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No commits in common. "932bc25d8824e18debc91e5f25f022e8d066bcf8" and "d3f819f86f0fd7e67e9b995034947a65961cab34" have entirely different histories.

7 changed files with 301 additions and 254 deletions

View file

@ -13,6 +13,4 @@ disallowed-methods = [
# Use `thread::Builder::spawn` instead and handle the error.
"std::thread::spawn",
"std::thread::Scope::spawn",
# Return `ExitCode` instead.
"std::process::exit",
]

View file

@ -1,15 +1,16 @@
use anyhow::{bail, Context, Error, Result};
use crossterm::{cursor, terminal, QueueableCommand};
use anyhow::{bail, Context, Result};
use crossterm::{
queue,
style::{Print, ResetColor, SetForegroundColor},
terminal,
};
use std::{
env,
fs::{File, OpenOptions},
io::{Read, Seek, StdoutLock, Write},
io::{self, Read, Seek, StdoutLock, Write},
path::{Path, MAIN_SEPARATOR_STR},
process::{Command, Stdio},
sync::{
atomic::{AtomicUsize, Ordering::Relaxed},
mpsc,
},
sync::{atomic::AtomicUsize, mpsc, Arc},
thread,
};
@ -20,7 +21,7 @@ use crate::{
embedded::EMBEDDED_FILES,
exercise::{Exercise, RunnableExercise},
info_file::ExerciseInfo,
term::{self, CheckProgressVisualizer},
term::{self, progress_bar_with_success},
};
const STATE_FILE_NAME: &str = ".rustlings-state.txt";
@ -41,12 +42,12 @@ pub enum StateFileStatus {
NotRead,
}
#[derive(Clone, Copy)]
pub enum CheckProgress {
None,
Checking,
Done,
#[derive(Clone, Copy, PartialEq)]
enum AllExercisesResult {
Pending,
Success,
Failed,
Error,
}
pub struct AppState {
@ -202,11 +203,6 @@ impl AppState {
self.n_done
}
#[inline]
pub fn n_pending(&self) -> u16 {
self.exercises.len() as u16 - self.n_done
}
#[inline]
pub fn current_exercise(&self) -> &Exercise {
&self.exercises[self.current_exercise_ind]
@ -284,7 +280,7 @@ impl AppState {
}
// Set the status of an exercise without saving. Returns `true` if the
// status actually changed (and thus needs saving later).
// status actually changed (and thus needs saving later)
pub fn set_status(&mut self, exercise_ind: usize, done: bool) -> Result<bool> {
let exercise = self
.exercises
@ -292,25 +288,23 @@ impl AppState {
.context(BAD_INDEX_ERR)?;
if exercise.done == done {
return Ok(false);
}
exercise.done = done;
if done {
self.n_done += 1;
Ok(false)
} else {
self.n_done -= 1;
exercise.done = done;
if done {
self.n_done += 1;
} else {
self.n_done -= 1;
}
Ok(true)
}
Ok(true)
}
// Set the status of an exercise to "pending" and save.
// Set the status of an exercise to "pending" and save
pub fn set_pending(&mut self, exercise_ind: usize) -> Result<()> {
if self.set_status(exercise_ind, false)? {
self.write()?;
}
Ok(())
}
@ -408,114 +402,174 @@ impl AppState {
}
}
fn check_all_exercises_impl(&mut self, stdout: &mut StdoutLock) -> Result<Option<usize>> {
let term_width = terminal::size()
.context("Failed to get the terminal size")?
.0;
let mut progress_visualizer = CheckProgressVisualizer::build(stdout, term_width)?;
// Return the exercise index of the first pending exercise found.
pub fn check_all_exercises(
&mut self,
stdout: &mut StdoutLock,
final_check: bool,
) -> Result<Option<usize>> {
if !final_check {
stdout.write_all(INTERMEDIATE_CHECK_MSG)?;
} else {
stdout.write_all(FINAL_CHECK_MSG)?;
}
let n_exercises = self.exercises.len();
let next_exercise_ind = AtomicUsize::new(0);
let mut progresses = vec![CheckProgress::None; self.exercises.len()];
let (mut checked_count, mut results) = thread::scope(|s| {
let (tx, rx) = mpsc::channel();
let exercise_ind = Arc::new(AtomicUsize::default());
thread::scope(|s| {
let (exercise_progress_sender, exercise_progress_receiver) = mpsc::channel();
let n_threads = thread::available_parallelism()
let num_core = thread::available_parallelism()
