src/libtest/tests.rs - third_party/rust - Git at Google

 use super::*;

 use crate::{
     bench::Bencher,
     console::OutputLocation,
     options::OutputFormat,
     time::{TimeThreshold, TestTimeOptions},
     formatters::PrettyFormatter,
     test::{
         filter_tests, parse_opts, run_test, DynTestFn, DynTestName, MetricMap,
         RunIgnored, RunStrategy, ShouldPanic, StaticTestName, TestDesc,
         TestDescAndFn, TestOpts, TrIgnored, TrOk,
         // FIXME (introduced by #65251)
         // ShouldPanic, StaticTestName, TestDesc, TestDescAndFn, TestOpts, TestTimeOptions,
         // TestType, TrFailedMsg, TrIgnored, TrOk,
     },
 };
 use std::any::TypeId;
 use std::sync::mpsc::channel;
 use std::time::Duration;

 impl TestOpts {
     fn new() -> TestOpts {
         TestOpts {
             list: false,
             filter: None,
             filter_exact: false,
             force_run_in_process: false,
             exclude_should_panic: false,
             run_ignored: RunIgnored::No,
             run_tests: false,
             bench_benchmarks: false,
             logfile: None,
             nocapture: false,
             color: AutoColor,
             format: OutputFormat::Pretty,
             test_threads: None,
             skip: vec![],
             time_options: None,
             options: Options::new(),
         }
     }
 }

 fn one_ignored_one_unignored_test() -> Vec<TestDescAndFn> {
     vec![
         TestDescAndFn {
             desc: TestDesc {
                 name: StaticTestName("1"),
                 ignore: true,
                 should_panic: ShouldPanic::No,
                 allow_fail: false,
                 test_type: TestType::Unknown,
             },
             testfn: DynTestFn(Box::new(move || {})),
         },
         TestDescAndFn {
             desc: TestDesc {
                 name: StaticTestName("2"),
                 ignore: false,
                 should_panic: ShouldPanic::No,
                 allow_fail: false,
                 test_type: TestType::Unknown,
             },
             testfn: DynTestFn(Box::new(move || {})),
         },
     ]
 }

 #[test]
 pub fn do_not_run_ignored_tests() {
     fn f() {
         panic!();
     }
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: true,
             should_panic: ShouldPanic::No,
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let (tx, rx) = channel();
     run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;
     assert_ne!(result, TrOk);
 }

 #[test]
 pub fn ignored_tests_result_in_ignored() {
     fn f() {}
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: true,
             should_panic: ShouldPanic::No,
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let (tx, rx) = channel();
     run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;
     assert_eq!(result, TrIgnored);
 }

 // FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
 #[test]
 #[cfg(not(target_os = "emscripten"))]
 fn test_should_panic() {
     fn f() {
         panic!();
     }
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: false,
             should_panic: ShouldPanic::Yes,
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let (tx, rx) = channel();
     run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;
     assert_eq!(result, TrOk);
 }

 // FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
 #[test]
 #[cfg(not(target_os = "emscripten"))]
 fn test_should_panic_good_message() {
     fn f() {
         panic!("an error message");
     }
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: false,
             should_panic: ShouldPanic::YesWithMessage("error message"),
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let (tx, rx) = channel();
     run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;
     assert_eq!(result, TrOk);
 }

 // FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
 #[test]
 #[cfg(not(target_os = "emscripten"))]
 fn test_should_panic_bad_message() {
     use crate::tests::TrFailedMsg;
     fn f() {
         panic!("an error message");
     }
     let expected = "foobar";
     let failed_msg = r#"panic did not contain expected string
       panic message: `"an error message"`,
  expected substring: `"foobar"`"#;
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: false,
             should_panic: ShouldPanic::YesWithMessage(expected),
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let (tx, rx) = channel();
     run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;
     assert_eq!(result, TrFailedMsg(failed_msg.to_string()));
 }

 // FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
 #[test]
 #[cfg(not(target_os = "emscripten"))]
 fn test_should_panic_non_string_message_type() {
     use crate::tests::TrFailedMsg;
     fn f() {
         panic!(1i32);
     }
     let expected = "foobar";
     let failed_msg = format!(r#"expected panic with string value,
  found non-string value: `{:?}`
      expected substring: `"foobar"`"#, TypeId::of::<i32>());
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: false,
             should_panic: ShouldPanic::YesWithMessage(expected),
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let (tx, rx) = channel();
     run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;
     assert_eq!(result, TrFailedMsg(failed_msg));
 }

 // FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
 #[test]
 #[cfg(not(target_os = "emscripten"))]
 fn test_should_panic_but_succeeds() {
     fn f() {}
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: false,
             should_panic: ShouldPanic::Yes,
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let (tx, rx) = channel();
     run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;
     assert_eq!(result, TrFailedMsg("test did not panic as expected".to_string()));
 }

 fn report_time_test_template(report_time: bool) -> Option<TestExecTime> {
     fn f() {}
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: false,
             should_panic: ShouldPanic::No,
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(f)),
     };
     let time_options = if report_time {
         Some(TestTimeOptions::default())
     } else {
         None
     };

     let test_opts = TestOpts {
         time_options,
         ..TestOpts::new()
     };
     let (tx, rx) = channel();
     run_test(&test_opts, false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let exec_time = rx.recv().unwrap().exec_time;
     exec_time
 }

 #[test]
 fn test_should_not_report_time() {
     let exec_time = report_time_test_template(false);
     assert!(exec_time.is_none());
 }

 #[test]
 fn test_should_report_time() {
     let exec_time = report_time_test_template(true);
     assert!(exec_time.is_some());
 }

 fn time_test_failure_template(test_type: TestType) -> TestResult {
     fn f() {}
     let desc = TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("whatever"),
             ignore: false,
             should_panic: ShouldPanic::No,
             allow_fail: false,
             test_type
         },
         testfn: DynTestFn(Box::new(f)),
     };
     // `Default` will initialize all the thresholds to 0 milliseconds.
     let mut time_options = TestTimeOptions::default();
     time_options.error_on_excess = true;

     let test_opts = TestOpts {
         time_options: Some(time_options),
         ..TestOpts::new()
     };
     let (tx, rx) = channel();
     run_test(&test_opts, false, desc, RunStrategy::InProcess, tx, Concurrent::No);
     let result = rx.recv().unwrap().result;

     result
 }

 #[test]
 fn test_error_on_exceed() {
     let types = [TestType::UnitTest, TestType::IntegrationTest, TestType::DocTest];

     for test_type in types.iter() {
         let result = time_test_failure_template(*test_type);

         assert_eq!(result, TestResult::TrTimedFail);
     }

     // Check that for unknown tests thresholds aren't applied.
     let result = time_test_failure_template(TestType::Unknown);
     assert_eq!(result, TestResult::TrOk);
 }

 fn typed_test_desc(test_type: TestType) -> TestDesc {
     TestDesc {
         name: StaticTestName("whatever"),
         ignore: false,
         should_panic: ShouldPanic::No,
         allow_fail: false,
         test_type
     }
 }

 fn test_exec_time(millis: u64) -> TestExecTime {
     TestExecTime(Duration::from_millis(millis))
 }

 #[test]
 fn test_time_options_threshold() {
     let unit = TimeThreshold::new(Duration::from_millis(50), Duration::from_millis(100));
     let integration = TimeThreshold::new(Duration::from_millis(500), Duration::from_millis(1000));
     let doc = TimeThreshold::new(Duration::from_millis(5000), Duration::from_millis(10000));

     let options = TestTimeOptions {
         error_on_excess: false,
         colored: false,
         unit_threshold: unit.clone(),
         integration_threshold: integration.clone(),
         doctest_threshold: doc.clone(),
     };

     let test_vector = [
         (TestType::UnitTest, unit.warn.as_millis() - 1, false, false),
         (TestType::UnitTest, unit.warn.as_millis(), true, false),
         (TestType::UnitTest, unit.critical.as_millis(), true, true),
         (TestType::IntegrationTest, integration.warn.as_millis() - 1, false, false),
         (TestType::IntegrationTest, integration.warn.as_millis(), true, false),
         (TestType::IntegrationTest, integration.critical.as_millis(), true, true),
         (TestType::DocTest, doc.warn.as_millis() - 1, false, false),
         (TestType::DocTest, doc.warn.as_millis(), true, false),
         (TestType::DocTest, doc.critical.as_millis(), true, true),
     ];

     for (test_type, time, expected_warn, expected_critical) in test_vector.iter() {
         let test_desc = typed_test_desc(*test_type);
         let exec_time = test_exec_time(*time as u64);

         assert_eq!(options.is_warn(&test_desc, &exec_time), *expected_warn);
         assert_eq!(options.is_critical(&test_desc, &exec_time), *expected_critical);
     }
 }

