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use std::borrow::Borrow;
use std::io;
use std::ops::Range;
use super::draw::{self, StreamAwareFmt, StreamType};
use super::{Cache, CharSet, Label, LabelAttach, Report, ReportKind, Show, Span, Write};
// A WARNING, FOR ALL YE WHO VENTURE IN HERE
//
// - This code is complex and has a lot of implicit invariants
// - Yes, it has some bugs
// - Yes, it needs rewriting
// - No, you are not expected to understand it. I will probably not understand it either in a month, but that will only
// give me a reason to rewrite it
enum LabelKind {
Inline,
Multiline,
}
struct LabelInfo<'a, S> {
kind: LabelKind,
label: &'a Label<S>,
}
struct SourceGroup<'a, S: Span> {
src_id: &'a S::SourceId,
span: Range<usize>,
labels: Vec<LabelInfo<'a, S>>,
}
impl<S: Span> Report<'_, S> {
fn get_source_groups(&self, cache: &mut impl Cache<S::SourceId>) -> Vec<SourceGroup<S>> {
let mut groups = Vec::new();
for label in self.labels.iter() {
let src_display = cache.display(label.span.source());
let src = match cache.fetch(label.span.source()) {
Ok(src) => src,
Err(e) => {
eprintln!("Unable to fetch source '{}': {:?}", Show(src_display), e);
continue;
}
};
let start_line = src.get_offset_line(label.span.start()).map(|(_, l, _)| l);
let end_line = src
.get_offset_line(label.span.end().saturating_sub(1).max(label.span.start()))
.map(|(_, l, _)| l);
let label_info = LabelInfo {
kind: if start_line == end_line {
LabelKind::Inline
} else {
LabelKind::Multiline
},
label,
};
if let Some(group) = groups
.iter_mut()
.find(|g: &&mut SourceGroup<S>| g.src_id == label.span.source())
{
group.span.start = group.span.start.min(label.span.start());
group.span.end = group.span.end.max(label.span.end());
group.labels.push(label_info);
} else {
groups.push(SourceGroup {
src_id: label.span.source(),
span: label.span.start()..label.span.end(),
labels: vec![label_info],
});
}
}
groups
}
/// Write this diagnostic to an implementor of [`Write`].
///
/// If using the `concolor` feature, this method assumes that the output is ultimately going to be printed to
/// `stderr`. If you are printing to `stdout`, use the [`write_for_stdout`](Self::write_for_stdout) method instead.
///
/// If you wish to write to `stderr` or `stdout`, you can do so via [`Report::eprint`] or [`Report::print`] respectively.
pub fn write<C: Cache<S::SourceId>, W: Write>(&self, cache: C, w: W) -> io::Result<()> {
self.write_for_stream(cache, w, StreamType::Stderr)
}
/// Write this diagnostic to an implementor of [`Write`], assuming that the output is ultimately going to be printed
/// to `stdout`.
pub fn write_for_stdout<C: Cache<S::SourceId>, W: Write>(
&self,
cache: C,
w: W,
) -> io::Result<()> {
self.write_for_stream(cache, w, StreamType::Stdout)
}
/// Write this diagnostic to an implementor of [`Write`], assuming that the output is ultimately going to be printed
/// to the given output stream (`stdout` or `stderr`).
fn write_for_stream<C: Cache<S::SourceId>, W: Write>(
&self,
mut cache: C,
mut w: W,
s: StreamType,
) -> io::Result<()> {
let draw = match self.config.char_set {
CharSet::Unicode => draw::Characters::unicode(),
CharSet::Ascii => draw::Characters::ascii(),
};
// --- Header ---
let code = self.code.as_ref().map(|c| format!("[{}] ", c));
let id = format!("{}{}:", Show(code), self.kind);
let kind_color = match self.kind {
ReportKind::Error => self.config.error_color(),
ReportKind::Warning => self.config.warning_color(),
ReportKind::Advice => self.config.advice_color(),
ReportKind::Custom(_, color) => Some(color),
};
writeln!(w, "{} {}", id.fg(kind_color, s), Show(self.msg.as_ref()))?;
let groups = self.get_source_groups(&mut cache);
// Line number maximum width
let line_no_width = groups
.iter()
.filter_map(|SourceGroup { span, src_id, .. }| {
let src_name = cache
.display(src_id)
.map(|d| d.to_string())
.unwrap_or_else(|| "<unknown>".to_string());
let src = match cache.fetch(src_id) {
Ok(src) => src,
Err(e) => {
eprintln!("Unable to fetch source {}: {:?}", src_name, e);
return None;
}
};
let line_range = src.get_line_range(span);
Some(
(1..)