.map_or(DEFAULT_CHECK_PARALLELISM, |count| count.get());
for _ in 0..n_threads {
let exercise_progress_sender = exercise_progress_sender.clone();
let next_exercise_ind = &next_exercise_ind;
let slf = &self;
thread::Builder::new()
.spawn_scoped(s, move || loop {
let exercise_ind = next_exercise_ind.fetch_add(1, Relaxed);
let Some(exercise) = slf.exercises.get(exercise_ind) else {
// No more exercises.
(0..num_core).for_each(|_| {
let tx = tx.clone();
let exercise_ind = exercise_ind.clone();
let this = &self;
let _ = thread::Builder::new().spawn_scoped(s, move || {
loop {
let exercise_ind =
exercise_ind.fetch_add(1, std::sync::atomic::Ordering::AcqRel);
let Some(exercise) = this.exercises.get(exercise_ind) else {
// No more exercises
break;
};
if exercise_progress_sender
.send((exercise_ind, CheckProgress::Checking))
.is_err()
{
// Notify the progress bar that this exercise is pending
if tx.send((exercise_ind, None)).is_err() {
break;
};
let success = exercise.run_exercise(None, &slf.cmd_runner);
let progress = match success {
Ok(true) => CheckProgress::Done,
Ok(false) => CheckProgress::Pending,
Err(_) => CheckProgress::None,
};
let result = exercise.run_exercise(None, &this.cmd_runner);
if exercise_progress_sender
.send((exercise_ind, progress))
.is_err()
{
// Notify the progress bar that this exercise is done
if tx.send((exercise_ind, Some(result))).is_err() {
break;
}
})
.context("Failed to spawn a thread to check all exercises")?;
}
});
});
// Drop this `tx`, since the `rx` loop will not stop while there is
// at least one tx alive (i.e. we want the loop to block only while
// there are `tx` clones, i.e. threads)
drop(tx);
// Print the legend
queue!(
stdout,
Print("Color legend: "),
SetForegroundColor(term::PROGRESS_FAILED_COLOR),
Print("Failure"),
ResetColor,
Print(" - "),
SetForegroundColor(term::PROGRESS_SUCCESS_COLOR),
Print("Success"),
ResetColor,
Print(" - "),
SetForegroundColor(term::PROGRESS_PENDING_COLOR),
Print("Checking"),
ResetColor,
Print("\n"),
)
.unwrap();
// We expect at least a few "pending" notifications shortly, so don't
// bother printing the initial state of the progress bar and flushing
// stdout
let line_width = terminal::size().unwrap().0;
let mut results = vec![AllExercisesResult::Pending; n_exercises];
let mut pending = 0;
let mut success = 0;
let mut failed = 0;
while let Ok((exercise_ind, result)) = rx.recv() {
match result {
None => {
pending += 1;
}
Some(Err(_)) => {
results[exercise_ind] = AllExercisesResult::Error;
}
Some(Ok(true)) => {
results[exercise_ind] = AllExercisesResult::Success;
pending -= 1;
success += 1;
}
Some(Ok(false)) => {
results[exercise_ind] = AllExercisesResult::Failed;
pending -= 1;
failed += 1;
}
}
write!(stdout, "\r").unwrap();
progress_bar_with_success(
stdout,
pending,
failed,
success,
n_exercises as u16,
line_width,
)
.unwrap();
stdout.flush()?;
}
// Drop this sender to detect when the last thread is done.
drop(exercise_progress_sender);
while let Ok((exercise_ind, progress)) = exercise_progress_receiver.recv() {
progresses[exercise_ind] = progress;
progress_visualizer.update(&progresses)?;
}
Ok::<_, Error>(())
Ok::<_, io::Error>((success, results))
})?;
let mut first_pending_exercise_ind = None;
for exercise_ind in 0..progresses.len() {
match progresses[exercise_ind] {
CheckProgress::Done => {
self.set_status(exercise_ind, true)?;
}
CheckProgress::Pending => {
self.set_status(exercise_ind, false)?;
if first_pending_exercise_ind.is_none() {
first_pending_exercise_ind = Some(exercise_ind);
}
}
CheckProgress::None | CheckProgress::Checking => {
// If we got an error while checking all exercises in parallel,
// it could be because we exceeded the limit of open file descriptors.
// Therefore, try running exercises with errors sequentially.
