rustlings/src/exercise.rs

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use regex::Regex;
use serde::Deserialize;
use std::fmt::{self, Display, Formatter};
use std::fs::{self, remove_file, File};
use std::io::Read;
use std::path::PathBuf;
use std::process::{self, Command};
const RUSTC_COLOR_ARGS: &[&str] = &["--color", "always"];
const I_AM_DONE_REGEX: &str = r"(?m)^\s*///?\s*I\s+AM\s+NOT\s+DONE";
const CONTEXT: usize = 2;
const CLIPPY_CARGO_TOML_PATH: &str = "./exercises/clippy/Cargo.toml";
// Get a temporary file name that is hopefully unique to this process
#[inline]
fn temp_file() -> String {
format!("./temp_{}", process::id())
}
// The mode of the exercise.
#[derive(Deserialize, Copy, Clone)]
#[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<Exercise>,
}
// A representation of a rustlings exercise.
// This is deserialized from the accompanying info.toml file
#[derive(Deserialize)]
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, 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<ContextLine>),
}
// The context information of a pending exercise
#[derive(PartialEq, 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<ExerciseOutput, ExerciseOutput> {
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<CompiledExercise, ExerciseOutput> {
let cmd = match self.mode {
Mode::Compile => Command::new("rustc")
.args(&[self.path.to_str().unwrap(), "-o", &temp_file()])
.args(RUSTC_COLOR_ARGS)
.output(),
Mode::Test => Command::new("rustc")
.args(&["--test", self.path.to_str().unwrap(), "-o", &temp_file()])
.args(RUSTC_COLOR_ARGS)
.output(),
Mode::Clippy => {
let cargo_toml = format!(
r#"[package]
name = "{}"
version = "0.0.1"
edition = "2018"
[[bin]]
name = "{}"
path = "{}.rs""#,
self.name, self.name, self.name
);
fs::write(CLIPPY_CARGO_TOML_PATH, cargo_toml)
.expect("Failed to write 📎 Clippy 📎 Cargo.toml file.");
// To support the ability to run the clipy 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)
.output()
.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)
.output()
.expect("Failed to run 'cargo clean'");
Command::new("cargo")
.args(&["clippy", "--manifest-path", CLIPPY_CARGO_TOML_PATH])
.args(RUSTC_COLOR_ARGS)
.args(&["--", "-D", "warnings"])
.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<ExerciseOutput, ExerciseOutput> {
let arg = match self.mode {
Mode::Test => "--show-output",
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_ => "",
};
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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 mut source_file =
File::open(&self.path).expect("We were unable to open the exercise file!");
let source = {
let mut s = String::new();
source_file
.read_to_string(&mut s)
.expect("We were unable to read the exercise file!");
s
};
let re = Regex::new(I_AM_DONE_REGEX).unwrap();
if !re.is_match(&source) {
return State::Done;
}
let matched_line_index = source
.lines()
.enumerate()
.filter_map(|(i, line)| if re.is_match(line) { Some(i) } else { None })
.next()
.expect("This should not happen at all");
let min_line = ((matched_line_index as i32) - (CONTEXT as i32)).max(0) as usize;
let max_line = matched_line_index + CONTEXT;
let context = source
.lines()
.enumerate()
.filter(|&(i, _)| i >= min_line && i <= max_line)
.map(|(i, line)| ContextLine {
line: line.to_string(),
number: i + 1,
important: i == matched_line_index,
})
.collect();
State::Pending(context)
}
}
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]
fn test_pending_state() {
let exercise = Exercise {
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name: "pending_exercise".into(),
path: PathBuf::from("tests/fixture/state/pending_exercise.rs"),
mode: Mode::Compile,
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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 {
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name: "finished_exercise".into(),
path: PathBuf::from("tests/fixture/state/finished_exercise.rs"),
mode: Mode::Compile,
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hint: String::new(),
};
assert_eq!(exercise.state(), State::Done);
}
#[test]
fn test_exercise_with_output() {
let exercise = Exercise {
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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"));
}
}