This commit is contained in:
ef3d0c3e 2024-07-31 10:54:19 +02:00
parent 08ae603106
commit 131d3b30ee
8 changed files with 567 additions and 124 deletions

View file

@ -39,7 +39,6 @@ struct Graphviz {
pub dot: String, pub dot: String,
pub layout: Layout, pub layout: Layout,
pub width: String, pub width: String,
pub caption: Option<String>,
} }
fn layout_from_str(value: &str) -> Result<Layout, String> { fn layout_from_str(value: &str) -> Result<Layout, String> {
@ -100,6 +99,7 @@ impl Cached for Graphviz {
fn key(&self) -> <Self as Cached>::Key { fn key(&self) -> <Self as Cached>::Key {
let mut hasher = Sha512::new(); let mut hasher = Sha512::new();
hasher.input((self.layout as usize).to_be_bytes().as_slice()); hasher.input((self.layout as usize).to_be_bytes().as_slice());
hasher.input(self.width.as_bytes());
hasher.input(self.dot.as_bytes()); hasher.input(self.dot.as_bytes());
hasher.result_str() hasher.result_str()
@ -354,8 +354,6 @@ impl RegexRule for GraphRule {
}, },
}; };
// TODO: Caption
parser.push( parser.push(
document, document,
Box::new(Graphviz { Box::new(Graphviz {
@ -363,7 +361,6 @@ impl RegexRule for GraphRule {
dot: graph_content, dot: graph_content,
layout: graph_layout, layout: graph_layout,
width: graph_width, width: graph_width,
caption: None,
}), }),
); );