progresses[exercise_ind] = CheckProgress::Checking;
progress_visualizer.update(&progresses)?;
// If we got an error while checking all exercises in parallel,
// it could be because we exceeded the limit of open file descriptors.
// Therefore, re-try those one at a time (i.e. sequentially).
results
.iter_mut()
.enumerate()
.filter(|(_, result)| {
**result == AllExercisesResult::Pending || **result == AllExercisesResult::Error
})
.try_for_each(|(exercise_ind, result)| {
let exercise = self.exercises.get(exercise_ind).context(BAD_INDEX_ERR)?;
*result = match exercise
.run_exercise(None, &self.cmd_runner)
.context("Sequential retry")
{
Ok(true) => AllExercisesResult::Success,
Ok(false) => AllExercisesResult::Failed,
Err(err) => bail!(err),
};
checked_count += 1;
write!(stdout, "\rProgress: {checked_count}/{n_exercises}")?;
stdout.flush()?;
Ok(())
})?;
let exercise = &self.exercises[exercise_ind];
let success = exercise.run_exercise(None, &self.cmd_runner)?;
if success {
progresses[exercise_ind] = CheckProgress::Done;
} else {
progresses[exercise_ind] = CheckProgress::Pending;
if first_pending_exercise_ind.is_none() {
first_pending_exercise_ind = Some(exercise_ind);
}
}
self.set_status(exercise_ind, success)?;
progress_visualizer.update(&progresses)?;
// Update the state of each exercise and return the first that failed
let first_fail = results
.iter()
.enumerate()
.filter_map(|(exercise_ind, result)| {
match result {
AllExercisesResult::Success => self
.set_status(exercise_ind, true)
.map_or_else(|err| Some(Err(err)), |_| None),
AllExercisesResult::Failed => self
.set_status(exercise_ind, false)
.map_or_else(|err| Some(Err(err)), |_| Some(Ok(exercise_ind))),
// The sequential check done earlier will have converted all
// exercises to Success/Failed, or bailed, so those are unreachable
AllExercisesResult::Pending | AllExercisesResult::Error => unreachable!(),
}
}
}
})
.try_fold(None::<usize>, |current_min, index| {
match (current_min, index) {
(_, Err(err)) => Err(err),
(None, Ok(index)) => Ok(Some(index)),
(Some(current_min), Ok(index)) => Ok(Some(current_min.min(index))),
}
})?;
self.write()?;
Ok(first_pending_exercise_ind)
}
// Return the exercise index of the first pending exercise found.
pub fn check_all_exercises(&mut self, stdout: &mut StdoutLock) -> Result<Option<usize>> {
stdout.queue(cursor::Hide)?;
let res = self.check_all_exercises_impl(stdout);
stdout.queue(cursor::Show)?;
res
Ok(first_fail)
}
/// Mark the current exercise as done and move on to the next pending exercise if one exists.
@ -542,12 +596,18 @@ impl AppState {
stdout.write_all(b"\n")?;
}
if let Some(first_pending_exercise_ind) = self.check_all_exercises(stdout)? {
self.set_current_exercise_ind(first_pending_exercise_ind)?;
if let Some(pending_exercise_ind) = self.check_all_exercises(stdout, true)? {
stdout.write_all(b"\n\n")?;
self.current_exercise_ind = pending_exercise_ind;
self.exercises[pending_exercise_ind].done = false;
return Ok(ExercisesProgress::NewPending);
}
// Write that the last exercise is done.
self.write()?;
self.render_final_message(stdout)?;
Ok(ExercisesProgress::AllDone)
@ -569,6 +629,11 @@ impl AppState {
const BAD_INDEX_ERR: &str = "The current exercise index is higher than the number of exercises";
const STATE_FILE_HEADER: &[u8] = b"DON'T EDIT THIS FILE!\n\n";
const INTERMEDIATE_CHECK_MSG: &[u8] = b"Checking all exercises
";
const FINAL_CHECK_MSG: &[u8] = b"All exercises seem to be done.
Recompiling and running all exercises to make sure that all of them are actually done.
";
const FENISH_LINE: &str = "+----------------------------------------------------+
| You made it to the Fe-nish line! |
+-------------------------- ------------------------+

