use super::{Open, Sink}; use crate::audio::AudioPacket; use crate::config::AudioFormat; use crate::player::NUM_CHANNELS; use jack::{ AsyncClient, AudioOut, Client, ClientOptions, Control, Port, ProcessHandler, ProcessScope, }; use std::io; use std::sync::mpsc::{sync_channel, Receiver, SyncSender}; pub struct JackSink { send: SyncSender, // We have to keep hold of this object, or the Sink can't play... #[allow(dead_code)] active_client: AsyncClient<(), JackData>, } pub struct JackData { rec: Receiver, port_l: Port, port_r: Port, } impl ProcessHandler for JackData { fn process(&mut self, _: &Client, ps: &ProcessScope) -> Control { // get output port buffers let mut out_r = self.port_r.as_mut_slice(ps); let mut out_l = self.port_l.as_mut_slice(ps); let buf_r: &mut [f32] = &mut out_r; let buf_l: &mut [f32] = &mut out_l; // get queue iterator let mut queue_iter = self.rec.try_iter(); let buf_size = buf_r.len(); for i in 0..buf_size { buf_r[i] = queue_iter.next().unwrap_or(0.0); buf_l[i] = queue_iter.next().unwrap_or(0.0); } Control::Continue } } impl Open for JackSink { fn open(client_name: Option, format: AudioFormat) -> Self { if format != AudioFormat::F32 { warn!("JACK currently does not support {:?} output", format); } info!("Using JACK sink with format {:?}", AudioFormat::F32); let client_name = client_name.unwrap_or("librespot".to_string()); let (client, _status) = Client::new(&client_name[..], ClientOptions::NO_START_SERVER).unwrap(); let ch_r = client.register_port("out_0", AudioOut::default()).unwrap(); let ch_l = client.register_port("out_1", AudioOut::default()).unwrap(); // buffer for samples from librespot (~10ms) let (tx, rx) = sync_channel::(NUM_CHANNELS as usize * 1024 * AudioFormat::F32.size()); let jack_data = JackData { rec: rx, port_l: ch_l, port_r: ch_r, }; let active_client = AsyncClient::new(client, (), jack_data).unwrap(); Self { send: tx, active_client: active_client, } } } impl Sink for JackSink { start_stop_noop!(); fn write(&mut self, packet: &AudioPacket) -> io::Result<()> { for s in packet.samples().iter() { let res = self.send.send(*s); if res.is_err() { error!("cannot write to channel"); } } Ok(()) } }