416
src/elements/layout.rs Normal file
View file

@ -0,0 +1,416 @@
use crate::compiler::compiler::Compiler;
use crate::compiler::compiler::Target;
use crate::document::document::Document;
use crate::document::element::ElemKind;
use crate::document::element::Element;
use crate::parser::parser::Parser;
use crate::parser::rule::RegexRule;
use crate::parser::source::Source;
use crate::parser::source::Token;
use crate::parser::state::Scope;
use crate::parser::state::State;
use ariadne::Fmt;
use ariadne::Label;
use ariadne::Report;
use ariadne::ReportKind;
use lazy_static::lazy_static;
use mlua::Function;
use mlua::Lua;
use regex::Captures;
use regex::Regex;
use std::cell::RefCell;
use std::collections::HashMap;
use std::ops::Range;
use std::rc::Rc;
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub(crate) enum LayoutToken {
BEGIN,
NEXT,
END,
}
/// Represents the type of a layout
pub trait LayoutType: core::fmt::Debug {
/// Name of the layout
fn name(&self) -> &'static str;
/// Expected number of blocks
fn expects(&self) -> Range<usize>;
/// Compile layout
fn compile(
&self,
token: LayoutToken,
id: usize,
compiler: &Compiler,
document: &dyn Document,
) -> Result<String, String>;
}
mod default_layouts {
use super::*;
#[derive(Debug)]
pub struct Centered;
impl LayoutType for Centered {
fn name(&self) -> &'static str { "Centered" }
fn expects(&self) -> Range<usize> { 1..1 }
fn compile(
&self,
token: LayoutToken,
_id: usize,
compiler: &Compiler,
_document: &dyn Document,
) -> Result<String, String> {
match compiler.target() {
Target::HTML => match token {
LayoutToken::BEGIN => Ok(r#"<div class="centered">"#.to_string()),
LayoutToken::NEXT => panic!(),
LayoutToken::END => Ok(r#"</div>"#.to_string()),
},
_ => todo!(""),
}
}
}
}
#[derive(Debug)]
struct Layout {
pub(self) location: Token,
pub(self) layout: Rc<dyn LayoutType>,
pub(self) id: usize,
pub(self) token: LayoutToken,
}
impl Element for Layout {
fn location(&self) -> &Token { &self.location }
fn kind(&self) -> ElemKind { ElemKind::Block }
fn element_name(&self) -> &'static str { "Layout" }
fn to_string(&self) -> String { format!("{self:#?}") }
fn compile(&self, compiler: &Compiler, document: &dyn Document) -> Result<String, String> {
self.layout.compile(self.token, self.id, compiler, document)
}
}
struct LayoutState {
/// The layout stack
pub(self) stack: Vec<(Vec<Token>, Rc<dyn LayoutType>)>,
}
impl State for LayoutState {
fn scope(&self) -> Scope { Scope::DOCUMENT }
fn on_remove<'a>(
&self,
parser: &dyn Parser,
document: &dyn Document,
) -> Vec<Report<'a, (Rc<dyn Source>, Range<usize>)>> {
let mut reports = vec![];
let doc_borrow = document.content().borrow();
let at = doc_borrow.last().unwrap().location();
for (tokens, layout_type) in &self.stack {
let start = tokens.first().unwrap();
reports.push(
Report::build(ReportKind::Error, start.source(), start.start())
.with_message("Unterminated Layout")
//.with_label(
// Label::new((document.source(), active_range.clone()))
// .with_order(0)
// .with_message(format!("Style {} is not terminated before the end of paragraph",
// name.fg(parser.colors().info)))
// .with_color(parser.colors().error))
.with_label(
Label::new((start.source(), start.range.start + 1..start.range.end))
.with_order(1)
.with_message(format!(
"Layout {} stars here",
layout_type.name().fg(parser.colors().info)
))
.with_color(parser.colors().error),
)
.with_label(
Label::new((at.source(), at.range.clone()))
.with_order(2)
.with_message("Document ends here".to_string())
.with_color(parser.colors().error),
)
.finish(),
);
}
return reports;
}
}
pub struct LayoutRule {
re: [Regex; 3],
layouts: HashMap<String, Rc<dyn LayoutType>>,
}
impl LayoutRule {
pub fn new() -> Self {
let mut layouts: HashMap<String, Rc<dyn LayoutType>> = HashMap::new();
let layout_centered = default_layouts::Centered {};
layouts.insert(layout_centered.name().to_string(), Rc::new(layout_centered));
Self {
re: [
Regex::new(r"(?:^|\n)#\+LAYOUT_BEGIN(.*)").unwrap(),
Regex::new(r"(?:^|\n)#\+LAYOUT_NEXT(?:$|\n)").unwrap(),
Regex::new(r"(?:^|\n)#\+LAYOUT_END(?:$|\n)").unwrap(),
],
layouts,
}
}
}
lazy_static! {
static ref STATE_NAME: String = "elements.layout".to_string();
}
impl RegexRule for LayoutRule {
fn name(&self) -> &'static str { "Layout" }
fn regexes(&self) -> &[regex::Regex] { &self.re }
fn on_regex_match(
&self,
index: usize,
parser: &dyn Parser,
document: &dyn Document,
token: Token,
matches: Captures,
) -> Vec<Report<(Rc<dyn Source>, Range<usize>)>> {
let mut reports = vec![];
let query = parser.state().query(&STATE_NAME);
let state = match query {
Some(state) => state,
None => {
// Insert as a new state
match parser.state_mut().insert(
STATE_NAME.clone(),
