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//! Expressions in function headers.
use std::fmt::{self, Debug, Formatter};
use crate::error::Errors;
use crate::size::Size;
use super::func::{Key, Value};
use super::span::{Span, Spanned};
use super::tokens::is_identifier;
/// An argument or return value.
#[derive(Clone, PartialEq)]
pub enum Expr {
/// An identifier: `ident`.
Ident(Ident),
/// A string: `"string"`.
Str(String),
/// A number: `1.2, 200%`.
Number(f64),
/// A size: `2cm, 5.2in`.
Size(Size),
/// A bool: `true, false`.
Bool(bool),
/// A tuple: `(false, 12cm, "hi")`.
Tuple(Tuple),
/// An object: `{ fit: false, size: 12pt }`.
Object(Object),
}
impl Expr {
/// A natural-language name of the type of this expression, e.g. "identifier".
pub fn name(&self) -> &'static str {
use Expr::*;
match self {
Ident(_) => "identifier",
Str(_) => "string",
Number(_) => "number",
Size(_) => "size",
Bool(_) => "bool",
Tuple(_) => "tuple",
Object(_) => "object",
}
}
}
impl Debug for Expr {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
use Expr::*;
match self {
Ident(i) => i.fmt(f),
Str(s) => s.fmt(f),
Number(n) => n.fmt(f),
Size(s) => s.fmt(f),
Bool(b) => b.fmt(f),
Tuple(t) => t.fmt(f),
Object(o) => o.fmt(f),
}
}
}
/// A unicode identifier.
///
/// The identifier must be valid! This is checked in [`Ident::new`] or
/// [`is_identifier`].
///
/// # Example
/// ```typst
/// [func: "hi", ident]
/// ^^^^ ^^^^^
/// ```
#[derive(Clone, Eq, PartialEq, Ord, PartialOrd, Hash)]
pub struct Ident(pub String);
impl Ident {
/// Create a new identifier from a string checking that it is valid.
pub fn new<S>(ident: S) -> Option<Ident> where S: AsRef<str> + Into<String> {
if is_identifier(ident.as_ref()) {
Some(Ident(ident.into()))
} else {
None
}
}
/// Return a reference to the underlying string.
pub fn as_str(&self) -> &str {
self.0.as_str()
}
}
impl Debug for Ident {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
f.write_str(&self.0)
}
}
/// An untyped sequence of expressions.
///
/// # Example
/// ```typst
/// (false, 12cm, "hi")
/// ```
#[derive(Default, Clone, PartialEq)]
pub struct Tuple {
/// The elements of the tuple.
pub items: Vec<Spanned<Expr>>,
}
impl Tuple {
/// Create an empty tuple.
pub fn new() -> Tuple {
Tuple { items: vec![] }
}
/// Add an element.
pub fn add(&mut self, item: Spanned<Expr>) {
self.items.push(item);
}
/// Extract (and remove) the first matching value and remove and generate
/// errors for all previous items that did not match.
pub fn get<V: Value>(&mut self, errors: &mut Errors) -> Option<V::Output> {
while !self.items.is_empty() {
let expr = self.items.remove(0);
let span = expr.span;
match V::parse(expr) {
Ok(output) => return Some(output),
Err(err) => errors.push(Spanned { v: err, span }),
}
}
None
}
/// Extract and return an iterator over all values that match and generate
/// errors for all items that do not match.
pub fn get_all<'a, V: Value>(&'a mut self, errors: &'a mut Errors)
-> impl Iterator<Item=V::Output> + 'a {
self.items.drain(..).filter_map(move |expr| {
let span = expr.span;
match V::parse(expr) {
Ok(output) => Some(output),
Err(err) => { errors.push(Spanned { v: err, span }); None }
}
})
}
}
impl Debug for Tuple {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
let mut tuple = f.debug_tuple("");
for item in &self.items {
tuple.field(item);
}
tuple.finish()
}
}
/// A key-value collection of identifiers and associated expressions.