 #[test]
 fn parse_ignored_flag() {
     let args = vec![
         "progname".to_string(),
         "filter".to_string(),
         "--ignored".to_string(),
     ];
     let opts = parse_opts(&args).unwrap().unwrap();
     assert_eq!(opts.run_ignored, RunIgnored::Only);
 }

 #[test]
 fn parse_show_output_flag() {
     let args = vec![
         "progname".to_string(),
         "filter".to_string(),
         "--show-output".to_string(),
     ];
     let opts = parse_opts(&args).unwrap().unwrap();
     assert!(opts.options.display_output);
 }

 #[test]
 fn parse_include_ignored_flag() {
     let args = vec![
         "progname".to_string(),
         "filter".to_string(),
         "-Zunstable-options".to_string(),
         "--include-ignored".to_string(),
     ];
     let opts = parse_opts(&args).unwrap().unwrap();
     assert_eq!(opts.run_ignored, RunIgnored::Yes);
 }

 #[test]
 pub 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 mut opts = TestOpts::new();
     opts.run_tests = true;
     opts.run_ignored = RunIgnored::Only;

     let tests = one_ignored_one_unignored_test();
     let filtered = filter_tests(&opts, tests);

     assert_eq!(filtered.len(), 1);
     assert_eq!(filtered[0].desc.name.to_string(), "1");
     assert!(!filtered[0].desc.ignore);
 }

 #[test]
 pub fn run_include_ignored_option() {
     // When we "--include-ignored" tests, the ignore flag should be set to false on
     // all tests and no test filtered out

     let mut opts = TestOpts::new();
     opts.run_tests = true;
     opts.run_ignored = RunIgnored::Yes;

     let tests = one_ignored_one_unignored_test();
     let filtered = filter_tests(&opts, tests);

     assert_eq!(filtered.len(), 2);
     assert!(!filtered[0].desc.ignore);
     assert!(!filtered[1].desc.ignore);
 }

 #[test]
 pub fn exclude_should_panic_option() {
     let mut opts = TestOpts::new();
     opts.run_tests = true;
     opts.exclude_should_panic = true;

     let mut tests = one_ignored_one_unignored_test();
     tests.push(TestDescAndFn {
         desc: TestDesc {
             name: StaticTestName("3"),
             ignore: false,
             should_panic: ShouldPanic::Yes,
             allow_fail: false,
             test_type: TestType::Unknown,
         },
         testfn: DynTestFn(Box::new(move || {})),
     });

     let filtered = filter_tests(&opts, tests);

     assert_eq!(filtered.len(), 2);
     assert!(filtered.iter().all(|test| test.desc.should_panic == ShouldPanic::No));
 }

 #[test]
 pub fn exact_filter_match() {
     fn tests() -> Vec<TestDescAndFn> {
         vec!["base", "base::test", "base::test1", "base::test2"]
             .into_iter()
             .map(|name| TestDescAndFn {
                 desc: TestDesc {
                     name: StaticTestName(name),
                     ignore: false,
                     should_panic: ShouldPanic::No,
                     allow_fail: false,
                     test_type: TestType::Unknown,
                 },
                 testfn: DynTestFn(Box::new(move || {})),
             })
             .collect()
     }

     let substr = filter_tests(
         &TestOpts {
             filter: Some("base".into()),
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(substr.len(), 4);

     let substr = filter_tests(
         &TestOpts {
             filter: Some("bas".into()),
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(substr.len(), 4);

     let substr = filter_tests(
         &TestOpts {
             filter: Some("::test".into()),
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(substr.len(), 3);

     let substr = filter_tests(
         &TestOpts {
             filter: Some("base::test".into()),
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(substr.len(), 3);

     let exact = filter_tests(
         &TestOpts {
             filter: Some("base".into()),
             filter_exact: true,
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(exact.len(), 1);

     let exact = filter_tests(
         &TestOpts {
             filter: Some("bas".into()),
             filter_exact: true,
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(exact.len(), 0);

     let exact = filter_tests(
         &TestOpts {
             filter: Some("::test".into()),
             filter_exact: true,
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(exact.len(), 0);

     let exact = filter_tests(
         &TestOpts {
             filter: Some("base::test".into()),
             filter_exact: true,
             ..TestOpts::new()
         },
         tests(),
     );
     assert_eq!(exact.len(), 1);
 }

