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|
extern crate sdl2;
extern crate nihav_core;
extern crate nihav_registry;
extern crate nihav_allstuff;
use std::env;
use std::fs::File;
use std::io::Write;
use std::path::Path;
use std::time::{Duration, Instant};
use std::thread;
use sdl2::event::{Event, WindowEvent};
use sdl2::keyboard::Keycode;
use sdl2::render::{Canvas, Texture, TextureCreator};
use sdl2::pixels::PixelFormatEnum;
use sdl2::video::{Window, WindowContext};
use nihav_registry::detect;
use nihav_core::frame::*;
use nihav_core::io::byteio::{FileReader, ByteReader};
use nihav_core::reorder::*;
use nihav_core::codecs::*;
use nihav_core::demuxers::*;
use nihav_registry::register::*;
use nihav_allstuff::*;
mod audiodec;
use audiodec::*;
mod videodec;
use videodec::*;
mod osd;
use osd::*;
#[cfg(feature="debug")]
macro_rules! debug_log {
($log: expr; $blk: block) => {
$log.logfile.write($blk.as_bytes()).unwrap();
$log.logfile.write(b"\n").unwrap();
};
}
#[cfg(not(feature="debug"))]
macro_rules! debug_log {
($log: expr; $blk: block) => {};
}
pub enum PktSendEvent {
Packet(NAPacket),
GetFrames,
Flush,
End,
ImmediateEnd,
HurryUp,
}
pub enum DecoderType {
Audio(Box<dyn NADecoder + Send>),
Video(Box<dyn NADecoder + Send>, Box<dyn FrameReorderer + Send>),
VideoMT(Box<dyn NADecoderMT + Send>, MTFrameReorderer),
}
pub struct DecoderStuff {
pub dsupp: Box<NADecoderSupport>,
pub dec: DecoderType,
}
fn format_time(ms: u64) -> String {
let s = ms / 1000;
let ds = (ms % 1000) / 100;
let (min, s) = (s / 60, s % 60);
let (h, min) = (min / 60, min % 60);
if h == 0 {
if min == 0 {
format!("{}.{}", s, ds)
} else {
format!("{}:{:02}.{}", min, s, ds)
}
} else {
format!("{}:{:02}:{:02}.{}", h, min, s, ds)
}
}
const FRAME_QUEUE_LEN: usize = 25;
const MAX_VOLUME: usize = 200;
pub type FrameRecord = (NABufferType, u64);
pub struct TimeKeep {
ref_time: Instant,
ref_ts: u64,
}
impl TimeKeep {
fn new() -> Self {
Self {
ref_time: Instant::now(),
ref_ts: 0,
}
}
pub fn get_cur_time(&self) -> u64 {
let add = self.ref_time.elapsed().as_millis() as u64;
self.ref_ts + add
}
fn reset_ts(&mut self) {
self.ref_ts = 0;
}
fn reset_all(&mut self, ts: u64) {
self.ref_time = Instant::now();
self.ref_ts = ts;
}
fn set_ts(&mut self) {
self.ref_ts = self.get_cur_time();
}
fn set_time(&mut self) {
self.ref_time = Instant::now();
}
}
pub struct DispFrame<'a> {
pub ts: u64,
pub is_yuv: bool,
pub valid: bool,
pub rgb_tex: Texture<'a>,
pub yuv_tex: Texture<'a>,
}
pub struct DispQueue<'a> {
pub pool: Vec<DispFrame<'a>>,
pub first_ts: u64,
pub last_ts: u64,
pub start: usize,
pub end: usize,
pub len: usize,
pub width: usize,
pub height: usize,
}
impl<'a> DispQueue<'a> {
fn new(texture_creator: &'a TextureCreator<WindowContext>, width: usize, height: usize, len: usize) -> Self {
let mut pool = Vec::with_capacity(len);
for _ in 0..len + 1 {
let rgb_tex = texture_creator.create_texture_streaming(PixelFormatEnum::RGB24, width as u32, height as u32).unwrap();
let yuv_tex = texture_creator.create_texture_streaming(PixelFormatEnum::IYUV, ((width + 1) & !1) as u32, ((height + 1) & !1) as u32).unwrap();
pool.push(DispFrame{ ts: 0, is_yuv: false, valid: false, rgb_tex, yuv_tex });
}
pool[len].is_yuv = false;
pool[len].rgb_tex.with_lock(None, |buffer: &mut [u8], _pitch: usize| {
for el in buffer.iter_mut() { *el = 0; }
}).unwrap();
Self { pool, first_ts: 0, last_ts: 0, start: 0, end: 0, len, width, height }
}
fn flush(&mut self) {
self.start = 0;
self.end = 0;
