use rustc_errors::{Diag, EmissionGuarantee, SubdiagMessageOp, Subdiagnostic}; use rustc_macros::{LintDiagnostic, Subdiagnostic}; use rustc_middle::ty::Ty; use rustc_span::Span; use crate::rustc::{RustcPatCtxt, WitnessPat}; #[derive(Subdiagnostic)] #[label(pattern_analysis_uncovered)] pub struct Uncovered { #[primary_span] span: Span, count: usize, witness_1: String, // a printed pattern witness_2: String, // a printed pattern witness_3: String, // a printed pattern remainder: usize, } impl Uncovered { pub fn new<'p, 'tcx>( span: Span, cx: &RustcPatCtxt<'p, 'tcx>, witnesses: Vec>, ) -> Self where 'tcx: 'p, { let witness_1 = cx.print_witness_pat(witnesses.get(0).unwrap()); Self { span, count: witnesses.len(), // Substitute dummy values if witnesses is smaller than 3. These will never be read. witness_2: witnesses.get(1).map(|w| cx.print_witness_pat(w)).unwrap_or_default(), witness_3: witnesses.get(2).map(|w| cx.print_witness_pat(w)).unwrap_or_default(), witness_1, remainder: witnesses.len().saturating_sub(3), } } } #[derive(LintDiagnostic)] #[diag(pattern_analysis_overlapping_range_endpoints)] #[note] pub struct OverlappingRangeEndpoints { #[label] pub range: Span, #[subdiagnostic] pub overlap: Vec, } pub struct Overlap { pub span: Span, pub range: String, // a printed pattern } impl Subdiagnostic for Overlap { fn add_to_diag_with>( self, diag: &mut Diag<'_, G>, _: &F, ) { let Overlap { span, range } = self; // FIXME(mejrs) unfortunately `#[derive(LintDiagnostic)]` // does not support `#[subdiagnostic(eager)]`... let message = format!("this range overlaps on `{range}`..."); diag.span_label(span, message); } } #[derive(LintDiagnostic)] #[diag(pattern_analysis_excluside_range_missing_max)] pub struct ExclusiveRangeMissingMax { #[label] #[suggestion(code = "{suggestion}", applicability = "maybe-incorrect")] /// This is an exclusive range that looks like `lo..max` (i.e. doesn't match `max`). pub first_range: Span, /// Suggest `lo..=max` instead. pub suggestion: String, pub max: String, // a printed pattern } #[derive(LintDiagnostic)] #[diag(pattern_analysis_excluside_range_missing_gap)] pub struct ExclusiveRangeMissingGap { #[label] #[suggestion(code = "{suggestion}", applicability = "maybe-incorrect")] /// This is an exclusive range that looks like `lo..gap` (i.e. doesn't match `gap`). pub first_range: Span, pub gap: String, // a printed pattern /// Suggest `lo..=gap` instead. pub suggestion: String, #[subdiagnostic] /// All these ranges skipped over `gap` which we think is probably a mistake. pub gap_with: Vec, } pub struct GappedRange { pub span: Span, pub gap: String, // a printed pattern pub first_range: String, // a printed pattern } impl Subdiagnostic for GappedRange { fn add_to_diag_with>( self, diag: &mut Diag<'_, G>, _: &F, ) { let GappedRange { span, gap, first_range } = self; // FIXME(mejrs) unfortunately `#[derive(LintDiagnostic)]` // does not support `#[subdiagnostic(eager)]`... let message = format!( "this could appear to continue range `{first_range}`, but `{gap}` isn't matched by \ either of them" ); diag.span_label(span, message); } } #[derive(LintDiagnostic)] #[diag(pattern_analysis_non_exhaustive_omitted_pattern)] #[help] #[note] pub(crate) struct NonExhaustiveOmittedPattern<'tcx> { pub scrut_ty: Ty<'tcx>, #[subdiagnostic] pub uncovered: Uncovered, } #[derive(LintDiagnostic)] #[diag(pattern_analysis_non_exhaustive_omitted_pattern_lint_on_arm)] #[help] pub(crate) struct NonExhaustiveOmittedPatternLintOnArm { #[label] pub lint_span: Span, #[suggestion(code = "#[{lint_level}({lint_name})]\n", applicability = "maybe-incorrect")] pub suggest_lint_on_match: Option, pub lint_level: &'static str, pub lint_name: &'static str, }