 #[test]
 pub fn sort_tests() {
     let mut opts = TestOpts::new();
     opts.run_tests = true;

     let names = vec![
         "sha1::test".to_string(),
         "isize::test_to_str".to_string(),
         "isize::test_pow".to_string(),
         "test::do_not_run_ignored_tests".to_string(),
         "test::ignored_tests_result_in_ignored".to_string(),
         "test::first_free_arg_should_be_a_filter".to_string(),
         "test::parse_ignored_flag".to_string(),
         "test::parse_include_ignored_flag".to_string(),
         "test::filter_for_ignored_option".to_string(),
         "test::run_include_ignored_option".to_string(),
         "test::sort_tests".to_string(),
     ];
     let tests = {
         fn testfn() {}
         let mut tests = Vec::new();
         for name in &names {
             let test = TestDescAndFn {
                 desc: TestDesc {
                     name: DynTestName((*name).clone()),
                     ignore: false,
                     should_panic: ShouldPanic::No,
                     allow_fail: false,
                     test_type: TestType::Unknown,
                 },
                 testfn: DynTestFn(Box::new(testfn)),
             };
             tests.push(test);
         }
         tests
     };
     let filtered = filter_tests(&opts, tests);

     let expected = vec![
         "isize::test_pow".to_string(),
         "isize::test_to_str".to_string(),
         "sha1::test".to_string(),
         "test::do_not_run_ignored_tests".to_string(),
         "test::filter_for_ignored_option".to_string(),
         "test::first_free_arg_should_be_a_filter".to_string(),
         "test::ignored_tests_result_in_ignored".to_string(),
         "test::parse_ignored_flag".to_string(),
         "test::parse_include_ignored_flag".to_string(),
         "test::run_include_ignored_option".to_string(),
         "test::sort_tests".to_string(),
     ];

     for (a, b) in expected.iter().zip(filtered) {
         assert_eq!(*a, b.desc.name.to_string());
     }
 }

 #[test]
 pub fn test_metricmap_compare() {
     let mut m1 = MetricMap::new();
     let mut m2 = MetricMap::new();
     m1.insert_metric("in-both-noise", 1000.0, 200.0);
     m2.insert_metric("in-both-noise", 1100.0, 200.0);

     m1.insert_metric("in-first-noise", 1000.0, 2.0);
     m2.insert_metric("in-second-noise", 1000.0, 2.0);

     m1.insert_metric("in-both-want-downwards-but-regressed", 1000.0, 10.0);
     m2.insert_metric("in-both-want-downwards-but-regressed", 2000.0, 10.0);

     m1.insert_metric("in-both-want-downwards-and-improved", 2000.0, 10.0);
     m2.insert_metric("in-both-want-downwards-and-improved", 1000.0, 10.0);

     m1.insert_metric("in-both-want-upwards-but-regressed", 2000.0, -10.0);
     m2.insert_metric("in-both-want-upwards-but-regressed", 1000.0, -10.0);

     m1.insert_metric("in-both-want-upwards-and-improved", 1000.0, -10.0);
     m2.insert_metric("in-both-want-upwards-and-improved", 2000.0, -10.0);
 }

 #[test]
 pub fn test_bench_once_no_iter() {
     fn f(_: &mut Bencher) {}
     bench::run_once(f);
 }

 #[test]
 pub fn test_bench_once_iter() {
     fn f(b: &mut Bencher) {
         b.iter(|| {})
     }
     bench::run_once(f);
 }

 #[test]
 pub fn test_bench_no_iter() {
     fn f(_: &mut Bencher) {}

     let (tx, rx) = channel();

     let desc = TestDesc {
         name: StaticTestName("f"),
         ignore: false,
         should_panic: ShouldPanic::No,
         allow_fail: false,
         test_type: TestType::Unknown,
     };

     crate::bench::benchmark(desc, tx, true, f);
     rx.recv().unwrap();
 }

 #[test]
 pub fn test_bench_iter() {
     fn f(b: &mut Bencher) {
         b.iter(|| {})
     }

     let (tx, rx) = channel();

     let desc = TestDesc {
         name: StaticTestName("f"),
         ignore: false,
         should_panic: ShouldPanic::No,
         allow_fail: false,
         test_type: TestType::Unknown,
     };

     crate::bench::benchmark(desc, tx, true, f);
     rx.recv().unwrap();
 }

 #[test]
 fn should_sort_failures_before_printing_them() {
     let test_a = TestDesc {
         name: StaticTestName("a"),
         ignore: false,
         should_panic: ShouldPanic::No,
         allow_fail: false,
         test_type: TestType::Unknown,
     };

     let test_b = TestDesc {
         name: StaticTestName("b"),
         ignore: false,
         should_panic: ShouldPanic::No,
         allow_fail: false,
         test_type: TestType::Unknown,
     };