View file

@ -1,10 +1,14 @@
use anyhow::{bail, Context, Result};
use app_state::StateFileStatus;
use clap::{Parser, Subcommand};
use crossterm::{
style::{Color, Print, ResetColor, SetForegroundColor},
QueueableCommand,
};
use std::{
io::{self, IsTerminal, Write},
path::Path,
process::ExitCode,
process::exit,
};
use term::{clear_terminal, press_enter_prompt};
@ -47,8 +51,8 @@ enum Subcommands {
/// The name of the exercise
name: Option<String>,
},
/// Check all the exercises, marking them as done or pending accordingly.
CheckAll,
/// Run all the exercises, marking them as done or pending accordingly.
RunAll,
/// Reset a single exercise
Reset {
/// The name of the exercise
@ -64,26 +68,22 @@ enum Subcommands {
Dev(DevCommands),
}
fn main() -> Result<ExitCode> {
fn main() -> Result<()> {
let args = Args::parse();
if cfg!(not(debug_assertions)) && Path::new("dev/rustlings-repo.txt").exists() {
bail!("{OLD_METHOD_ERR}");
}
'priority_cmd: {
match args.command {
Some(Subcommands::Init) => init::init().context("Initialization failed")?,
Some(Subcommands::Dev(dev_command)) => dev_command.run()?,
_ => break 'priority_cmd,
}
return Ok(ExitCode::SUCCESS);
match args.command {
Some(Subcommands::Init) => return init::init().context("Initialization failed"),
Some(Subcommands::Dev(dev_command)) => return dev_command.run(),
_ => (),
}
if !Path::new("exercises").is_dir() {
println!("{PRE_INIT_MSG}");
return Ok(ExitCode::FAILURE);
exit(1);
}
let info_file = InfoFile::parse()?;
@ -142,32 +142,34 @@ fn main() -> Result<ExitCode> {
if let Some(name) = name {
app_state.set_current_exercise_by_name(&name)?;
}
return run::run(&mut app_state);
run::run(&mut app_state)?;
}
Some(Subcommands::CheckAll) => {
Some(Subcommands::RunAll) => {
let mut stdout = io::stdout().lock();
if let Some(first_pending_exercise_ind) = app_state.check_all_exercises(&mut stdout)? {
if let Some(first_fail) = app_state.check_all_exercises(&mut stdout, false)? {
let pending = app_state
.exercises()
.iter()
.filter(|exercise| !exercise.done)
.count();
if app_state.current_exercise().done {
app_state.set_current_exercise_ind(first_pending_exercise_ind)?;
app_state.set_current_exercise_ind(first_fail)?;
}
stdout.write_all(b"\n\n")?;
let pending = app_state.n_pending();
stdout
.queue(Print("\n"))?
.queue(SetForegroundColor(Color::Red))?
.queue(Print(format!("{pending}")))?
.queue(ResetColor)?;
if pending == 1 {
stdout.write_all(b"One exercise pending: ")?;
stdout.queue(Print(" exercise has some errors: "))?;
} else {
write!(
stdout,
"{pending}/{} exercises pending. The first: ",
app_state.exercises().len(),
)?;
stdout.queue(Print(" exercises have errors, including "))?;
}
app_state
.current_exercise()
.terminal_file_link(&mut stdout)?;
stdout.write_all(b"\n")?;
return Ok(ExitCode::FAILURE);
stdout.write_all(b".\n")?;
exit(1);
} else {
app_state.render_final_message(&mut stdout)?;
}
@ -187,7 +189,7 @@ fn main() -> Result<ExitCode> {
Some(Subcommands::Init | Subcommands::Dev(_)) => (),
}
Ok(ExitCode::SUCCESS)
Ok(())
}
const OLD_METHOD_ERR: &str =