Rc::new(RefCell::new(LayoutState { stack: vec![] })),
) {
Err(_) => panic!("Unknown error"),
Ok(state) => state,
}
}
};
if index == 0
// BEGIN_LAYOUT
{
match matches.get(1) {
None => {
reports.push(
Report::build(ReportKind::Error, token.source(), token.start())
.with_message("Missing Layout Name")
.with_label(
Label::new((token.source(), token.range.clone()))
.with_message(format!(
"Missing layout name after `{}`",
"#+BEGIN_LAYOUT".fg(parser.colors().highlight)
))
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
}
Some(name) => {
let trimmed = name.as_str().trim_start().trim_end();
if name.as_str().is_empty() || trimmed.is_empty()
// Empty name
{
reports.push(
Report::build(ReportKind::Error, token.source(), name.start())
.with_message("Empty Layout Name")
.with_label(
Label::new((token.source(), token.range.clone()))
.with_message(format!(
"Empty layout name after `{}`",
"#+BEGIN_LAYOUT".fg(parser.colors().highlight)
))
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
} else if !name.as_str().chars().next().unwrap().is_whitespace()
// Missing space
{
reports.push(
Report::build(ReportKind::Error, token.source(), name.start())
.with_message("Empty Layout Name")
.with_label(
Label::new((token.source(), name.range()))
.with_message(format!(
"Missing a space before layout `{}`",
name.as_str().fg(parser.colors().highlight)
))
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
}
// Get layout
let layout_type = match self.layouts.get(trimmed) {
None => {
reports.push(
Report::build(ReportKind::Error, token.source(), name.start())
.with_message("Unknown Layout")
.with_label(
Label::new((token.source(), name.range()))
.with_message(format!(
"Cannot find layout `{}`",
trimmed.fg(parser.colors().highlight)
))
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
}
Some(layout_type) => layout_type,
};
parser.push(
document,
Box::new(Layout {
location: token.clone(),
layout: layout_type.clone(),
id: 0,
token: LayoutToken::BEGIN,
}),
);
state
.borrow_mut()
.downcast_mut::<LayoutState>()
.map_or_else(
|| panic!("Invalid state at: `{}`", STATE_NAME.as_str()),
|s| s.stack.push((vec![token.clone()], layout_type.clone())),
);
}
};
return reports;
}
let (id, token_type, layout_type) = if index == 1
// LAYOUT_NEXT
{
let mut state_borrow = state.borrow_mut();
let state = state_borrow.downcast_mut::<LayoutState>().unwrap();
let (tokens, layout_type) = match state.stack.last_mut() {
None => {
reports.push(
Report::build(ReportKind::Error, token.source(), token.start())
.with_message("Invalid #+LAYOUT_NEXT")
.with_label(
Label::new((token.source(), token.range.clone()))
.with_message("No active layout found".to_string())
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
}
Some(last) => last,
};
if layout_type.expects().end >= tokens.len()
// Too many blocks
{
reports.push(
Report::build(ReportKind::Error, token.source(), token.start())
.with_message("Unexpected #+LAYOUT_NEXT")
.with_label(
Label::new((token.source(), token.range.clone()))
.with_message(format!(
"Layout expects a maximum of {} blocks, currently at {}",
layout_type.expects().end.fg(parser.colors().info),
tokens.len().fg(parser.colors().info),
))
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
}
tokens.push(token.clone());
(tokens.len() - 1, LayoutToken::NEXT, layout_type.clone())
} else {
// LAYOUT_END
let mut state_borrow = state.borrow_mut();
let state = state_borrow.downcast_mut::<LayoutState>().unwrap();
let (tokens, layout_type) = match state.stack.last_mut() {
None => {
reports.push(
Report::build(ReportKind::Error, token.source(), token.start())
.with_message("Invalid #+LAYOUT_END")
.with_label(
Label::new((token.source(), token.range.clone()))
.with_message("No active layout found".to_string())
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
}
Some(last) => last,
};
if layout_type.expects().start < tokens.len()
// Not enough blocks
{
reports.push(
Report::build(ReportKind::Error, token.source(), token.start())
.with_message("Unexpected #+LAYOUT_END")
.with_label(
Label::new((token.source(), token.range.clone()))
.with_message(format!(
"Layout expects a minimum of {} blocks, currently at {}",
layout_type.expects().start.fg(parser.colors().info),
tokens.len().fg(parser.colors().info),
))
.with_color(parser.colors().error),
)
.finish(),
);
return reports;
}
let layout_type = layout_type.clone();
let id = tokens.len();
state.stack.pop();
(id, LayoutToken::END, layout_type)
};
parser.push(
document,
Box::new(Layout {
location: token,
layout: layout_type,
id,
token: token_type,
}),
);
return reports;
}
// TODO
fn lua_bindings<'lua>(&self, _lua: &'lua Lua) -> Option<Vec<(String, Function<'lua>)>> { None }
}