     let mut out = PrettyFormatter::new(OutputLocation::Raw(Vec::new()), false, 10, false, None);

     let st = console::ConsoleTestState {
         log_out: None,
         total: 0,
         passed: 0,
         failed: 0,
         ignored: 0,
         allowed_fail: 0,
         filtered_out: 0,
         measured: 0,
         metrics: MetricMap::new(),
         failures: vec![(test_b, Vec::new()), (test_a, Vec::new())],
         options: Options::new(),
         not_failures: Vec::new(),
         time_failures: Vec::new(),
     };

     out.write_failures(&st).unwrap();
     let s = match out.output_location() {
         &OutputLocation::Raw(ref m) => String::from_utf8_lossy(&m[..]),
         &OutputLocation::Pretty(_) => unreachable!(),
     };

     let apos = s.find("a").unwrap();
     let bpos = s.find("b").unwrap();
     assert!(apos < bpos);
 }
	use super::*;

	use crate::{
	bench::Bencher,
	console::OutputLocation,
	options::OutputFormat,
	time::{TimeThreshold, TestTimeOptions},
	formatters::PrettyFormatter,
	test::{
	filter_tests, parse_opts, run_test, DynTestFn, DynTestName, MetricMap,
	RunIgnored, RunStrategy, ShouldPanic, StaticTestName, TestDesc,
	TestDescAndFn, TestOpts, TrIgnored, TrOk,
	// FIXME (introduced by #65251)
	// ShouldPanic, StaticTestName, TestDesc, TestDescAndFn, TestOpts, TestTimeOptions,
	// TestType, TrFailedMsg, TrIgnored, TrOk,
	},
	};
	use std::any::TypeId;
	use std::sync::mpsc::channel;
	use std::time::Duration;

	impl TestOpts {
	fn new() -> TestOpts {
	TestOpts {
	list: false,
	filter: None,
	filter_exact: false,
	force_run_in_process: false,
	exclude_should_panic: false,
	run_ignored: RunIgnored::No,
	run_tests: false,
	bench_benchmarks: false,
	logfile: None,
	nocapture: false,
	color: AutoColor,
	format: OutputFormat::Pretty,
	test_threads: None,
	skip: vec![],
	time_options: None,
	options: Options::new(),
	}
	}
	}

	fn one_ignored_one_unignored_test() -> Vec<TestDescAndFn> {
	vec![
	TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("1"),
	ignore: true,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(move \|\| {})),
	},
	TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("2"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(move \|\| {})),
	},
	]
	}

	#[test]
	pub fn do_not_run_ignored_tests() {
	fn f() {
	panic!();
	}
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: true,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let (tx, rx) = channel();
	run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;
	assert_ne!(result, TrOk);
	}

	#[test]
	pub fn ignored_tests_result_in_ignored() {
	fn f() {}
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: true,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let (tx, rx) = channel();
	run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;
	assert_eq!(result, TrIgnored);
	}

	// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
	#[test]
	#[cfg(not(target_os = "emscripten"))]
	fn test_should_panic() {
	fn f() {
	panic!();
	}
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::Yes,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let (tx, rx) = channel();
	run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;
	assert_eq!(result, TrOk);
	}

	// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
	#[test]
	#[cfg(not(target_os = "emscripten"))]
	fn test_should_panic_good_message() {
	fn f() {
	panic!("an error message");
	}
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::YesWithMessage("error message"),
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let (tx, rx) = channel();
	run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;
	assert_eq!(result, TrOk);
	}

	// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
	#[test]
	#[cfg(not(target_os = "emscripten"))]
	fn test_should_panic_bad_message() {
	use crate::tests::TrFailedMsg;
	fn f() {
	panic!("an error message");
	}
	let expected = "foobar";
	let failed_msg = r#"panic did not contain expected string
	panic message: `"an error message"`,
	expected substring: `"foobar"`"#;
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::YesWithMessage(expected),
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let (tx, rx) = channel();
	run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;
	assert_eq!(result, TrFailedMsg(failed_msg.to_string()));
	}

	// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
	#[test]
	#[cfg(not(target_os = "emscripten"))]
	fn test_should_panic_non_string_message_type() {
	use crate::tests::TrFailedMsg;
	fn f() {
	panic!(1i32);
	}
	let expected = "foobar";
	let failed_msg = format!(r#"expected panic with string value,
	found non-string value: `{:?}`
	expected substring: `"foobar"`"#, TypeId::of::<i32>());
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::YesWithMessage(expected),
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let (tx, rx) = channel();
	run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;
	assert_eq!(result, TrFailedMsg(failed_msg));
	}

