extern crate ffmpeg; use std::env; use std::path::Path; use ffmpeg::{codec, filter, format, frame, media}; use ffmpeg::{rescale, Rescale}; fn filter( spec: &str, decoder: &codec::decoder::Audio, encoder: &codec::encoder::Audio, ) -> Result { let mut filter = filter::Graph::new(); let args = format!( "time_base={}:sample_rate={}:sample_fmt={}:channel_layout=0x{:x}", decoder.time_base(), decoder.rate(), decoder.format().name(), decoder.channel_layout().bits() ); filter.add(&filter::find("abuffer").unwrap(), "in", &args)?; filter.add(&filter::find("abuffersink").unwrap(), "out", "")?; { let mut out = filter.get("out").unwrap(); out.set_sample_format(encoder.format()); out.set_channel_layout(encoder.channel_layout()); out.set_sample_rate(encoder.rate()); } filter.output("in", 0)?.input("out", 0)?.parse(spec)?; filter.validate()?; println!("{}", filter.dump()); if let Some(codec) = encoder.codec() { if !codec .capabilities() .contains(ffmpeg::codec::capabilities::Capabilities::VARIABLE_FRAME_SIZE) { filter .get("out") .unwrap() .sink() .set_frame_size(encoder.frame_size()); } } Ok(filter) } struct Transcoder { stream: usize, filter: filter::Graph, decoder: codec::decoder::Audio, encoder: codec::encoder::Audio, } fn transcoder>( ictx: &mut format::context::Input, octx: &mut format::context::Output, path: &P, filter_spec: &str, ) -> Result { let input = ictx .streams() .best(media::Type::Audio) .expect("could not find best audio stream"); let mut decoder = input.codec().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 mut encoder = output.codec().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); 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)?; Ok(Transcoder { stream: input.index(), filter: filter, decoder: decoder, encoder: encoder, }) } // 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::().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(); let in_time_base = transcoder.decoder.time_base(); let out_time_base = octx.stream(0).unwrap().time_base(); let mut decoded = frame::Audio::empty(); let mut encoded = ffmpeg::Packet::empty(); for (stream, mut packet) in ictx.packets() { if stream.index() == transcoder.stream { packet.rescale_ts(stream.time_base(), in_time_base); if let Ok(true) = transcoder.decoder.decode(&packet, &mut decoded) { let timestamp = decoded.timestamp(); decoded.set_pts(timestamp); transcoder .filter .get("in") .unwrap() .source() .add(&decoded) .unwrap(); while let Ok(..) = transcoder .filter .get("out") .unwrap() .sink() .frame(&mut decoded) { if let Ok(true) = transcoder.encoder.encode(&decoded, &mut encoded) { encoded.set_stream(0); encoded.rescale_ts(in_time_base, out_time_base); encoded.write_interleaved(&mut octx).unwrap(); } } } } } transcoder .filter .get("in") .unwrap() .source() .flush() .unwrap(); while let Ok(..) = transcoder .filter .get("out") .unwrap() .sink() .frame(&mut decoded) { if let Ok(true) = transcoder.encoder.encode(&decoded, &mut encoded) { encoded.set_stream(0); encoded.rescale_ts(in_time_base, out_time_base); encoded.write_interleaved(&mut octx).unwrap(); } } if let Ok(true) = transcoder.encoder.flush(&mut encoded) { encoded.set_stream(0); encoded.rescale_ts(in_time_base, out_time_base); encoded.write_interleaved(&mut octx).unwrap(); } octx.write_trailer().unwrap(); }