View file

@ -5,7 +5,7 @@ use crossterm::{
};
use std::{
io::{self, Write},
process::ExitCode,
process::exit,
};
use crate::{
@ -13,7 +13,7 @@ use crate::{
exercise::{solution_link_line, RunnableExercise, OUTPUT_CAPACITY},
};
pub fn run(app_state: &mut AppState) -> Result<ExitCode> {
pub fn run(app_state: &mut AppState) -> Result<()> {
let exercise = app_state.current_exercise();
let mut output = Vec::with_capacity(OUTPUT_CAPACITY);
let success = exercise.run_exercise(Some(&mut output), app_state.cmd_runner())?;
@ -29,8 +29,7 @@ pub fn run(app_state: &mut AppState) -> Result<ExitCode> {
.current_exercise()
.terminal_file_link(&mut stdout)?;
stdout.write_all(b" with errors\n")?;
return Ok(ExitCode::FAILURE);
exit(1);
}
stdout.queue(SetForegroundColor(Color::Green))?;
@ -56,5 +55,5 @@ pub fn run(app_state: &mut AppState) -> Result<ExitCode> {
ExercisesProgress::AllDone => (),
}
Ok(ExitCode::SUCCESS)
Ok(())
}

View file

@ -1,6 +1,6 @@
use crossterm::{
cursor::MoveTo,
style::{Attribute, Color, ResetColor, SetAttribute, SetForegroundColor},
style::{Attribute, Color, SetAttribute, SetForegroundColor},
terminal::{Clear, ClearType},
Command, QueueableCommand,
};
@ -9,7 +9,9 @@ use std::{
io::{self, BufRead, StdoutLock, Write},
};
use crate::app_state::CheckProgress;
pub const PROGRESS_FAILED_COLOR: Color = Color::Red;
pub const PROGRESS_SUCCESS_COLOR: Color = Color::Green;
pub const PROGRESS_PENDING_COLOR: Color = Color::Blue;
pub struct MaxLenWriter<'a, 'b> {
pub stdout: &'a mut StdoutLock<'b>,
@ -87,87 +89,26 @@ impl<'a> CountedWrite<'a> for StdoutLock<'a> {
}
}
pub struct CheckProgressVisualizer<'a, 'b> {
stdout: &'a mut StdoutLock<'b>,
n_cols: usize,
}
impl<'a, 'b> CheckProgressVisualizer<'a, 'b> {
const CHECKING_COLOR: Color = Color::Blue;
const DONE_COLOR: Color = Color::Green;
const PENDING_COLOR: Color = Color::Red;
pub fn build(stdout: &'a mut StdoutLock<'b>, term_width: u16) -> io::Result<Self> {
clear_terminal(stdout)?;
stdout.write_all("Checking all exercises…\n".as_bytes())?;
// Legend
stdout.write_all(b"Color of exercise number: ")?;
stdout.queue(SetForegroundColor(Self::CHECKING_COLOR))?;
stdout.write_all(b"Checking")?;
stdout.queue(ResetColor)?;
stdout.write_all(b" - ")?;
stdout.queue(SetForegroundColor(Self::DONE_COLOR))?;
stdout.write_all(b"Done")?;
stdout.queue(ResetColor)?;
stdout.write_all(b" - ")?;
stdout.queue(SetForegroundColor(Self::PENDING_COLOR))?;
stdout.write_all(b"Pending")?;
stdout.queue(ResetColor)?;
stdout.write_all(b"\n")?;
// Exercise numbers with up to 3 digits.
// +1 because the last column doesn't end with a whitespace.
let n_cols = usize::from(term_width + 1) / 4;
Ok(Self { stdout, n_cols })
}
pub fn update(&mut self, progresses: &[CheckProgress]) -> io::Result<()> {
self.stdout.queue(MoveTo(0, 2))?;
let mut exercise_num = 1;
for exercise_progress in progresses {
match exercise_progress {
CheckProgress::None => (),
CheckProgress::Checking => {
self.stdout
.queue(SetForegroundColor(Self::CHECKING_COLOR))?;
}
CheckProgress::Done => {
self.stdout.queue(SetForegroundColor(Self::DONE_COLOR))?;
}
CheckProgress::Pending => {
self.stdout.queue(SetForegroundColor(Self::PENDING_COLOR))?;
}
}
write!(self.stdout, "{exercise_num:<3}")?;
self.stdout.queue(ResetColor)?;
if exercise_num != progresses.len() {
if exercise_num % self.n_cols == 0 {
self.stdout.write_all(b"\n")?;
} else {
self.stdout.write_all(b" ")?;
}
exercise_num += 1;