.map(|x| 10u32.pow(x))
.take_while(|x| line_range.end as u32 / x != 0)
.count()
+ 1,
)
})
.max()
.unwrap_or(0);
// --- Source sections ---
let groups_len = groups.len();
for (
group_idx,
SourceGroup {
src_id,
span,
labels,
},
) in groups.into_iter().enumerate()
{
let src_name = cache
.display(src_id)
.map(|d| d.to_string())
.unwrap_or_else(|| "<unknown>".to_string());
let src = match cache.fetch(src_id) {
Ok(src) => src,
Err(e) => {
eprintln!("Unable to fetch source {}: {:?}", src_name, e);
continue;
}
};
let line_range = src.get_line_range(&span);
// File name & reference
let location = if src_id == self.location.0.borrow() {
self.location.1
} else {
labels[0].label.span.start()
};
let (line_no, col_no) = src
.get_offset_line(location)
.map(|(_, idx, col)| (format!("{}", idx + 1), format!("{}", col + 1)))
.unwrap_or_else(|| ('?'.to_string(), '?'.to_string()));
let line_ref = format!(":{}:{}", line_no, col_no);
writeln!(
w,
"{}{}{}{}{}{}{}",
Show((' ', line_no_width + 2)),
if group_idx == 0 {
draw.ltop
} else {
draw.lcross
}
.fg(self.config.margin_color(), s),
draw.hbar.fg(self.config.margin_color(), s),
draw.lbox.fg(self.config.margin_color(), s),
src_name,
line_ref,
draw.rbox.fg(self.config.margin_color(), s),
)?;
if !self.config.compact {
writeln!(
w,
"{}{}",
Show((' ', line_no_width + 2)),
draw.vbar.fg(self.config.margin_color(), s)
)?;
}
struct LineLabel<'a, S> {
col: usize,
label: &'a Label<S>,
multi: bool,
draw_msg: bool,
}
// Generate a list of multi-line labels
let mut multi_labels = Vec::new();
let mut multi_labels_with_message = Vec::new();
for label_info in &labels {
if matches!(label_info.kind, LabelKind::Multiline) {
multi_labels.push(&label_info.label);
if label_info.label.msg.is_some() {
multi_labels_with_message.push(&label_info.label);
}
}
}
// Sort multiline labels by length
multi_labels.sort_by_key(|m| -(m.span.len() as isize));
multi_labels_with_message.sort_by_key(|m| -(m.span.len() as isize));
let write_margin = |w: &mut W,
idx: usize,
is_line: bool,
is_ellipsis: bool,
draw_labels: bool,
report_row: Option<(usize, bool)>,
line_labels: &[LineLabel<S>],
margin_label: &Option<LineLabel<S>>|
-> std::io::Result<()> {
let line_no_margin = if is_line && !is_ellipsis {
let line_no = format!("{}", idx + 1);
format!(
"{}{} {}",
Show((' ', line_no_width - line_no.chars().count())),
line_no,
draw.vbar,
)
.fg(self.config.margin_color(), s)
} else {
format!(
"{}{}",
Show((' ', line_no_width + 1)),
if is_ellipsis {
draw.vbar_gap
} else {
draw.vbar
}
)
.fg(self.config.skipped_margin_color(), s)
};
write!(
w,
" {}{}",
line_no_margin,
Show(Some(' ').filter(|_| !self.config.compact)),
)?;
// Multi-line margins
if draw_labels {
for col in 0..multi_labels_with_message.len() + (multi_labels_with_message.len() > 0) as usize {
let mut corner = None;
let mut hbar = None;
let mut vbar: Option<&&Label<S>> = None;
let mut margin_ptr = None;
let multi_label = multi_labels_with_message.get(col);
let line_span = src.line(idx).unwrap().span();
for (i, label) in multi_labels_with_message[0..(col + 1).min(multi_labels_with_message.len())]
.iter()
.enumerate()
{
let margin = margin_label
.as_ref()
.filter(|m| **label as *const _ == m.label as *const _);
if label.span.start() <= line_span.end
&& label.span.end() > line_span.start
{
let is_parent = i != col;
let is_start = line_span.contains(&label.span.start());
let is_end = line_span.contains(&label.last_offset());
if let Some(margin) = margin.filter(|_| is_line) {
margin_ptr = Some((margin, is_start));
} else if !is_start && (!is_end || is_line) {
vbar = vbar.or(Some(*label).filter(|_| !is_parent));
