armv7a/usr/lib/rustlib/src/rust/library/test/src/console.rs - manifest_repos/toolchain - Git at Google

 //! Module providing interface for running tests in the console.

 use std::fs::File;
 use std::io;
 use std::io::prelude::Write;
 use std::time::Instant;

 use super::{
     bench::fmt_bench_samples,
     cli::TestOpts,
     event::{CompletedTest, TestEvent},
     filter_tests,
     formatters::{JsonFormatter, JunitFormatter, OutputFormatter, PrettyFormatter, TerseFormatter},
     helpers::{concurrency::get_concurrency, metrics::MetricMap},
     options::{Options, OutputFormat},
     run_tests, term,
     test_result::TestResult,
     time::{TestExecTime, TestSuiteExecTime},
     types::{NamePadding, TestDesc, TestDescAndFn},
 };

 /// Generic wrapper over stdout.
 pub enum OutputLocation<T> {
     Pretty(Box<term::StdoutTerminal>),
     Raw(T),
 }

 impl<T: Write> Write for OutputLocation<T> {
     fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
         match *self {
             OutputLocation::Pretty(ref mut term) => term.write(buf),
             OutputLocation::Raw(ref mut stdout) => stdout.write(buf),
         }
     }

     fn flush(&mut self) -> io::Result<()> {
         match *self {
             OutputLocation::Pretty(ref mut term) => term.flush(),
             OutputLocation::Raw(ref mut stdout) => stdout.flush(),
         }
     }
 }

 pub struct ConsoleTestState {
     pub log_out: Option<File>,
     pub total: usize,
     pub passed: usize,
     pub failed: usize,
     pub ignored: usize,
     pub filtered_out: usize,
     pub measured: usize,
     pub exec_time: Option<TestSuiteExecTime>,
     pub metrics: MetricMap,
     pub failures: Vec<(TestDesc, Vec<u8>)>,
     pub not_failures: Vec<(TestDesc, Vec<u8>)>,
     pub time_failures: Vec<(TestDesc, Vec<u8>)>,
     pub options: Options,
 }

 impl ConsoleTestState {
     pub fn new(opts: &TestOpts) -> io::Result<ConsoleTestState> {
         let log_out = match opts.logfile {
             Some(ref path) => Some(File::create(path)?),
             None => None,
         };

         Ok(ConsoleTestState {
             log_out,
             total: 0,
             passed: 0,
             failed: 0,
             ignored: 0,
             filtered_out: 0,
             measured: 0,
             exec_time: None,
             metrics: MetricMap::new(),
             failures: Vec::new(),
             not_failures: Vec::new(),
             time_failures: Vec::new(),
             options: opts.options,
         })
     }

     pub fn write_log<F, S>(&mut self, msg: F) -> io::Result<()>
     where
         S: AsRef<str>,
         F: FnOnce() -> S,
     {
         match self.log_out {
             None => Ok(()),
             Some(ref mut o) => {
                 let msg = msg();
                 let msg = msg.as_ref();
                 o.write_all(msg.as_bytes())
             }
         }
     }

     pub fn write_log_result(
         &mut self,
         test: &TestDesc,
         result: &TestResult,
         exec_time: Option<&TestExecTime>,
     ) -> io::Result<()> {
         self.write_log(|| {
             let TestDesc { name, ignore_message, .. } = test;
             format!(
                 "{} {}",
                 match *result {
                     TestResult::TrOk => "ok".to_owned(),
                     TestResult::TrFailed => "failed".to_owned(),
                     TestResult::TrFailedMsg(ref msg) => format!("failed: {msg}"),
                     TestResult::TrIgnored => {
                         if let Some(msg) = ignore_message {
                             format!("ignored: {msg}")
                         } else {
                             "ignored".to_owned()
                         }
                     }
                     TestResult::TrBench(ref bs) => fmt_bench_samples(bs),
                     TestResult::TrTimedFail => "failed (time limit exceeded)".to_owned(),
                 },
                 name,
             )
         })?;
         if let Some(exec_time) = exec_time {
             self.write_log(|| format!(" <{exec_time}>"))?;
         }
         self.write_log(|| "\n")
     }

     fn current_test_count(&self) -> usize {
         self.passed + self.failed + self.ignored + self.measured
     }
 }

