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emitter.rs
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emitter.rs
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//! The current rustc diagnostics emitter.
//!
//! An `Emitter` takes care of generating the output from a `DiagnosticBuilder` struct.
//!
//! There are various `Emitter` implementations that generate different output formats such as
//! JSON and human readable output.
//!
//! The output types are defined in `rustc_session::config::ErrorOutputType`.
use rustc_span::source_map::SourceMap;
use rustc_span::{FileLines, FileName, SourceFile, Span};
use crate::error::TranslateError;
use crate::snippet::{
Annotation, AnnotationColumn, AnnotationType, Line, MultilineAnnotation, Style, StyledString,
};
use crate::styled_buffer::StyledBuffer;
use crate::translation::{to_fluent_args, Translate};
use crate::{
diagnostic::DiagnosticLocation, CodeSuggestion, DiagCtxt, Diagnostic, DiagnosticMessage,
ErrCode, FluentBundle, LazyFallbackBundle, Level, MultiSpan, SubDiagnostic,
SubstitutionHighlight, SuggestionStyle, TerminalUrl,
};
use rustc_lint_defs::pluralize;
use derive_setters::Setters;
use rustc_data_structures::fx::{FxHashMap, FxIndexMap, FxIndexSet};
use rustc_data_structures::sync::{DynSend, IntoDynSyncSend, Lrc};
use rustc_error_messages::{FluentArgs, SpanLabel};
use rustc_span::hygiene::{ExpnKind, MacroKind};
use std::borrow::Cow;
use std::cmp::{max, min, Reverse};
use std::error::Report;
use std::io::prelude::*;
use std::io::{self, IsTerminal};
use std::iter;
use std::path::Path;
use termcolor::{Ansi, Buffer, BufferWriter, ColorChoice, ColorSpec, StandardStream};
use termcolor::{Color, WriteColor};
/// Default column width, used in tests and when terminal dimensions cannot be determined.
const DEFAULT_COLUMN_WIDTH: usize = 140;
/// Describes the way the content of the `rendered` field of the json output is generated
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum HumanReadableErrorType {
Default(ColorConfig),
AnnotateSnippet(ColorConfig),
Short(ColorConfig),
}
impl HumanReadableErrorType {
/// Returns a (`short`, `color`) tuple
pub fn unzip(self) -> (bool, ColorConfig) {
match self {
HumanReadableErrorType::Default(cc) => (false, cc),
HumanReadableErrorType::Short(cc) => (true, cc),
HumanReadableErrorType::AnnotateSnippet(cc) => (false, cc),
}
}
pub fn new_emitter(
self,
mut dst: Box<dyn WriteColor + Send>,
fallback_bundle: LazyFallbackBundle,
) -> HumanEmitter {
let (short, color_config) = self.unzip();
let color = color_config.suggests_using_colors();
if !dst.supports_color() && color {
dst = Box::new(Ansi::new(dst));
}
HumanEmitter::new(dst, fallback_bundle).short_message(short)
}
}
#[derive(Clone, Copy, Debug)]
struct Margin {
/// The available whitespace in the left that can be consumed when centering.
pub whitespace_left: usize,
/// The column of the beginning of left-most span.
pub span_left: usize,
/// The column of the end of right-most span.
pub span_right: usize,
/// The beginning of the line to be displayed.
pub computed_left: usize,
/// The end of the line to be displayed.
pub computed_right: usize,
/// The current width of the terminal. Uses value of `DEFAULT_COLUMN_WIDTH` constant by default
/// and in tests.
pub column_width: usize,
/// The end column of a span label, including the span. Doesn't account for labels not in the
/// same line as the span.
pub label_right: usize,
}
impl Margin {
fn new(
whitespace_left: usize,
span_left: usize,
span_right: usize,
label_right: usize,
column_width: usize,
max_line_len: usize,
) -> Self {
// The 6 is padding to give a bit of room for `...` when displaying:
// ```
// error: message
// --> file.rs:16:58
// |
// 16 | ... fn foo(self) -> Self::Bar {
// | ^^^^^^^^^
// ```
let mut m = Margin {
whitespace_left: whitespace_left.saturating_sub(6),
span_left: span_left.saturating_sub(6),
span_right: span_right + 6,
computed_left: 0,
computed_right: 0,
column_width,
label_right: label_right + 6,
};
m.compute(max_line_len);
m
}
fn was_cut_left(&self) -> bool {
self.computed_left > 0
}
fn was_cut_right(&self, line_len: usize) -> bool {
let right =
if self.computed_right == self.span_right || self.computed_right == self.label_right {
// Account for the "..." padding given above. Otherwise we end up with code lines that
// do fit but end in "..." as if they were trimmed.
self.computed_right - 6
} else {
self.computed_right
};
right < line_len && self.computed_left + self.column_width < line_len
}
fn compute(&mut self, max_line_len: usize) {
// When there's a lot of whitespace (>20), we want to trim it as it is useless.
self.computed_left = if self.whitespace_left > 20 {
self.whitespace_left - 16 // We want some padding.