}
}
self.stdout.flush()
}
}
/// Simple terminal progress bar
pub fn progress_bar<'a>(
writer: &mut impl CountedWrite<'a>,
progress: u16,
total: u16,
term_width: u16,
line_width: u16,
) -> io::Result<()> {
progress_bar_with_success(writer, 0, 0, progress, total, line_width)
}
/// Terminal progress bar with three states (pending + failed + success)
pub fn progress_bar_with_success<'a>(
writer: &mut impl CountedWrite<'a>,
pending: u16,
failed: u16,
success: u16,
total: u16,
line_width: u16,
) -> io::Result<()> {
debug_assert!(total < 1000);
debug_assert!(progress <= total);
debug_assert!((pending + failed + success) <= total);
const PREFIX: &[u8] = b"Progress: [";
const PREFIX_WIDTH: u16 = PREFIX.len() as u16;
@ -175,28 +116,70 @@ pub fn progress_bar<'a>(
const WRAPPER_WIDTH: u16 = PREFIX_WIDTH + POSTFIX_WIDTH;
const MIN_LINE_WIDTH: u16 = WRAPPER_WIDTH + 4;
if term_width < MIN_LINE_WIDTH {
if line_width < MIN_LINE_WIDTH {
writer.write_ascii(b"Progress: ")?;
// Integers are in ASCII.
return writer.write_ascii(format!("{progress}/{total}").as_bytes());
return writer.write_ascii(format!("{}/{total}", failed + success).as_bytes());
}
let stdout = writer.stdout();
stdout.write_all(PREFIX)?;
let width = term_width - WRAPPER_WIDTH;
let filled = (width * progress) / total;
let width = line_width - WRAPPER_WIDTH;
let mut failed_end = (width * failed) / total;
let mut success_end = (width * (failed + success)) / total;
let mut pending_end = (width * (failed + success + pending)) / total;
stdout.queue(SetForegroundColor(Color::Green))?;
for _ in 0..filled {
// In case the range boundaries overlap, "pending" has priority over both
// "failed" and "success" (don't show the bar as "complete" when we are
// still checking some things).
// "Failed" has priority over "success" (don't show 100% success if we
// have some failures, at the risk of showing 100% failures even with
// a few successes).
//
// "Failed" already has priority over "success" because it's displayed
// first. But "pending" is last so we need to fix "success"/"failed".
if pending > 0 {
pending_end = pending_end.max(1);
if pending_end == success_end {
success_end -= 1;
}
if pending_end == failed_end {
failed_end -= 1;
}
// This will replace the last character of the "pending" range with
// the arrow char ('>'). This ensures that even if the progress bar
// is filled (everything either done or pending), we'll still see
// the '>' as long as we are not fully done.
pending_end -= 1;
}
if failed > 0 {
stdout.queue(SetForegroundColor(PROGRESS_FAILED_COLOR))?;
for _ in 0..failed_end {
stdout.write_all(b"#")?;
}
}
stdout.queue(SetForegroundColor(PROGRESS_SUCCESS_COLOR))?;
for _ in failed_end..success_end {
stdout.write_all(b"#")?;
}
if filled < width {
if pending > 0 {
stdout.queue(SetForegroundColor(PROGRESS_PENDING_COLOR))?;
for _ in success_end..pending_end {
stdout.write_all(b"#")?;
}
}
if pending_end < width {
stdout.write_all(b">")?;
}
let width_minus_filled = width - filled;
let width_minus_filled = width - pending_end;
if width_minus_filled > 1 {
let red_part_width = width_minus_filled - 1;
stdout.queue(SetForegroundColor(Color::Red))?;
@ -207,7 +190,7 @@ pub fn progress_bar<'a>(
stdout.queue(SetForegroundColor(Color::Reset))?;
write!(stdout, "] {progress:>3}/{total}")
write!(stdout, "] {:>3}/{}", failed + success, total)
}
pub fn clear_terminal(stdout: &mut StdoutLock) -> io::Result<()> {

