use crate::exercise::{Exercise, Mode}; use crate::verify::test; use indicatif::ProgressBar; // Invoke the rust compiler on the path of the given exercise, // and run the ensuing binary. // The verbose argument helps determine whether or not to show // the output from the test harnesses (if the mode of the exercise is test) pub fn run(exercise: &Exercise, verbose: bool) -> Result<(), ()> { match exercise.mode { Mode::Test => test(exercise, verbose)?, Mode::Compile => compile_and_run(exercise)?, Mode::Clippy => compile_and_run(exercise)?, } Ok(()) } // Invoke the rust compiler on the path of the given exercise // and run the ensuing binary. // This is strictly for non-test binaries, so output is displayed fn compile_and_run(exercise: &Exercise) -> Result<(), ()> { let progress_bar = ProgressBar::new_spinner(); progress_bar.set_message(format!("Compiling {}...", exercise)); progress_bar.enable_steady_tick(100); let compilation_result = exercise.compile(); let compilation = match compilation_result { Ok(compilation) => compilation, Err(output) => { progress_bar.finish_and_clear(); warn!( "Compilation of {} failed!, Compiler error message:\n", exercise ); println!("{}", output.stderr); return Err(()); } }; progress_bar.set_message(format!("Running {}...", exercise)); let result = compilation.run(); progress_bar.finish_and_clear(); match result { Ok(output) => { println!("{}", output.stdout); success!("Successfully ran {}", exercise); Ok(()) } Err(output) => { println!("{}", output.stdout); println!("{}", output.stderr); warn!("Ran {} with errors", exercise); Err(()) } } }