} else {
0
};
// We want to show as much as possible, max_line_len is the right-most boundary for the
// relevant code.
self.computed_right = max(max_line_len, self.computed_left);
if self.computed_right - self.computed_left > self.column_width {
// Trimming only whitespace isn't enough, let's get craftier.
if self.label_right - self.whitespace_left <= self.column_width {
// Attempt to fit the code window only trimming whitespace.
self.computed_left = self.whitespace_left;
self.computed_right = self.computed_left + self.column_width;
} else if self.label_right - self.span_left <= self.column_width {
// Attempt to fit the code window considering only the spans and labels.
let padding_left = (self.column_width - (self.label_right - self.span_left)) / 2;
self.computed_left = self.span_left.saturating_sub(padding_left);
self.computed_right = self.computed_left + self.column_width;
} else if self.span_right - self.span_left <= self.column_width {
// Attempt to fit the code window considering the spans and labels plus padding.
let padding_left = (self.column_width - (self.span_right - self.span_left)) / 5 * 2;
self.computed_left = self.span_left.saturating_sub(padding_left);
self.computed_right = self.computed_left + self.column_width;
} else {
// Mostly give up but still don't show the full line.
self.computed_left = self.span_left;
self.computed_right = self.span_right;
}
}
}
fn left(&self, line_len: usize) -> usize {
min(self.computed_left, line_len)
}
fn right(&self, line_len: usize) -> usize {
if line_len.saturating_sub(self.computed_left) <= self.column_width {
line_len
} else {
min(line_len, self.computed_right)
}
}
}
const ANONYMIZED_LINE_NUM: &str = "LL";
pub type DynEmitter = dyn Emitter + DynSend;
/// Emitter trait for emitting errors.
pub trait Emitter: Translate {
/// Emit a structured diagnostic.
fn emit_diagnostic(&mut self, diag: Diagnostic);
/// Emit a notification that an artifact has been output.
/// Currently only supported for the JSON format.
fn emit_artifact_notification(&mut self, _path: &Path, _artifact_type: &str) {}
/// Emit a report about future breakage.
/// Currently only supported for the JSON format.
fn emit_future_breakage_report(&mut self, _diags: Vec<Diagnostic>) {}
/// Emit list of unused externs.
/// Currently only supported for the JSON format.
fn emit_unused_externs(
&mut self,
_lint_level: rustc_lint_defs::Level,
_unused_externs: &[&str],
) {
}
/// Checks if should show explanations about "rustc --explain"
fn should_show_explain(&self) -> bool {
true
}
/// Checks if we can use colors in the current output stream.
fn supports_color(&self) -> bool {
false
}
fn source_map(&self) -> Option<&Lrc<SourceMap>>;
/// Formats the substitutions of the primary_span
///
/// There are a lot of conditions to this method, but in short:
///
/// * If the current `Diagnostic` has only one visible `CodeSuggestion`,
/// we format the `help` suggestion depending on the content of the
/// substitutions. In that case, we modify the span and clear the
/// suggestions.
///
/// * If the current `Diagnostic` has multiple suggestions,
/// we leave `primary_span` and the suggestions untouched.
