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|
//! Semantic errors and warnings.
//!
//! The `Diagnostic` trait defines a trait object which can represent any
//! diagnostic.
//!
//! `DiagnosticSink` struct is used as an emitter for diagnostic. When creating
//! a `DiagnosticSink`, you supply a callback which can react to a `dyn
//! Diagnostic` or to any concrete diagnostic (downcasting is used internally).
//!
//! Because diagnostics store file offsets, it's a bad idea to store them
//! directly in salsa. For this reason, every hir subsytem defines it's own
//! strongly-typed closed set of diagnostics which use hir ids internally, are
//! stored in salsa and do *not* implement the `Diagnostic` trait. Instead, a
//! subsystem provides a separate, non-query-based API which can walk all stored
//! values and transform them into instances of `Diagnostic`.
use std::{any::Any, fmt};
use syntax::SyntaxNodePtr;
use crate::InFile;
#[derive(Copy, Clone, Debug, PartialEq)]
pub struct DiagnosticCode(pub &'static str);
impl DiagnosticCode {
pub fn as_str(&self) -> &str {
self.0
}
}
pub trait Diagnostic: Any + Send + Sync + fmt::Debug + 'static {
fn code(&self) -> DiagnosticCode;
fn message(&self) -> String;
/// Source element that triggered the diagnostics.
///
/// Note that this should reflect "semantics", rather than specific span we
/// want to highlight. When rendering the diagnostics into an error message,
/// the IDE will fetch the `SyntaxNode` and will narrow the span
/// appropriately.
fn display_source(&self) -> InFile<SyntaxNodePtr>;
fn as_any(&self) -> &(dyn Any + Send + 'static);
fn is_experimental(&self) -> bool {
false
}
}
pub struct DiagnosticSink<'a> {
callbacks: Vec<Box<dyn FnMut(&dyn Diagnostic) -> Result<(), ()> + 'a>>,
filters: Vec<Box<dyn FnMut(&dyn Diagnostic) -> bool + 'a>>,
default_callback: Box<dyn FnMut(&dyn Diagnostic) + 'a>,
}
impl<'a> DiagnosticSink<'a> {
pub fn push(&mut self, d: impl Diagnostic) {
let d: &dyn Diagnostic = &d;
self._push(d);
}
fn _push(&mut self, d: &dyn Diagnostic) {
for filter in &mut self.filters {
if !filter(d) {
return;
}
}
for cb in &mut self.callbacks {
match cb(d) {
Ok(()) => return,
Err(()) => (),
}
}
(self.default_callback)(d)
}
}
pub struct DiagnosticSinkBuilder<'a> {
callbacks: Vec<Box<dyn FnMut(&dyn Diagnostic) -> Result<(), ()> + 'a>>,
filters: Vec<Box<dyn FnMut(&dyn Diagnostic) -> bool + 'a>>,
}
impl<'a> DiagnosticSinkBuilder<'a> {
pub fn new() -> Self {
Self { callbacks: Vec::new(), filters: Vec::new() }
}
pub fn filter<F: FnMut(&dyn Diagnostic) -> bool + 'a>(mut self, cb: F) -> Self {
self.filters.push(Box::new(cb));
self
}
pub fn on<D: Diagnostic, F: FnMut(&D) + 'a>(mut self, mut cb: F) -> Self {
let cb = move |diag: &dyn Diagnostic| match diag.as_any().downcast_ref::<D>() {
Some(d) => {
cb(d);
Ok(())
}
None => Err(()),
};
self.callbacks.push(Box::new(cb));
self
}
pub fn build<F: FnMut(&dyn Diagnostic) + 'a>(self, default_callback: F) -> DiagnosticSink<'a> {
DiagnosticSink {
callbacks: self.callbacks,
filters: self.filters,
default_callback: Box::new(default_callback),
}
}
}
|