 // List the tests to console, and optionally to logfile. Filters are honored.
 pub fn list_tests_console(opts: &TestOpts, tests: Vec<TestDescAndFn>) -> io::Result<()> {
     let mut output = match term::stdout() {
         None => OutputLocation::Raw(io::stdout().lock()),
         Some(t) => OutputLocation::Pretty(t),
     };

     let quiet = opts.format == OutputFormat::Terse;
     let mut st = ConsoleTestState::new(opts)?;

     let mut ntest = 0;
     let mut nbench = 0;

     for test in filter_tests(&opts, tests).into_iter() {
         use crate::TestFn::*;

         let TestDescAndFn { desc: TestDesc { name, .. }, testfn } = test;

         let fntype = match testfn {
             StaticTestFn(..) | DynTestFn(..) => {
                 ntest += 1;
                 "test"
             }
             StaticBenchFn(..) | DynBenchFn(..) => {
                 nbench += 1;
                 "benchmark"
             }
         };

         writeln!(output, "{name}: {fntype}")?;
         st.write_log(|| format!("{fntype} {name}\n"))?;
     }

     fn plural(count: u32, s: &str) -> String {
         match count {
             1 => format!("1 {s}"),
             n => format!("{n} {s}s"),
         }
     }

     if !quiet {
         if ntest != 0 || nbench != 0 {
             writeln!(output)?;
         }

         writeln!(output, "{}, {}", plural(ntest, "test"), plural(nbench, "benchmark"))?;
     }

     Ok(())
 }

 // Updates `ConsoleTestState` depending on result of the test execution.
 fn handle_test_result(st: &mut ConsoleTestState, completed_test: CompletedTest) {
     let test = completed_test.desc;
     let stdout = completed_test.stdout;
     match completed_test.result {
         TestResult::TrOk => {
             st.passed += 1;
             st.not_failures.push((test, stdout));
         }
         TestResult::TrIgnored => st.ignored += 1,
         TestResult::TrBench(bs) => {
             st.metrics.insert_metric(
                 test.name.as_slice(),
                 bs.ns_iter_summ.median,
                 bs.ns_iter_summ.max - bs.ns_iter_summ.min,
             );
             st.measured += 1
         }
         TestResult::TrFailed => {
             st.failed += 1;
             st.failures.push((test, stdout));
         }
         TestResult::TrFailedMsg(msg) => {
             st.failed += 1;
             let mut stdout = stdout;
             stdout.extend_from_slice(format!("note: {msg}").as_bytes());
             st.failures.push((test, stdout));
         }
         TestResult::TrTimedFail => {
             st.failed += 1;
             st.time_failures.push((test, stdout));
         }
     }
 }

 // Handler for events that occur during test execution.
 // It is provided as a callback to the `run_tests` function.
 fn on_test_event(
     event: &TestEvent,
     st: &mut ConsoleTestState,
     out: &mut dyn OutputFormatter,
 ) -> io::Result<()> {
     match (*event).clone() {
         TestEvent::TeFiltered(filtered_tests, shuffle_seed) => {
             st.total = filtered_tests;
             out.write_run_start(filtered_tests, shuffle_seed)?;
         }
         TestEvent::TeFilteredOut(filtered_out) => {
             st.filtered_out = filtered_out;
         }
         TestEvent::TeWait(ref test) => out.write_test_start(test)?,
         TestEvent::TeTimeout(ref test) => out.write_timeout(test)?,
         TestEvent::TeResult(completed_test) => {
             let test = &completed_test.desc;
             let result = &completed_test.result;
             let exec_time = &completed_test.exec_time;
             let stdout = &completed_test.stdout;

             st.write_log_result(test, result, exec_time.as_ref())?;
             out.write_result(test, result, exec_time.as_ref(), &*stdout, st)?;
             handle_test_result(st, completed_test);
         }
     }

