//! Diagnostics creation and emission for `rustc`. //! //! This module contains the code for creating and emitting diagnostics. #![doc(html_root_url = "https://doc.rust-lang.org/nightly/")] #![feature(rustc_private, crate_visibility_modifier)] #![cfg_attr(unix, feature(libc))] #![feature(nll)] #![feature(optin_builtin_traits)] pub use emitter::ColorConfig; use Level::*; use emitter::{Emitter, EmitterWriter}; use registry::Registry; use rustc_data_structures::sync::{self, Lrc, Lock, AtomicUsize, AtomicBool, SeqCst}; use rustc_data_structures::fx::FxHashSet; use rustc_data_structures::stable_hasher::StableHasher; use std::borrow::Cow; use std::cell::Cell; use std::{error, fmt}; use std::panic; use std::path::Path; use termcolor::{ColorSpec, Color}; mod diagnostic; mod diagnostic_builder; pub mod emitter; pub mod annotate_snippet_emitter_writer; mod snippet; pub mod registry; mod styled_buffer; mod lock; use syntax_pos::{BytePos, Loc, FileLinesResult, SourceFile, FileName, MultiSpan, Span}; /// Indicates the confidence in the correctness of a suggestion. /// /// All suggestions are marked with an `Applicability`. Tools use the applicability of a suggestion /// to determine whether it should be automatically applied or if the user should be consulted /// before applying the suggestion. #[derive(Copy, Clone, Debug, PartialEq, Hash, RustcEncodable, RustcDecodable)] pub enum Applicability { /// The suggestion is definitely what the user intended. This suggestion should be /// automatically applied. MachineApplicable, /// The suggestion may be what the user intended, but it is uncertain. The suggestion should /// result in valid Rust code if it is applied. MaybeIncorrect, /// The suggestion contains placeholders like `(...)` or `{ /* fields */ }`. The suggestion /// cannot be applied automatically because it will not result in valid Rust code. The user /// will need to fill in the placeholders. HasPlaceholders, /// The applicability of the suggestion is unknown. Unspecified, } #[derive(Debug, PartialEq, Eq, Clone, Copy, Hash, RustcEncodable, RustcDecodable)] pub enum SuggestionStyle { /// Hide the suggested code when displaying this suggestion inline. HideCodeInline, /// Always hide the suggested code but display the message. HideCodeAlways, /// Do not display this suggestion in the cli output, it is only meant for tools. CompletelyHidden, /// Always show the suggested code. /// This will *not* show the code if the suggestion is inline *and* the suggested code is /// empty. ShowCode, } impl SuggestionStyle { fn hide_inline(&self) -> bool { match *self { SuggestionStyle::ShowCode => false, _ => true, } } } #[derive(Clone, Debug, PartialEq, Hash, RustcEncodable, RustcDecodable)] pub struct CodeSuggestion { /// Each substitute can have multiple variants due to multiple /// applicable suggestions /// /// `foo.bar` might be replaced with `a.b` or `x.y` by replacing /// `foo` and `bar` on their own: /// /// ``` /// vec![ /// Substitution { parts: vec![(0..3, "a"), (4..7, "b")] }, /// Substitution { parts: vec![(0..3, "x"), (4..7, "y")] }, /// ] /// ``` /// /// or by replacing the entire span: /// /// ``` /// vec![ /// Substitution { parts: vec![(0..7, "a.b")] }, /// Substitution { parts: vec![(0..7, "x.y")] }, /// ] /// ``` pub substitutions: Vec, pub msg: String, /// Visual representation of this suggestion. pub style: SuggestionStyle, /// Whether or not the suggestion is approximate /// /// Sometimes we may show suggestions with placeholders, /// which are useful for users but not useful for /// tools like rustfix pub applicability: Applicability, } #[derive(Clone, Debug, PartialEq, Hash, RustcEncodable, RustcDecodable)] /// See the docs on `CodeSuggestion::substitutions` pub struct Substitution { pub parts: Vec, } #[derive(Clone, Debug, PartialEq, Hash, RustcEncodable, RustcDecodable)] pub struct SubstitutionPart { pub span: Span, pub snippet: String, } pub type SourceMapperDyn = dyn SourceMapper + sync::Send + sync::Sync; pub trait SourceMapper { fn lookup_char_pos(&self, pos: BytePos) -> Loc; fn span_to_lines(&self, sp: Span) -> FileLinesResult; fn span_to_string(&self, sp: Span) -> String; fn span_to_filename(&self, sp: Span) -> FileName; fn merge_spans(&self, sp_lhs: Span, sp_rhs: Span) -> Option; fn call_span_if_macro(&self, sp: Span) -> Span; fn ensure_source_file_source_present(&self, source_file: Lrc) -> bool; fn doctest_offset_line(&self, file: &FileName, line: usize) -> usize; } impl CodeSuggestion { /// Returns the assembled code suggestions and whether they should be shown with an underline. pub fn splice_lines(&self, cm: &SourceMapperDyn) -> Vec<(String, Vec)> { use syntax_pos::{CharPos, Pos}; fn push_trailing(buf: &mut String, line_opt: Option<&Cow<'_, str>>, lo: &Loc, hi_opt: Option<&Loc>) { let (lo, hi_opt) = (lo.col.to_usize(), hi_opt.map(|hi| hi.col.to_usize())); if let Some(line) = line_opt { if let Some(lo) = line.char_indices().map(|(i, _)| i).nth(lo) { let hi_opt = hi_opt.and_then(|hi| line.char_indices().map(|(i, _)| i).nth(hi)); match hi_opt { Some(hi) if hi > lo => buf.push_str(&line[lo..hi]), Some(_) => (), None => buf.push_str(&line[lo..]), } } if let None = hi_opt { buf.push('\n'); } } } assert!(!self.substitutions.is_empty()); self.substitutions.iter().cloned().map(|mut substitution| { // Assumption: all spans are in the same file, and all spans // are disjoint. Sort in ascending order. substitution.parts.sort_by_key(|part| part.span.lo()); // Find the bounding span. let lo = substitution.parts.iter().map(|part| part.span.lo()).min().unwrap(); let hi = substitution.parts.iter().map(|part| part.span.hi()).min().unwrap(); let bounding_span = Span::with_root_ctxt(lo, hi); let lines = cm.span_to_lines(bounding_span).unwrap(); assert!(!lines.lines.is_empty()); // To build up the result, we do this for each span: // - push the line segment trailing the previous span // (at the beginning a "phantom" span pointing at the start of the line) // - push lines between the previous and current span (if any) // - if the previous and current span are not on the same line // push the line segment leading up to the current span // - splice in the span substitution // // Finally push the trailing line segment of the last span let fm = &lines.file; let mut prev_hi = cm.lookup_char_pos(bounding_span.lo()); prev_hi.col = CharPos::from_usize(0); let mut prev_line = fm.get_line(lines.lines[0].line_index); let mut buf = String::new(); for part in &substitution.parts { let cur_lo = cm.lookup_char_pos(part.span.lo()); if prev_hi.line == cur_lo.line { push_trailing(&mut buf, prev_line.as_ref(), &prev_hi, Some(&cur_lo)); } else { push_trailing(&mut buf, prev_line.as_ref(), &prev_hi, None); // push lines between the previous and current span (if any) for idx in prev_hi.line..(cur_lo.line - 1) { if let Some(line) = fm.get_line(idx) { buf.push_str(line.as_ref()); buf.push('\n'); } } if let Some(cur_line) = fm.get_line(cur_lo.line - 1) { let end = std::cmp::min(cur_line.len(), cur_lo.col.to_usize()); buf.push_str(&cur_line[..end]); } } buf.push_str(&part.snippet); prev_hi = cm.lookup_char_pos(part.span.hi()); prev_line = fm.get_line(prev_hi.line - 1); } // if the replacement already ends with a newline, don't print the next line if !buf.ends_with('\n') { push_trailing(&mut buf, prev_line.as_ref(), &prev_hi, None); } // remove trailing newlines while buf.ends_with('\n') { buf.pop(); } (buf, substitution.parts) }).collect() } } /// Used as a return value to signify a fatal error occurred. (It is also /// used as the argument to panic at the moment, but that will eventually /// not be true.) #[derive(Copy, Clone, Debug)] #[must_use] pub struct FatalError; pub struct FatalErrorMarker; // Don't implement Send on FatalError. This makes it impossible to panic!(FatalError). // We don't want to invoke the panic handler and print a backtrace for fatal errors. impl !Send for FatalError {} impl FatalError { pub fn raise(self) -> ! { panic::resume_unwind(Box::new(FatalErrorMarker)) } } impl fmt::Display for FatalError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "parser fatal error") } } impl error::Error for FatalError { fn description(&self) -> &str { "The parser has encountered a fatal error" } } /// Signifies that the compiler died with an explicit call to `.bug` /// or `.span_bug` rather than a failed assertion, etc. #[derive(Copy, Clone, Debug)] pub struct ExplicitBug; impl fmt::Display for ExplicitBug { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "parser internal bug") } } impl error::Error for ExplicitBug { fn description(&self) -> &str { "The parser has encountered an internal bug" } } pub use diagnostic::{Diagnostic, SubDiagnostic, DiagnosticStyledString, DiagnosticId}; pub use diagnostic_builder::DiagnosticBuilder; /// A handler deals with errors and other compiler output. /// Certain errors (fatal, bug, unimpl) may cause immediate exit, /// others log errors for later reporting. pub struct Handler { pub flags: HandlerFlags, /// The number of errors that have been emitted, including duplicates. /// /// This is not necessarily the count that's reported to the user once /// compilation ends. err_count: AtomicUsize, deduplicated_err_count: AtomicUsize, emitter: Lock>, continue_after_error: AtomicBool, delayed_span_bugs: Lock>, /// This set contains the `DiagnosticId` of all emitted diagnostics to avoid /// emitting the same diagnostic with extended help (`--teach`) twice, which /// would be uneccessary repetition. taught_diagnostics: Lock>, /// Used to suggest rustc --explain emitted_diagnostic_codes: Lock>, /// This set contains a hash of every diagnostic that has been emitted by /// this handler. These hashes is used to avoid emitting the same error /// twice. emitted_diagnostics: Lock>, } fn default_track_diagnostic(_: &Diagnostic) {} thread_local!(pub static TRACK_DIAGNOSTICS: Cell = Cell::new(default_track_diagnostic)); #[derive(Default)] pub struct HandlerFlags { /// If false, warning-level lints are suppressed. /// (rustc: see `--allow warnings` and `--cap-lints`) pub can_emit_warnings: bool, /// If true, error-level diagnostics are upgraded to bug-level. /// (rustc: see `-Z treat-err-as-bug`) pub treat_err_as_bug: Option, /// If true, immediately emit diagnostics that would otherwise be buffered. /// (rustc: see `-Z dont-buffer-diagnostics` and `-Z treat-err-as-bug`) pub dont_buffer_diagnostics: bool, /// If true, immediately print bugs registered with `delay_span_bug`. /// (rustc: see `-Z report-delayed-bugs`) pub report_delayed_bugs: bool, /// show macro backtraces even for non-local macros. /// (rustc: see `-Z external-macro-backtrace`) pub external_macro_backtrace: bool, } impl Drop for Handler { fn drop(&mut self) { if !self.has_errors() { let mut bugs = self.delayed_span_bugs.borrow_mut(); let has_bugs = !bugs.is_empty(); for bug in bugs.drain(..) { DiagnosticBuilder::new_diagnostic(self, bug).emit(); } if has_bugs { panic!