View file

@ -1,17 +1,18 @@
pub mod registrar;
pub mod text;
pub mod comment;
pub mod paragraph;
pub mod variable;
pub mod import;
pub mod script;
pub mod list;
pub mod style;
pub mod section;
pub mod link;
pub mod code; pub mod code;
pub mod tex; pub mod comment;
pub mod graphviz; pub mod graphviz;
pub mod raw; pub mod import;
pub mod layout;
pub mod link;
pub mod list;
pub mod media; pub mod media;
pub mod paragraph;
pub mod raw;
pub mod reference; pub mod reference;
pub mod registrar;
pub mod script;
pub mod section;
pub mod style;
pub mod tex;
pub mod text;
pub mod variable;

View file

@ -33,16 +33,6 @@ struct Raw {
pub(self) content: String, pub(self) content: String,
} }
impl Raw {
fn new(location: Token, kind: ElemKind, content: String) -> Self {
Self {
location,
kind,
content,
}
}
}
impl Element for Raw { impl Element for Raw {
fn location(&self) -> &Token { &self.location } fn location(&self) -> &Token { &self.location }
fn kind(&self) -> ElemKind { self.kind.clone() } fn kind(&self) -> ElemKind { self.kind.clone() }

View file

@ -4,6 +4,7 @@ use super::code::CodeRule;
use super::comment::CommentRule; use super::comment::CommentRule;
use super::graphviz::GraphRule; use super::graphviz::GraphRule;
use super::import::ImportRule; use super::import::ImportRule;
use super::layout::LayoutRule;
use super::link::LinkRule; use super::link::LinkRule;
use super::list::ListRule; use super::list::ListRule;
use super::media::MediaRule; use super::media::MediaRule;
@ -31,6 +32,7 @@ pub fn register<P: Parser>(parser: &mut P) {
parser.add_rule(Box::new(TexRule::new()), None).unwrap(); parser.add_rule(Box::new(TexRule::new()), None).unwrap();
parser.add_rule(Box::new(GraphRule::new()), None).unwrap(); parser.add_rule(Box::new(GraphRule::new()), None).unwrap();
parser.add_rule(Box::new(MediaRule::new()), None).unwrap(); parser.add_rule(Box::new(MediaRule::new()), None).unwrap();
parser.add_rule(Box::new(LayoutRule::new()), None).unwrap();
parser.add_rule(Box::new(StyleRule::new()), None).unwrap(); parser.add_rule(Box::new(StyleRule::new()), None).unwrap();
parser.add_rule(Box::new(SectionRule::new()), None).unwrap(); parser.add_rule(Box::new(SectionRule::new()), None).unwrap();