	// FIXME: Re-enable emscripten once it can catch panics again (introduced by #65251)
	#[test]
	#[cfg(not(target_os = "emscripten"))]
	fn test_should_panic_but_succeeds() {
	fn f() {}
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::Yes,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let (tx, rx) = channel();
	run_test(&TestOpts::new(), false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;
	assert_eq!(result, TrFailedMsg("test did not panic as expected".to_string()));
	}

	fn report_time_test_template(report_time: bool) -> Option<TestExecTime> {
	fn f() {}
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(f)),
	};
	let time_options = if report_time {
	Some(TestTimeOptions::default())
	} else {
	None
	};

	let test_opts = TestOpts {
	time_options,
	..TestOpts::new()
	};
	let (tx, rx) = channel();
	run_test(&test_opts, false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let exec_time = rx.recv().unwrap().exec_time;
	exec_time
	}

	#[test]
	fn test_should_not_report_time() {
	let exec_time = report_time_test_template(false);
	assert!(exec_time.is_none());
	}

	#[test]
	fn test_should_report_time() {
	let exec_time = report_time_test_template(true);
	assert!(exec_time.is_some());
	}

	fn time_test_failure_template(test_type: TestType) -> TestResult {
	fn f() {}
	let desc = TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type
	},
	testfn: DynTestFn(Box::new(f)),
	};
	// `Default` will initialize all the thresholds to 0 milliseconds.
	let mut time_options = TestTimeOptions::default();
	time_options.error_on_excess = true;

	let test_opts = TestOpts {
	time_options: Some(time_options),
	..TestOpts::new()
	};
	let (tx, rx) = channel();
	run_test(&test_opts, false, desc, RunStrategy::InProcess, tx, Concurrent::No);
	let result = rx.recv().unwrap().result;

	result
	}

	#[test]
	fn test_error_on_exceed() {
	let types = [TestType::UnitTest, TestType::IntegrationTest, TestType::DocTest];

	for test_type in types.iter() {
	let result = time_test_failure_template(*test_type);

	assert_eq!(result, TestResult::TrTimedFail);
	}

	// Check that for unknown tests thresholds aren't applied.
	let result = time_test_failure_template(TestType::Unknown);
	assert_eq!(result, TestResult::TrOk);
	}

	fn typed_test_desc(test_type: TestType) -> TestDesc {
	TestDesc {
	name: StaticTestName("whatever"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type
	}
	}

	fn test_exec_time(millis: u64) -> TestExecTime {
	TestExecTime(Duration::from_millis(millis))
	}

	#[test]
	fn test_time_options_threshold() {
	let unit = TimeThreshold::new(Duration::from_millis(50), Duration::from_millis(100));
	let integration = TimeThreshold::new(Duration::from_millis(500), Duration::from_millis(1000));
	let doc = TimeThreshold::new(Duration::from_millis(5000), Duration::from_millis(10000));

	let options = TestTimeOptions {
	error_on_excess: false,
	colored: false,
	unit_threshold: unit.clone(),
	integration_threshold: integration.clone(),
	doctest_threshold: doc.clone(),
	};

	let test_vector = [
	(TestType::UnitTest, unit.warn.as_millis() - 1, false, false),
	(TestType::UnitTest, unit.warn.as_millis(), true, false),
	(TestType::UnitTest, unit.critical.as_millis(), true, true),
	(TestType::IntegrationTest, integration.warn.as_millis() - 1, false, false),
	(TestType::IntegrationTest, integration.warn.as_millis(), true, false),
	(TestType::IntegrationTest, integration.critical.as_millis(), true, true),
	(TestType::DocTest, doc.warn.as_millis() - 1, false, false),
	(TestType::DocTest, doc.warn.as_millis(), true, false),
	(TestType::DocTest, doc.critical.as_millis(), true, true),
	];

	for (test_type, time, expected_warn, expected_critical) in test_vector.iter() {
	let test_desc = typed_test_desc(*test_type);
	let exec_time = test_exec_time(*time as u64);

	assert_eq!(options.is_warn(&test_desc, &exec_time), *expected_warn);
	assert_eq!(options.is_critical(&test_desc, &exec_time), *expected_critical);
	}
	}

	#[test]
	fn parse_ignored_flag() {
	let args = vec![
	"progname".to_string(),
	"filter".to_string(),
	"--ignored".to_string(),
	];
	let opts = parse_opts(&args).unwrap().unwrap();
	assert_eq!(opts.run_ignored, RunIgnored::Only);
	}

