X-Git-Url: https://git.nihav.org/?a=blobdiff_plain;f=sndplay%2Fsrc%2Fmain.rs;h=97ed3499590c079d81a385e5ee679a1549273f39;hb=HEAD;hp=c8e75a420731439355bad5c45ef1e7f432485aa7;hpb=b2d3e848c0984925382081499ddf518ae22f2641;p=nihav-player.git diff --git a/sndplay/src/main.rs b/sndplay/src/main.rs index c8e75a4..97ed349 100644 --- a/sndplay/src/main.rs +++ b/sndplay/src/main.rs @@ -118,7 +118,7 @@ fn output_vol_i16(device: &AudioDevice, tmp: &mut Vec, src: &[i16], mute: b tmp.clear(); tmp.resize(src.len(), 0); } - device.queue(&tmp); + device.queue(tmp); } fn output_vol_u8(device: &AudioDevice, tmp: &mut Vec, src: &[u8], mute: bool, volume: u8) { @@ -135,7 +135,7 @@ fn output_vol_u8(device: &AudioDevice, tmp: &mut Vec, src: &[u8], mute: boo tmp.clear(); tmp.resize(src.len() / 2, 0); } - device.queue(&tmp); + device.queue(tmp); } impl<'a> Decoder<'a> { @@ -153,21 +153,24 @@ impl<'a> Decoder<'a> { if let Some(pts) = frm.ts.get_pts() { self.samplepos = NATimeInfo::ts_to_time(pts, u64::from(self.arate), frm.ts.tb_num, frm.ts.tb_den); } + if buf.get_audio_length() == 0 { + return false; + } let out_buf = convert_audio_frame(&buf, &self.dst_info, &self.dst_chmap).unwrap(); match out_buf { NABufferType::AudioI16(abuf) => { if !self.mute && self.volume == 100 { - device.queue(&abuf.get_data()); + device.queue(abuf.get_data()); } else { - output_vol_i16(device, self.buf, &abuf.get_data(), self.mute, self.volume); + output_vol_i16(device, self.buf, abuf.get_data(), self.mute, self.volume); } self.samplepos += abuf.get_length() as u64; }, NABufferType::AudioPacked(abuf) => { if !self.mute && self.volume == 100 { - device.queue_bytes(&abuf.get_data()); + device.queue_bytes(abuf.get_data()); } else { - output_vol_u8(device, self.buf, &abuf.get_data(), self.mute, self.volume); + output_vol_u8(device, self.buf, abuf.get_data(), self.mute, self.volume); } self.samplepos += abuf.get_length() as u64; }, @@ -193,6 +196,7 @@ impl<'a> Decoder<'a> { fn seek(&mut self, time: u64) -> bool { let ret = self.demuxer.seek(NATimePoint::Milliseconds(time)); if ret.is_err() { println!(" seek error\n"); } + self.decoder.flush(); ret.is_ok() } } @@ -299,8 +303,16 @@ impl Player { } let (dsupp, decoder) = dec.unwrap(); - let ainfo = ainfo.unwrap().get_properties().get_audio_info().unwrap(); - let arate = if ainfo.sample_rate > 0 { ainfo.sample_rate } else { 44100 }; + let info = ainfo.unwrap(); + let ainfo = info.get_properties().get_audio_info().unwrap(); + let sbr_hack = info.get_name() == "aac" && ainfo.sample_rate < 32000; + let arate = if ainfo.sample_rate > 0 { + if !sbr_hack { + ainfo.sample_rate + } else { + ainfo.sample_rate * 2 + } + } else { 44100 }; let ch = ainfo.channels; println!("Playing {} [{}Hz {}ch]", name, arate, ch); @@ -359,7 +371,7 @@ impl Player { } } std::io::stdout().flush().unwrap(); - if device.size() < underfill_limit && !self.paused && refill_limit < (1 << 20) { + if device.size() < underfill_limit && !self.paused && (refill_limit < (1 << 20)) & !eof { if full_ms > 5000 { println!("underrun!"); }