fn primary_span_formatted(
&mut self,
primary_span: &mut MultiSpan,
suggestions: &mut Vec<CodeSuggestion>,
fluent_args: &FluentArgs<'_>,
) {
if let Some((sugg, rest)) = suggestions.split_first() {
let msg = self.translate_message(&sugg.msg, fluent_args).map_err(Report::new).unwrap();
if rest.is_empty() &&
// ^ if there is only one suggestion
// don't display multi-suggestions as labels
sugg.substitutions.len() == 1 &&
// don't display multipart suggestions as labels
sugg.substitutions[0].parts.len() == 1 &&
// don't display long messages as labels
msg.split_whitespace().count() < 10 &&
// don't display multiline suggestions as labels
!sugg.substitutions[0].parts[0].snippet.contains('\n') &&
![
// when this style is set we want the suggestion to be a message, not inline
SuggestionStyle::HideCodeAlways,
// trivial suggestion for tooling's sake, never shown
SuggestionStyle::CompletelyHidden,
// subtle suggestion, never shown inline
SuggestionStyle::ShowAlways,
].contains(&sugg.style)
{
let substitution = &sugg.substitutions[0].parts[0].snippet.trim();
let msg = if substitution.is_empty() || sugg.style.hide_inline() {
// This substitution is only removal OR we explicitly don't want to show the
// code inline (`hide_inline`). Therefore, we don't show the substitution.
format!("help: {msg}")
} else {
// Show the default suggestion text with the substitution
format!(
"help: {}{}: `{}`",
msg,
if self.source_map().is_some_and(|sm| is_case_difference(
sm,
substitution,
sugg.substitutions[0].parts[0].span,
)) {
" (notice the capitalization)"
} else {
""
},
substitution,
)
};
primary_span.push_span_label(sugg.substitutions[0].parts[0].span, msg);
// We return only the modified primary_span
suggestions.clear();
} else {
// if there are multiple suggestions, print them all in full
// to be consistent. We could try to figure out if we can
// make one (or the first one) inline, but that would give
// undue importance to a semi-random suggestion
}
} else {
// do nothing
}
}
fn fix_multispans_in_extern_macros_and_render_macro_backtrace(
&self,
span: &mut MultiSpan,
children: &mut Vec<SubDiagnostic>,
level: &Level,
backtrace: bool,
) {
// Check for spans in macros, before `fix_multispans_in_extern_macros`
// has a chance to replace them.
let has_macro_spans: Vec<_> = iter::once(&*span)
.chain(children.iter().map(|child| &child.span))
.flat_map(|span| span.primary_spans())
.flat_map(|sp| sp.macro_backtrace())
.filter_map(|expn_data| {
match expn_data.kind {
ExpnKind::Root => None,
// Skip past non-macro entries, just in case there
// are some which do actually involve macros.
ExpnKind::Desugaring(..) | ExpnKind::AstPass(..) => None,
ExpnKind::Macro(macro_kind, name) => Some((macro_kind, name)),
}
})
.collect();
if !backtrace {
self.fix_multispans_in_extern_macros(span, children);
}
self.render_multispans_macro_backtrace(span, children, backtrace);
if !backtrace {
if let Some((macro_kind, name)) = has_macro_spans.first() {
// Mark the actual macro this originates from
let and_then = if let Some((macro_kind, last_name)) = has_macro_spans.last()
&& last_name != name
{
let descr = macro_kind.descr();
format!(" which comes from the expansion of the {descr} `{last_name}`",)
} else {
"".to_string()
};
let descr = macro_kind.descr();
let msg = format!(
"this {level} originates in the {descr} `{name}`{and_then} \
(in Nightly builds, run with -Z macro-backtrace for more info)",
);
children.push(SubDiagnostic {
level: Level::Note,
messages: vec![(DiagnosticMessage::from(msg), Style::NoStyle)],
span: MultiSpan::new(),
});
}
}
}
fn render_multispans_macro_backtrace(
&self,
span: &mut MultiSpan,
children: &mut Vec<SubDiagnostic>,
backtrace: bool,
) {
for span in iter::once(span).chain(children.iter_mut().map(|child| &mut child.span)) {
self.render_multispan_macro_backtrace(span, backtrace);
}
}
fn render_multispan_macro_backtrace(&self, span: &mut MultiSpan, always_backtrace: bool) {
let mut new_labels = FxIndexSet::default();
for &sp in span.primary_spans() {
if sp.is_dummy() {
continue;
}
// FIXME(eddyb) use `retain` on `macro_backtrace` to remove all the
// entries we don't want to print, to make sure the indices being
// printed are contiguous (or omitted if there's only one entry).
let macro_backtrace: Vec<_> = sp.macro_backtrace().collect();
for (i, trace) in macro_backtrace.iter().rev().enumerate() {
if trace.def_site.is_dummy() {
continue;
}
if always_backtrace {
new_labels.insert((
trace.def_site,
format!(
"in this expansion of `{}`{}",
trace.kind.descr(),
if macro_backtrace.len() > 1 {
// if macro_backtrace.len() == 1 it'll be
// pointed at by "in this macro invocation"
format!(" (#{})", i + 1)
} else {
String::new()
},
),
));
}
// Don't add a label on the call site if the diagnostic itself
// already points to (a part of) that call site, as the label
// is meant for showing the relevant invocation when the actual
// diagnostic is pointing to some part of macro definition.
