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|
use crate::{Arena, Handle, UniqueArena};
use std::{error::Error, fmt, ops::Range};
/// A source code span, used for error reporting.
#[derive(Clone, Copy, Debug, PartialEq, Default)]
#[cfg_attr(feature = "arbitrary", derive(arbitrary::Arbitrary))]
pub struct Span {
start: u32,
end: u32,
}
impl Span {
pub const UNDEFINED: Self = Self { start: 0, end: 0 };
/// Creates a new `Span` from a range of byte indices
///
/// Note: end is exclusive, it doesn't belong to the `Span`
pub const fn new(start: u32, end: u32) -> Self {
Span { start, end }
}
/// Returns a new `Span` starting at `self` and ending at `other`
pub const fn until(&self, other: &Self) -> Self {
Span {
start: self.start,
end: other.end,
}
}
/// Modifies `self` to contain the smallest `Span` possible that
/// contains both `self` and `other`
pub fn subsume(&mut self, other: Self) {
*self = if !self.is_defined() {
// self isn't defined so use other
other
} else if !other.is_defined() {
// other isn't defined so don't try to subsume
*self
} else {
// Both self and other are defined so calculate the span that contains them both
Span {
start: self.start.min(other.start),
end: self.end.max(other.end),
}
}
}
/// Returns the smallest `Span` possible that contains all the `Span`s
/// defined in the `from` iterator
pub fn total_span<T: Iterator<Item = Self>>(from: T) -> Self {
let mut span: Self = Default::default();
for other in from {
span.subsume(other);
}
span
}
/// Converts `self` to a range if the span is not unknown
pub fn to_range(self) -> Option<Range<usize>> {
if self.is_defined() {
Some(self.start as usize..self.end as usize)
} else {
None
}
}
/// Check whether `self` was defined or is a default/unknown span
pub fn is_defined(&self) -> bool {
*self != Self::default()
}
/// Return a [`SourceLocation`] for this span in the provided source.
pub fn location(&self, source: &str) -> SourceLocation {
let prefix = &source[..self.start as usize];
let line_number = prefix.matches('\n').count() as u32 + 1;
let line_start = prefix.rfind('\n').map(|pos| pos + 1).unwrap_or(0) as u32;
let line_position = self.start - line_start + 1;
SourceLocation {
line_number,
line_position,
offset: self.start,
length: self.end - self.start,
}
}
}
impl From<Range<usize>> for Span {
fn from(range: Range<usize>) -> Self {
Span {
start: range.start as u32,
end: range.end as u32,
}
}
}
impl std::ops::Index<Span> for str {
type Output = str;
#[inline]
fn index(&self, span: Span) -> &str {
&self[span.start as usize..span.end as usize]
}
}
/// A human-readable representation for a span, tailored for text source.
///
/// Roughly corresponds to the positional members of [`GPUCompilationMessage`][gcm] from
/// the WebGPU specification, except
/// - `offset` and `length` are in bytes (UTF-8 code units), instead of UTF-16 code units.
/// - `line_position` is in bytes (UTF-8 code units), instead of UTF-16 code units.
///
/// [gcm]: https://www.w3.org/TR/webgpu/#gpucompilationmessage
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
pub struct SourceLocation {
/// 1-based line number.
pub line_number: u32,
/// 1-based column in code units (in bytes) of the start of the span.
pub line_position: u32,
/// 0-based Offset in code units (in bytes) of the start of the span.
pub offset: u32,
/// Length in code units (in bytes) of the span.
pub length: u32,
}
/// A source code span together with "context", a user-readable description of what part of the error it refers to.
pub type SpanContext = (Span, String);
/// Wrapper class for [`Error`], augmenting it with a list of [`SpanContext`]s.
#[derive(Debug, Clone)]
pub struct WithSpan<E> {
inner: E,
spans: Vec<SpanContext>,
}
impl<E> fmt::Display for WithSpan<E>
where
E: fmt::Display,
{
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
self.inner.fmt(f)
}
}
#[cfg(test)]
impl<E> PartialEq for WithSpan<E>
where
E: PartialEq,
{
fn eq(&self, other: &Self) -> bool {
self.inner.eq(&other.inner)
}
}
impl<E> Error for WithSpan<E>
where
E: Error,
{
fn source(&self) -> Option<&(dyn Error + 'static)> {
self.inner.source()
}
}
impl<E> WithSpan<E> {
/// Create a new [`WithSpan`] from an [`Error`], containing no spans.
pub const fn new(inner: E) -> Self {
Self {
inner,
spans: Vec::new(),
}
}
/// Reverse of [`Self::new`], discards span information and returns an inner error.
