof_to_encoder();
transcoder.receive_and_process_encoded_packets(&mut octx);
octx.write_trailer().unwrap();
}examples/metadata.rs (line 33)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}sourcepub fn start_time(&self) -> i64
pub fn start_time(&self) -> i64
Examples found in repository?
examples/metadata.rs (line 34)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}sourcepub fn duration(&self) -> i64
pub fn duration(&self) -> i64
Examples found in repository?
examples/metadata.rs (line 35)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}sourcepub fn frames(&self) -> i64
pub fn frames(&self) -> i64
Examples found in repository?
examples/metadata.rs (line 40)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}sourcepub fn disposition(&self) -> Disposition
pub fn disposition(&self) -> Disposition
Examples found in repository?
examples/metadata.rs (line 41)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}sourcepub fn discard(&self) -> Discard
pub fn discard(&self) -> Discard
Examples found in repository?
examples/metadata.rs (line 42)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}pub fn side_data(&self) -> SideDataIter<'_>
sourcepub fn rate(&self) -> Rational
pub fn rate(&self) -> Rational
Examples found in repository?
examples/metadata.rs (line 43)
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fn main() -> Result<(), ffmpeg::Error> {
ffmpeg::init().unwrap();
match ffmpeg::format::input(&env::args().nth(1).expect("missing file")) {
Ok(context) => {
for (k, v) in context.metadata().iter() {
println!("{}: {}", k, v);
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Video) {
println!("Best video stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Audio) {
println!("Best audio stream index: {}", stream.index());
}
if let Some(stream) = context.streams().best(ffmpeg::media::Type::Subtitle) {
println!("Best subtitle stream index: {}", stream.index());
}
println!(
"duration (seconds): {:.2}",
context.duration() as f64 / f64::from(ffmpeg::ffi::AV_TIME_BASE)
);
for stream in context.streams() {
println!("stream index {}:", stream.index());
println!("\ttime_base: {}", stream.time_base());
println!("\tstart_time: {}", stream.start_time());
println!("\tduration (stream timebase): {}", stream.duration());
println!(
"\tduration (seconds): {:.2}",
stream.duration() as f64 * f64::from(stream.time_base())
);
println!("\tframes: {}", stream.frames());
println!("\tdisposition: {:?}", stream.disposition());
println!("\tdiscard: {:?}", stream.discard());
println!("\trate: {}", stream.rate());
let codec = ffmpeg::codec::context::Context::from_parameters(stream.parameters())?;
println!("\tmedium: {:?}", codec.medium());
println!("\tid: {:?}", codec.id());
if codec.medium() == ffmpeg::media::Type::Video {
if let Ok(video) = codec.decoder().video() {
println!("\tbit_rate: {}", video.bit_rate());
println!("\tmax_rate: {}", video.max_bit_rate());
println!("\tdelay: {}", video.delay());
println!("\tvideo.width: {}", video.width());
println!("\tvideo.height: {}", video.height());
println!("\tvideo.format: {:?}", video.format());
println!("\tvideo.has_b_frames: {}", video.has_b_frames());
println!("\tvideo.aspect_ratio: {}", video.aspect_ratio());
println!("\tvideo.color_space: {:?}", video.color_space());
println!("\tvideo.color_range: {:?}", video.color_range());
println!("\tvideo.color_primaries: {:?}", video.color_primaries());
println!(
"\tvideo.color_transfer_characteristic: {:?}",
video.color_transfer_characteristic()
);
println!("\tvideo.chroma_location: {:?}", video.chroma_location());
println!("\tvideo.references: {}", video.references());
println!("\tvideo.intra_dc_precision: {}", video.intra_dc_precision());
}
} else if codec.medium() == ffmpeg::media::Type::Audio {
if let Ok(audio) = codec.decoder().audio() {
println!("\tbit_rate: {}", audio.bit_rate());
println!("\tmax_rate: {}", audio.max_bit_rate());
println!("\tdelay: {}", audio.delay());
println!("\taudio.rate: {}", audio.rate());
println!("\taudio.channels: {}", audio.channels());
println!("\taudio.format: {:?}", audio.format());
println!("\taudio.frames: {}", audio.frames());
println!("\taudio.align: {}", audio.align());
println!("\taudio.channel_layout: {:?}", audio.channel_layout());
}
}
}
}
Err(error) => println!("error: {}", error),
}
Ok(())
}pub fn avg_frame_rate(&self) -> Rational
pub fn metadata(&self) -> DictionaryRef<'_>
Trait Implementations§
Auto Trait Implementations§
impl<'a> Freeze for StreamMut<'a>
impl<'a> RefUnwindSafe for StreamMut<'a>
impl<'a> !Send for StreamMut<'a>
impl<'a> !Sync for StreamMut<'a>
impl<'a> Unpin for StreamMut<'a>
impl<'a> !UnwindSafe for StreamMut<'a>
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more