View file

@ -1,10 +1,27 @@
use mlua::{Function, Lua}; use crate::compiler::compiler::Compiler;
use regex::{Captures, Regex}; use crate::compiler::compiler::Target;
use crate::{compiler::compiler::{Compiler, Target}, document::{document::{DocumentAccessors, Document}, element::{ElemKind, Element}}, parser::{parser::Parser, rule::RegexRule, source::{Source, Token}, state::State}}; use crate::document::document::Document;
use ariadne::{Fmt, Label, Report, ReportKind}; use crate::document::document::DocumentAccessors;
use crate::document::element::ElemKind;
use crate::document::element::Element;
use crate::parser::parser::Parser;
use crate::parser::rule::RegexRule;
use crate::parser::source::Source;
use crate::parser::source::Token;
use crate::parser::state::Scope; use crate::parser::state::Scope;
use std::{cell::RefCell, ops::Range, rc::Rc}; use crate::parser::state::State;
use ariadne::Fmt;
use ariadne::Label;
use ariadne::Report;
use ariadne::ReportKind;
use lazy_static::lazy_static; use lazy_static::lazy_static;
use mlua::Function;
use mlua::Lua;
use regex::Captures;
use regex::Regex;
use std::cell::RefCell;
use std::ops::Range;
use std::rc::Rc;
use super::paragraph::Paragraph; use super::paragraph::Paragraph;
@ -15,101 +32,118 @@ pub struct Style {
close: bool, close: bool,
} }
impl Style impl Style {
{
pub fn new(location: Token, kind: usize, close: bool) -> Self { pub fn new(location: Token, kind: usize, close: bool) -> Self {
Self { location, kind, close } Self {
location,
kind,
close,
}
} }
} }
impl Element for Style impl Element for Style {
{
fn location(&self) -> &Token { &self.location } fn location(&self) -> &Token { &self.location }
fn kind(&self) -> ElemKind { ElemKind::Inline } fn kind(&self) -> ElemKind { ElemKind::Inline }
fn element_name(&self) -> &'static str { "Section" } fn element_name(&self) -> &'static str { "Section" }
fn to_string(&self) -> String { format!("{self:#?}") } fn to_string(&self) -> String { format!("{self:#?}") }
fn compile(&self, compiler: &Compiler, _document: &dyn Document) -> Result<String, String> { fn compile(&self, compiler: &Compiler, _document: &dyn Document) -> Result<String, String> {
match compiler.target() match compiler.target() {
{
Target::HTML => { Target::HTML => {
Ok([ Ok([
// Bold // Bold
"<b>", "</b>", "<b>", "</b>", // Italic
// Italic "<i>", "</i>", // Underline
"<i>", "</i>", "<u>", "</u>", // Code
// Underline
"<u>", "</u>",
// Code
"<em>", "</em>", "<em>", "</em>",
][self.kind*2 + self.close as usize].to_string()) ][self.kind * 2 + self.close as usize]
.to_string())
} }
Target::LATEX => Err("Unimplemented compiler".to_string()) Target::LATEX => Err("Unimplemented compiler".to_string()),
} }
} }
} }
struct StyleState struct StyleState {
{ toggled: [Option<Token>; 4],
toggled: [Option<Token>; 4]
} }
impl StyleState { impl StyleState {
const NAMES : [&'static str; 4] = ["Bold", "Italic", "Underline", "Code"]; const NAMES: [&'static str; 4] = ["Bold", "Italic", "Underline", "Code"];
fn new() -> Self { fn new() -> Self {
Self { toggled: [None, None, None, None] } Self {
toggled: [None, None, None, None],
}
} }
} }
impl State for StyleState impl State for StyleState {
{
fn scope(&self) -> Scope { Scope::PARAGRAPH } fn scope(&self) -> Scope { Scope::PARAGRAPH }
fn on_remove<'a>(&self, parser: &dyn Parser, document: &dyn Document) -> Vec<Report<'a, (Rc<dyn Source>, Range<usize>)>> { fn on_remove<'a>(
let mut result = Vec::new(); &self,
parser: &dyn Parser,
document: &dyn Document,
) -> Vec<Report<'a, (Rc<dyn Source>, Range<usize>)>> {
let mut reports = vec![];
self.toggled self.toggled
.iter() .iter()
.zip(StyleState::NAMES) .zip(StyleState::NAMES)
.for_each(|(token, name)| .for_each(|(token, name)| {
{ if token.is_none() {
if token.is_none() { return } // Style not enabled return;
let token = token.as_ref().unwrap(); } // Style not enabled
let token = token.as_ref().unwrap();
//let range = range.as_ref().unwrap(); //let range = range.as_ref().unwrap();
//let active_range = range.start .. paragraph.location().end()-1; //let active_range = range.start .. paragraph.location().end()-1;
let paragraph = document.last_element::<Paragraph>().unwrap(); let paragraph = document.last_element::<Paragraph>().unwrap();
let paragraph_end = paragraph.content.last() let paragraph_end = paragraph