//
// This also handles the case where an external span got replaced
// with the call site span by `fix_multispans_in_extern_macros`.
//
// NB: `-Zmacro-backtrace` overrides this, for uniformity, as the
// "in this expansion of" label above is always added in that mode,
// and it needs an "in this macro invocation" label to match that.
let redundant_span = trace.call_site.contains(sp);
if !redundant_span || always_backtrace {
let msg: Cow<'static, _> = match trace.kind {
ExpnKind::Macro(MacroKind::Attr, _) => {
"this procedural macro expansion".into()
}
ExpnKind::Macro(MacroKind::Derive, _) => {
"this derive macro expansion".into()
}
ExpnKind::Macro(MacroKind::Bang, _) => "this macro invocation".into(),
ExpnKind::Root => "the crate root".into(),
ExpnKind::AstPass(kind) => kind.descr().into(),
ExpnKind::Desugaring(kind) => {
format!("this {} desugaring", kind.descr()).into()
}
};
new_labels.insert((
trace.call_site,
format!(
"in {}{}",
msg,
if macro_backtrace.len() > 1 && always_backtrace {
// only specify order when the macro
// backtrace is multiple levels deep
format!(" (#{})", i + 1)
} else {
String::new()
},
),
));
}
if !always_backtrace {
break;
}
}
}
for (label_span, label_text) in new_labels {
span.push_span_label(label_span, label_text);
}
}
// This does a small "fix" for multispans by looking to see if it can find any that
// point directly at external macros. Since these are often difficult to read,
// this will change the span to point at the use site.
fn fix_multispans_in_extern_macros(
&self,
span: &mut MultiSpan,
children: &mut Vec<SubDiagnostic>,
) {
debug!("fix_multispans_in_extern_macros: before: span={:?} children={:?}", span, children);
self.fix_multispan_in_extern_macros(span);
for child in children.iter_mut() {
self.fix_multispan_in_extern_macros(&mut child.span);
}
debug!("fix_multispans_in_extern_macros: after: span={:?} children={:?}", span, children);
}
// This "fixes" MultiSpans that contain `Span`s pointing to locations inside of external macros.
// Since these locations are often difficult to read,
// we move these spans from the external macros to their corresponding use site.
fn fix_multispan_in_extern_macros(&self, span: &mut MultiSpan) {
let Some(source_map) = self.source_map() else { return };
// First, find all the spans in external macros and point instead at their use site.
let replacements: Vec<(Span, Span)> = span
.primary_spans()
.iter()
.copied()
.chain(span.span_labels().iter().map(|sp_label| sp_label.span))
.filter_map(|sp| {
if !sp.is_dummy() && source_map.is_imported(sp) {
let maybe_callsite = sp.source_callsite();
if sp != maybe_callsite {
return Some((sp, maybe_callsite));
}
}
None
})
.collect();
// After we have them, make sure we replace these 'bad' def sites with their use sites.
for (from, to) in replacements {
span.replace(from, to);
}
}
}
impl Translate for HumanEmitter {
fn fluent_bundle(&self) -> Option<&Lrc<FluentBundle>> {
self.fluent_bundle.as_ref()
}
fn fallback_fluent_bundle(&self) -> &FluentBundle {
&self.fallback_bundle
}
}
impl Emitter for HumanEmitter {
fn source_map(&self) -> Option<&Lrc<SourceMap>> {
self.sm.as_ref()
}
fn emit_diagnostic(&mut self, mut diag: Diagnostic) {
let fluent_args = to_fluent_args(diag.args());
let mut suggestions = diag.suggestions.unwrap_or(vec![]);
self.primary_span_formatted(&mut diag.span, &mut suggestions, &fluent_args);
self.fix_multispans_in_extern_macros_and_render_macro_backtrace(
&mut diag.span,
&mut diag.children,
&diag.level,
self.macro_backtrace,
);
self.emit_messages_default(
&diag.level,
&diag.messages,
&fluent_args,
&diag.code,
&diag.span,
&diag.children,
&suggestions,
self.track_diagnostics.then_some(&diag.emitted_at),
);
}
fn should_show_explain(&self) -> bool {
!self.short_message
}
fn supports_color(&self) -> bool {
self.dst.supports_color()
}
}
/// An emitter that does nothing when emitting a non-fatal diagnostic.
/// Fatal diagnostics are forwarded to `fatal_dcx` to avoid silent
/// failures of rustc, as witnessed e.g. in issue #89358.
pub struct SilentEmitter {
pub fatal_dcx: DiagCtxt,
pub fatal_note: String,
}
pub fn silent_translate<'a>(
message: &'a DiagnosticMessage,
) -> Result<Cow<'_, str>, TranslateError<'_>> {
match message {
DiagnosticMessage::Str(msg) | DiagnosticMessage::Translated(msg) => Ok(Cow::Borrowed(msg)),
DiagnosticMessage::FluentIdentifier(identifier, _) => {
// Any value works here.
Ok(identifier.clone())
}
}
}
impl Translate for SilentEmitter {
fn fluent_bundle(&self) -> Option<&Lrc<FluentBundle>> {
None
}
fn fallback_fluent_bundle(&self) -> &FluentBundle {
panic!("silent emitter attempted to translate message")
}
// Override `translate_message` for the silent emitter because eager translation of
// subdiagnostics result in a call to this.
fn translate_message<'a>(
&'a self,
message: &'a DiagnosticMessage,
_: &'a FluentArgs<'_>,
) -> Result<Cow<'_, str>, TranslateError<'_>> {
silent_translate(message)
}
}
impl Emitter for SilentEmitter {
fn source_map(&self) -> Option<&Lrc<SourceMap>> {
None
}
fn emit_diagnostic(&mut self, mut diag: Diagnostic) {
if diag.level == Level::Fatal {
diag.note(self.fatal_note.clone());
self.fatal_dcx.emit_diagnostic(diag);
}
}
}
/// Maximum number of suggestions to be shown
///
/// Arbitrary, but taken from trait import suggestion limit
pub const MAX_SUGGESTIONS: usize = 4;
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
pub enum ColorConfig {
Auto,
Always,
Never,
}
impl ColorConfig {
pub fn to_color_choice(self) -> ColorChoice {
match self {
ColorConfig::Always => {
if io::stderr().is_terminal() {
ColorChoice::Always
} else {
ColorChoice::AlwaysAnsi
}
}
ColorConfig::Never => ColorChoice::Never,
ColorConfig::Auto if io::stderr().is_terminal() => ColorChoice::Auto,
ColorConfig::Auto => ColorChoice::Never,
}
}
fn suggests_using_colors(self) -> bool {
match self {
ColorConfig::Always | ColorConfig::Auto => true,
ColorConfig::Never => false,
}
}
}
/// Handles the writing of `HumanReadableErrorType::Default` and `HumanReadableErrorType::Short`
#[derive(Setters)]
pub struct HumanEmitter {
#[setters(skip)]
dst: IntoDynSyncSend<Destination>,
sm: Option<Lrc<SourceMap>>,
fluent_bundle: Option<Lrc<FluentBundle>>,
#[setters(skip)]
fallback_bundle: LazyFallbackBundle,
short_message: bool,
teach: bool,
ui_testing: bool,
ignored_directories_in_source_blocks: Vec<String>,
diagnostic_width: Option<usize>,
macro_backtrace: bool,
track_diagnostics: bool,
terminal_url: TerminalUrl,
}
#[derive(Debug)]
pub struct FileWithAnnotatedLines {
pub file: Lrc<SourceFile>,
pub lines: Vec<Line>,
multiline_depth: usize,
}
impl HumanEmitter {
pub fn stderr(color_config: ColorConfig, fallback_bundle: LazyFallbackBundle) -> HumanEmitter {
let dst = from_stderr(color_config);
Self::create(dst, fallback_bundle)
}
fn create(dst: Destination, fallback_bundle: LazyFallbackBundle) -> HumanEmitter {
HumanEmitter {
dst: IntoDynSyncSend(dst),
sm: None,
fluent_bundle: None,
fallback_bundle,
short_message: false,
teach: false,
ui_testing: false,
ignored_directories_in_source_blocks: Vec::new(),
diagnostic_width: None,
macro_backtrace: false,
track_diagnostics: false,
terminal_url: TerminalUrl::No,
}
}
pub fn new(
dst: Box<dyn WriteColor + Send>,
fallback_bundle: LazyFallbackBundle,
) -> HumanEmitter {
Self::create(dst, fallback_bundle)
}
fn maybe_anonymized(&self, line_num: usize) -> Cow<'static, str> {
if self.ui_testing {
Cow::Borrowed(ANONYMIZED_LINE_NUM)
} else {
Cow::Owned(line_num.to_string())
}
}
fn draw_line(
&self,
buffer: &mut StyledBuffer,
source_string: &str,
line_index: usize,
line_offset: usize,
width_offset: usize,
code_offset: usize,
margin: Margin,
) {
// Tabs are assumed to have been replaced by spaces in calling code.
