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fuchsia / third_party / rust / c1d9191fa576c600775b4fbb90a3d09ca5e0fa0b / . / src / libtest / formatters / pretty.rs
blob: 4af00428ca87e991e6862b9a3645517cd4b2a3b0 [file] [log] [blame]
use super::*;
pub(crate) struct PrettyFormatter<T> {
out: OutputLocation<T>,
use_color: bool,
/// Number of columns to fill when aligning names
max_name_len: usize,
is_multithreaded: bool,
}
impl<T: Write> PrettyFormatter<T> {
pub fn new(
out: OutputLocation<T>,
use_color: bool,
max_name_len: usize,
is_multithreaded: bool,
) -> Self {
PrettyFormatter {
out,
use_color,
max_name_len,
is_multithreaded,
}
}
#[cfg(test)]
pub fn output_location(&self) -> &OutputLocation<T> {
&self.out
}
pub fn write_ok(&mut self) -> io::Result<()> {
self.write_short_result("ok", term::color::GREEN)
}
pub fn write_failed(&mut self) -> io::Result<()> {
self.write_short_result("FAILED", term::color::RED)
}
pub fn write_ignored(&mut self) -> io::Result<()> {
self.write_short_result("ignored", term::color::YELLOW)
}
pub fn write_allowed_fail(&mut self) -> io::Result<()> {
self.write_short_result("FAILED (allowed)", term::color::YELLOW)
}
pub fn write_bench(&mut self) -> io::Result<()> {
self.write_pretty("bench", term::color::CYAN)
}
pub fn write_short_result(
&mut self,
result: &str,
color: term::color::Color,
) -> io::Result<()> {
self.write_pretty(result, color)?;
self.write_plain("\n")
}
pub fn write_pretty(&mut self, word: &str, color: term::color::Color) -> io::Result<()> {
match self.out {
Pretty(ref mut term) => {
if self.use_color {
term.fg(color)?;
}
term.write_all(word.as_bytes())?;
if self.use_color {
term.reset()?;
}
term.flush()
}
Raw(ref mut stdout) => {
stdout.write_all(word.as_bytes())?;
stdout.flush()
}
}
}
pub fn write_plain<S: AsRef<str>>(&mut self, s: S) -> io::Result<()> {
let s = s.as_ref();
self.out.write_all(s.as_bytes())?;
self.out.flush()
}
pub fn write_successes(&mut self, state: &ConsoleTestState) -> io::Result<()> {
self.write_plain("\nsuccesses:\n")?;
let mut successes = Vec::new();
let mut stdouts = String::new();
for &(ref f, ref stdout) in &state.not_failures {
successes.push(f.name.to_string());
if !stdout.is_empty() {
stdouts.push_str(&format!("---- {} stdout ----\n", f.name));
let output = String::from_utf8_lossy(stdout);
stdouts.push_str(&output);
stdouts.push_str("\n");
}
}
if !stdouts.is_empty() {
self.write_plain("\n")?;
self.write_plain(&stdouts)?;
}
self.write_plain("\nsuccesses:\n")?;
successes.sort();
for name in &successes {
self.write_plain(&format!(" {}\n", name))?;
}
Ok(())
}
pub fn write_failures(&mut self, state: &ConsoleTestState) -> io::Result<()> {
self.write_plain("\nfailures:\n")?;
let mut failures = Vec::new();
let mut fail_out = String::new();
for &(ref f, ref stdout) in &state.failures {
failures.push(f.name.to_string());
if !stdout.is_empty() {
fail_out.push_str(&format!("---- {} stdout ----\n", f.name));
let output = String::from_utf8_lossy(stdout);
fail_out.push_str(&output);
fail_out.push_str("\n");
}
}
if !fail_out.is_empty() {
self.write_plain("\n")?;
self.write_plain(&fail_out)?;
}
self.write_plain("\nfailures:\n")?;
failures.sort();
for name in &failures {
self.write_plain(&format!(" {}\n", name))?;
}
Ok(())
}
fn write_test_name(&mut self, desc: &TestDesc) -> io::Result<()> {
let name = desc.padded_name(self.max_name_len, desc.name.padding());
self.write_plain(&format!("test {} ... ", name))?;
Ok(())
}
}
impl<T: Write> OutputFormatter for PrettyFormatter<T> {
fn write_run_start(&mut self, test_count: usize) -> io::Result<()> {
let noun = if test_count != 1 { "tests" } else { "test" };
self.write_plain(&format!("\nrunning {} {}\n", test_count, noun))
}
fn write_test_start(&mut self, desc: &TestDesc) -> io::Result<()> {
// When running tests concurrently, we should not print
// the test's name as the result will be mis-aligned.
// When running the tests serially, we print the name here so
// that the user can see which test hangs.
if !self.is_multithreaded {
self.write_test_name(desc)?;
}
Ok(())
}
fn write_result(&mut self, desc: &TestDesc, result: &TestResult, _: &[u8]) -> io::Result<()> {
if self.is_multithreaded {
self.write_test_name(desc)?;
}
match *result {
TrOk => self.write_ok(),
TrFailed | TrFailedMsg(_) => self.write_failed(),
TrIgnored => self.write_ignored(),
TrAllowedFail => self.write_allowed_fail(),
TrBench(ref bs) => {
self.write_bench()?;
self.write_plain(&format!(": {}\n", fmt_bench_samples(bs)))
}
}
}
fn write_timeout(&mut self, desc: &TestDesc) -> io::Result<()> {
if self.is_multithreaded {
self.write_test_name(desc)?;
}
self.write_plain(&format!(
"test {} has been running for over {} seconds\n",
desc.name, TEST_WARN_TIMEOUT_S
))
}
fn write_run_finish(&mut self, state: &ConsoleTestState) -> io::Result<bool> {
if state.options.display_output {
self.write_successes(state)?;
}
let success = state.failed == 0;
if !success {
self.write_failures(state)?;
}
self.write_plain("\ntest result: ")?;
if success {
// There's no parallelism at this point so it's safe to use color
self.write_pretty("ok", term::color::GREEN)?;
} else {
self.write_pretty("FAILED", term::color::RED)?;
}
let s = if state.allowed_fail > 0 {
format!(
". {} passed; {} failed ({} allowed); {} ignored; {} measured; {} filtered out\n\n",
state.passed,
state.failed + state.allowed_fail,
state.allowed_fail,
state.ignored,
state.measured,
state.filtered_out
)
} else {
format!(
". {} passed; {} failed; {} ignored; {} measured; {} filtered out\n\n",
state.passed, state.failed, state.ignored, state.measured, state.filtered_out
)
};
self.write_plain(&s)?;
Ok(success)
}
}