.and_then(|last| Some((last.location().source(), last.location().end()-1 .. last.location().end()))) .content
.unwrap(); .last()
.and_then(|last| {
Some((
last.location().source(),
last.location().end() - 1..last.location().end(),
))
})
.unwrap();
// TODO: Allow style to span multiple documents if they don't break paragraph. // TODO: Allow style to span multiple documents if they don't break paragraph.
result.push( reports.push(
Report::build(ReportKind::Error, token.source(), token.start()) Report::build(ReportKind::Error, token.source(), token.start())
.with_message("Unterminated style") .with_message("Unterminated style")
//.with_label( //.with_label(
// Label::new((document.source(), active_range.clone())) // Label::new((document.source(), active_range.clone()))
// .with_order(0) // .with_order(0)
// .with_message(format!("Style {} is not terminated before the end of paragraph", // .with_message(format!("Style {} is not terminated before the end of paragraph",
// name.fg(parser.colors().info))) // name.fg(parser.colors().info)))
// .with_color(parser.colors().error)) // .with_color(parser.colors().error))
.with_label( .with_label(
Label::new((token.source(), token.range.clone())) Label::new((token.source(), token.range.clone()))
.with_order(1) .with_order(1)
.with_message(format!("Style {} starts here", .with_message(format!(
name.fg(parser.colors().info))) "Style {} starts here",
.with_color(parser.colors().info)) name.fg(parser.colors().info)
.with_label( ))
Label::new(paragraph_end) .with_color(parser.colors().info),
.with_order(1) )
.with_message(format!("Paragraph ends here")) .with_label(
.with_color(parser.colors().info)) Label::new(paragraph_end)
.with_note("Styles cannot span multiple documents (i.e @import)") .with_order(1)
.finish()); .with_message(format!("Paragraph ends here"))
}); .with_color(parser.colors().info),
)
.with_note("Styles cannot span multiple documents (i.e @import)")
.finish(),
);
});
return result; return reports;
} }
} }
@ -128,31 +162,37 @@ impl StyleRule {
// Underline // Underline
Regex::new(r"__").unwrap(), Regex::new(r"__").unwrap(),
// Code // Code
Regex::new(r"`").unwrap() Regex::new(r"`").unwrap(),
] ],
} }
} }
} }
lazy_static! { lazy_static! {
static ref STATE_NAME : String = "elements.style".to_string(); static ref STATE_NAME: String = "elements.style".to_string();
} }
impl RegexRule for StyleRule impl RegexRule for StyleRule {
{
fn name(&self) -> &'static str { "Style" } fn name(&self) -> &'static str { "Style" }
fn regexes(&self) -> &[regex::Regex] { &self.re } fn regexes(&self) -> &[regex::Regex] { &self.re }
fn on_regex_match(&self, index: usize, parser: &dyn Parser, document: &dyn Document, token: Token, _matches: Captures) -> Vec<Report<(Rc<dyn Source>, Range<usize>)>> { fn on_regex_match(
let result = vec![]; &self,
index: usize,
parser: &dyn Parser,
document: &dyn Document,
token: Token,
_matches: Captures,
) -> Vec<Report<(Rc<dyn Source>, Range<usize>)>> {
let query = parser.state().query(&STATE_NAME); let query = parser.state().query(&STATE_NAME);
let state = match query let state = match query {
{
Some(state) => state, Some(state) => state,
None => { // Insert as a new state None => {
match parser.state_mut().insert(STATE_NAME.clone(), Rc::new(RefCell::new(StyleState::new()))) // Insert as a new state
match parser
.state_mut()
.insert(STATE_NAME.clone(), Rc::new(RefCell::new(StyleState::new())))
{ {
Err(_) => panic!("Unknown error"), Err(_) => panic!("Unknown error"),
Ok(state) => state, Ok(state) => state,
@ -160,26 +200,23 @@ impl RegexRule for StyleRule
} }
}; };
if let Some(style_state) = state if let Some(style_state) = state.borrow_mut().as_any_mut().downcast_mut::<StyleState>() {
.borrow_mut() style_state.toggled[index] = style_state.toggled[index]
.as_any_mut() .clone()
.downcast_mut::<StyleState>() .map_or(Some(token.clone()), |_| None);
{ parser.push(
style_state.toggled[index] = style_state.toggled[index].clone().map_or(Some(token.clone()), |_| None); document,
parser.push(document, Box::new( Box::new(Style::new(
Style::new(
token.clone(), token.clone(),
index, index,
!style_state.toggled[index].is_some() !style_state.toggled[index].is_some(),
) )),
)); );
} } else {
else
{
panic!("Invalid state at `{}`", STATE_NAME.as_str()); panic!("Invalid state at `{}`", STATE_NAME.as_str());
} }
return result; return vec![];
} }
// TODO // TODO