debug_assert!(!source_string.contains('\t'));
let line_len = source_string.len();
// Create the source line we will highlight.
let left = margin.left(line_len);
let right = margin.right(line_len);
// On long lines, we strip the source line, accounting for unicode.
let mut taken = 0;
let code: String = source_string
.chars()
.skip(left)
.take_while(|ch| {
// Make sure that the trimming on the right will fall within the terminal width.
// FIXME: `unicode_width` sometimes disagrees with terminals on how wide a `char` is.
// For now, just accept that sometimes the code line will be longer than desired.
let next = unicode_width::UnicodeWidthChar::width(*ch).unwrap_or(1);
if taken + next > right - left {
return false;
}
taken += next;
true
})
.collect();
buffer.puts(line_offset, code_offset, &code, Style::Quotation);
if margin.was_cut_left() {
// We have stripped some code/whitespace from the beginning, make it clear.
buffer.puts(line_offset, code_offset, "...", Style::LineNumber);
}
if margin.was_cut_right(line_len) {
// We have stripped some code after the right-most span end, make it clear we did so.
buffer.puts(line_offset, code_offset + taken - 3, "...", Style::LineNumber);
}
buffer.puts(line_offset, 0, &self.maybe_anonymized(line_index), Style::LineNumber);
draw_col_separator_no_space(buffer, line_offset, width_offset - 2);
}
#[instrument(level = "trace", skip(self), ret)]
fn render_source_line(
&self,
buffer: &mut StyledBuffer,
file: Lrc<SourceFile>,
line: &Line,
width_offset: usize,
code_offset: usize,
margin: Margin,
) -> Vec<(usize, Style)> {
// Draw:
//
// LL | ... code ...
// | ^^-^ span label
// | |
// | secondary span label
//
// ^^ ^ ^^^ ^^^^ ^^^ we don't care about code too far to the right of a span, we trim it
// | | | |
// | | | actual code found in your source code and the spans we use to mark it
// | | when there's too much wasted space to the left, trim it
// | vertical divider between the column number and the code
// column number
if line.line_index == 0 {
return Vec::new();
}
let source_string = match file.get_line(line.line_index - 1) {
Some(s) => normalize_whitespace(&s),
None => return Vec::new(),
};
trace!(?source_string);
let line_offset = buffer.num_lines();
// Left trim
let left = margin.left(source_string.len());
// Account for unicode characters of width !=0 that were removed.
let left = source_string
.chars()
.take(left)
.map(|ch| unicode_width::UnicodeWidthChar::width(ch).unwrap_or(1))
.sum();
self.draw_line(
buffer,
&source_string,
line.line_index,
line_offset,
width_offset,
code_offset,
margin,
);
// Special case when there's only one annotation involved, it is the start of a multiline
// span and there's no text at the beginning of the code line. Instead of doing the whole
// graph:
//
// 2 | fn foo() {
// | _^
// 3 | |
// 4 | | }
// | |_^ test
//
// we simplify the output to:
//
// 2 | / fn foo() {
// 3 | |
// 4 | | }
// | |_^ test
let mut buffer_ops = vec![];
let mut annotations = vec![];
let mut short_start = true;
for ann in &line.annotations {
if let AnnotationType::MultilineStart(depth) = ann.annotation_type {
if source_string.chars().take(ann.start_col.display).all(|c| c.is_whitespace()) {
let style = if ann.is_primary {
Style::UnderlinePrimary
} else {
Style::UnderlineSecondary
};
annotations.push((depth, style));
buffer_ops.push((line_offset, width_offset + depth - 1, '/', style));
} else {
short_start = false;
break;
}
} else if let AnnotationType::MultilineLine(_) = ann.annotation_type {
} else {
short_start = false;
break;
}
}
if short_start {
for (y, x, c, s) in buffer_ops {
buffer.putc(y, x, c, s);
}
return annotations;
}
// We want to display like this:
//
// vec.push(vec.pop().unwrap());
// --- ^^^ - previous borrow ends here
// | |
// | error occurs here
// previous borrow of `vec` occurs here
//
// But there are some weird edge cases to be aware of:
//
// vec.push(vec.pop().unwrap());
// -------- - previous borrow ends here
// ||
// |this makes no sense
// previous borrow of `vec` occurs here
//
// For this reason, we group the lines into "highlight lines"
// and "annotations lines", where the highlight lines have the `^`.
