#[doc(hidden)]; // Support code for rustc's built in test runner generator. Currently, // none of this is meant for users. It is intended to support the // simplest interface possible for representing and running tests // while providing a base that other test frameworks may build off of. import either::Either; import result::{ok, err}; import io::WriterUtil; import libc::size_t; import task::TaskBuilder; import comm = core::comm; export test_name; export test_fn; export test_desc; export test_main; export test_result; export test_opts; export tr_ok; export tr_failed; export tr_ignored; export run_tests_console; #[abi = "cdecl"] extern mod rustrt { fn sched_threads() -> libc::size_t; } // The name of a test. By convention this follows the rules for rust // paths; i.e. it should be a series of identifiers seperated by double // colons. This way if some test runner wants to arrange the tests // hierarchically it may. type test_name = ~str; // A function that runs a test. If the function returns successfully, // the test succeeds; if the function fails then the test fails. We // may need to come up with a more clever definition of test in order // to support isolation of tests into tasks. type test_fn = fn~(); // The definition of a single test. A test runner will run a list of // these. type test_desc = { name: test_name, fn: test_fn, ignore: bool, should_fail: bool }; // The default console test runner. It accepts the command line // arguments and a vector of test_descs (generated at compile time). fn test_main(args: ~[~str], tests: ~[test_desc]) { let opts = match parse_opts(args) { either::Left(o) => o, either::Right(m) => fail m }; if !run_tests_console(opts, tests) { fail ~"Some tests failed"; } } type test_opts = {filter: Option<~str>, run_ignored: bool, logfile: Option<~str>}; type opt_res = Either; // Parses command line arguments into test options fn parse_opts(args: ~[~str]) -> opt_res { let args_ = vec::tail(args); let opts = ~[getopts::optflag(~"ignored"), getopts::optopt(~"logfile")]; let matches = match getopts::getopts(args_, opts) { ok(m) => m, err(f) => return either::Right(getopts::fail_str(f)) }; let filter = if vec::len(matches.free) > 0u { option::Some(matches.free[0]) } else { option::None }; let run_ignored = getopts::opt_present(matches, ~"ignored"); let logfile = getopts::opt_maybe_str(matches, ~"logfile"); let test_opts = {filter: filter, run_ignored: run_ignored, logfile: logfile}; return either::Left(test_opts); } enum test_result { tr_ok, tr_failed, tr_ignored, } type console_test_state = @{out: io::Writer, log_out: Option, use_color: bool, mut total: uint, mut passed: uint, mut failed: uint, mut ignored: uint, mut failures: ~[test_desc]}; // A simple console test runner fn run_tests_console(opts: test_opts, tests: ~[test_desc]) -> bool { fn callback(event: testevent, st: console_test_state) { match event { te_filtered(filtered_tests) => { st.total = vec::len(filtered_tests); let noun = if st.total != 1u { ~"tests" } else { ~"test" }; st.out.write_line(fmt!("\nrunning %u %s", st.total, noun)); } te_wait(test) => st.out.write_str(fmt!("test %s ... ", test.name)), te_result(test, result) => { match st.log_out { Some(f) => write_log(f, result, test), None => () } match result { tr_ok => { st.passed += 1u; write_ok(st.out, st.use_color); st.out.write_line(~""); } tr_failed => { st.failed += 1u; write_failed(st.out, st.use_color); st.out.write_line(~""); vec::push(st.failures, copy test); } tr_ignored => { st.ignored += 1u; write_ignored(st.out, st.use_color); st.out.write_line(~""); } } } } } let log_out = match opts.logfile { Some(path) => match io::file_writer(&Path(path), ~[io::Create, io::Truncate]) { result::ok(w) => Some(w), result::err(s) => { fail(fmt!("can't open output file: %s", s)) } }, None => None }; let st = @{out: io::stdout(), log_out: log_out, use_color: use_color(), mut total: 0u, mut passed: 0u, mut failed: 0u, mut ignored: 0u, mut failures: ~[]}; run_tests(opts, tests, |x| callback(x, st)); assert (st.passed + st.failed + st.ignored == st.total); let success = st.failed == 0u; if !success { print_failures(st); } st.out.write_str(fmt!("\nresult: ")); if success { // There's no parallelism at this point so it's safe to use color write_ok(st.out, true); } else { write_failed(st.out, true); } st.out.write_str(fmt!