self.first_ts = 0;
self.last_ts = 0;
for frm in self.pool.iter_mut() {
frm.valid = false;
}
}
fn get_last_texture(&mut self, osd: &OSD) -> &Texture<'a> {
if self.pool[self.len].is_yuv {
if osd.is_active() {
self.pool[self.len].yuv_tex.with_lock(None, |buffer: &mut [u8], pitch: usize| {
osd.draw_yuv(buffer, pitch);
}).unwrap();
}
&self.pool[self.len].yuv_tex
} else {
if osd.is_active() {
self.pool[self.len].rgb_tex.with_lock(None, |buffer: &mut [u8], pitch: usize| {
osd.draw_rgb(buffer, pitch);
}).unwrap();
}
&self.pool[self.len].rgb_tex
}
}
pub fn is_empty(&self) -> bool { self.start == self.end }
pub fn is_full(&self) -> bool { self.len == 0 || self.start == (self.end + 1) % self.len }
pub fn move_end(&mut self) {
self.end += 1;
if self.end >= self.len {
self.end -= self.len;
}
}
pub fn move_start(&mut self) {
self.pool.swap(self.start, self.len);
self.start += 1;
if self.start >= self.len {
self.start -= self.len;
}
if !self.is_empty() {
self.first_ts = self.pool[self.start].ts;
}
}
}
fn try_display(disp_queue: &mut DispQueue, canvas: &mut Canvas<Window>, osd: &mut OSD, ctime: &TimeKeep) -> Option<u64> {
while !disp_queue.is_empty() {
let disp_time = disp_queue.first_ts;
let ctime = ctime.get_cur_time();
if disp_time > ctime + 10 {
return Some(disp_time - ctime);
} else if disp_time + 10 < ctime {
disp_queue.move_start();
} else {
if osd.is_active() {
osd.prepare(ctime);
}
let frm = &mut disp_queue.pool[disp_queue.start];
let texture = if frm.is_yuv {
if osd.is_active() {
frm.yuv_tex.with_lock(None, |buffer: &mut [u8], pitch: usize| {
osd.draw_yuv(buffer, pitch);
}).unwrap();
}
&frm.yuv_tex
} else {
if osd.is_active() {
frm.rgb_tex.with_lock(None, |buffer: &mut [u8], pitch: usize| {
osd.draw_rgb(buffer, pitch);
}).unwrap();
}
&frm.rgb_tex
};
canvas.clear();
canvas.copy(texture, None, None).unwrap();
canvas.present();
disp_queue.move_start();
if !disp_queue.is_empty() {
return Some((disp_queue.first_ts - ctime).saturating_sub(2));
} else {
return None;
}
}
}
None
}
struct Player {
sdl_context: sdl2::Sdl,
vsystem: sdl2::VideoSubsystem,
asystem: sdl2::AudioSubsystem,
acontrol: AudioControl,
vcontrol: VideoControl,
play_video: bool,
play_audio: bool,
has_video: bool,
has_audio: bool,
video_str: u32,
audio_str: u32,
vthreads: usize,
use_mt: bool,
paused: bool,
mute: bool,
volume: usize,
end: bool,
tkeep: TimeKeep,
debug: bool,
osd: OSD,
#[cfg(feature="debug")]
logfile: File,
}
impl Player {
fn new() -> Self {
let sdl_context = sdl2::init().unwrap();
let vsystem = sdl_context.video().unwrap();
let asystem = sdl_context.audio().unwrap();
vsystem.disable_screen_saver();
let acontrol = AudioControl::new(None, None, &asystem);
let vcontrol = VideoControl::new(None, 0, 0, 0, 0);
Self {
sdl_context, asystem, vsystem,
acontrol, vcontrol,
play_video: true,
play_audio: true,
has_video: false,
has_audio: false,
video_str: 0,
audio_str: 0,
vthreads: 3,
use_mt: true,
paused: false,
mute: false,
volume: 100,
end: false,
tkeep: TimeKeep::new(),
debug: false,
osd: OSD::new(),
#[cfg(feature="debug")]
logfile: File::create("debug.log").unwrap(),
}
}
fn seek(&mut self, off: u64, fwd: bool, dmx: &mut Demuxer, disp_queue: &mut DispQueue) {
let cur_time = self.tkeep.get_cur_time();
let seektime = if fwd { cur_time + off * 1000 } else {
cur_time.saturating_sub(off * 1000) };
debug_log!(self; {format!(" seek to {}", seektime)});
let ret = dmx.seek(NATimePoint::Milliseconds(seektime));
if ret.is_err() {
println!(" seek error");
return;
}