     Ok(())
 }

 /// A simple console test runner.
 /// Runs provided tests reporting process and results to the stdout.
 pub fn run_tests_console(opts: &TestOpts, tests: Vec<TestDescAndFn>) -> io::Result<bool> {
     let output = match term::stdout() {
         None => OutputLocation::Raw(io::stdout()),
         Some(t) => OutputLocation::Pretty(t),
     };

     let max_name_len = tests
         .iter()
         .max_by_key(|t| len_if_padded(*t))
         .map(|t| t.desc.name.as_slice().len())
         .unwrap_or(0);

     let is_multithreaded = opts.test_threads.unwrap_or_else(get_concurrency) > 1;

     let mut out: Box<dyn OutputFormatter> = match opts.format {
         OutputFormat::Pretty => Box::new(PrettyFormatter::new(
             output,
             opts.use_color(),
             max_name_len,
             is_multithreaded,
             opts.time_options,
         )),
         OutputFormat::Terse => {
             Box::new(TerseFormatter::new(output, opts.use_color(), max_name_len, is_multithreaded))
         }
         OutputFormat::Json => Box::new(JsonFormatter::new(output)),
         OutputFormat::Junit => Box::new(JunitFormatter::new(output)),
     };
     let mut st = ConsoleTestState::new(opts)?;

     // Prevent the usage of `Instant` in some cases:
     // - It's currently not supported for wasm targets.
     // - We disable it for miri because it's not available when isolation is enabled.
     let is_instant_supported = !cfg!(target_family = "wasm") && !cfg!(miri);

     let start_time = is_instant_supported.then(Instant::now);
     run_tests(opts, tests, |x| on_test_event(&x, &mut st, &mut *out))?;
     st.exec_time = start_time.map(|t| TestSuiteExecTime(t.elapsed()));

     assert!(opts.fail_fast || st.current_test_count() == st.total);

     out.write_run_finish(&st)
 }

 // Calculates padding for given test description.
 fn len_if_padded(t: &TestDescAndFn) -> usize {
     match t.testfn.padding() {
         NamePadding::PadNone => 0,
         NamePadding::PadOnRight => t.desc.name.as_slice().len(),
     }
 }
	//! Module providing interface for running tests in the console.

	use std::fs::File;
	use std::io;
	use std::io::prelude::Write;
	use std::time::Instant;

	use super::{
	bench::fmt_bench_samples,
	cli::TestOpts,
	event::{CompletedTest, TestEvent},
	filter_tests,
	formatters::{JsonFormatter, JunitFormatter, OutputFormatter, PrettyFormatter, TerseFormatter},
	helpers::{concurrency::get_concurrency, metrics::MetricMap},
	options::{Options, OutputFormat},
	run_tests, term,
	test_result::TestResult,
	time::{TestExecTime, TestSuiteExecTime},
	types::{NamePadding, TestDesc, TestDescAndFn},
	};

	/// Generic wrapper over stdout.
	pub enum OutputLocation<T> {
	Pretty(Box<term::StdoutTerminal>),
	Raw(T),
	}

	impl<T: Write> Write for OutputLocation<T> {
	fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
	match *self {
	OutputLocation::Pretty(ref mut term) => term.write(buf),
	OutputLocation::Raw(ref mut stdout) => stdout.write(buf),
	}
	}

	fn flush(&mut self) -> io::Result<()> {
	match *self {
	OutputLocation::Pretty(ref mut term) => term.flush(),
	OutputLocation::Raw(ref mut stdout) => stdout.flush(),
	}
	}
	}

	pub struct ConsoleTestState {
	pub log_out: Option<File>,
	pub total: usize,
	pub passed: usize,
	pub failed: usize,
	pub ignored: usize,
	pub filtered_out: usize,
	pub measured: usize,
	pub exec_time: Option<TestSuiteExecTime>,
	pub metrics: MetricMap,
	pub failures: Vec<(TestDesc, Vec<u8>)>,
	pub not_failures: Vec<(TestDesc, Vec<u8>)>,
	pub time_failures: Vec<(TestDesc, Vec<u8>)>,
	pub options: Options,
	}

	impl ConsoleTestState {
	pub fn new(opts: &TestOpts) -> io::Result<ConsoleTestState> {
	let log_out = match opts.logfile {
	Some(ref path) => Some(File::create(path)?),
	None => None,
	};

