use serde::Deserialize; use std::fmt::{self, Display, Formatter}; use std::fs::{self, remove_file, File}; use std::io::{self, BufRead, BufReader}; use std::path::PathBuf; use std::process::{self, exit, Command, Stdio}; use std::{array, env, mem}; use winnow::ascii::{space0, Caseless}; use winnow::combinator::opt; use winnow::Parser; const RUSTC_COLOR_ARGS: &[&str] = &["--color", "always"]; const RUSTC_EDITION_ARGS: &[&str] = &["--edition", "2021"]; const RUSTC_NO_DEBUG_ARGS: &[&str] = &["-C", "strip=debuginfo"]; const CONTEXT: usize = 2; const CLIPPY_CARGO_TOML_PATH: &str = "exercises/22_clippy/Cargo.toml"; // Checks if the line contains the "I AM NOT DONE" comment. fn contains_not_done_comment(input: &str) -> bool { ( space0::<_, ()>, "//", opt('/'), space0, Caseless("I AM NOT DONE"), ) .parse_next(&mut &*input) .is_ok() } // Get a temporary file name that is hopefully unique #[inline] fn temp_file() -> String { let thread_id: String = format!("{:?}", std::thread::current().id()) .chars() .filter(|c| c.is_alphanumeric()) .collect(); format!("./temp_{}_{thread_id}", process::id()) } // The mode of the exercise. #[derive(Deserialize, Copy, Clone, Debug)] #[serde(rename_all = "lowercase")] pub enum Mode { // Indicates that the exercise should be compiled as a binary Compile, // Indicates that the exercise should be compiled as a test harness Test, // Indicates that the exercise should be linted with clippy Clippy, } #[derive(Deserialize)] pub struct ExerciseList { pub exercises: Vec, } // A representation of a rustlings exercise. // This is deserialized from the accompanying info.toml file #[derive(Deserialize, Debug)] pub struct Exercise { // Name of the exercise pub name: String, // The path to the file containing the exercise's source code pub path: PathBuf, // The mode of the exercise (Test, Compile, or Clippy) pub mode: Mode, // The hint text associated with the exercise pub hint: String, } // An enum to track of the state of an Exercise. // An Exercise can be either Done or Pending #[derive(PartialEq, Eq, Debug)] pub enum State { // The state of the exercise once it's been completed Done, // The state of the exercise while it's not completed yet Pending(Vec), } // The context information of a pending exercise #[derive(PartialEq, Eq, Debug)] pub struct ContextLine { // The source code that is still pending completion pub line: String, // The line number of the source code still pending completion pub number: usize, // Whether or not this is important pub important: bool, } // The result of compiling an exercise pub struct CompiledExercise<'a> { exercise: &'a Exercise, _handle: FileHandle, } impl<'a> CompiledExercise<'a> { // Run the compiled exercise pub fn run(&self) -> Result { self.exercise.run() } } // A representation of an already executed binary #[derive(Debug)] pub struct ExerciseOutput { // The textual contents of the standard output of the binary pub stdout: String, // The textual contents of the standard error of the binary pub stderr: String, } struct FileHandle; impl Drop for FileHandle { fn drop(&mut self) { clean(); } } impl Exercise { pub fn compile(&self) -> Result { let cmd = match self.mode { Mode::Compile => Command::new("rustc") .args([self.path.to_str().unwrap(), "-o", &temp_file()]) .args(RUSTC_COLOR_ARGS) .args(RUSTC_EDITION_ARGS) .args(RUSTC_NO_DEBUG_ARGS) .output(), Mode::Test => Command::new("rustc") .args(["--test", self.path.to_str().unwrap(), "-o", &temp_file()]) .args(RUSTC_COLOR_ARGS) .args(RUSTC_EDITION_ARGS) .args(RUSTC_NO_DEBUG_ARGS) .output(), Mode::Clippy => { let cargo_toml = format!