// Copyright 2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. extern mod std; use core::hashmap::linear::LinearSet; use std::bitv::BitvSet; use std::treemap::TreeSet; use core::io::WriterUtil; struct Results { sequential_ints: float, random_ints: float, delete_ints: float, sequential_strings: float, random_strings: float, delete_strings: float } fn timed(result: &mut float, op: fn()) { let start = std::time::precise_time_s(); op(); let end = std::time::precise_time_s(); *result = (end - start); } pub impl Results { fn bench_int>(&mut self, rng: @rand::Rng, num_keys: uint, rand_cap: uint, f: fn() -> T) { { let mut set = f(); do timed(&mut self.sequential_ints) { for uint::range(0, num_keys) |i| { set.insert(i); } for uint::range(0, num_keys) |i| { fail_unless!(set.contains(&i)); } } } { let mut set = f(); do timed(&mut self.random_ints) { for num_keys.times { set.insert((rng.next() as uint) % rand_cap); } } } { let mut set = f(); for uint::range(0, num_keys) |i| { set.insert(i); } do timed(&mut self.delete_ints) { for uint::range(0, num_keys) |i| { fail_unless!(set.remove(&i)); } } } } fn bench_str>(&mut self, rng: @rand::Rng, num_keys: uint, f: fn() -> T) { { let mut set = f(); do timed(&mut self.sequential_strings) { for uint::range(0, num_keys) |i| { let s = uint::to_str(i); set.insert(s); } for uint::range(0, num_keys) |i| { let s = uint::to_str(i); fail_unless!(set.contains(&s)); } } } { let mut set = f(); do timed(&mut self.random_strings) { for num_keys.times { let s = uint::to_str(rng.next() as uint); set.insert(s); } } } { let mut set = f(); for uint::range(0, num_keys) |i| { set.insert(uint::to_str(i)); } do timed(&mut self.delete_strings) { for uint::range(0, num_keys) |i| { fail_unless!(set.remove(&uint::to_str(i))); } } } } } fn write_header(header: &str) { io::stdout().write_str(header); io::stdout().write_str("\n"); } fn write_row(label: &str, value: float) { io::stdout().write_str(fmt!("%30s %f s\n", label, value)); } fn write_results(label: &str, results: &Results) { write_header(label); write_row("sequential_ints", results.sequential_ints); write_row("random_ints", results.random_ints); write_row("delete_ints", results.delete_ints); write_row("sequential_strings", results.sequential_strings); write_row("random_strings", results.random_strings); write_row("delete_strings", results.delete_strings); } fn empty_results() -> Results { Results { sequential_ints: 0f, random_ints: 0f, delete_ints: 0f, sequential_strings: 0f, random_strings: 0f, delete_strings: 0f, } } fn main() { let args = os::args(); let num_keys = { if args.len() == 2 { uint::from_str(args[1]).get() } else { 100 // woefully inadequate for any real measurement } }; let seed = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]; let max = 200000; { let rng = rand::seeded_rng(seed); let mut results = empty_results(); results.bench_int(rng, num_keys, max, || LinearSet::new::()); results.bench_str(rng, num_keys, || LinearSet::new::<~str>()); write_results("core::hashmap::LinearSet", &results); } { let rng = rand::seeded_rng(seed); let mut results = empty_results(); results.bench_int(rng, num_keys, max, || TreeSet::new::()); results.bench_str(rng, num_keys, || TreeSet::new::<~str>()); write_results("std::treemap::TreeSet", &results); } { let rng = rand::seeded_rng(seed); let mut results = empty_results(); results.bench_int(rng, num_keys, max, || BitvSet::new()); write_results("std::bitv::BitvSet", &results); } }