(". %u passed; %u failed; %u ignored\n\n", st.passed, st.failed, st.ignored)); return success; fn write_log(out: io::Writer, result: test_result, test: test_desc) { out.write_line(fmt!("%s %s", match result { tr_ok => ~"ok", tr_failed => ~"failed", tr_ignored => ~"ignored" }, test.name)); } fn write_ok(out: io::Writer, use_color: bool) { write_pretty(out, ~"ok", term::color_green, use_color); } fn write_failed(out: io::Writer, use_color: bool) { write_pretty(out, ~"FAILED", term::color_red, use_color); } fn write_ignored(out: io::Writer, use_color: bool) { write_pretty(out, ~"ignored", term::color_yellow, use_color); } fn write_pretty(out: io::Writer, word: ~str, color: u8, use_color: bool) { if use_color && term::color_supported() { term::fg(out, color); } out.write_str(word); if use_color && term::color_supported() { term::reset(out); } } } fn print_failures(st: console_test_state) { st.out.write_line(~"\nfailures:"); let failures = copy st.failures; let failures = vec::map(failures, |test| test.name); let failures = sort::merge_sort(str::le, failures); for vec::each(failures) |name| { st.out.write_line(fmt!(" %s", name)); } } #[test] fn should_sort_failures_before_printing_them() { let buffer = io::mem_buffer(); let writer = io::mem_buffer_writer(buffer); let test_a = { name: ~"a", fn: fn~() { }, ignore: false, should_fail: false }; let test_b = { name: ~"b", fn: fn~() { }, ignore: false, should_fail: false }; let st = @{out: writer, log_out: option::None, use_color: false, mut total: 0u, mut passed: 0u, mut failed: 0u, mut ignored: 0u, mut failures: ~[test_b, test_a]}; print_failures(st); let s = io::mem_buffer_str(buffer); let apos = option::get(str::find_str(s, ~"a")); let bpos = option::get(str::find_str(s, ~"b")); assert apos < bpos; } fn use_color() -> bool { return get_concurrency() == 1u; } enum testevent { te_filtered(~[test_desc]), te_wait(test_desc), te_result(test_desc, test_result), } type monitor_msg = (test_desc, test_result); fn run_tests(opts: test_opts, tests: ~[test_desc], callback: fn@(testevent)) { let mut filtered_tests = filter_tests(opts, tests); callback(te_filtered(copy filtered_tests)); // It's tempting to just spawn all the tests at once, but since we have // many tests that run in other processes we would be making a big mess. let concurrency = get_concurrency(); debug!("using %u test tasks", concurrency); let total = vec::len(filtered_tests); let mut run_idx = 0u; let mut wait_idx = 0u; let mut done_idx = 0u; let p = core::comm::port(); let ch = core::comm::chan(p); while done_idx < total { while wait_idx < concurrency && run_idx < total { let test = copy filtered_tests[run_idx]; if concurrency == 1u { // We are doing one test at a time so we can print the name // of the test before we run it. Useful for debugging tests // that hang forever. callback(te_wait(copy test)); } run_test(test, ch); wait_idx += 1u; run_idx += 1u; } let (test, result) = core::comm::recv(p); if concurrency != 1u { callback(te_wait(copy test)); } callback(te_result(test, result)); wait_idx -= 1u; done_idx += 1u; } } // Windows tends to dislike being overloaded with threads. #[cfg(windows)] const sched_overcommit : uint = 1u; #[cfg(unix)] const sched_overcommit : uint = 4u; fn get_concurrency() -> uint { let threads = rustrt::sched_threads() as uint; if threads == 1u { 1u } else { threads * sched_overcommit } } #[allow(non_implicitly_copyable_typarams)] fn filter_tests(opts: test_opts, tests: ~[test_desc]) -> ~[test_desc] { let mut filtered = copy tests; // Remove tests that don't match the test filter filtered = if option::is_none(opts.filter) { filtered } else { let filter_str = match opts.filter { option::Some(f) => f, option::None => ~"" }; fn filter_fn(test: test_desc, filter_str: ~str) -> Option { if str::contains(test.name, filter_str) { return option::Some(copy test); } else { return option::None; } } vec::filter_map(filtered, |x| filter_fn(x, filter_str)) }; // Maybe pull out the ignored test and unignore them filtered = if !opts.run_ignored { filtered } else { fn filter(test: test_desc) -> Option { if test.ignore { return option::Some({name: test.name, fn: copy test.fn, ignore: false, should_fail: test.should_fail}); } else { return option::None; } }; vec::filter_map(filtered, |x| filter(x)) }; // Sort