#[allow(clippy::missing_const_for_fn)] // ignore due to requirement of #![feature(const_precise_live_drops)]
pub fn into_inner(self) -> E {
self.inner
}
pub const fn as_inner(&self) -> &E {
&self.inner
}
/// Iterator over stored [`SpanContext`]s.
pub fn spans(&self) -> impl ExactSizeIterator<Item = &SpanContext> {
self.spans.iter()
}
/// Add a new span with description.
pub fn with_span<S>(mut self, span: Span, description: S) -> Self
where
S: ToString,
{
if span.is_defined() {
self.spans.push((span, description.to_string()));
}
self
}
/// Add a [`SpanContext`].
pub fn with_context(self, span_context: SpanContext) -> Self {
let (span, description) = span_context;
self.with_span(span, description)
}
/// Add a [`Handle`] from either [`Arena`] or [`UniqueArena`], borrowing its span information from there
/// and annotating with a type and the handle representation.
pub(crate) fn with_handle<T, A: SpanProvider<T>>(self, handle: Handle<T>, arena: &A) -> Self {
self.with_context(arena.get_span_context(handle))
}
/// Convert inner error using [`From`].
pub fn into_other<E2>(self) -> WithSpan<E2>
where
E2: From<E>,
{
WithSpan {
inner: self.inner.into(),
spans: self.spans,
}
}
/// Convert inner error into another type. Joins span information contained in `self`
/// with what is returned from `func`.
pub fn and_then<F, E2>(self, func: F) -> WithSpan<E2>
where
F: FnOnce(E) -> WithSpan<E2>,
{
let mut res = func(self.inner);
res.spans.extend(self.spans);
res
}
/// Return a [`SourceLocation`] for our first span, if we have one.
pub fn location(&self, source: &str) -> Option<SourceLocation> {
if self.spans.is_empty() {
return None;
}
Some(self.spans[0].0.location(source))
}
fn diagnostic(&self) -> codespan_reporting::diagnostic::Diagnostic<()>
where
E: Error,
{
use codespan_reporting::diagnostic::{Diagnostic, Label};
let diagnostic = Diagnostic::error()
.with_message(self.inner.to_string())
.with_labels(
self.spans()
.map(|&(span, ref desc)| {
Label::primary((), span.to_range().unwrap()).with_message(desc.to_owned())
})
.collect(),
)
.with_notes({
let mut notes = Vec::new();
let mut source: &dyn Error = &self.inner;
while let Some(next) = Error::source(source) {
notes.push(next.to_string());
source = next;
}
notes
});
diagnostic
}
/// Emits a summary of the error to standard error stream.
pub fn emit_to_stderr(&self, source: &str)
where
E: Error,
{
self.emit_to_stderr_with_path(source, "wgsl")
}
/// Emits a summary of the error to standard error stream.
pub fn emit_to_stderr_with_path(&self, source: &str, path: &str)
where
E: Error,
{
use codespan_reporting::{files, term};
use term::termcolor::{ColorChoice, StandardStream};
let files = files::SimpleFile::new(path, source);
let config = term::Config::default();
let writer = StandardStream::stderr(ColorChoice::Auto);
term::emit(&mut writer.lock(), &config, &files, &self.diagnostic())
.expect("cannot write error");
}
/// Emits a summary of the error to a string.
pub fn emit_to_string(&self, source: &str) -> String
where
E: Error,
{
self.emit_to_string_with_path(source, "wgsl")
}
/// Emits a summary of the error to a string.
pub fn emit_to_string_with_path(&self, source: &str, path: &str) -> String
where
E: Error,
{
use codespan_reporting::{files, term};
use term::termcolor::NoColor;
let files = files::SimpleFile::new(path, source);
let config = term::Config::default();
let mut writer = NoColor::new(Vec::new());
term::emit(&mut writer, &config, &files, &self.diagnostic()).expect("cannot write error");
String::from_utf8(writer.into_inner()).unwrap()
}
}
/// Convenience trait for [`Error`] to be able to apply spans to anything.
pub(crate) trait AddSpan: Sized {
type Output;
/// See [`WithSpan::new`].
fn with_span(self) -> Self::Output;
/// See [`WithSpan::with_span`].
fn with_span_static(self, span: Span, description: &'static str) -> Self::Output;
/// See [`WithSpan::with_context`].