// Sort the annotations by (start, end col)
// The labels are reversed, sort and then reversed again.
// Consider a list of annotations (A1, A2, C1, C2, B1, B2) where
// the letter signifies the span. Here we are only sorting by the
// span and hence, the order of the elements with the same span will
// not change. On reversing the ordering (|a, b| but b.cmp(a)), you get
// (C1, C2, B1, B2, A1, A2). All the elements with the same span are
// still ordered first to last, but all the elements with different
// spans are ordered by their spans in last to first order. Last to
// first order is important, because the jiggly lines and | are on
// the left, so the rightmost span needs to be rendered first,
// otherwise the lines would end up needing to go over a message.
let mut annotations = line.annotations.clone();
annotations.sort_by_key(|a| Reverse(a.start_col));
// First, figure out where each label will be positioned.
//
// In the case where you have the following annotations:
//
// vec.push(vec.pop().unwrap());
// -------- - previous borrow ends here [C]
// ||
// |this makes no sense [B]
// previous borrow of `vec` occurs here [A]
//
// `annotations_position` will hold [(2, A), (1, B), (0, C)].
//
// We try, when possible, to stick the rightmost annotation at the end
// of the highlight line:
//
// vec.push(vec.pop().unwrap());
// --- --- - previous borrow ends here
//
// But sometimes that's not possible because one of the other
// annotations overlaps it. For example, from the test
// `span_overlap_label`, we have the following annotations
// (written on distinct lines for clarity):
//
// fn foo(x: u32) {
// --------------
// -
//
// In this case, we can't stick the rightmost-most label on
// the highlight line, or we would get:
//
// fn foo(x: u32) {
// -------- x_span
// |
// fn_span
//
// which is totally weird. Instead we want:
//
// fn foo(x: u32) {
// --------------
// | |
// | x_span
// fn_span
//
// which is...less weird, at least. In fact, in general, if
// the rightmost span overlaps with any other span, we should
// use the "hang below" version, so we can at least make it
// clear where the span *starts*. There's an exception for this
// logic, when the labels do not have a message:
//
// fn foo(x: u32) {
// --------------
// |
// x_span
//
// instead of:
//
// fn foo(x: u32) {
// --------------
// | |
// | x_span
// <EMPTY LINE>
//
let mut annotations_position = vec![];
let mut line_len = 0;
let mut p = 0;
for (i, annotation) in annotations.iter().enumerate() {
for (j, next) in annotations.iter().enumerate() {
if overlaps(next, annotation, 0) // This label overlaps with another one and both
&& annotation.has_label() // take space (they have text and are not
&& j > i // multiline lines).
&& p == 0
// We're currently on the first line, move the label one line down
{
// If we're overlapping with an un-labelled annotation with the same span
// we can just merge them in the output
if next.start_col == annotation.start_col
&& next.end_col == annotation.end_col
&& !next.has_label()
{
continue;
}
// This annotation needs a new line in the output.
p += 1;
break;
}
}
annotations_position.push((p, annotation));
for (j, next) in annotations.iter().enumerate() {
if j > i {
let l = next.label.as_ref().map_or(0, |label| label.len() + 2);
if (overlaps(next, annotation, l) // Do not allow two labels to be in the same
// line if they overlap including padding, to
// avoid situations like:
//
// fn foo(x: u32) {
// -------^------
// | |
// fn_spanx_span
//
&& annotation.has_label() // Both labels must have some text, otherwise
&& next.has_label()) // they are not overlapping.
// Do not add a new line if this annotation
// or the next are vertical line placeholders.
|| (annotation.takes_space() // If either this or the next annotation is
&& next.has_label()) // multiline start/end, move it to a new line
|| (annotation.has_label() // so as not to overlap the horizontal lines.
&& next.takes_space())
|| (annotation.takes_space() && next.takes_space())