self.acontrol.flush();
self.vcontrol.flush();
disp_queue.flush();
self.tkeep.reset_ts();
self.prefill(dmx, disp_queue);
if !disp_queue.is_empty() {
self.tkeep.reset_all(disp_queue.first_ts);
} else {
let mut iterations = 0;
let mut time = self.acontrol.get_time();
while time.is_none() {
iterations += 1;
std::thread::yield_now();
if iterations > 1000000 { println!(" still no time set?!"); break; }
time = self.acontrol.get_time();
}
if let Some(time) = time {
self.tkeep.reset_all(time);
}
}
if !self.paused {
self.acontrol.resume();
}
}
fn prefill(&mut self, dmx: &mut Demuxer, disp_queue: &mut DispQueue) {
debug_log!(self; {" prefilling"});
while self.vcontrol.get_queue_size() < FRAME_QUEUE_LEN {
let mut try_send = self.acontrol.get_queue_size() < FRAME_QUEUE_LEN && (!self.has_video || (!self.vcontrol.is_filled(FRAME_QUEUE_LEN) && !disp_queue.is_full()));
if !self.vcontrol.try_send_queued() && self.vcontrol.get_queue_size() > FRAME_QUEUE_LEN / 2 {
try_send = false;
}
if !self.acontrol.try_send_queued() && self.acontrol.get_queue_size() > FRAME_QUEUE_LEN / 2 {
try_send = false;
}
if try_send {
match dmx.get_frame() {
Err(DemuxerError::EOF) => break,
Err(_) => break,
Ok(pkt) => {
let streamno = pkt.get_stream().get_id();
if self.has_video && streamno == self.video_str {
self.vcontrol.try_send_video(PktSendEvent::Packet(pkt));
} else if self.has_audio && streamno == self.audio_str {
self.acontrol.try_send_audio(PktSendEvent::Packet(pkt));
}
}
};
}
self.vcontrol.fill(disp_queue);
if !try_send {
break;
}
}
if self.has_video {
while self.vcontrol.get_queue_size() > 0 && !disp_queue.is_full() {
self.vcontrol.try_send_queued();
self.vcontrol.fill(disp_queue);
std::thread::sleep(Duration::from_millis(10));
}
self.vcontrol.wait_for_frames();
self.vcontrol.fill(disp_queue);
}
debug_log!(self; {format!(" prefilling done, frames {}-{} audio {}", disp_queue.start, disp_queue.end, self.acontrol.get_fill())});
}
fn handle_events(&mut self, event_pump: &mut sdl2::EventPump, canvas: &mut Canvas<Window>, dmx: &mut Demuxer, disp_queue: &mut DispQueue) -> bool {
for event in event_pump.poll_iter() {
if let Event::Quit {..} = event {
self.end = true;
println!();
return true;
}
if let Event::Window {win_event: WindowEvent::Exposed, ..} = event {
canvas.clear();
canvas.copy(disp_queue.get_last_texture(&self.osd), None, None).unwrap();
canvas.present();
}
if let Event::KeyDown {keycode: Some(keycode), ..} = event {
match keycode {
Keycode::Escape | Keycode::Q => {
self.end = true;
println!();
return true;
},
Keycode::Return => return true,
Keycode::Right => { self.seek(10, true, dmx, disp_queue); },
Keycode::Left => { self.seek(10, false, dmx, disp_queue); },
Keycode::Up => { self.seek(60, true, dmx, disp_queue); },
Keycode::Down => { self.seek(60, false, dmx, disp_queue); },
Keycode::PageUp => { self.seek(600, true, dmx, disp_queue); },
Keycode::PageDown => { self.seek(600, false, dmx, disp_queue); },
Keycode::Space => {
self.paused = !self.paused;
if self.paused {
self.vsystem.enable_screen_saver();
self.tkeep.set_ts();
} else {
self.vsystem.disable_screen_saver();
self.tkeep.set_time();
}
if self.paused {
self.acontrol.pause();
} else {
self.acontrol.resume();
}
},
Keycode::Plus | Keycode::KpPlus => {
self.volume = (self.volume + 10).min(MAX_VOLUME);
if !self.mute {
self.acontrol.set_volume(self.volume);
}
},
Keycode::Minus | Keycode::KpMinus => {
self.volume = self.volume.saturating_sub(10);
if !self.mute {
self.acontrol.set_volume(self.volume);