("no errors encountered even though `delay_span_bug` issued"); } } } } impl Handler { pub fn with_tty_emitter(color_config: ColorConfig, can_emit_warnings: bool, treat_err_as_bug: Option, cm: Option>) -> Handler { Handler::with_tty_emitter_and_flags( color_config, cm, HandlerFlags { can_emit_warnings, treat_err_as_bug, .. Default::default() }) } pub fn with_tty_emitter_and_flags(color_config: ColorConfig, cm: Option>, flags: HandlerFlags) -> Handler { let emitter = Box::new(EmitterWriter::stderr(color_config, cm, false, false, None)); Handler::with_emitter_and_flags(emitter, flags) } pub fn with_emitter(can_emit_warnings: bool, treat_err_as_bug: Option, e: Box) -> Handler { Handler::with_emitter_and_flags( e, HandlerFlags { can_emit_warnings, treat_err_as_bug, .. Default::default() }) } pub fn with_emitter_and_flags(e: Box, flags: HandlerFlags) -> Handler { Handler { flags, err_count: AtomicUsize::new(0), deduplicated_err_count: AtomicUsize::new(0), emitter: Lock::new(e), continue_after_error: AtomicBool::new(true), delayed_span_bugs: Lock::new(Vec::new()), taught_diagnostics: Default::default(), emitted_diagnostic_codes: Default::default(), emitted_diagnostics: Default::default(), } } pub fn set_continue_after_error(&self, continue_after_error: bool) { self.continue_after_error.store(continue_after_error, SeqCst); } /// Resets the diagnostic error count as well as the cached emitted diagnostics. /// /// NOTE: *do not* call this function from rustc. It is only meant to be called from external /// tools that want to reuse a `Parser` cleaning the previously emitted diagnostics as well as /// the overall count of emitted error diagnostics. pub fn reset_err_count(&self) { // actually frees the underlying memory (which `clear` would not do) *self.emitted_diagnostics.borrow_mut() = Default::default(); self.deduplicated_err_count.store(0, SeqCst); self.err_count.store(0, SeqCst); } pub fn struct_dummy(&self) -> DiagnosticBuilder<'_> { DiagnosticBuilder::new(self, Level::Cancelled, "") } pub fn struct_span_warn>(&self, sp: S, msg: &str) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Warning, msg); result.set_span(sp); if !self.flags.can_emit_warnings { result.cancel(); } result } pub fn struct_span_warn_with_code>(&self, sp: S, msg: &str, code: DiagnosticId) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Warning, msg); result.set_span(sp); result.code(code); if !self.flags.can_emit_warnings { result.cancel(); } result } pub fn struct_warn(&self, msg: &str) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Warning, msg); if !self.flags.can_emit_warnings { result.cancel(); } result } pub fn struct_span_err>(&self, sp: S, msg: &str) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Error, msg); result.set_span(sp); result } pub fn struct_span_err_with_code>(&self, sp: S, msg: &str, code: DiagnosticId) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Error, msg); result.set_span(sp); result.code(code); result } // FIXME: This method should be removed (every error should have an associated error code). pub fn struct_err(&self, msg: &str) -> DiagnosticBuilder<'_> { DiagnosticBuilder::new(self, Level::Error, msg) } pub fn struct_err_with_code( &self, msg: &str, code: DiagnosticId, ) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Error, msg); result.code(code); result } pub fn struct_span_fatal>(&self, sp: S, msg: &str) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Fatal, msg); result.set_span(sp); result } pub fn struct_span_fatal_with_code>(&self, sp: S, msg: &str, code: DiagnosticId) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Fatal, msg); result.set_span(sp); result.code(code); result } pub fn struct_fatal(&self, msg: &str) -> DiagnosticBuilder<'_> { DiagnosticBuilder::new(self, Level::Fatal, msg) } pub fn cancel(&self, err: &mut DiagnosticBuilder<'_>) { err.cancel(); } fn panic_if_treat_err_as_bug(&self) { if self.treat_err_as_bug() { let s = match (self.err_count(), self.flags.treat_err_as_bug.unwrap_or(0)) { (0, _) => return, (1, 1) => "aborting due to `-Z treat-err-as-bug=1`".to_string(), (1, _) => return, (count, as_bug) => { format!