///
/// The pairs themselves are not spanned, but the combined spans can easily be
/// retrieved by merging the spans of key and value as happening in
/// [`FuncArg::span`](super::func::FuncArg::span).
///
/// # Example
/// ```typst
/// { fit: false, size: 12cm, items: (1, 2, 3) }
/// ```
#[derive(Default, Clone, PartialEq)]
pub struct Object {
/// The key-value pairs of the object.
pub pairs: Vec<Pair>,
}
/// A key-value pair in an object.
#[derive(Debug, Clone, PartialEq)]
pub struct Pair {
/// The key part.
/// ```typst
/// key: value
/// ^^^
/// ```
pub key: Spanned<Ident>,
/// The value part.
/// ```typst
/// key: value
/// ^^^^^
/// ```
pub value: Spanned<Expr>,
}
impl Object {
/// Create an empty object.
pub fn new() -> Object {
Object { pairs: vec![] }
}
/// Add a pair to object.
pub fn add(&mut self, pair: Pair) {
self.pairs.push(pair);
}
/// Extract (and remove) a pair with the given key string and matching
/// value.
///
/// Inserts an error if the value does not match. If the key is not
/// contained, no error is inserted.
pub fn get<V: Value>(&mut self, errors: &mut Errors, key: &str) -> Option<V::Output> {
let index = self.pairs.iter().position(|pair| pair.key.v.as_str() == key)?;
self.get_index::<V>(errors, index)
}
/// Extract (and remove) a pair with a matching key and value.
///
/// Inserts an error if the value does not match. If no matching key is
/// found, no error is inserted.
pub fn get_with_key<K: Key, V: Value>(
&mut self,
errors: &mut Errors,
) -> Option<(K::Output, V::Output)> {
for (index, pair) in self.pairs.iter().enumerate() {
let key = Spanned { v: pair.key.v.as_str(), span: pair.key.span };
if let Some(key) = K::parse(key) {
return self.get_index::<V>(errors, index).map(|value| (key, value));
}
}
None
}
/// Extract (and remove) all pairs with matching keys and values.
///
/// Inserts errors for values that do not match.
pub fn get_all<'a, K: Key, V: Value>(
&'a mut self,
errors: &'a mut Errors,
) -> impl Iterator<Item=(K::Output, V::Output)> + 'a {
let mut index = 0;
std::iter::from_fn(move || {
if index < self.pairs.len() {
let key = &self.pairs[index].key;
let key = Spanned { v: key.v.as_str(), span: key.span };
Some(if let Some(key) = K::parse(key) {
self.get_index::<V>(errors, index).map(|v| (key, v))
} else {
index += 1;
None
})
} else {
None
}
}).filter_map(|x| x)
}
/// Extract all key value pairs with span information.
///
/// The spans are over both key and value, like so:
/// ```typst
/// { key: value }
/// ^^^^^^^^^^
/// ```
pub fn get_all_spanned<'a, K: Key + 'a, V: Value + 'a>(
&'a mut self,
errors: &'a mut Errors,
) -> impl Iterator<Item=Spanned<(K::Output, V::Output)>> + 'a {
self.get_all::<Spanned<K>, Spanned<V>>(errors)
.map(|(k, v)| Spanned::new((k.v, v.v), Span::merge(k.span, v.span)))
}
/// Extract the argument at the given index and insert an error if the value
/// does not match.
fn get_index<V: Value>(&mut self, errors: &mut Errors, index: usize) -> Option<V::Output> {
let expr = self.pairs.remove(index).value;
let span = expr.span;
match V::parse(expr) {
Ok(output) => Some(output),
Err(err) => { errors.push(Spanned { v: err, span }); None }
}
}
}
impl Debug for Object {
fn fmt(&self, f: &mut Formatter) -> fmt::Result {
f.debug_map()
.entries(self.pairs.iter().map(|p| (&p.key.v, &p.value.v)))
.finish()
}
}
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