} else if let Some((report_row, is_arrow)) = report_row {
let label_row = line_labels
.iter()
.enumerate()
.find(|(_, l)| **label as *const _ == l.label as *const _)
.map_or(0, |(r, _)| r);
if report_row == label_row {
if let Some(margin) = margin {
vbar = Some(&margin.label).filter(|_| col == i);
if is_start {
continue;
}
}
if is_arrow {
hbar = Some(**label);
if !is_parent {
corner = Some((label, is_start));
}
} else if !is_start {
vbar = vbar.or(Some(*label).filter(|_| !is_parent));
}
} else {
vbar = vbar.or(Some(*label).filter(|_| {
!is_parent && (is_start ^ (report_row < label_row))
}));
}
}
}
}
if let (Some((margin, _is_start)), true) = (margin_ptr, is_line) {
let is_col = multi_label
.map_or(false, |ml| **ml as *const _ == margin.label as *const _);
let is_limit = col + 1 == multi_labels_with_message.len();
if !is_col && !is_limit {
hbar = hbar.or(Some(margin.label));
}
}
hbar = hbar.filter(|l| {
margin_label
.as_ref()
.map_or(true, |margin| margin.label as *const _ != *l as *const _)
|| !is_line
});
let (a, b) = if let Some((label, is_start)) = corner {
(
if is_start { draw.ltop } else { draw.lbot }.fg(label.color, s),
draw.hbar.fg(label.color, s),
)
} else if let Some(label) =
hbar.filter(|_| vbar.is_some() && !self.config.cross_gap)
{
(draw.xbar.fg(label.color, s), draw.hbar.fg(label.color, s))
} else if let Some(label) = hbar {
(draw.hbar.fg(label.color, s), draw.hbar.fg(label.color, s))
} else if let Some(label) = vbar {
(
if is_ellipsis {
draw.vbar_gap
} else {
draw.vbar
}
.fg(label.color, s),
' '.fg(None, s),
)
} else if let (Some((margin, is_start)), true) = (margin_ptr, is_line) {
let is_col = multi_label
.map_or(false, |ml| **ml as *const _ == margin.label as *const _);
let is_limit = col == multi_labels_with_message.len();
(
if is_limit {
draw.rarrow
} else if is_col {
if is_start {
draw.ltop
} else {
draw.lcross
}
} else {
draw.hbar
}
.fg(margin.label.color, s),
if !is_limit { draw.hbar } else { ' ' }.fg(margin.label.color, s),
)
} else {
(' '.fg(None, s), ' '.fg(None, s))
};
write!(w, "{}", a)?;
if !self.config.compact {
write!(w, "{}", b)?;
}
}
}
Ok(())
};
let mut is_ellipsis = false;
for idx in line_range {
let line = if let Some(line) = src.line(idx) {
line
} else {
continue;
};
let margin_label = multi_labels_with_message
.iter()
.enumerate()
.filter_map(|(_i, label)| {
let is_start = line.span().contains(&label.span.start());
let is_end = line.span().contains(&label.last_offset());
if is_start {
// TODO: Check to see whether multi is the first on the start line or first on the end line
Some(LineLabel {
col: label.span.start() - line.offset(),
label: **label,
multi: true,
draw_msg: false, // Multi-line spans don;t have their messages drawn at the start
})
} else if is_end {
Some(LineLabel {
col: label.last_offset() - line.offset(),
label: **label,
multi: true,
draw_msg: true, // Multi-line spans have their messages drawn at the end
})
} else {
None
}
})
.min_by_key(|ll| (ll.col, !ll.label.span.start()));
// Generate a list of labels for this line, along with their label columns
let mut line_labels = multi_labels_with_message
.iter()
.enumerate()
.filter_map(|(_i, label)| {
let is_start = line.span().contains(&label.span.start());
let is_end = line.span().contains(&label.last_offset());
if is_start
&& margin_label
.as_ref()
.map_or(true, |m| **label as *const _ != m.label as *const _)
{
// TODO: Check to see whether multi is the first on the start line or first on the end line
Some(LineLabel {
col: label.span.start() - line.offset(),
label: **label,
multi: true,
draw_msg: false, // Multi-line spans don;t have their messages drawn at the start
})
} else if is_end {