	#[test]
	fn parse_show_output_flag() {
	let args = vec![
	"progname".to_string(),
	"filter".to_string(),
	"--show-output".to_string(),
	];
	let opts = parse_opts(&args).unwrap().unwrap();
	assert!(opts.options.display_output);
	}

	#[test]
	fn parse_include_ignored_flag() {
	let args = vec![
	"progname".to_string(),
	"filter".to_string(),
	"-Zunstable-options".to_string(),
	"--include-ignored".to_string(),
	];
	let opts = parse_opts(&args).unwrap().unwrap();
	assert_eq!(opts.run_ignored, RunIgnored::Yes);
	}

	#[test]
	pub 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 mut opts = TestOpts::new();
	opts.run_tests = true;
	opts.run_ignored = RunIgnored::Only;

	let tests = one_ignored_one_unignored_test();
	let filtered = filter_tests(&opts, tests);

	assert_eq!(filtered.len(), 1);
	assert_eq!(filtered[0].desc.name.to_string(), "1");
	assert!(!filtered[0].desc.ignore);
	}

	#[test]
	pub fn run_include_ignored_option() {
	// When we "--include-ignored" tests, the ignore flag should be set to false on
	// all tests and no test filtered out

	let mut opts = TestOpts::new();
	opts.run_tests = true;
	opts.run_ignored = RunIgnored::Yes;

	let tests = one_ignored_one_unignored_test();
	let filtered = filter_tests(&opts, tests);

	assert_eq!(filtered.len(), 2);
	assert!(!filtered[0].desc.ignore);
	assert!(!filtered[1].desc.ignore);
	}

	#[test]
	pub fn exclude_should_panic_option() {
	let mut opts = TestOpts::new();
	opts.run_tests = true;
	opts.exclude_should_panic = true;

	let mut tests = one_ignored_one_unignored_test();
	tests.push(TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName("3"),
	ignore: false,
	should_panic: ShouldPanic::Yes,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(move \|\| {})),
	});

	let filtered = filter_tests(&opts, tests);

	assert_eq!(filtered.len(), 2);
	assert!(filtered.iter().all(\|test\| test.desc.should_panic == ShouldPanic::No));
	}

	#[test]
	pub fn exact_filter_match() {
	fn tests() -> Vec<TestDescAndFn> {
	vec!["base", "base::test", "base::test1", "base::test2"]
	.into_iter()
	.map(\|name\| TestDescAndFn {
	desc: TestDesc {
	name: StaticTestName(name),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(move \|\| {})),
	})
	.collect()
	}

	let substr = filter_tests(
	&TestOpts {
	filter: Some("base".into()),
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(substr.len(), 4);

	let substr = filter_tests(
	&TestOpts {
	filter: Some("bas".into()),
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(substr.len(), 4);

	let substr = filter_tests(
	&TestOpts {
	filter: Some("::test".into()),
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(substr.len(), 3);

	let substr = filter_tests(
	&TestOpts {
	filter: Some("base::test".into()),
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(substr.len(), 3);

	let exact = filter_tests(
	&TestOpts {
	filter: Some("base".into()),
	filter_exact: true,
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(exact.len(), 1);

	let exact = filter_tests(
	&TestOpts {
	filter: Some("bas".into()),
	filter_exact: true,
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(exact.len(), 0);

	let exact = filter_tests(
	&TestOpts {
	filter: Some("::test".into()),
	filter_exact: true,
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(exact.len(), 0);

	let exact = filter_tests(
	&TestOpts {
	filter: Some("base::test".into()),
	filter_exact: true,
	..TestOpts::new()
	},
	tests(),
	);
	assert_eq!(exact.len(), 1);
	}

	#[test]
	pub fn sort_tests() {
	let mut opts = TestOpts::new();
	opts.run_tests = true;

	let names = vec![
	"sha1::test".to_string(),
	"isize::test_to_str".to_string(),
	"isize::test_pow".to_string(),
	"test::do_not_run_ignored_tests".to_string(),
	"test::ignored_tests_result_in_ignored".to_string(),
	"test::first_free_arg_should_be_a_filter".to_string(),
	"test::parse_ignored_flag".to_string(),
	"test::parse_include_ignored_flag".to_string(),
	"test::filter_for_ignored_option".to_string(),
	"test::run_include_ignored_option".to_string(),
	"test::sort_tests".to_string(),
	];
	let tests = {
	fn testfn() {}
	let mut tests = Vec::new();
	for name in &names {
	let test = TestDescAndFn {
	desc: TestDesc {
	name: DynTestName((*name).clone()),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	},
	testfn: DynTestFn(Box::new(testfn)),
	};
	tests.push(test);
	}
	tests
	};
	let filtered = filter_tests(&opts, tests);