}
},
Keycode::D => {
self.debug = !self.debug;
},
Keycode::M => {
self.mute = !self.mute;
if self.mute {
self.acontrol.set_volume(0);
} else {
self.acontrol.set_volume(self.volume);
}
},
Keycode::H => {
self.vcontrol.try_send_video(PktSendEvent::HurryUp);
},
Keycode::O => {
self.osd.toggle();
},
_ => {},
};
if !self.paused {
print!("{:60}\r", ' ');
std::io::stdout().flush().unwrap();
}
}
}
false
}
fn play(&mut self, name: &str, start_time: NATimePoint) {
debug_log!(self; {format!("Playing {}", name)});
// prepare data source
let path = Path::new(name);
let mut file = File::open(path).unwrap();
let dmx_fact;
let mut fr = FileReader::new_read(&mut file);
let mut br = ByteReader::new(&mut fr);
let res = detect::detect_format(name, &mut br);
if res.is_none() {
println!("cannot detect format for {}", name);
return;
}
let (dmx_name, _score) = res.unwrap();
debug_log!(self; {format!(" found demuxer {} with score {:?}", dmx_name, _score)});
println!("trying demuxer {} on {}", dmx_name, name);
let mut dmx_reg = RegisteredDemuxers::new();
nihav_register_all_demuxers(&mut dmx_reg);
let mut dec_reg = RegisteredDecoders::new();
nihav_register_all_decoders(&mut dec_reg);
let mut mtdec_reg = RegisteredMTDecoders::new();
if self.use_mt {
nihav_register_all_mt_decoders(&mut mtdec_reg);
}
let ret = dmx_reg.find_demuxer(dmx_name);
if ret.is_none() {
println!("error finding {} demuxer", dmx_name);
return;
}
dmx_fact = ret.unwrap();
br.seek(SeekFrom::Start(0)).unwrap();
let ret = create_demuxer(dmx_fact, &mut br);
if ret.is_err() {
println!("error creating demuxer");
return;
}
let mut dmx = ret.unwrap();
if start_time != NATimePoint::None {
debug_log!(self; {format!(" start seek to {}", start_time)});
if dmx.seek(start_time).is_err() {
println!("initial seek failed");
}
}
let mut width = 640;
let mut height = 480;
let mut tb_num = 0;
let mut tb_den = 0;
let mut ainfo: Option<NAAudioInfo> = None;
let mut video_dec: Option<DecoderStuff> = None;
let mut audio_dec: Option<DecoderStuff> = None;
let duration = dmx.get_duration();
if duration != 0 {
println!(" total duration {}", format_time(duration));
}
self.has_video = false;
self.has_audio = false;
for i in 0..dmx.get_num_streams() {
let s = dmx.get_stream(i).unwrap();
let info = s.get_info();
let decfunc = dec_reg.find_decoder(info.get_name());
let decfunc_mt = mtdec_reg.find_decoder(info.get_name());
println!("stream {} - {} {}", i, s, info.get_name());
debug_log!(self; {format!(" stream {} - {} {}", i, s, info.get_name())});
let str_id = s.get_id();
if info.is_video() {
if video_dec.is_none() && self.play_video {
if let Some(decfunc) = decfunc_mt {
let mut dec = (decfunc)();
let mut dsupp = Box::new(NADecoderSupport::new());
let props = info.get_properties().get_video_info().unwrap();
if props.get_width() != 0 {
width = props.get_width();
height = props.get_height();
}
if dec.init(&mut dsupp, info.clone(), self.vthreads).is_ok() {
video_dec = Some(DecoderStuff{ dsupp, dec: DecoderType::VideoMT(dec, MTFrameReorderer::new()) });
self.video_str = str_id;
let (tbn, tbd) = s.get_timebase();
tb_num = tbn;
tb_den = tbd;
self.has_video = true;
continue;
} else {
println!("failed to create multi-threaded decoder, falling back");
}
}
if let Some(decfunc) = decfunc {
let mut dec = (decfunc)();
let mut dsupp = Box::new(NADecoderSupport::new());
let props = info.get_properties().get_video_info().unwrap();
if props.get_width() != 0 {
width = props.get_width();
height = props.get_height();
}
