use nihav_core::scale::*;
use nihav_core::soundcvt::*;
use nihav_registry::detect;
+use nihav_registry::register;
use nihav_allstuff::*;
use std::env;
+mod null;
+use crate::null::*;
+
fn print_options(name: &str, options: &[NAOptionDefinition]) {
if options.is_empty() {
println!("No custom options.");
encoders: Vec<OutputMode>,
no_video: bool,
no_audio: bool,
+ start: NATimePoint,
+ end: NATimePoint,
}
macro_rules! parse_and_apply_options {
self.istr_opts.len() - 1
};
let istr = &mut self.istr_opts[sidx];
-
+
for opt in opt1.split(',') {
let oval: Vec<_> = opt.split('=').collect();
if oval.len() == 1 {
self.ostr_opts.len() - 1
};
let ostr = &mut self.ostr_opts[sidx];
-
+
for opt in opt1.split(',') {
let oval: Vec<_> = opt.split('=').collect();
if oval.len() == 1 {
println!("video option for audio stream");
}
},
-//todo formaton
+ "pixfmt" => {
+ if ostr.enc_params.format == NACodecTypeInfo::None {
+ ostr.enc_params.format = NACodecTypeInfo::Video(NAVideoInfo::new(0, 0, false, YUV420_FORMAT));
+ }
+ if let NACodecTypeInfo::Video(ref mut vinfo) = ostr.enc_params.format {
+ let ret = oval[1].parse::<NAPixelFormaton>();
+ if let Ok(val) = ret {
+ vinfo.format = val;
+ } else {
+ println!("invalid pixel format");
+ }
+ } else {
+ println!("video option for audio stream");
+ }
+ },
"srate" => {
if ostr.enc_params.format == NACodecTypeInfo::None {
ostr.enc_params.format = NACodecTypeInfo::Audio(NAAudioInfo::new(0, 0, SND_S16_FORMAT, 0));
println!("audio option for video stream");
}
},
-//todo soniton, channel map
+ "sfmt" => {
+ if ostr.enc_params.format == NACodecTypeInfo::None {
+ ostr.enc_params.format = NACodecTypeInfo::Audio(NAAudioInfo::new(0, 0, SND_S16_FORMAT, 0));
+ }
+ if let NACodecTypeInfo::Audio(ref mut ainfo) = ostr.enc_params.format {
+ let ret = oval[1].parse::<NASoniton>();
+ if let Ok(val) = ret {
+ ainfo.format = val;
+ } else {
+ println!("invalid audio format");
+ }
+ } else {
+ println!("audio option for video stream");
+ }
+ },
+// todo channel map negotiation
+ /*"chmap" => {
+ if ostr.enc_params.format == NACodecTypeInfo::None {
+ ostr.enc_params.format = NACodecTypeInfo::Audio(NAAudioInfo::new(0, 0, SND_S16_FORMAT, 0));
+ }
+ if let NACodecTypeInfo::Audio(ref mut ainfo) = ostr.enc_params.format {
+ let ret = oval[1].parse::<NAChannelMap>();
+ if let Ok(val) = ret {
+ ainfo.chmap = val;
+ } else {
+ println!("invalid channel map");
+ }
+ } else {
+ println!("audio option for video stream");
+ }
+ },*/
"bitrate" => {
let ret = oval[1].parse::<u32>();
if let Ok(val) = ret {
if let Some(str_idx) = self.ostr_opts.iter().position(|str| str.id == out_id) {
let oopts = &mut self.ostr_opts[str_idx];
- if cname == "copy" && istr.get_info().get_name() == cname {
+ if oopts.enc_name.as_str() == "copy" && (cname == "any" || istr.get_info().get_name() == cname) {
+ out_sm.add_stream_ref(istr.clone());
self.encoders.push(OutputMode::Copy(out_id));
} else if cname == "any" || oopts.enc_name.as_str() == cname {
let enc_create = enc_reg.find_encoder(oopts.enc_name.as_str());
return false;
}
let mut encoder = (enc_create.unwrap())();
+ let forced_out = oopts.enc_params.format != NACodecTypeInfo::None;
if oopts.enc_params.format == NACodecTypeInfo::None {
oopts.enc_params.format = istr.get_info().get_properties();
}
//todo check for params mismatch
let cvt = match (&oopts.enc_params.format, &ret_eparams.format) {
(NACodecTypeInfo::Video(svinfo), NACodecTypeInfo::Video(dvinfo)) => {
- if svinfo == dvinfo {
+ if svinfo == dvinfo && !forced_out {
OutputConvert::None
} else {
let ofmt = ScaleInfo { fmt: dvinfo.format, width: dvinfo.width, height: dvinfo.height };
}
} else {
if cname == "any" || istr.get_info().get_name() == cname {
+ out_sm.add_stream_ref(istr.clone());
self.encoders.push(OutputMode::Copy(out_id));
} else {
println!("stream {} ({}) can't be handled", istr.id, istr.get_info().get_name());
let mut dmx_reg = RegisteredDemuxers::new();
nihav_register_all_demuxers(&mut dmx_reg);
let mut dec_reg = RegisteredDecoders::new();
- nihav_register_all_codecs(&mut dec_reg);