Some(LineLabel {
col: label.last_offset() - line.offset(),
label: **label,
multi: true,
draw_msg: true, // Multi-line spans have their messages drawn at the end
})
} else {
None
}
})
.collect::<Vec<_>>();
for label_info in labels.iter().filter(|l| {
l.label.span.start() >= line.span().start
&& l.label.span.end() <= line.span().end
}) {
if matches!(label_info.kind, LabelKind::Inline) {
line_labels.push(LineLabel {
col: match &self.config.label_attach {
LabelAttach::Start => label_info.label.span.start(),
LabelAttach::Middle => {
(label_info.label.span.start() + label_info.label.span.end())
/ 2
}
LabelAttach::End => label_info.label.last_offset(),
}
.max(label_info.label.span.start())
- line.offset(),
label: label_info.label,
multi: false,
draw_msg: true,
});
}
}
// Skip this line if we don't have labels for it
if line_labels.len() == 0 && margin_label.is_none() {
let within_label = multi_labels
.iter()
.any(|label| label.span.contains(line.span().start()));
if !is_ellipsis && within_label {
is_ellipsis = true;
} else {
if !self.config.compact && !is_ellipsis {
write_margin(&mut w, idx, false, is_ellipsis, false, None, &[], &None)?;
write!(w, "\n")?;
}
is_ellipsis = true;
continue;
}
} else {
is_ellipsis = false;
}
// Sort the labels by their columns
line_labels.sort_by_key(|ll| (ll.label.order, ll.col, !ll.label.span.start()));
// Determine label bounds so we know where to put error messages
let arrow_end_space = if self.config.compact { 1 } else { 2 };
let arrow_len = line_labels.iter().fold(0, |l, ll| {
if ll.multi {
line.len()
} else {
l.max(ll.label.span.end().saturating_sub(line.offset()))
}
}) + arrow_end_space;
// Should we draw a vertical bar as part of a label arrow on this line?
let get_vbar = |col, row| {
line_labels
.iter()
// Only labels with notes get an arrow
.enumerate()
.filter(|(_, ll)| {
ll.label.msg.is_some()
&& margin_label
.as_ref()
.map_or(true, |m| ll.label as *const _ != m.label as *const _)
})
.find(|(j, ll)| {
ll.col == col && ((row <= *j && !ll.multi) || (row <= *j && ll.multi))
})
.map(|(_, ll)| ll)
};
let get_highlight = |col| {
margin_label
.iter()
.map(|ll| ll.label)
.chain(multi_labels.iter().map(|l| **l))
.chain(line_labels.iter().map(|l| l.label))
.filter(|l| l.span.contains(line.offset() + col))
// Prioritise displaying smaller spans
.min_by_key(|l| (-l.priority, l.span.len()))
};
let get_underline = |col| {
line_labels
.iter()
.filter(|ll| {
self.config.underlines
// Underlines only occur for inline spans (highlighting can occur for all spans)
&& !ll.multi
&& ll.label.span.contains(line.offset() + col)
})
// Prioritise displaying smaller spans
.min_by_key(|ll| (-ll.label.priority, ll.label.span.len()))
};
// Margin
write_margin(
&mut w,
idx,
true,
is_ellipsis,
true,
None,
&line_labels,
&margin_label,
)?;
// Line
if !is_ellipsis {
for (col, c) in src.get_line_text(line).unwrap().chars().enumerate() {
let color = if let Some(highlight) = get_highlight(col) {
highlight.color
} else {
self.config.unimportant_color()
};
let (c, width) = self.config.char_width(c, col);
if c.is_whitespace() {
for _ in 0..width {
write!(w, "{}", c.fg(color, s))?;
}
} else {
write!(w, "{}", c.fg(color, s))?;
};
}
}
write!(w, "\n")?;
// Arrows
for row in 0..line_labels.len() {
let line_label = &line_labels[row];
//No message to draw thus no arrow to draw
if line_label.label.msg.is_none() {
continue
}
if !self.config.compact {
// Margin alternate
write_margin(
&mut w,
idx,
false,
is_ellipsis,
true,
Some((row, false)),
&line_labels,
&margin_label,
)?;
// Lines alternate
let mut chars = src.get_line_text(line).unwrap().chars();
for col in 0..arrow_len {