let desc = get_codec_description(info.get_name());
let (reorder_depth, reord) = if desc.is_none() || (desc.unwrap().caps & CODEC_CAP_COMPLEX_REORDER) == 0 {
let reord: Box<dyn FrameReorderer + Send> = Box::new(IPBReorderer::new());
(3, reord)
} else {
let reord: Box<dyn FrameReorderer + Send> = Box::new(ComplexReorderer::new());
(16, reord)
};
dsupp.pool_u8 = NAVideoBufferPool::new(reorder_depth);
dsupp.pool_u16 = NAVideoBufferPool::new(reorder_depth);
dsupp.pool_u32 = NAVideoBufferPool::new(reorder_depth);
dec.init(&mut dsupp, info).unwrap();
video_dec = Some(DecoderStuff{ dsupp, dec: DecoderType::Video(dec, reord) });
self.video_str = str_id;
let (tbn, tbd) = s.get_timebase();
tb_num = tbn;
tb_den = tbd;
self.has_video = true;
} else {
println!("no video decoder for {} found!", info.get_name());
}
}
} else if info.is_audio() {
if audio_dec.is_none() && self.play_audio {
if let Some(decfunc) = decfunc {
let mut dec = (decfunc)();
let mut dsupp = Box::new(NADecoderSupport::new());
ainfo = info.get_properties().get_audio_info();
dec.init(&mut dsupp, info).unwrap();
audio_dec = Some(DecoderStuff{ dsupp, dec: DecoderType::Audio(dec) });
self.audio_str = str_id;
self.has_audio = true;
} else {
println!("no audio decoder for {} found!", info.get_name());
}
}
} else {
println!("decoder {} not found", info.get_name());
}
}
if !self.has_video && !self.has_audio {
println!("No playable streams found.");
return;
}
while (width <= 384) && (height <= 288) {
width <<= 1;
height <<= 1;
}
// prepare playback structure
let mut new_vcontrol = VideoControl::new(video_dec, width, height, tb_num, tb_den);
std::mem::swap(&mut self.vcontrol, &mut new_vcontrol);
let mut new_acontrol = AudioControl::new(audio_dec, ainfo, &self.asystem);
std::mem::swap(&mut self.acontrol, &mut new_acontrol);
if self.mute {
self.acontrol.set_volume(0);
} else {
self.acontrol.set_volume(self.volume);
}
let fname = path.file_name();
let wname = if let Some(fname) = fname {
"NihAV player - ".to_owned() + fname.to_str().unwrap()
} else {
"NihAV player".to_owned()
};
let window = self.vsystem.window(&wname, width as u32, height as u32)
.position_centered().build().unwrap();
let mut canvas = window.into_canvas().build().unwrap();
let texture_creator = canvas.texture_creator();
let mut disp_q = DispQueue::new(&texture_creator, width, height, if self.has_video { FRAME_QUEUE_LEN } else { 0 });
if !self.has_video {
canvas.clear();
canvas.copy(disp_q.get_last_texture(&self.osd), None, None).unwrap();
canvas.present();
}
self.has_audio = self.acontrol.has_audio();
if !self.has_video && !self.has_audio {
println!("No playable streams.");
return;
}
// play
self.prefill(&mut dmx, &mut disp_q);
self.tkeep.reset_all(0);
if !self.paused {
self.acontrol.resume();
}
let mut event_pump = self.sdl_context.event_pump().unwrap();
let mut last_disp = Instant::now();
let mut has_data = true;
'main: loop {
if self.handle_events(&mut event_pump, &mut canvas, &mut dmx, &mut disp_q) {
println!();
break 'main;
}
if !self.paused {
let mut try_send = self.acontrol.get_queue_size() < FRAME_QUEUE_LEN && self.vcontrol.get_queue_size() < FRAME_QUEUE_LEN;
if !self.vcontrol.try_send_queued() && self.vcontrol.is_filled(FRAME_QUEUE_LEN) {
try_send = false;
}
if !self.acontrol.try_send_queued() {
try_send = false;
}
while has_data && try_send {
match dmx.get_frame() {
Err(DemuxerError::EOF) => {
self.vcontrol.try_send_video(PktSendEvent::End);
self.acontrol.try_send_audio(PktSendEvent::End);
has_data = false;
