use anyhow::Result; use crossterm::{ style::{Attribute, Color, ResetColor, SetAttribute, SetForegroundColor}, QueueableCommand, }; use std::io::{self, StdoutLock, Write}; use crate::{ cmd::CmdRunner, term::{terminal_file_link, write_ansi}, }; /// The initial capacity of the output buffer. pub const OUTPUT_CAPACITY: usize = 1 << 14; pub fn solution_link_line(stdout: &mut StdoutLock, solution_path: &str) -> io::Result<()> { stdout.queue(SetAttribute(Attribute::Bold))?; stdout.write_all(b"Solution")?; stdout.queue(ResetColor)?; stdout.write_all(b" for comparison: ")?; terminal_file_link(stdout, solution_path, Color::Cyan)?; stdout.write_all(b"\n") } // Run an exercise binary and append its output to the `output` buffer. // Compilation must be done before calling this method. fn run_bin( bin_name: &str, mut output: Option<&mut Vec>, cmd_runner: &CmdRunner, ) -> Result { if let Some(output) = output.as_deref_mut() { write_ansi(output, SetAttribute(Attribute::Underlined)); output.extend_from_slice(b"Output"); write_ansi(output, ResetColor); output.push(b'\n'); } let success = cmd_runner.run_debug_bin(bin_name, output.as_deref_mut())?; if let Some(output) = output { if !success { // This output is important to show the user that something went wrong. // Otherwise, calling something like `exit(1)` in an exercise without further output // leaves the user confused about why the exercise isn't done yet. write_ansi(output, SetAttribute(Attribute::Bold)); write_ansi(output, SetForegroundColor(Color::Red)); output.extend_from_slice(b"The exercise didn't run successfully (nonzero exit code)"); write_ansi(output, ResetColor); output.push(b'\n'); } } Ok(success) } /// See `info_file::ExerciseInfo` pub struct Exercise { pub dir: Option<&'static str>, pub name: &'static str, /// Path of the exercise file starting with the `exercises/` directory. pub path: &'static str, pub test: bool, pub strict_clippy: bool, pub hint: &'static str, pub done: bool, } pub trait RunnableExercise { fn name(&self) -> &str; fn dir(&self) -> Option<&str>; fn strict_clippy(&self) -> bool; fn test(&self) -> bool; // Compile, check and run the exercise or its solution (depending on `bin_name´). // The output is written to the `output` buffer after clearing it. fn run( &self, bin_name: &str, mut output: Option<&mut Vec>, cmd_runner: &CmdRunner, ) -> Result { if let Some(output) = output.as_deref_mut() { output.clear(); } let build_success = cmd_runner .cargo("build", bin_name, output.as_deref_mut()) .run("cargo build …")?; if !build_success { return Ok(false); } // Discard the compiler output because it will be shown again by `cargo test` or Clippy. if let Some(output) = output.as_deref_mut() { output.clear(); } if self.test() { let output_is_some = output.is_some(); let mut test_cmd = cmd_runner.cargo("test", bin_name, output.as_deref_mut()); if output_is_some { test_cmd.args(["--", "--color", "always", "--format", "pretty"]); } let test_success = test_cmd.run("cargo test …")?; if !test_success { run_bin(bin_name, output, cmd_runner)?; return Ok(false); } // Discard the compiler output because it will be shown again by Clippy. if let Some(output) = output.as_deref_mut() { output.clear(); } } let mut clippy_cmd = cmd_runner.cargo("clippy", bin_name, output.as_deref_mut()); // `--profile test` is required to also check code with `[cfg(test)]`. if FORCE_STRICT_CLIPPY || self.strict_clippy() { clippy_cmd.args(["--profile", "test", "--", "-D", "warnings"]); } else { clippy_cmd.args(["--profile", "test"]); } let clippy_success = clippy_cmd.run("cargo clippy …")?; let run_success = run_bin(bin_name, output, cmd_runner)?; Ok(clippy_success && run_success) } /// Compile, check and run the exercise. /// The output is written to the `output` buffer after clearing it. #[inline] fn run_exercise(&self, output: Option<&mut Vec>, cmd_runner: &CmdRunner) -> Result { self.run::(self.name(), output, cmd_runner) } /// Compile, check and run the exercise's solution. /// The output is written to the `output` buffer after clearing it. fn run_solution(&self, output: Option<&mut Vec>, cmd_runner: &CmdRunner) -> Result { let name = self.name(); let mut bin_name = String::with_capacity(name.len() + 4); bin_name.push_str(name); bin_name.push_str("_sol"); self.run::(&bin_name, output, cmd_runner) } fn sol_path(&self) -> String { let name = self.name(); let mut path = if let Some(dir) = self.dir() { // 14 = 10 + 1 + 3 // solutions/ + / + .rs let mut path = String::with_capacity(14 + dir.len() + name.len()); path.push_str("solutions/"); path.push_str(dir); path.push('/'); path } else { // 13 = 10 + 3 // solutions/ + .rs let mut path = String::with_capacity(13 + name.len()); path.push_str("solutions/"); path }; path.push_str(name); path.push_str(".rs"); path } } impl RunnableExercise for Exercise { #[inline] fn name(&self) -> &str { self.name } #[inline] fn dir(&self) -> Option<&str> { self.dir } #[inline] fn strict_clippy(&self) -> bool { self.strict_clippy } #[inline] fn test(&self) -> bool { self.test } }