use crate::Diagnostic; use collections::HashMap; use std::{ cmp::{Ordering, Reverse}, iter, ops::Range, }; use sum_tree::{self, Bias, SumTree}; use text::{Anchor, FromAnchor, PointUtf16, ToOffset}; #[derive(Clone, Debug, Default)] pub struct DiagnosticSet { diagnostics: SumTree>, } #[derive(Clone, Debug, PartialEq, Eq)] pub struct DiagnosticEntry { pub range: Range, pub diagnostic: Diagnostic, } #[derive(Debug)] pub struct DiagnosticGroup { pub entries: Vec>, pub primary_ix: usize, } #[derive(Clone, Debug)] pub struct Summary { start: Anchor, end: Anchor, min_start: Anchor, max_end: Anchor, count: usize, } impl DiagnosticEntry { // Used to provide diagnostic context to lsp codeAction request pub fn to_lsp_diagnostic_stub(&self) -> lsp::Diagnostic { let code = self .diagnostic .code .clone() .map(lsp::NumberOrString::String); lsp::Diagnostic { code, severity: Some(self.diagnostic.severity), ..Default::default() } } } impl DiagnosticSet { pub fn from_sorted_entries(iter: I, buffer: &text::BufferSnapshot) -> Self where I: IntoIterator>, { Self { diagnostics: SumTree::from_iter(iter, buffer), } } pub fn new(iter: I, buffer: &text::BufferSnapshot) -> Self where I: IntoIterator>, { let mut entries = iter.into_iter().collect::>(); entries.sort_unstable_by_key(|entry| (entry.range.start, Reverse(entry.range.end))); Self { diagnostics: SumTree::from_iter( entries.into_iter().map(|entry| DiagnosticEntry { range: buffer.anchor_before(entry.range.start) ..buffer.anchor_before(entry.range.end), diagnostic: entry.diagnostic, }), buffer, ), } } pub fn iter(&self) -> impl Iterator> { self.diagnostics.iter() } pub fn range<'a, T, O>( &'a self, range: Range, buffer: &'a text::BufferSnapshot, inclusive: bool, reversed: bool, ) -> impl 'a + Iterator> where T: 'a + ToOffset, O: FromAnchor, { let end_bias = if inclusive { Bias::Right } else { Bias::Left }; let range = buffer.anchor_before(range.start)..buffer.anchor_at(range.end, end_bias); let mut cursor = self.diagnostics.filter::<_, ()>({ move |summary: &Summary| { let start_cmp = range.start.cmp(&summary.max_end, buffer); let end_cmp = range.end.cmp(&summary.min_start, buffer); if inclusive { start_cmp <= Ordering::Equal && end_cmp >= Ordering::Equal } else { start_cmp == Ordering::Less && end_cmp == Ordering::Greater } } }); if reversed { cursor.prev(buffer); } else { cursor.next(buffer); } iter::from_fn({ move || { if let Some(diagnostic) = cursor.item() { if reversed { cursor.prev(buffer); } else { cursor.next(buffer); } Some(diagnostic.resolve(buffer)) } else { None } } }) } pub fn groups(&self, output: &mut Vec>, buffer: &text::BufferSnapshot) { let mut groups = HashMap::default(); for entry in self.diagnostics.iter() { groups .entry(entry.diagnostic.group_id) .or_insert(Vec::new()) .push(entry.clone()); } let start_ix = output.len(); output.extend(groups.into_values().filter_map(|mut entries| { entries.sort_unstable_by(|a, b| a.range.start.cmp(&b.range.start, buffer)); entries .iter() .position(|entry| entry.diagnostic.is_primary) .map(|primary_ix| DiagnosticGroup { entries, primary_ix, }) })); output[start_ix..].sort_unstable_by(|a, b| { a.entries[a.primary_ix] .range .start .cmp(&b.entries[b.primary_ix].range.start, buffer) }); } pub fn group<'a, O: FromAnchor>( &'a self, group_id: usize, buffer: &'a text::BufferSnapshot, ) -> impl 'a + Iterator> { self.iter() .filter(move |entry| entry.diagnostic.group_id == group_id) .map(|entry| entry.resolve(buffer)) } } impl sum_tree::Item for DiagnosticEntry { type Summary = Summary; fn summary(&self) -> Self::Summary { Summary { start: self.range.start, end: self.range.end, min_start: self.range.start, max_end: self.range.end, count: 1, } } } impl DiagnosticEntry { pub fn resolve(&self, buffer: &text::BufferSnapshot) -> DiagnosticEntry { DiagnosticEntry { range: O::from_anchor(&self.range.start, buffer) ..O::from_anchor(&self.range.end, buffer), diagnostic: self.diagnostic.clone(), } } } impl Default for Summary { fn default() -> Self { Self { start: Anchor::MIN, end: Anchor::MAX, min_start: Anchor::MAX, max_end: Anchor::MIN, count: 0, } } } impl sum_tree::Summary for Summary { type Context = text::BufferSnapshot; fn add_summary(&mut self, other: &Self, buffer: &Self::Context) { if other.min_start.cmp(&self.min_start, buffer).is_lt() { self.min_start = other.min_start; } if other.max_end.cmp(&self.max_end, buffer).is_gt() { self.max_end = other.max_end; } self.start = other.start; self.end = other.end; self.count += other.count; } }