View file

@ -108,7 +108,7 @@ fn run_watch(
{
ExercisesProgress::AllDone => break,
ExercisesProgress::NewPending => watch_state.run_current_exercise(&mut stdout)?,
ExercisesProgress::CurrentPending => watch_state.render(&mut stdout)?,
ExercisesProgress::CurrentPending => (),
},
WatchEvent::Input(InputEvent::Reset) => watch_state.reset_exercise(&mut stdout)?,
WatchEvent::Input(InputEvent::Quit) => {

View file

@ -157,9 +157,8 @@ impl<'a> WatchState<'a> {
/// Move on to the next exercise if the current one is done.
pub fn next_exercise(&mut self, stdout: &mut StdoutLock) -> Result<ExercisesProgress> {
match self.done_status {
DoneStatus::DoneWithSolution(_) | DoneStatus::DoneWithoutSolution => (),
DoneStatus::Pending => return Ok(ExercisesProgress::CurrentPending),
if self.done_status == DoneStatus::Pending {
return Ok(ExercisesProgress::CurrentPending);
}
self.app_state.done_current_exercise::<true>(stdout)
@ -281,15 +280,16 @@ impl<'a> WatchState<'a> {
}
pub fn check_all_exercises(&mut self, stdout: &mut StdoutLock) -> Result<ExercisesProgress> {
if let Some(first_pending_exercise_ind) = self.app_state.check_all_exercises(stdout)? {
// Only change exercise if the current one is done.
stdout.write_all(b"\n")?;
if let Some(first_fail) = self.app_state.check_all_exercises(stdout, false)? {
// Only change exercise if the current one is done...
if self.app_state.current_exercise().done {
self.app_state
.set_current_exercise_ind(first_pending_exercise_ind)?;
Ok(ExercisesProgress::NewPending)
} else {
Ok(ExercisesProgress::CurrentPending)
self.app_state.set_current_exercise_ind(first_fail)?;
}
// ...but always pretend it's a "new" anyway because that refreshes
// the display
Ok(ExercisesProgress::NewPending)
} else {
self.app_state.render_final_message(stdout)?;
Ok(ExercisesProgress::AllDone)