+ nihav_register_all_decoders(&mut dec_reg);
let mut mux_reg = RegisteredMuxers::new();
nihav_register_all_muxers(&mut mux_reg);
+ mux_reg.add_muxer(NULL_MUXER);
let mut enc_reg = RegisteredEncoders::new();
nihav_register_all_encoders(&mut enc_reg);
+ enc_reg.add_encoder(NULL_ENCODER);
let mut transcoder = Transcoder::new();
let mut arg_idx = 1;
+ let mut printed_info = false;
while arg_idx < args.len() {
match args[arg_idx].as_str() {
+ "--list-decoders" => {
+ if dec_reg.iter().len() > 0 {
+ println!("Registered decoders:");
+ for dec in dec_reg.iter() {
+ let cdesc = register::get_codec_description(dec.name);
+ let full_name = if let Some(cd) = cdesc { cd.get_full_name() } else { "???" };
+ println!(" {} ({})", dec.name, full_name);
+ }
+ } else {
+ println!("No registered decoders.");
+ }
+ printed_info = true;
+ },
+ "--list-encoders" => {
+ if enc_reg.iter().len() > 0 {
+ println!("Registered encoders:");
+ for enc in enc_reg.iter() {
+ let cdesc = register::get_codec_description(enc.name);
+ let full_name = if let Some(cd) = cdesc { cd.get_full_name() } else { "???" };
+ println!(" {} ({})", enc.name, full_name);
+ }
+ } else {
+ println!("No registered encoders.");
+ }
+ printed_info = true;
+ },
+ "--list-demuxers" => {
+ print!("Registered demuxers:");
+ for dmx in dmx_reg.iter() {
+ print!(" {}", dmx.get_name());
+ }
+ println!();
+ printed_info = true;
+ },
+ "--list-muxers" => {
+ print!("Registered muxers:");
+ for mux in mux_reg.iter() {
+ print!(" {}", mux.get_name());
+ }
+ println!();
+ printed_info = true;
+ },
"--query-decoder-options" => {
next_arg!(args, arg_idx);
let cname = args[arg_idx].as_str();
} else {
println!("codec {} is not found", cname);
}
+ printed_info = true;
},
"--query-demuxer-options" => {
next_arg!(args, arg_idx);
} else {
println!("demuxer {} is not found", dname);
}
+ printed_info = true;
},
"--query-encoder-options" => {
next_arg!(args, arg_idx);
} else {
println!("codec {} is not found", cname);
}
+ printed_info = true;
},
"--query-muxer-options" => {
next_arg!(args, arg_idx);
} else {
println!("muxer {} is not found", name);
}
+ printed_info = true;
},
"--input" => {
next_arg!(args, arg_idx);
"--no-audio" => {
transcoder.no_audio = true;
},
+ "--start" => {
+ next_arg!(args, arg_idx);
+ let ret = args[arg_idx].parse::<NATimePoint>();
+ if let Ok(val) = ret {
+ transcoder.start = val;
+ } else {
+ println!("invalid start time");
+ return;
+ }
+ },
+ "--end" => {
+ next_arg!(args, arg_idx);
+ let ret = args[arg_idx].parse::<NATimePoint>();
+ if let Ok(val) = ret {
+ transcoder.end = val;
+ } else {
+ println!("invalid start time");
+ return;
+ }
+ },
"--muxer-options" => {
next_arg!(args, arg_idx);
if !transcoder.parse_muxer_options(&args[arg_idx], &mux_reg) {
arg_idx += 1;
}
+ if printed_info {
+ return;
+ }
+
if transcoder.input_name.len() == 0 {
println!("no input name provided");
return;
transcoder.decoders.push(None);
}
}
+ if transcoder.start != NATimePoint::None {
+ let ret = dmx.seek(transcoder.start);
+ if ret.is_err() {
+ println!(" failed to seek to {} error {:?}", transcoder.start, ret.err().unwrap());
+ }
+ }
let output_fmt = if let Some(ref str) = transcoder.output_fmt {
str
println!(" #{}: {} {}", ostr.get_num(), ostr, ostr.get_info().get_name());
}
- loop {
+ 'main_loop: loop {
let pktres = dmx.get_frame();
if let Err(DemuxerError::EOF) = pktres { break; }
if pktres.is_err() {
OutputMode::Copy(dst_id) => {
let dstr = mux.get_stream(dst_id as usize).unwrap();
pkt.reassign(dstr, pkt.get_time_information());
+ if transcoder.end != NATimePoint::None && !pkt.ts.less_than(transcoder.end) { break 'main_loop; }
if mux.mux_frame(pkt).is_err() {
println!("error muxing packet");
break;
let cfrm = NAFrame::new(frm.get_time_information(), frm.frame_type, frm.key, frm.get_info(), cbuf);
encoder.encode(&cfrm).unwrap();
while let Ok(Some(pkt)) = encoder.get_packet() {
+ if transcoder.end != NATimePoint::None && !pkt.ts.less_than(transcoder.end) { break 'main_loop; }
mux.mux_frame(pkt).unwrap();
}
} else {