	Ok(ConsoleTestState {
	log_out,
	total: 0,
	passed: 0,
	failed: 0,
	ignored: 0,
	filtered_out: 0,
	measured: 0,
	exec_time: None,
	metrics: MetricMap::new(),
	failures: Vec::new(),
	not_failures: Vec::new(),
	time_failures: Vec::new(),
	options: opts.options,
	})
	}

	pub fn write_log<F, S>(&mut self, msg: F) -> io::Result<()>
	where
	S: AsRef<str>,
	F: FnOnce() -> S,
	{
	match self.log_out {
	None => Ok(()),
	Some(ref mut o) => {
	let msg = msg();
	let msg = msg.as_ref();
	o.write_all(msg.as_bytes())
	}
	}
	}

	pub fn write_log_result(
	&mut self,
	test: &TestDesc,
	result: &TestResult,
	exec_time: Option<&TestExecTime>,
	) -> io::Result<()> {
	self.write_log(\|\| {
	let TestDesc { name, ignore_message, .. } = test;
	format!(
	"{} {}",
	match *result {
	TestResult::TrOk => "ok".to_owned(),
	TestResult::TrFailed => "failed".to_owned(),
	TestResult::TrFailedMsg(ref msg) => format!("failed: {msg}"),
	TestResult::TrIgnored => {
	if let Some(msg) = ignore_message {
	format!("ignored: {msg}")
	} else {
	"ignored".to_owned()
	}
	}
	TestResult::TrBench(ref bs) => fmt_bench_samples(bs),
	TestResult::TrTimedFail => "failed (time limit exceeded)".to_owned(),
	},
	name,
	)
	})?;
	if let Some(exec_time) = exec_time {
	self.write_log(\|\| format!(" <{exec_time}>"))?;
	}
	self.write_log(\|\| "\n")
	}

	fn current_test_count(&self) -> usize {
	self.passed + self.failed + self.ignored + self.measured
	}
	}

	// List the tests to console, and optionally to logfile. Filters are honored.
	pub fn list_tests_console(opts: &TestOpts, tests: Vec<TestDescAndFn>) -> io::Result<()> {
	let mut output = match term::stdout() {
	None => OutputLocation::Raw(io::stdout().lock()),
	Some(t) => OutputLocation::Pretty(t),
	};

	let quiet = opts.format == OutputFormat::Terse;
	let mut st = ConsoleTestState::new(opts)?;

	let mut ntest = 0;
	let mut nbench = 0;

	for test in filter_tests(&opts, tests).into_iter() {
	use crate::TestFn::*;

	let TestDescAndFn { desc: TestDesc { name, .. }, testfn } = test;

	let fntype = match testfn {
	StaticTestFn(..) \| DynTestFn(..) => {
	ntest += 1;
	"test"
	}
	StaticBenchFn(..) \| DynBenchFn(..) => {
	nbench += 1;
	"benchmark"
	}
	};

	writeln!(output, "{name}: {fntype}")?;
	st.write_log(\|\| format!("{fntype} {name}\n"))?;
	}

	fn plural(count: u32, s: &str) -> String {
	match count {
	1 => format!("1 {s}"),
	n => format!("{n} {s}s"),
	}
	}

	if !quiet {
	if ntest != 0 \|\| nbench != 0 {
	writeln!(output)?;
	}

	writeln!(output, "{}, {}", plural(ntest, "test"), plural(nbench, "benchmark"))?;
	}