the tests alphabetically filtered = { pure fn lteq(t1: &test_desc, t2: &test_desc) -> bool { str::le(&t1.name, &t2.name) } sort::merge_sort(lteq, filtered) }; return filtered; } type test_future = {test: test_desc, wait: fn@() -> test_result}; fn run_test(+test: test_desc, monitor_ch: comm::Chan) { if test.ignore { core::comm::send(monitor_ch, (copy test, tr_ignored)); return; } do task::spawn { let testfn = copy test.fn; let mut result_future = None; // task::future_result(builder); task::task().unlinked().future_result(|+r| { result_future = Some(r); }).spawn(testfn); let task_result = future::get(&option::unwrap(result_future)); let test_result = calc_result(test, task_result == task::Success); comm::send(monitor_ch, (copy test, test_result)); }; } fn calc_result(test: test_desc, task_succeeded: bool) -> test_result { if task_succeeded { if test.should_fail { tr_failed } else { tr_ok } } else { if test.should_fail { tr_ok } else { tr_failed } } } #[cfg(test)] mod tests { #[test] fn do_not_run_ignored_tests() { fn f() { fail; } let desc = { name: ~"whatever", fn: f, ignore: true, should_fail: false }; let p = core::comm::port(); let ch = core::comm::chan(p); run_test(desc, ch); let (_, res) = core::comm::recv(p); assert res != tr_ok; } #[test] fn ignored_tests_result_in_ignored() { fn f() { } let desc = { name: ~"whatever", fn: f, ignore: true, should_fail: false }; let p = core::comm::port(); let ch = core::comm::chan(p); run_test(desc, ch); let (_, res) = core::comm::recv(p); assert res == tr_ignored; } #[test] #[ignore(cfg(windows))] fn test_should_fail() { fn f() { fail; } let desc = { name: ~"whatever", fn: f, ignore: false, should_fail: true }; let p = core::comm::port(); let ch = core::comm::chan(p); run_test(desc, ch); let (_, res) = core::comm::recv(p); assert res == tr_ok; } #[test] fn test_should_fail_but_succeeds() { fn f() { } let desc = { name: ~"whatever", fn: f, ignore: false, should_fail: true }; let p = core::comm::port(); let ch = core::comm::chan(p); run_test(desc, ch); let (_, res) = core::comm::recv(p); assert res == tr_failed; } #[test] fn first_free_arg_should_be_a_filter() { let args = ~[~"progname", ~"filter"]; let opts = match parse_opts(args) { either::Left(o) => o, _ => fail ~"Malformed arg in first_free_arg_should_be_a_filter" }; assert ~"filter" == option::get(opts.filter); } #[test] fn parse_ignored_flag() { let args = ~[~"progname", ~"filter", ~"--ignored"]; let opts = match parse_opts(args) { either::Left(o) => o, _ => fail ~"Malformed arg in parse_ignored_flag" }; assert (opts.run_ignored); } #[test] fn filter_for_ignored_option() { // When we run ignored tests the test filter should filter out all the // unignored tests and flip the ignore flag on the rest to false let opts = {filter: option::None, run_ignored: true, logfile: option::None}; let tests = ~[{name: ~"1", fn: fn~() { }, ignore: true, should_fail: false}, {name: ~"2", fn: fn~() { }, ignore: false, should_fail: false}]; let filtered = filter_tests(opts, tests); assert (vec::len(filtered) == 1u); assert (filtered[0].name == ~"1"); assert (filtered[0].ignore == false); } #[test] fn sort_tests() { let opts = {filter: option::None, run_ignored: false, logfile: option::None}; let names = ~[~"sha1::test", ~"int::test_to_str", ~"int::test_pow", ~"test::do_not_run_ignored_tests", ~"test::ignored_tests_result_in_ignored", ~"test::first_free_arg_should_be_a_filter", ~"test::parse_ignored_flag", ~"test::filter_for_ignored_option", ~"test::sort_tests"]; let tests = { let testfn = fn~() { }; let mut tests = ~[]; for vec::each(names) |name| { let test = {name: name, fn: copy testfn, ignore: false, should_fail: false}; tests += ~[test]; } tests }; let filtered = filter_tests(opts, tests); let expected = ~[~"int::test_pow", ~"int::test_to_str", ~"sha1::test", ~"test::do_not_run_ignored_tests", ~"test::filter_for_ignored_option", ~"test::first_free_arg_should_be_a_filter", ~"test::ignored_tests_result_in_ignored", ~"test::parse_ignored_flag", ~"test::sort_tests"]; let pairs = vec::zip(expected, filtered); for vec::each(pairs) |p| { let (a, b) = copy p; assert (a == b.name); } } } // Local Variables: // mode: rust; // fill-column: 78; // indent-tabs-mode: nil // c-basic-offset: 4 // buffer-file-coding-system: utf-8-unix // End: