use std::sync::Arc;
use crate::lexer::Pos;
pub struct Errors {
pub errors: Vec<Error>,
pub(crate) filenames: Vec<Arc<str>>,
pub(crate) file_texts: Vec<Arc<str>>,
}
impl std::fmt::Debug for Errors {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
if self.errors.is_empty() {
return Ok(());
}
let diagnostics = Vec::from_iter(self.errors.iter().map(|e| {
let message = match e {
Error::IoError { context, .. } => context.clone(),
Error::ParseError { msg, .. } => format!("parse error: {}", msg),
Error::TypeError { msg, .. } => format!("type error: {}", msg),
Error::UnreachableError { msg, .. } => format!("unreachable rule: {}", msg),
Error::OverlapError { msg, .. } => format!("overlap error: {}", msg),
Error::ShadowedError { .. } => {
"more general higher-priority rule shadows other rules".to_string()
}
};
let labels = match e {
Error::IoError { .. } => vec![],
Error::ParseError { span, .. }
| Error::TypeError { span, .. }
| Error::UnreachableError { span, .. } => {
vec![Label::primary(span.from.file, span)]
}
Error::OverlapError { rules, .. } => {
let mut labels = vec![Label::primary(rules[0].from.file, &rules[0])];
labels.extend(
rules[1..]
.iter()
.map(|span| Label::secondary(span.from.file, span)),
);
labels
}
Error::ShadowedError { shadowed, mask } => {
let mut labels = vec![Label::primary(mask.from.file, mask)];
labels.extend(
shadowed
.iter()
.map(|span| Label::secondary(span.from.file, span)),
);
labels
}
};
let mut sources = Vec::new();
let mut source = e.source();
while let Some(e) = source {
sources.push(format!("{:?}", e));
source = std::error::Error::source(e);
}
Diagnostic::error()
.with_message(message)
.with_labels(labels)
.with_notes(sources)
}));
self.emit(f, diagnostics)?;
if self.errors.len() > 1 {
writeln!(f, "found {} errors", self.errors.len())?;
}
Ok(())
}
}
#[derive(Debug)]
pub enum Error {
IoError {
error: std::io::Error,
context: String,
},
ParseError {
msg: String,
span: Span,
},
TypeError {
msg: String,
span: Span,
},
UnreachableError {
msg: String,
span: Span,
},
OverlapError {
msg: String,
rules: Vec<Span>,
},
ShadowedError {
shadowed: Vec<Span>,
mask: Span,
},
}
impl Errors {
pub fn from_io(error: std::io::Error, context: impl Into<String>) -> Self {
Errors {
errors: vec![Error::IoError {
error,
context: context.into(),
}],
filenames: Vec::new(),
file_texts: Vec::new(),
}
}
#[cfg(feature = "fancy-errors")]
fn emit(
&self,
f: &mut std::fmt::Formatter,
diagnostics: Vec<Diagnostic<usize>>,
) -> std::fmt::Result {
use codespan_reporting::term::termcolor;
let w = termcolor::BufferWriter::stderr(termcolor::ColorChoice::Auto);
let mut b = w.buffer();
let mut files = codespan_reporting::files::SimpleFiles::new();
for (name, source) in self.filenames.iter().zip(self.file_texts.iter()) {
files.add(name, source);
}
for diagnostic in diagnostics {
codespan_reporting::term::emit(&mut b, &Default::default(), &files, &diagnostic)
.map_err(|_| std::fmt::Error)?;
}
let b = b.into_inner();
let b = std::str::from_utf8(&b).map_err(|_| std::fmt::Error)?;
f.write_str(b)
}
#[cfg(not(feature = "fancy-errors"))]
fn emit(
&self,
f: &mut std::fmt::Formatter,
diagnostics: Vec<Diagnostic<usize>>,
) -> std::fmt::Result {
let line_ends: Vec<Vec<_>> = self
.file_texts
.iter()
.map(|text| text.match_indices('\n').map(|(i, _)| i + 1).collect())
.collect();
let pos = |file_id: usize, offset| {
let ends = &line_ends[file_id];
let line0 = ends.partition_point(|&end| end <= offset);
let text = &self.file_texts[file_id];
let start = line0.checked_sub(1).map_or(0, |prev| ends[prev]);
let end = ends.get(line0).copied().unwrap_or(text.len());
let col = offset - start + 1;
format!(
"{}:{}:{}: {}",
self.filenames[file_id],
line0 + 1,
col,
&text[start..end]
)
};
for diagnostic in diagnostics {
writeln!(f, "{}", diagnostic.message)?;
for label in diagnostic.labels {
f.write_str(&pos(label.file_id, label.range.start))?;
}
for note in diagnostic.notes {
writeln!(f, "{}", note)?;
}
writeln!(f)?;
}
Ok(())
}
}
impl Error {
fn source(&self) -> Option<&(dyn std::error::Error + 'static)> {
match self {
Error::IoError { error, .. } => Some(error),
_ => None,
}
}
}
#[derive(Clone, Debug)]
pub struct Span {
pub from: Pos,
pub to: Pos,
}
impl Span {
pub fn new_single(pos: Pos) -> Span {
Span {
from: pos,
to: Pos {
file: pos.file,
offset: pos.offset + 1,
line: pos.line,
col: pos.col + 1,
},
}
}
}
impl From<&Span> for std::ops::Range<usize> {
fn from(span: &Span) -> Self {
span.from.offset..span.to.offset
}
}
use diagnostic::{Diagnostic, Label};
#[cfg(feature = "fancy-errors")]
use codespan_reporting::diagnostic;
#[cfg(not(feature = "fancy-errors"))]
mod diagnostic {
use std::ops::Range;
pub struct Diagnostic<FileId> {
pub message: String,
pub labels: Vec<Label<FileId>>,
pub notes: Vec<String>,
}
impl<FileId> Diagnostic<FileId> {
pub fn error() -> Self {
Self {
message: String::new(),
labels: Vec::new(),
notes: Vec::new(),
}
}
pub fn with_message(mut self, message: impl Into<String>) -> Self {
self.message = message.into();
self
}
pub fn with_labels(mut self, labels: Vec<Label<FileId>>) -> Self {
self.labels = labels;
self
}
pub fn with_notes(mut self, notes: Vec<String>) -> Self {
self.notes = notes;
self
}
}
pub struct Label<FileId> {
pub file_id: FileId,
pub range: Range<usize>,
}
impl<FileId> Label<FileId> {
pub fn primary(file_id: FileId, range: impl Into<Range<usize>>) -> Self {
Self {
file_id,
range: range.into(),
}
}
pub fn secondary(file_id: FileId, range: impl Into<Range<usize>>) -> Self {
Self::primary(file_id, range)
}
}
}