use std::{io, io::prelude::Write}; use super::OutputFormatter; use crate::{ bench::fmt_bench_samples, console::{ConsoleTestState, OutputLocation}, test_result::TestResult, time, types::TestDesc, }; pub(crate) struct PrettyFormatter { out: OutputLocation, use_color: bool, time_options: Option, /// Number of columns to fill when aligning names max_name_len: usize, is_multithreaded: bool, } impl PrettyFormatter { pub fn new( out: OutputLocation, use_color: bool, max_name_len: usize, is_multithreaded: bool, time_options: Option, ) -> Self { PrettyFormatter { out, use_color, max_name_len, is_multithreaded, time_options } } #[cfg(test)] pub fn output_location(&self) -> &OutputLocation { &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_time_failed(&mut self) -> io::Result<()> { self.write_short_result("FAILED (time limit exceeded)", term::color::RED) } 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) } pub fn write_pretty(&mut self, word: &str, color: term::color::Color) -> io::Result<()> { match self.out { OutputLocation::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() } OutputLocation::Raw(ref mut stdout) => { stdout.write_all(word.as_bytes())?; stdout.flush() } } } pub fn write_plain>(&mut self, s: S) -> io::Result<()> { let s = s.as_ref(); self.out.write_all(s.as_bytes())?; self.out.flush() } fn write_time( &mut self, desc: &TestDesc, exec_time: Option<&time::TestExecTime>, ) -> io::Result<()> { if let (Some(opts), Some(time)) = (self.time_options, exec_time) { let time_str = format!(" <{}>", time); let color = if opts.colored { if opts.is_critical(desc, time) { Some(term::color::RED) } else if opts.is_warn(desc, time) { Some(term::color::YELLOW) } else { None } } else { None }; match color { Some(color) => self.write_pretty(&time_str, color)?, None => self.write_plain(&time_str)?, } } Ok(()) } fn write_results( &mut self, inputs: &Vec<(TestDesc, Vec)>, results_type: &str, ) -> io::Result<()> { let results_out_str = format!("\n{}:\n", results_type); self.write_plain(&results_out_str)?; let mut results = Vec::new(); let mut stdouts = String::new(); for &(ref f, ref stdout) in inputs { results.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('\n'); } } if !stdouts.is_empty() { self.write_plain("\n")?; self.write_plain(&stdouts)?; } self.write_plain(&results_out_str)?; results.sort(); for name in &results { self.write_plain(&format!(" {}\n", name))?; } Ok(()) } pub fn write_successes(&mut self, state: &ConsoleTestState) -> io::Result<()> { self.write_results(&state.not_failures, "successes") } pub fn write_failures(&mut self, state: &ConsoleTestState) -> io::Result<()> { self.write_results(&state.failures, "failures") } pub fn write_time_failures(&mut self, state: &ConsoleTestState) -> io::Result<()> { self.write_results(&state.time_failures, "failures (time limit exceeded)") } 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 OutputFormatter for PrettyFormatter { 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, exec_time: Option<&time::TestExecTime>, _: &[u8], _: &ConsoleTestState, ) -> io::Result<()> { if self.is_multithreaded { self.write_test_name(desc)?; } match *result { TestResult::TrOk => self.write_ok()?, TestResult::TrFailed | TestResult::TrFailedMsg(_) => self.write_failed()?, TestResult::TrIgnored => self.write_ignored()?, TestResult::TrAllowedFail => self.write_allowed_fail()?, TestResult::TrBench(ref bs) => { self.write_bench()?; self.write_plain(&format!(": {}", fmt_bench_samples(bs)))?; } TestResult::TrTimedFail => self.write_time_failed()?, } self.write_time(desc, exec_time)?; self.write_plain("\n") } 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, time::TEST_WARN_TIMEOUT_S )) } fn write_run_finish(&mut self, state: &ConsoleTestState) -> io::Result { if state.options.display_output { self.write_successes(state)?; } let success = state.failed == 0; if !success { if !state.failures.is_empty() { self.write_failures(state)?; } if !state.time_failures.is_empty() { self.write_time_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", 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", state.passed, state.failed, state.ignored, state.measured, state.filtered_out ) }; self.write_plain(&s)?; if let Some(ref exec_time) = state.exec_time { let time_str = format!("; finished in {}", exec_time); self.write_plain(&time_str)?; } self.write_plain("\n\n")?; Ok(success) } }