let width =
chars.next().map_or(1, |c| self.config.char_width(c, col).1);
let vbar = get_vbar(col, row);
let underline = get_underline(col).filter(|_| row == 0);
let [c, tail] = if let Some(vbar_ll) = vbar {
let [c, tail] = if underline.is_some() {
// TODO: Is this good?
if vbar_ll.label.span.len() <= 1 || true {
[draw.underbar, draw.underline]
} else if line.offset() + col == vbar_ll.label.span.start() {
[draw.ltop, draw.underbar]
} else if line.offset() + col == vbar_ll.label.last_offset() {
[draw.rtop, draw.underbar]
} else {
[draw.underbar, draw.underline]
}
} else if vbar_ll.multi && row == 0 && self.config.multiline_arrows
{
[draw.uarrow, ' ']
} else {
[draw.vbar, ' ']
};
[
c.fg(vbar_ll.label.color, s),
tail.fg(vbar_ll.label.color, s),
]
} else if let Some(underline_ll) = underline {
[draw.underline.fg(underline_ll.label.color, s); 2]
} else {
[' '.fg(None, s); 2]
};
for i in 0..width {
write!(w, "{}", if i == 0 { c } else { tail })?;
}
}
write!(w, "\n")?;
}
// Margin
write_margin(
&mut w,
idx,
false,
is_ellipsis,
true,
Some((row, true)),
&line_labels,
&margin_label,
)?;
// Lines
let mut chars = src.get_line_text(line).unwrap().chars();
for col in 0..arrow_len {
let width = chars.next().map_or(1, |c| self.config.char_width(c, col).1);
let is_hbar = (((col > line_label.col) ^ line_label.multi)
|| (line_label.label.msg.is_some()
&& line_label.draw_msg
&& col > line_label.col))
&& line_label.label.msg.is_some();
let [c, tail] = if col == line_label.col
&& line_label.label.msg.is_some()
&& margin_label.as_ref().map_or(true, |m| {
line_label.label as *const _ != m.label as *const _
}) {
[
if line_label.multi {
if line_label.draw_msg {
draw.mbot
} else {
draw.rbot
}
} else {
draw.lbot
}
.fg(line_label.label.color, s),
draw.hbar.fg(line_label.label.color, s),
]
} else if let Some(vbar_ll) = get_vbar(col, row)
.filter(|_| (col != line_label.col || line_label.label.msg.is_some()))
{
if !self.config.cross_gap && is_hbar {
[
draw.xbar.fg(line_label.label.color, s),
' '.fg(line_label.label.color, s),
]
} else if is_hbar {
[draw.hbar.fg(line_label.label.color, s); 2]
} else {
[
if vbar_ll.multi && row == 0 && self.config.compact {
draw.uarrow
} else {
draw.vbar
}
.fg(vbar_ll.label.color, s),
' '.fg(line_label.label.color, s),
]
}
} else if is_hbar {
[draw.hbar.fg(line_label.label.color, s); 2]
} else {
[' '.fg(None, s); 2]
};
if width > 0 {
write!(w, "{}", c)?;
}
for _ in 1..width {
write!(w, "{}", tail)?;
}
}
if line_label.draw_msg {
write!(w, " {}", Show(line_label.label.msg.as_ref()))?;
}
write!(w, "\n")?;
}
}
let is_final_group = group_idx + 1 == groups_len;
// Help
if let (Some(note), true) = (&self.help, is_final_group) {
if !self.config.compact {
write_margin(&mut w, 0, false, false, true, Some((0, false)), &[], &None)?;
write!(w, "\n")?;
}
write_margin(&mut w, 0, false, false, true, Some((0, false)), &[], &None)?;
write!(w, "{}: {}\n", "Help".fg(self.config.note_color(), s), note)?;
}
// Note
if let (Some(note), true) = (&self.note, is_final_group) {
if !self.config.compact {
write_margin(&mut w, 0, false, false, true, Some((0, false)), &[], &None)?;
write!(w, "\n")?;
}
write_margin(&mut w, 0, false, false, true, Some((0, false)), &[], &None)?;
write!(w, "{}: {}\n", "Note".fg(self.config.note_color(), s), note)?;
}
// Tail of report
if !self.config.compact {
if is_final_group {
let final_margin =
format!("{}{}", Show((draw.hbar, line_no_width + 2)), draw.rbot);
writeln!(w, "{}", final_margin.fg(self.config.margin_color(), s))?;
} else {
writeln!(
w,
"{}{}",
Show((' ', line_no_width + 2)),
draw.vbar.fg(self.config.margin_color(), s)
)?;
}
}
}
Ok(())
}
}