	let expected = vec![
	"isize::test_pow".to_string(),
	"isize::test_to_str".to_string(),
	"sha1::test".to_string(),
	"test::do_not_run_ignored_tests".to_string(),
	"test::filter_for_ignored_option".to_string(),
	"test::first_free_arg_should_be_a_filter".to_string(),
	"test::ignored_tests_result_in_ignored".to_string(),
	"test::parse_ignored_flag".to_string(),
	"test::parse_include_ignored_flag".to_string(),
	"test::run_include_ignored_option".to_string(),
	"test::sort_tests".to_string(),
	];

	for (a, b) in expected.iter().zip(filtered) {
	assert_eq!(*a, b.desc.name.to_string());
	}
	}

	#[test]
	pub fn test_metricmap_compare() {
	let mut m1 = MetricMap::new();
	let mut m2 = MetricMap::new();
	m1.insert_metric("in-both-noise", 1000.0, 200.0);
	m2.insert_metric("in-both-noise", 1100.0, 200.0);

	m1.insert_metric("in-first-noise", 1000.0, 2.0);
	m2.insert_metric("in-second-noise", 1000.0, 2.0);

	m1.insert_metric("in-both-want-downwards-but-regressed", 1000.0, 10.0);
	m2.insert_metric("in-both-want-downwards-but-regressed", 2000.0, 10.0);

	m1.insert_metric("in-both-want-downwards-and-improved", 2000.0, 10.0);
	m2.insert_metric("in-both-want-downwards-and-improved", 1000.0, 10.0);

	m1.insert_metric("in-both-want-upwards-but-regressed", 2000.0, -10.0);
	m2.insert_metric("in-both-want-upwards-but-regressed", 1000.0, -10.0);

	m1.insert_metric("in-both-want-upwards-and-improved", 1000.0, -10.0);
	m2.insert_metric("in-both-want-upwards-and-improved", 2000.0, -10.0);
	}

	#[test]
	pub fn test_bench_once_no_iter() {
	fn f(_: &mut Bencher) {}
	bench::run_once(f);
	}

	#[test]
	pub fn test_bench_once_iter() {
	fn f(b: &mut Bencher) {
	b.iter(\|\| {})
	}
	bench::run_once(f);
	}

	#[test]
	pub fn test_bench_no_iter() {
	fn f(_: &mut Bencher) {}

	let (tx, rx) = channel();

	let desc = TestDesc {
	name: StaticTestName("f"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	};

	crate::bench::benchmark(desc, tx, true, f);
	rx.recv().unwrap();
	}

	#[test]
	pub fn test_bench_iter() {
	fn f(b: &mut Bencher) {
	b.iter(\|\| {})
	}

	let (tx, rx) = channel();

	let desc = TestDesc {
	name: StaticTestName("f"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	};

	crate::bench::benchmark(desc, tx, true, f);
	rx.recv().unwrap();
	}

	#[test]
	fn should_sort_failures_before_printing_them() {
	let test_a = TestDesc {
	name: StaticTestName("a"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	};

	let test_b = TestDesc {
	name: StaticTestName("b"),
	ignore: false,
	should_panic: ShouldPanic::No,
	allow_fail: false,
	test_type: TestType::Unknown,
	};

	let mut out = PrettyFormatter::new(OutputLocation::Raw(Vec::new()), false, 10, false, None);

	let st = console::ConsoleTestState {
	log_out: None,
	total: 0,
	passed: 0,
	failed: 0,
	ignored: 0,
	allowed_fail: 0,
	filtered_out: 0,
	measured: 0,
	metrics: MetricMap::new(),
	failures: vec![(test_b, Vec::new()), (test_a, Vec::new())],
	options: Options::new(),
	not_failures: Vec::new(),
	time_failures: Vec::new(),
	};

	out.write_failures(&st).unwrap();
	let s = match out.output_location() {
	&OutputLocation::Raw(ref m) => String::from_utf8_lossy(&m[..]),
	&OutputLocation::Pretty(_) => unreachable!(),
	};

	let apos = s.find("a").unwrap();
	let bpos = s.find("b").unwrap();
	assert!(apos < bpos);
	}