extern crate rosc; use rosc::encoder; use rosc::{OscMessage, OscPacket, OscType}; use std::net::{SocketAddrV4, UdpSocket}; use std::str::FromStr; use std::time::Duration; use std::{env, f32, thread}; fn get_addr_from_arg(arg: &str) -> SocketAddrV4 { SocketAddrV4::from_str(arg).unwrap() } fn main() { let args: Vec = env::args().collect(); let usage = format!( "Usage: {} HOST_IP:HOST_PORT CLIENT_IP:CLIENT_PORT", &args[0] ); if args.len() < 3 { panic!("{}", usage); } let host_addr = get_addr_from_arg(&args[1]); let to_addr = get_addr_from_arg(&args[2]); let sock = UdpSocket::bind(host_addr).unwrap(); // switch view let msg_buf = encoder::encode(&OscPacket::Message(OscMessage { addr: "/3".to_string(), args: vec![], })) .unwrap(); sock.send_to(&msg_buf, to_addr).unwrap(); // send random values to xy fields let steps = 128; let step_size: f32 = 2.0 * f32::consts::PI / steps as f32; for i in 0.. { let x = 0.5 + (step_size * (i % steps) as f32).sin() / 2.0; let y = 0.5 + (step_size * (i % steps) as f32).cos() / 2.0; let mut msg_buf = encoder::encode(&OscPacket::Message(OscMessage { addr: "/3/xy1".to_string(), args: vec![OscType::Float(x), OscType::Float(y)], })) .unwrap(); sock.send_to(&msg_buf, to_addr).unwrap(); msg_buf = encoder::encode(&OscPacket::Message(OscMessage { addr: "/3/xy2".to_string(), args: vec![OscType::Float(y), OscType::Float(x)], })) .unwrap(); sock.send_to(&msg_buf, to_addr).unwrap(); thread::sleep(Duration::from_millis(20)); } }