impl<S: Span> Label<S> {
fn last_offset(&self) -> usize {
self.span.end().saturating_sub(1).max(self.span.start())
}
}
#[cfg(test)]
mod tests {
//! These tests use [insta](https://insta.rs/). If you do `cargo install cargo-insta` you can
//! automatically update the snapshots with `cargo insta review` or `cargo insta accept`.
//!
//! When adding new tests you can leave the string in the `assert_snapshot!` macro call empty:
//!
//! assert_snapshot!(msg, @"");
//!
//! and insta will fill it in.
use std::ops::Range;
use insta::assert_snapshot;
use crate::{Cache, CharSet, Config, Label, Report, ReportKind, Source, Span};
impl<S: Span> Report<'_, S> {
fn write_to_string<C: Cache<S::SourceId>>(&self, cache: C) -> String {
let mut vec = Vec::new();
self.write(cache, &mut vec).unwrap();
String::from_utf8(vec).unwrap()
}
}
fn no_color_and_ascii() -> Config {
Config::default()
.with_color(false)
// Using Ascii so that the inline snapshots display correctly
// even with fonts where characters like '┬' take up more space.
.with_char_set(CharSet::Ascii)
}
#[test]
fn one_message() {
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.finish()
.write_to_string(Source::from(""));
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
"###)
}
#[test]
fn two_labels_without_messages() {
let source = "apple == orange;";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.with_label(Label::new(0..5))
.with_label(Label::new(9..15))
.finish()
.write_to_string(Source::from(source));
// TODO: it would be nice if these spans still showed up (like codespan-reporting does)
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
,-[<unknown>:1:1]
|
1 | apple == orange;
---'
"###);
}
#[test]
fn two_labels_with_messages() {
let source = "apple == orange;";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.with_label(Label::new(0..5).with_message("This is an apple"))
.with_label(Label::new(9..15).with_message("This is an orange"))
.finish()
.write_to_string(Source::from(source));
// TODO: it would be nice if these lines didn't cross
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
,-[<unknown>:1:1]
|
1 | apple == orange;
| ^^|^^ ^^^|^^
| `-------------- This is an apple
| |
| `---- This is an orange
---'
"###);
}
#[test]
fn label_at_end_of_long_line() {
let source = format!("{}orange", "apple == ".repeat(100));
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.with_label(
Label::new(source.len() - 5..source.len()).with_message("This is an orange"),
)
.finish()
.write_to_string(Source::from(source));
// TODO: it would be nice if the start of long lines would be omitted (like rustc does)
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
,-[<unknown>:1:1]
|
1 | apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == apple == orange
| ^^|^^
| `---- This is an orange
---'
"###);
}
#[test]
fn multiline_label() {
let source = "apple\n==\norange";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_label(Label::new(0..source.len()).with_message("illegal comparison"))
.finish()
.write_to_string(Source::from(source));
// TODO: it would be nice if the 2nd line wasn't omitted
assert_snapshot!(msg, @r###"
Error:
,-[<unknown>:1:1]
|
1 | ,-> apple
: :
3 | |-> orange
| |
| `----------- illegal comparison
---'
"###);
}
#[test]
fn partially_overlapping_labels() {
let source = "https://example.com/";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_label(Label::new(0..source.len()).with_message("URL"))
.with_label(Label::new(0..source.find(':').unwrap()).with_message("scheme"))
.finish()
.write_to_string(Source::from(source));
// TODO: it would be nice if you could tell where the spans start and end.
