only stdout for output to std
Bel LaPointe
parent
d2e4a4de28
commit
ee34b47bd8
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@ -39,24 +39,24 @@ pub fn build_input_stream_device_gilrs(cfg: &Stream) -> Result<InputStreamDevice
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let mut gilrs = Gilrs::new().unwrap();
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let mut gilrs = Gilrs::new().unwrap();
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println!("printing gamepads");
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eprintln!("printing gamepads");
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for (_id, gamepad) in gilrs.gamepads() {
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for (_id, gamepad) in gilrs.gamepads() {
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println!("{} is {:?}", gamepad.name(), gamepad.power_info());
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eprintln!("{} is {:?}", gamepad.name(), gamepad.power_info());
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}
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}
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println!("printing gamepads events");
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eprintln!("printing gamepads events");
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loop {
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loop {
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// println!("reading gamepads events");
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// eprintln!("reading gamepads events");
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// Examine new events
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// Examine new events
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while let Some(Event { id, event, time }) = gilrs.next_event() {
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while let Some(Event { id, event, time }) = gilrs.next_event() {
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println!("{:?} New event from {}: {:?}", time, id, event);
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eprintln!("{:?} New event from {}: {:?}", time, id, event);
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let active_gamepad = Some(id);
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let active_gamepad = Some(id);
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println!("inspecting event");
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eprintln!("inspecting event");
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// You can also use cached gamepad state
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// You can also use cached gamepad state
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if let Some(gamepad) = active_gamepad.map(|id| gilrs.gamepad(id)) {
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if let Some(gamepad) = active_gamepad.map(|id| gilrs.gamepad(id)) {
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if gamepad.is_pressed(Button::South) {
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if gamepad.is_pressed(Button::South) {
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println!("Button South is pressed (XBox - A, PS - X)");
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eprintln!("Button South is pressed (XBox - A, PS - X)");
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}
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}
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}
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}
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break;
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break;
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@ -74,7 +74,7 @@ pub fn build_input_stream_device_hidapi(cfg: &Stream) -> Result<InputStreamDevic
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match HidApi::new() {
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match HidApi::new() {
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Ok(api) => {
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Ok(api) => {
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for device in api.devices() {
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for device in api.devices() {
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println!("{:#?}", device);
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eprintln!("{:#?}", device);
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}
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}
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},
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},
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Err(e) => {
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Err(e) => {
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@ -94,7 +94,7 @@ pub fn build_input_stream_device_rusb(cfg: &Stream) -> Result<InputStreamDevice,
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for device in ctx.devices().unwrap().iter() {
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for device in ctx.devices().unwrap().iter() {
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let device_desc = device.device_descriptor().unwrap();
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let device_desc = device.device_descriptor().unwrap();
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println!("Bus {:03} Device {:03} ID {:04x}:{:04x}",
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eprintln!("Bus {:03} Device {:03} ID {:04x}:{:04x}",
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device.bus_number(),
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device.bus_number(),
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device.address(),
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device.address(),
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device_desc.vendor_id(),
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device_desc.vendor_id(),
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@ -116,7 +116,7 @@ pub struct InputStreamUDP {
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pub fn build_input_stream_udp(cfg: &Stream) -> Result<InputStreamUDP, String> {
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pub fn build_input_stream_udp(cfg: &Stream) -> Result<InputStreamUDP, String> {
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let udp_cfg = cfg.engine.udp.as_ref().unwrap();
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let udp_cfg = cfg.engine.udp.as_ref().unwrap();
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println!("$ echo -n 'hello world' | nc -4u -w0 localhost {}", &udp_cfg.port.to_string());
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eprintln!("$ echo -n 'hello world' | nc -4u -w0 localhost {}", &udp_cfg.port.to_string());
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return Ok(InputStreamUDP{
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return Ok(InputStreamUDP{
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last_socket: None,
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last_socket: None,
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port: udp_cfg.port,
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port: udp_cfg.port,
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@ -133,7 +133,7 @@ impl InputStream for InputStreamUDP {
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let mut buf = [0; 128];
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let mut buf = [0; 128];
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let result = self.last_socket.as_ref().unwrap().recv_from(&mut buf);
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let result = self.last_socket.as_ref().unwrap().recv_from(&mut buf);
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if result.is_err() {
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if result.is_err() {
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println!("InputStreamUDP: failed to recv: {:?}", result.err());
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eprintln!("InputStreamUDP: failed to recv: {:?}", result.err());
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self.last_socket = None;
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self.last_socket = None;
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return Vec::<char>::new();
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return Vec::<char>::new();
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}
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}
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@ -297,13 +297,13 @@ impl OutputStream for OutputStreamUDP {
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if self.last_socket.is_none() {
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if self.last_socket.is_none() {
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let result = std::net::UdpSocket::bind("127.0.0.1:".to_string() + &(self.port+10).to_string());
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let result = std::net::UdpSocket::bind("127.0.0.1:".to_string() + &(self.port+10).to_string());
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if result.is_err() {
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if result.is_err() {
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println!("OutputStreamUDP: failed to bind to 127.0.0.1:{}: {:?}", &(self.port+10).to_string(), result.err());
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eprintln!("OutputStreamUDP: failed to bind to 127.0.0.1:{}: {:?}", &(self.port+10).to_string(), result.err());
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return;
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return;
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}
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}
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self.last_socket = Some(result.unwrap());
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self.last_socket = Some(result.unwrap());
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let result = self.last_socket.as_ref().unwrap().connect(self.host.to_string() + ":" + &self.port.to_string());
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let result = self.last_socket.as_ref().unwrap().connect(self.host.to_string() + ":" + &self.port.to_string());
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if result.is_err() {
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if result.is_err() {
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println!("OutputStreamUDP: failed to connect to {}:{}: {:?}", self.host.to_string(), self.port.to_string(), result.err());
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eprintln!("OutputStreamUDP: failed to connect to {}:{}: {:?}", self.host.to_string(), self.port.to_string(), result.err());
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self.last_socket = None;
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self.last_socket = None;
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return;
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return;
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}
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}
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@ -311,7 +311,7 @@ impl OutputStream for OutputStreamUDP {
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let result = self.last_socket.as_ref().unwrap().send(&v.iter().cloned().collect::<String>().as_bytes());
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let result = self.last_socket.as_ref().unwrap().send(&v.iter().cloned().collect::<String>().as_bytes());
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if result.is_err() {
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if result.is_err() {
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println!("OutputStreamUDP: failed to send: {:?}", result.err());
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eprintln!("OutputStreamUDP: failed to send: {:?}", result.err());
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self.last_socket = None;
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self.last_socket = None;
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}
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}
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}
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}
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