},
Err(err) => { println!("demuxer error {:?}", err); },
Ok(pkt) => {
let streamno = pkt.get_stream().get_id();
if self.has_video && streamno == self.video_str {
debug_log!(self; {" sending video packet"});
self.vcontrol.try_send_video(PktSendEvent::Packet(pkt));
if self.vcontrol.is_filled(FRAME_QUEUE_LEN) {
try_send = false;
}
} else if self.has_audio && streamno == self.audio_str {
debug_log!(self; {" sending audio packet"});
self.acontrol.try_send_audio(PktSendEvent::Packet(pkt));
if self.acontrol.get_queue_size() >= FRAME_QUEUE_LEN {
try_send = false;
}
}
}
};
}
self.vcontrol.fill(&mut disp_q);
let mut sleep_time = 25;
debug_log!(self; {format!(" time {}", self.tkeep.get_cur_time())});
if self.has_video {
debug_log!(self; {format!(" disp queue {}-{}, {}-{} vqueue fill {}", disp_q.first_ts, disp_q.last_ts, disp_q.start, disp_q.end, self.vcontrol.get_queue_size())});
let ret = try_display(&mut disp_q, &mut canvas, &mut self.osd, &self.tkeep);
if let Some(next_time) = ret {
sleep_time = sleep_time.min(next_time);
}
}
if self.has_audio {
let time_left = self.acontrol.get_time_left();
debug_log!(self; {format!(" audio left {}", time_left)});
sleep_time = sleep_time.min(time_left);
}
debug_log!(self; {format!(" sleep {}ms", sleep_time)});
if last_disp.elapsed().as_millis() >= 10 {
let c_time = self.tkeep.get_cur_time();
if !self.debug {
print!(" {} {}% \r", format_time(c_time), self.acontrol.get_volume());
} else {
print!(" {} {} {}% {:3} {:6}\r", format_time(c_time), if self.vcontrol.is_yuv() { 'Y' } else { 'R' }, self.acontrol.get_volume(), (disp_q.end + disp_q.len - disp_q.start) % disp_q.len, self.acontrol.get_fill());
}
std::io::stdout().flush().unwrap();
last_disp = Instant::now();
}
let mut end = true;
if self.has_video && !self.vcontrol.is_video_end() {
end = false;
}
if self.has_audio && !self.acontrol.is_audio_end() {
end = false;
}
if end {
break;
}
thread::sleep(Duration::from_millis(sleep_time));
} else {
thread::sleep(Duration::from_millis(20));
}
}
println!();
std::mem::swap(&mut self.vcontrol, &mut new_vcontrol);
new_vcontrol.finish();
std::mem::swap(&mut self.acontrol, &mut new_acontrol);
new_acontrol.finish();
}
}
fn main() {
let args: Vec<String> = env::args().collect();
if args.len() == 1 {
println!("usage: nihav-player file1 file2 ...");
return;
}
let mut player = Player::new();
let mut aiter = args.iter().skip(1);
let mut seek_time = NATimePoint::None;
while let Some(arg) = aiter.next() {
match arg.as_str() {
"-an" => { player.play_audio = false; },
"-ae" => { player.play_audio = true; },
"-vn" => { player.play_video = false; },
"-ve" => { player.play_video = true; },
"-seek" => {
if let Some(arg) = aiter.next() {
if let Ok(time) = arg.parse::<NATimePoint>() {
seek_time = time;
} else {
println!("wrong seek time");
seek_time = NATimePoint::None;
}
}
},
"-vol" => {
if let Some(arg) = aiter.next() {
if let Ok(vol) = arg.parse::<usize>() {
player.volume = vol.min(MAX_VOLUME);
} else {
println!("wrong volume");
}
}
},
"-debug" => {
player.debug = true;
},
"-nodebug" => {
player.debug = false;
},
"-mt" => {
player.use_mt = true;
},
"-nomt" => {
player.use_mt = false;
},
"-threads" => {
if let Some(arg) = aiter.next() {
if let Ok(val) = arg.parse::<usize>() {
player.vthreads = val.max(1);
} else {
println!("wrong number of threads");
}
}
},
_ => {
player.play(arg, seek_time);
if player.end { break; }
seek_time = NATimePoint::None;
},
};
}
}
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