assert_snapshot!(msg, @r###"
Error:
,-[<unknown>:1:1]
|
1 | https://example.com/
| ^^|^^^^^^^|^^^^^^^^^
| `------------------- scheme
| |
| `----------- URL
---'
"###);
}
#[test]
fn multiple_labels_same_span() {
let source = "apple == orange;";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.with_label(Label::new(0..5).with_message("This is an apple"))
.with_label(Label::new(0..5).with_message("Have I mentioned that this is an apple?"))
.with_label(Label::new(0..5).with_message("No really, have I mentioned that?"))
.with_label(Label::new(9..15).with_message("This is an orange"))
.with_label(Label::new(9..15).with_message("Have I mentioned that this is an orange?"))
.with_label(Label::new(9..15).with_message("No really, have I mentioned that?"))
.finish()
.write_to_string(Source::from(source));
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
,-[<unknown>:1:1]
|
1 | apple == orange;
| ^^|^^ ^^^|^^
| `-------------- This is an apple
| | |
| `-------------- Have I mentioned that this is an apple?
| | |
| `-------------- No really, have I mentioned that?
| |
| `---- This is an orange
| |
| `---- Have I mentioned that this is an orange?
| |
| `---- No really, have I mentioned that?
---'
"###)
}
#[test]
fn note() {
let source = "apple == orange;";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.with_label(Label::new(0..5).with_message("This is an apple"))
.with_label(Label::new(9..15).with_message("This is an orange"))
.with_note("stop trying ... this is a fruitless endeavor")
.finish()
.write_to_string(Source::from(source));
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
,-[<unknown>:1:1]
|
1 | apple == orange;
| ^^|^^ ^^^|^^
| `-------------- This is an apple
| |
| `---- This is an orange
|
| Note: stop trying ... this is a fruitless endeavor
---'
"###)
}
#[test]
fn help() {
let source = "apple == orange;";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.with_label(Label::new(0..5).with_message("This is an apple"))
.with_label(Label::new(9..15).with_message("This is an orange"))
.with_help("have you tried peeling the orange?")
.finish()
.write_to_string(Source::from(source));
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
,-[<unknown>:1:1]
|
1 | apple == orange;
| ^^|^^ ^^^|^^
| `-------------- This is an apple
| |
| `---- This is an orange
|
| Help: have you tried peeling the orange?
---'
"###)
}
#[test]
fn help_and_note() {
let source = "apple == orange;";
let msg = Report::<Range<usize>>::build(ReportKind::Error, (), 0)
.with_config(no_color_and_ascii())
.with_message("can't compare apples with oranges")
.with_label(Label::new(0..5).with_message("This is an apple"))
.with_label(Label::new(9..15).with_message("This is an orange"))
.with_help("have you tried peeling the orange?")
.with_note("stop trying ... this is a fruitless endeavor")
.finish()
.write_to_string(Source::from(source));
assert_snapshot!(msg, @r###"
Error: can't compare apples with oranges
,-[<unknown>:1:1]
|
1 | apple == orange;
| ^^|^^ ^^^|^^
| `-------------- This is an apple
| |
| `---- This is an orange
|
| Help: have you tried peeling the orange?
|
| Note: stop trying ... this is a fruitless endeavor
---'
"###)
}
}