// -*- rust -*- // xfail-pretty /* A parallel version of fibonacci numbers. This version is meant mostly as a way of stressing and benchmarking the task system. It supports a lot of command-line arguments to control how it runs. */ use std; import vec; import uint; import std::time; import str; import int::range; import std::io; import std::getopts; import task; import u64; import comm; import comm::port; import comm::chan; import comm::send; import comm::recv; import core::result; import result::{ok, err}; fn fib(n: int) -> int { fn pfib(args: (chan, int)) { let (c, n) = args; if n == 0 { send(c, 0); } else if n <= 2 { send(c, 1); } else { let p = port(); let t1 = task::spawn((chan(p), n - 1), pfib); let t2 = task::spawn((chan(p), n - 2), pfib); send(c, recv(p) + recv(p)); } } let p = port(); let t = task::spawn((chan(p), n), pfib); ret recv(p); } type config = {stress: bool}; fn parse_opts(argv: [str]) -> config { let opts = [getopts::optflag("stress")]; let opt_args = vec::slice(argv, 1u, vec::len(argv)); alt getopts::getopts(opt_args, opts) { ok(m) { ret {stress: getopts::opt_present(m, "stress")} } err(_) { fail; } } } fn stress_task(&&id: int) { let i = 0; while true { let n = 15; assert (fib(n) == fib(n)); i += 1; #error("%d: Completed %d iterations", id, i); } } fn stress(num_tasks: int) { let tasks = []; range(0, num_tasks) {|i| tasks += [task::spawn_joinable(copy i, stress_task)]; } for t in tasks { task::join(t); } } fn main(argv: [str]) { if vec::len(argv) == 1u { assert (fib(8) == 21); log_full(core::debug, fib(8)); } else { // Interactive mode! Wooo!!!! let opts = parse_opts(argv); if opts.stress { stress(2); } else { let max = uint::parse_buf(str::bytes(argv[1]), 10u) as int; let num_trials = 10; let out = io::stdout(); range(1, max + 1) {|n| range(0, num_trials) {|i| let start = time::precise_time_ns(); let fibn = fib(n); let stop = time::precise_time_ns(); let elapsed = stop - start; out.write_line(#fmt["%d\t%d\t%s", n, fibn, u64::str(elapsed)]); } } } } }