( "aborting after {} errors due to `-Z treat-err-as-bug={}`", count, as_bug, ) } }; panic!(s); } } pub fn span_fatal>(&self, sp: S, msg: &str) -> FatalError { self.emit(&sp.into(), msg, Fatal); FatalError } pub fn span_fatal_with_code>(&self, sp: S, msg: &str, code: DiagnosticId) -> FatalError { self.emit_with_code(&sp.into(), msg, code, Fatal); FatalError } pub fn span_err>(&self, sp: S, msg: &str) { self.emit(&sp.into(), msg, Error); } pub fn mut_span_err>(&self, sp: S, msg: &str) -> DiagnosticBuilder<'_> { let mut result = DiagnosticBuilder::new(self, Level::Error, msg); result.set_span(sp); result } pub fn span_err_with_code>(&self, sp: S, msg: &str, code: DiagnosticId) { self.emit_with_code(&sp.into(), msg, code, Error); } pub fn span_warn>(&self, sp: S, msg: &str) { self.emit(&sp.into(), msg, Warning); } pub fn span_warn_with_code>(&self, sp: S, msg: &str, code: DiagnosticId) { self.emit_with_code(&sp.into(), msg, code, Warning); } pub fn span_bug>(&self, sp: S, msg: &str) -> ! { self.emit(&sp.into(), msg, Bug); panic!(ExplicitBug); } pub fn delay_span_bug>(&self, sp: S, msg: &str) { if self.treat_err_as_bug() { // FIXME: don't abort here if report_delayed_bugs is off self.span_bug(sp, msg); } let mut diagnostic = Diagnostic::new(Level::Bug, msg); diagnostic.set_span(sp.into()); self.delay_as_bug(diagnostic); } fn delay_as_bug(&self, diagnostic: Diagnostic) { if self.flags.report_delayed_bugs { DiagnosticBuilder::new_diagnostic(self, diagnostic.clone()).emit(); } self.delayed_span_bugs.borrow_mut().push(diagnostic); } pub fn span_bug_no_panic>(&self, sp: S, msg: &str) { self.emit(&sp.into(), msg, Bug); } pub fn span_note_without_error>(&self, sp: S, msg: &str) { self.emit(&sp.into(), msg, Note); } pub fn span_note_diag(&self, sp: Span, msg: &str) -> DiagnosticBuilder<'_> { let mut db = DiagnosticBuilder::new(self, Note, msg); db.set_span(sp); db } pub fn span_unimpl>(&self, sp: S, msg: &str) -> ! { self.span_bug(sp, &format!("unimplemented {}", msg)); } pub fn failure(&self, msg: &str) { DiagnosticBuilder::new(self, FailureNote, msg).emit() } pub fn fatal(&self, msg: &str) -> FatalError { if self.treat_err_as_bug() { self.bug(msg); } DiagnosticBuilder::new(self, Fatal, msg).emit(); FatalError } pub fn err(&self, msg: &str) { if self.treat_err_as_bug() { self.bug(msg); } let mut db = DiagnosticBuilder::new(self, Error, msg); db.emit(); } pub fn warn(&self, msg: &str) { let mut db = DiagnosticBuilder::new(self, Warning, msg); db.emit(); } fn treat_err_as_bug(&self) -> bool { self.flags.treat_err_as_bug.map(|c| self.err_count() >= c).unwrap_or(false) } pub fn note_without_error(&self, msg: &str) { let mut db = DiagnosticBuilder::new(self, Note, msg); db.emit(); } pub fn bug(&self, msg: &str) -> ! { let mut db = DiagnosticBuilder::new(self, Bug, msg); db.emit(); panic!(ExplicitBug); } pub fn unimpl(&self, msg: &str) -> ! { self.bug(&format!("unimplemented {}", msg)); } fn bump_err_count(&self) { self.err_count.fetch_add(1, SeqCst); self.panic_if_treat_err_as_bug(); } pub fn err_count(&self) -> usize { self.err_count.load(SeqCst) } pub fn has_errors(&self) -> bool { self.err_count() > 0 } pub fn print_error_count(&self, registry: &Registry) { let s = match self.deduplicated_err_count.load(SeqCst) { 0 => return, 1 => "aborting due to previous error".to_string(), count => format!("aborting due to {} previous errors", count) }; if self.treat_err_as_bug() { return; } let _ = self.fatal(&s); let can_show_explain = self.emitter.borrow().should_show_explain(); let are_there_diagnostics = !self.emitted_diagnostic_codes.borrow().is_empty(); if can_show_explain && are_there_diagnostics { let mut error_codes = self .emitted_diagnostic_codes .borrow() .iter() .filter_map(|x| match &x { DiagnosticId::Error(s) if registry.find_description(s).is_some() => { Some(s.clone()) } _ => None, }) .collect::>(); if !error_codes.is_empty() { error_codes.sort(); if error_codes.len() > 1 { let limit = if error_codes.len() > 9 { 9 } else { error_codes.len() }; self.failure(&format!