// This test creates a bunch of tasks that simultaneously send to each
// other in a ring. The messages should all be basically
// independent. It's designed to hammer the global kernel lock, so
// that things will look really good once we get that lock out of the
// message path.

// This version uses automatically compiled channel contracts.

// xfail-pretty

import future::future;

use std;
import std::time;

import pipes::recv;

proto! ring {
    num:send {
        num(uint) -> num
    }
}

fn macros() {
    #macro[
        [#move_out[x],
         unsafe { let y <- *ptr::addr_of(x); y }]
    ];
}

fn thread_ring(i: uint,
               count: uint,
               +num_chan: ring::client::num,
               +num_port: ring::server::num) {
    let mut num_chan <- some(num_chan);
    let mut num_port <- some(num_port);
    // Send/Receive lots of messages.
    for uint::range(0u, count) |j| {
        //error!{"task %?, iter %?", i, j};
        let mut num_chan2 = none;
        let mut num_port2 = none;
        num_chan2 <-> num_chan;
        num_port2 <-> num_port;
        num_chan = some(ring::client::num(option::unwrap(num_chan2), i * j));
        let port = option::unwrap(num_port2);
        alt recv(port) {
          ring::num(_n, p) {
            //log(error, _n);
            num_port = some(move_out!{p});
          }
        }
    };
}

fn main(args: ~[~str]) {
    let args = if os::getenv(~"RUST_BENCH").is_some() {
        ~[~"", ~"100", ~"10000"]
    } else if args.len() <= 1u {
        ~[~"", ~"100", ~"1000"]
    } else {
        copy args
    }; 

    let num_tasks = option::get(uint::from_str(args[1]));
    let msg_per_task = option::get(uint::from_str(args[2]));

    let (num_chan, num_port) = ring::init();
    let mut num_chan = some(num_chan);

    let start = time::precise_time_s();

    // create the ring
    let mut futures = ~[];

    for uint::range(1u, num_tasks) |i| {
        //error!{"spawning %?", i};
        let (new_chan, num_port) = ring::init();
        let num_chan2 = ~mut none;
        *num_chan2 <-> num_chan;
        let num_port = ~mut some(num_port);
        futures += ~[future::spawn(|move num_chan2, move num_port| {
            let mut num_chan = none;
            num_chan <-> *num_chan2;
            let mut num_port1 = none;
            num_port1 <-> *num_port;
            thread_ring(i, msg_per_task,
                        option::unwrap(num_chan),
                        option::unwrap(num_port1))
        })];
        num_chan = some(new_chan);
    };

    // do our iteration
    thread_ring(0u, msg_per_task, option::unwrap(num_chan), num_port);

    // synchronize
    for futures.each |f| { future::get(f) };

    let stop = time::precise_time_s();

    // all done, report stats.
    let num_msgs = num_tasks * msg_per_task;
    let elapsed = (stop - start);
    let rate = (num_msgs as float) / elapsed;

    io::println(fmt!{"Sent %? messages in %? seconds",
                     num_msgs, elapsed});
    io::println(fmt!{"  %? messages / second", rate});
    io::println(fmt!{"  %? μs / message", 1000000. / rate});
}