	Ok(())
	}

	// Updates `ConsoleTestState` depending on result of the test execution.
	fn handle_test_result(st: &mut ConsoleTestState, completed_test: CompletedTest) {
	let test = completed_test.desc;
	let stdout = completed_test.stdout;
	match completed_test.result {
	TestResult::TrOk => {
	st.passed += 1;
	st.not_failures.push((test, stdout));
	}
	TestResult::TrIgnored => st.ignored += 1,
	TestResult::TrBench(bs) => {
	st.metrics.insert_metric(
	test.name.as_slice(),
	bs.ns_iter_summ.median,
	bs.ns_iter_summ.max - bs.ns_iter_summ.min,
	);
	st.measured += 1
	}
	TestResult::TrFailed => {
	st.failed += 1;
	st.failures.push((test, stdout));
	}
	TestResult::TrFailedMsg(msg) => {
	st.failed += 1;
	let mut stdout = stdout;
	stdout.extend_from_slice(format!("note: {msg}").as_bytes());
	st.failures.push((test, stdout));
	}
	TestResult::TrTimedFail => {
	st.failed += 1;
	st.time_failures.push((test, stdout));
	}
	}
	}

	// Handler for events that occur during test execution.
	// It is provided as a callback to the `run_tests` function.
	fn on_test_event(
	event: &TestEvent,
	st: &mut ConsoleTestState,
	out: &mut dyn OutputFormatter,
	) -> io::Result<()> {
	match (*event).clone() {
	TestEvent::TeFiltered(filtered_tests, shuffle_seed) => {
	st.total = filtered_tests;
	out.write_run_start(filtered_tests, shuffle_seed)?;
	}
	TestEvent::TeFilteredOut(filtered_out) => {
	st.filtered_out = filtered_out;
	}
	TestEvent::TeWait(ref test) => out.write_test_start(test)?,
	TestEvent::TeTimeout(ref test) => out.write_timeout(test)?,
	TestEvent::TeResult(completed_test) => {
	let test = &completed_test.desc;
	let result = &completed_test.result;
	let exec_time = &completed_test.exec_time;
	let stdout = &completed_test.stdout;

	st.write_log_result(test, result, exec_time.as_ref())?;
	out.write_result(test, result, exec_time.as_ref(), &*stdout, st)?;
	handle_test_result(st, completed_test);
	}
	}

	Ok(())
	}

	/// A simple console test runner.
	/// Runs provided tests reporting process and results to the stdout.
	pub fn run_tests_console(opts: &TestOpts, tests: Vec<TestDescAndFn>) -> io::Result<bool> {
	let output = match term::stdout() {
	None => OutputLocation::Raw(io::stdout()),
	Some(t) => OutputLocation::Pretty(t),
	};

	let max_name_len = tests
	.iter()
	.max_by_key(\|t\| len_if_padded(*t))
	.map(\|t\| t.desc.name.as_slice().len())
	.unwrap_or(0);

	let is_multithreaded = opts.test_threads.unwrap_or_else(get_concurrency) > 1;

	let mut out: Box<dyn OutputFormatter> = match opts.format {
	OutputFormat::Pretty => Box::new(PrettyFormatter::new(
	output,
	opts.use_color(),
	max_name_len,
	is_multithreaded,
	opts.time_options,
	)),
	OutputFormat::Terse => {
	Box::new(TerseFormatter::new(output, opts.use_color(), max_name_len, is_multithreaded))
	}
	OutputFormat::Json => Box::new(JsonFormatter::new(output)),
	OutputFormat::Junit => Box::new(JunitFormatter::new(output)),
	};
	let mut st = ConsoleTestState::new(opts)?;

	// Prevent the usage of `Instant` in some cases:
	// - It's currently not supported for wasm targets.
	// - We disable it for miri because it's not available when isolation is enabled.
	let is_instant_supported = !cfg!(target_family = "wasm") && !cfg!(miri);

	let start_time = is_instant_supported.then(Instant::now);
	run_tests(opts, tests, \|x\| on_test_event(&x, &mut st, &mut *out))?;
	st.exec_time = start_time.map(\|t\| TestSuiteExecTime(t.elapsed()));

	assert!(opts.fail_fast \|\| st.current_test_count() == st.total);

	out.write_run_finish(&st)
	}

	// Calculates padding for given test description.
	fn len_if_padded(t: &TestDescAndFn) -> usize {
	match t.testfn.padding() {
	NamePadding::PadNone => 0,
	NamePadding::PadOnRight => t.desc.name.as_slice().len(),
	}
	}