("Some errors have detailed explanations: {}{}", error_codes[..limit].join(", "), if error_codes.len() > 9 { "..." } else { "." })); self.failure(&format!("For more information about an error, try \ `rustc --explain {}`.", &error_codes[0])); } else { self.failure(&format!("For more information about this error, try \ `rustc --explain {}`.", &error_codes[0])); } } } } pub fn abort_if_errors(&self) { if self.has_errors() { FatalError.raise(); } } pub fn emit(&self, msp: &MultiSpan, msg: &str, lvl: Level) { if lvl == Warning && !self.flags.can_emit_warnings { return; } let mut db = DiagnosticBuilder::new(self, lvl, msg); db.set_span(msp.clone()); db.emit(); if !self.continue_after_error.load(SeqCst) { self.abort_if_errors(); } } pub fn emit_with_code(&self, msp: &MultiSpan, msg: &str, code: DiagnosticId, lvl: Level) { if lvl == Warning && !self.flags.can_emit_warnings { return; } let mut db = DiagnosticBuilder::new_with_code(self, lvl, Some(code), msg); db.set_span(msp.clone()); db.emit(); if !self.continue_after_error.load(SeqCst) { self.abort_if_errors(); } } /// `true` if we haven't taught a diagnostic with this code already. /// The caller must then teach the user about such a diagnostic. /// /// Used to suppress emitting the same error multiple times with extended explanation when /// calling `-Zteach`. pub fn must_teach(&self, code: &DiagnosticId) -> bool { self.taught_diagnostics.borrow_mut().insert(code.clone()) } pub fn force_print_db(&self, mut db: DiagnosticBuilder<'_>) { self.emitter.borrow_mut().emit_diagnostic(&db); db.cancel(); } fn emit_db(&self, db: &DiagnosticBuilder<'_>) { let diagnostic = &**db; TRACK_DIAGNOSTICS.with(|track_diagnostics| { track_diagnostics.get()(diagnostic); }); if let Some(ref code) = diagnostic.code { self.emitted_diagnostic_codes.borrow_mut().insert(code.clone()); } let diagnostic_hash = { use std::hash::Hash; let mut hasher = StableHasher::new(); diagnostic.hash(&mut hasher); hasher.finish() }; // Only emit the diagnostic if we haven't already emitted an equivalent // one: if self.emitted_diagnostics.borrow_mut().insert(diagnostic_hash) { self.emitter.borrow_mut().emit_diagnostic(db); if db.is_error() { self.deduplicated_err_count.fetch_add(1, SeqCst); } } if db.is_error() { self.bump_err_count(); } } pub fn emit_artifact_notification(&self, path: &Path, artifact_type: &str) { self.emitter.borrow_mut().emit_artifact_notification(path, artifact_type); } } #[derive(Copy, PartialEq, Clone, Hash, Debug, RustcEncodable, RustcDecodable)] pub enum Level { Bug, Fatal, Error, Warning, Note, Help, Cancelled, FailureNote, } impl fmt::Display for Level { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { self.to_str().fmt(f) } } impl Level { fn color(self) -> ColorSpec { let mut spec = ColorSpec::new(); match self { Bug | Fatal | Error => { spec.set_fg(Some(Color::Red)) .set_intense(true); } Warning => { spec.set_fg(Some(Color::Yellow)) .set_intense(cfg!(windows)); } Note => { spec.set_fg(Some(Color::Green)) .set_intense(true); } Help => { spec.set_fg(Some(Color::Cyan)) .set_intense(true); } FailureNote => {} Cancelled => unreachable!(), } spec } pub fn to_str(self) -> &'static str { match self { Bug => "error: internal compiler error", Fatal | Error => "error", Warning => "warning", Note => "note", Help => "help", FailureNote => "", Cancelled => panic!("Shouldn't call on cancelled error"), } } pub fn is_failure_note(&self) -> bool { match *self { FailureNote => true, _ => false, } } } #[macro_export] macro_rules! pluralise { ($x:expr) => { if $x != 1 { "s" } else { "" } }; }