View file

@ -189,7 +189,7 @@ impl Element for Tex {
Tex::format_latex(&fontsize, &preamble, &format!("{prepend}{}", self.tex)) Tex::format_latex(&fontsize, &preamble, &format!("{prepend}{}", self.tex))
}; };
let mut result = if let Some(mut con) = compiler.cache() { let result = if let Some(mut con) = compiler.cache() {
match latex.cached(&mut con, |s| s.latex_to_svg(&exec, &fontsize)) { match latex.cached(&mut con, |s| s.latex_to_svg(&exec, &fontsize)) {
Ok(s) => Ok(s), Ok(s) => Ok(s),
Err(e) => match e { Err(e) => match e {
@ -387,7 +387,7 @@ impl RegexRule for TexRule {
); );
return reports; return reports;
} }
PropertyMapError::NotFoundError(err) => { PropertyMapError::NotFoundError(_) => {
if index == 1 { if index == 1 {
TexKind::Inline TexKind::Inline
} else { } else {

View file

@ -199,7 +199,7 @@ fn main() -> ExitCode {
let input_meta = match std::fs::metadata(&input) { let input_meta = match std::fs::metadata(&input) {
Ok(meta) => meta, Ok(meta) => meta,
Err(e) => { Err(e) => {
eprintln!("Unable to get metadata for input: `{input}`"); eprintln!("Unable to get metadata for input `{input}`: {e}");
return ExitCode::FAILURE; return ExitCode::FAILURE;
} }
}; };
@ -218,7 +218,7 @@ fn main() -> ExitCode {
match std::fs::metadata(&output) { match std::fs::metadata(&output) {
Ok(_) => {} Ok(_) => {}
Err(e) => { Err(e) => {
eprintln!("Unable to get metadata for output: `{output}`"); eprintln!("Unable to get metadata for output `{output}`: {e}");
return ExitCode::FAILURE; return ExitCode::FAILURE;
} }
} }
@ -226,7 +226,7 @@ fn main() -> ExitCode {
let output_meta = match std::fs::metadata(&output) { let output_meta = match std::fs::metadata(&output) {
Ok(meta) => meta, Ok(meta) => meta,
Err(e) => { Err(e) => {
eprintln!("Unable to get metadata for output: `{output}`"); eprintln!("Unable to get metadata for output `{output}`: {e}");
return ExitCode::FAILURE; return ExitCode::FAILURE;
} }
}; };
@ -302,7 +302,7 @@ fn main() -> ExitCode {
} }
} }
Err(e) => { Err(e) => {
eprintln!("Faield to get metadata for `{entry:#?}`"); eprintln!("Faield to get metadata for `{entry:#?}`: {e}");
return ExitCode::FAILURE; return ExitCode::FAILURE;
} }
} }