rust/src/test/bench/core-map.rs

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/*
*/
use std;
import rand;
import std::map;
import managed::Managed;
import send_map::linear::*;
import 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);
}
fn int_benchmarks<M: map::map<uint, uint>>(make_map: fn() -> M,
rng: @rand::Rng,
num_keys: uint,
results: &mut Results) {
{
let map = make_map();
do timed(&mut results.sequential_ints) {
for uint::range(0, num_keys) |i| {
map.insert(i, i+1);
}
for uint::range(0, num_keys) |i| {
assert map.get(i) == i+1;
}
}
}
{
let map = make_map();
do timed(&mut results.random_ints) {
for uint::range(0, num_keys) |i| {
map.insert(rng.next() as uint, i);
}
}
}
{
let map = make_map();
for uint::range(0, num_keys) |i| {
map.insert(i, i);;
}
do timed(&mut results.delete_ints) {
for uint::range(0, num_keys) |i| {
assert map.remove(i);
}
}
}
}
fn str_benchmarks<M: map::map<~str, uint>>(make_map: fn() -> M,
rng: @rand::Rng,
num_keys: uint,
results: &mut Results) {
{
let map = make_map();
do timed(&mut results.sequential_strings) {
for uint::range(0, num_keys) |i| {
let s = uint::to_str(i, 10);
map.insert(s, i);
}
for uint::range(0, num_keys) |i| {
let s = uint::to_str(i, 10);
assert map.get(s) == i;
}
}
}
{
let map = make_map();
do timed(&mut results.random_strings) {
for uint::range(0, num_keys) |i| {
let s = uint::to_str(rng.next() as uint, 10);
map.insert(s, i);
}
}
}
{
let map = make_map();
for uint::range(0, num_keys) |i| {
map.insert(uint::to_str(i, 10), i);
}
do timed(&mut results.delete_strings) {
for uint::range(0, num_keys) |i| {
assert map.remove(uint::to_str(i, 10));
}
}
}
}
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(args: ~[~str]) {
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 rng = rand::seeded_rng(copy seed);
let mut results = empty_results();
int_benchmarks::<map::hashmap<uint, uint>>(
map::uint_hash, rng, num_keys, &mut results);
str_benchmarks::<map::hashmap<~str, uint>>(
map::str_hash, rng, num_keys, &mut results);
write_results("libstd::map::hashmap", &results);
}
{
let rng = rand::seeded_rng(copy seed);
let mut results = empty_results();
int_benchmarks::<Managed<LinearMap<uint, uint>>>(
|| Managed(LinearMap()),
rng, num_keys, &mut results);
str_benchmarks::<Managed<LinearMap<~str, uint>>>(
|| Managed(LinearMap()),
rng, num_keys, &mut results);
write_results("libstd::map::hashmap", &results);
}
}