( r#"[package] name = "{}" version = "0.0.1" edition = "2021" [[bin]] name = "{}" path = "{}.rs""#, self.name, self.name, self.name ); let cargo_toml_error_msg = if env::var("NO_EMOJI").is_ok() { "Failed to write Clippy Cargo.toml file." } else { "Failed to write 📎 Clippy 📎 Cargo.toml file." }; fs::write(CLIPPY_CARGO_TOML_PATH, cargo_toml).expect(cargo_toml_error_msg); // To support the ability to run the clippy exercises, build // an executable, in addition to running clippy. With a // compilation failure, this would silently fail. But we expect // clippy to reflect the same failure while compiling later. Command::new("rustc") .args([self.path.to_str().unwrap(), "-o", &temp_file()]) .args(RUSTC_COLOR_ARGS) .args(RUSTC_EDITION_ARGS) .args(RUSTC_NO_DEBUG_ARGS) .stdin(Stdio::null()) .stdout(Stdio::null()) .stderr(Stdio::null()) .status() .expect("Failed to compile!"); // Due to an issue with Clippy, a cargo clean is required to catch all lints. // See https://github.com/rust-lang/rust-clippy/issues/2604 // This is already fixed on Clippy's master branch. See this issue to track merging into Cargo: // https://github.com/rust-lang/rust-clippy/issues/3837 Command::new("cargo") .args(["clean", "--manifest-path", CLIPPY_CARGO_TOML_PATH]) .args(RUSTC_COLOR_ARGS) .stdin(Stdio::null()) .stdout(Stdio::null()) .stderr(Stdio::null()) .status() .expect("Failed to run 'cargo clean'"); Command::new("cargo") .args(["clippy", "--manifest-path", CLIPPY_CARGO_TOML_PATH]) .args(RUSTC_COLOR_ARGS) .args(["--", "-D", "warnings", "-D", "clippy::float_cmp"]) .output() } } .expect("Failed to run 'compile' command."); if cmd.status.success() { Ok(CompiledExercise { exercise: self, _handle: FileHandle, }) } else { clean(); Err(ExerciseOutput { stdout: String::from_utf8_lossy(&cmd.stdout).to_string(), stderr: String::from_utf8_lossy(&cmd.stderr).to_string(), }) } } fn run(&self) -> Result { let arg = match self.mode { Mode::Test => "--show-output", _ => "", }; let cmd = Command::new(temp_file()) .arg(arg) .output() .expect("Failed to run 'run' command"); let output = ExerciseOutput { stdout: String::from_utf8_lossy(&cmd.stdout).to_string(), stderr: String::from_utf8_lossy(&cmd.stderr).to_string(), }; if cmd.status.success() { Ok(output) } else { Err(output) } } pub fn state(&self) -> State { let source_file = File::open(&self.path).unwrap_or_else(|e| { println!( "Failed to open the exercise file {}: {e}", self.path.display(), ); exit(1); }); let mut source_reader = BufReader::new(source_file); // Read the next line into `buf` without the newline at the end. let mut read_line = |buf: &mut String| -> io::Result<_> { let n = source_reader.read_line(buf)?; if buf.ends_with('\n') { buf.pop(); if buf.ends_with('\r') { buf.pop(); } } Ok(n) }; let mut current_line_number: usize = 1; // Keep the last `CONTEXT` lines while iterating over the file lines. let mut prev_lines: [_; CONTEXT] = array::from_fn(|_| String::with_capacity(256)); let mut line = String::with_capacity(256); loop { let n = read_line(&mut line).unwrap_or_else(|e| { println!( "Failed to read the exercise file {}: {e}", self.path.display(), ); exit(1); }); // Reached the end of the file and didn't find the comment. if n == 0 { return State::Done; } if contains_not_done_comment(&line) { let mut context = Vec::with_capacity(2 * CONTEXT + 1); // Previous lines. for (ind, prev_line) in prev_lines .into_iter() .take(current_line_number - 1) .enumerate() .rev() { context.push(ContextLine { line: prev_line, number: current_line_number - 1 - ind, important: false, }); } // Current line. context.push(ContextLine { line, number: current_line_number, important: true, }); // Next lines. for ind in 0..CONTEXT { let mut next_line = String::with_capacity(256); let Ok(n) = read_line(&mut next_line) else { // If an error occurs, just ignore the next lines. break; }; // Reached the end of the file. if n == 0 { break; } context.push(ContextLine { line: next_line, number: current_line_number + 1 + ind, important: false, }); } return State::Pending(context); } current_line_number += 1; // Add the current line as a previous line and shift the older lines by one. for prev_line in &mut prev_lines { mem::swap(&mut line, prev_line); } // The current line now contains the oldest previous line. // Recycle it for reading the next line. line.clear(); } } // Check that the exercise looks to be solved using self.state() // This is not the best way to check since // the user can just remove the "I AM NOT DONE" string from the file // without actually having solved anything. // The only other way to truly check this would to compile and run // the exercise; which would be both costly and counterintuitive pub fn looks_done(&self) -> bool { self.state() == State::Done } } impl Display for Exercise { fn fmt(&self, f: &mut Formatter) -> fmt::Result { write!(f, "{}", self.path.to_str().unwrap()) } } #[inline] fn clean() { let _ignored = remove_file(temp_file()); } #[cfg(test)] mod test { use super::*; use std::path::Path; #[test] fn test_clean() { File::create(temp_file()).unwrap(); let exercise = Exercise { name: String::from("example"), path: PathBuf::from("tests/fixture/state/pending_exercise.rs"), mode: Mode::Compile, hint: String::from(""), }; let compiled = exercise.compile().unwrap(); drop(compiled); assert!(!Path::new(&temp_file()).exists()); } #[test] #[cfg(target_os = "windows")] fn test_no_pdb_file() { [Mode::Compile, Mode::Test] // Clippy doesn't like to test .iter() .for_each(|mode| { let exercise = Exercise { name: String::from("example"), // We want a file that does actually compile path: PathBuf::from("tests/fixture/state/pending_exercise.rs"), mode: *mode, hint: String::from(""), }; let _ = exercise.compile().unwrap(); assert!(!Path::new(&format!("{}.pdb", temp_file())).exists()); }); } #[test] fn test_pending_state() { let exercise = Exercise { name: "pending_exercise".into(), path: PathBuf::from("tests/fixture/state/pending_exercise.rs"), mode: Mode::Compile, hint: String::new(), }; let state = exercise.state(); let expected = vec![ ContextLine { line: "// fake_exercise".to_string(), number: 1, important: false, }, ContextLine { line: "".to_string(), number: 2, important: false, }, ContextLine { line: "// I AM NOT DONE".to_string(), number: 3, important: true, }, ContextLine { line: "".to_string(), number: 4, important: false, }, ContextLine { line: "fn main() {".to_string(), number: 5, important: false, }, ]; assert_eq!(state, State::Pending(expected)); } #[test] fn test_finished_exercise() { let exercise = Exercise { name: "finished_exercise".into(), path: PathBuf::from("tests/fixture/state/finished_exercise.rs"), mode: Mode::Compile, hint: String::new(), }; assert_eq!(exercise.state(), State::Done); } #[test] fn test_exercise_with_output() { let exercise = Exercise { name: "exercise_with_output".into(), path: PathBuf::from("tests/fixture/success/testSuccess.rs"), mode: Mode::Test, hint: String::new(), }; let out = exercise.compile().unwrap().run().unwrap(); assert!(out.stdout.contains("THIS TEST TOO SHALL PASS")); } #[test] fn test_not_done() { assert!(contains_not_done_comment("// I AM NOT DONE")); assert!(contains_not_done_comment("/// I AM NOT DONE")); assert!(contains_not_done_comment("// I AM NOT DONE")); assert!(contains_not_done_comment("/// I AM NOT DONE")); assert!(contains_not_done_comment("// I AM NOT DONE ")); assert!(contains_not_done_comment("// I AM NOT DONE!")); assert!(contains_not_done_comment("// I am not done")); assert!(contains_not_done_comment("// i am NOT done")); assert!(!contains_not_done_comment("I AM NOT DONE")); assert!(!contains_not_done_comment("// NOT DONE")); assert!(!contains_not_done_comment("DONE")); } }