fn with_span_context(self, span_context: SpanContext) -> Self::Output;
/// See [`WithSpan::with_handle`].
fn with_span_handle<T, A: SpanProvider<T>>(self, handle: Handle<T>, arena: &A) -> Self::Output;
}
/// Trait abstracting over getting a span from an [`Arena`] or a [`UniqueArena`].
pub(crate) trait SpanProvider<T> {
fn get_span(&self, handle: Handle<T>) -> Span;
fn get_span_context(&self, handle: Handle<T>) -> SpanContext {
match self.get_span(handle) {
x if !x.is_defined() => (Default::default(), "".to_string()),
known => (
known,
format!("{} {:?}", std::any::type_name::<T>(), handle),
),
}
}
}
impl<T> SpanProvider<T> for Arena<T> {
fn get_span(&self, handle: Handle<T>) -> Span {
self.get_span(handle)
}
}
impl<T> SpanProvider<T> for UniqueArena<T> {
fn get_span(&self, handle: Handle<T>) -> Span {
self.get_span(handle)
}
}
impl<E> AddSpan for E
where
E: Error,
{
type Output = WithSpan<Self>;
fn with_span(self) -> WithSpan<Self> {
WithSpan::new(self)
}
fn with_span_static(self, span: Span, description: &'static str) -> WithSpan<Self> {
WithSpan::new(self).with_span(span, description)
}
fn with_span_context(self, span_context: SpanContext) -> WithSpan<Self> {
WithSpan::new(self).with_context(span_context)
}
fn with_span_handle<T, A: SpanProvider<T>>(
self,
handle: Handle<T>,
arena: &A,
) -> WithSpan<Self> {
WithSpan::new(self).with_handle(handle, arena)
}
}
/// Convenience trait for [`Result`], adding a [`MapErrWithSpan::map_err_inner`]
/// mapping to [`WithSpan::and_then`].
pub trait MapErrWithSpan<E, E2>: Sized {
type Output: Sized;
fn map_err_inner<F, E3>(self, func: F) -> Self::Output
where
F: FnOnce(E) -> WithSpan<E3>,
E2: From<E3>;
}
impl<T, E, E2> MapErrWithSpan<E, E2> for Result<T, WithSpan<E>> {
type Output = Result<T, WithSpan<E2>>;
fn map_err_inner<F, E3>(self, func: F) -> Result<T, WithSpan<E2>>
where
F: FnOnce(E) -> WithSpan<E3>,
E2: From<E3>,
{
self.map_err(|e| e.and_then(func).into_other::<E2>())
}
}
#[test]
fn span_location() {
let source = "12\n45\n\n89\n";
assert_eq!(
Span { start: 0, end: 1 }.location(source),
SourceLocation {
line_number: 1,
line_position: 1,
offset: 0,
length: 1
}
);
assert_eq!(
Span { start: 1, end: 2 }.location(source),
SourceLocation {
line_number: 1,
line_position: 2,
offset: 1,
length: 1
}
);
assert_eq!(
Span { start: 2, end: 3 }.location(source),
SourceLocation {
line_number: 1,
line_position: 3,
offset: 2,
length: 1
}
);
assert_eq!(
Span { start: 3, end: 5 }.location(source),
SourceLocation {
line_number: 2,
line_position: 1,
offset: 3,
length: 2
}
);
assert_eq!(
Span { start: 4, end: 6 }.location(source),
SourceLocation {
line_number: 2,
line_position: 2,
offset: 4,
length: 2
}
);
assert_eq!(
Span { start: 5, end: 6 }.location(source),
SourceLocation {
line_number: 2,
line_position: 3,
offset: 5,
length: 1
}
);
assert_eq!(
Span { start: 6, end: 7 }.location(source),
SourceLocation {
line_number: 3,
line_position: 1,
offset: 6,
length: 1
}
);
assert_eq!(
Span { start: 7, end: 8 }.location(source),
SourceLocation {
line_number: 4,
line_position: 1,
offset: 7,
length: 1
}
);
assert_eq!(
Span { start: 8, end: 9 }.location(source),
SourceLocation {
line_number: 4,
line_position: 2,
offset: 8,
length: 1
}
);
assert_eq!(
Span { start: 9, end: 10 }.location(source),
SourceLocation {
line_number: 4,
line_position: 3,
offset: 9,
length: 1
}
);
assert_eq!(
Span { start: 10, end: 11 }.location(source),
SourceLocation {
line_number: 5,
line_position: 1,
offset: 10,
length: 1
}
);
}
|