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//! The syntax tree.
use std::fmt::{self, Debug, Formatter};
use super::decoration::Decoration;
use super::span::{SpanVec, Spanned};
use crate::color::RgbaColor;
use crate::compute::table::{SpannedEntry, Table};
use crate::compute::value::{TableValue, Value};
use crate::layout::LayoutContext;
use crate::length::Length;
use crate::parse::is_identifier;
use crate::{DynFuture, Feedback};
/// A collection of nodes which form a tree together with the nodes' children.
pub type SyntaxTree = SpanVec<SyntaxNode>;
/// A syntax node, which encompasses a single logical entity of parsed source
/// code.
#[derive(Debug, Clone, PartialEq)]
pub enum SyntaxNode {
/// Whitespace containing less than two newlines.
Spacing,
/// A forced line break.
Linebreak,
/// A paragraph break.
Parbreak,
/// Italics were enabled / disabled.
ToggleItalic,
/// Bolder was enabled / disabled.
ToggleBolder,
/// Plain text.
Text(String),
/// Section headings.
Heading(Heading),
/// Lines of raw text.
Raw(Vec<String>),
/// An optionally highlighted (multi-line) code block.
Code(Code),
/// A function call.
Call(CallExpr),
}
/// A section heading.
#[derive(Debug, Clone, PartialEq)]
pub struct Heading {
/// The section depth (how many hashtags minus 1).
pub level: Spanned<u8>,
pub tree: SyntaxTree,
}
/// A code block.
#[derive(Debug, Clone, PartialEq)]
pub struct Code {
pub lang: Option<Spanned<Ident>>,
pub lines: Vec<String>,
pub block: bool,
}
/// An expression.
#[derive(Clone, PartialEq)]
pub enum Expr {
/// An identifier: `ident`.
Ident(Ident),
/// A string: `"string"`.
Str(String),
/// A boolean: `true, false`.
Bool(bool),
/// A number: `1.2, 200%`.
Number(f64),
/// A length: `2cm, 5.2in`.
Length(Length),
/// A color value with alpha channel: `#f79143ff`.
Color(RgbaColor),
/// A table expression: `(false, 12cm, greeting="hi")`.
Table(TableExpr),
/// A syntax tree containing typesetting content.
Tree(SyntaxTree),
/// A function call expression: `cmyk(37.7, 0, 3.9, 1.1)`.
Call(CallExpr),
/// An operation that negates the contained expression.
Neg(Box<Spanned<Expr>>),
/// An operation that adds the contained expressions.
Add(Box<Spanned<Expr>>, Box<Spanned<Expr>>),
/// An operation that subtracts the contained expressions.
Sub(Box<Spanned<Expr>>, Box<Spanned<Expr>>),
/// An operation that multiplies the contained expressions.
Mul(Box<Spanned<Expr>>, Box<Spanned<Expr>>),
/// An operation that divides the contained expressions.
Div(Box<Spanned<Expr>>, Box<Spanned<Expr>>),
}
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",
Bool(_) => "bool",
Number(_) => "number",
Length(_) => "length",
Color(_) => "color",
Table(_) => "table",
Tree(_) => "syntax tree",
Call(_) => "function call",
Neg(_) => "negation",
Add(_, _) => "addition",
Sub(_, _) => "subtraction",
Mul(_, _) => "multiplication",
Div(_, _) => "division",
}
}
/// Evaluate the expression to a value.
pub async fn eval(&self, ctx: &LayoutContext<'_>, f: &mut Feedback) -> Value {
use Expr::*;
match self {
Ident(i) => Value::Ident(i.clone()),
Str(s) => Value::Str(s.clone()),
&Bool(b) => Value::Bool(b),
&Number(n) => Value::Number(n),
&Length(s) => Value::Length(s),
&Color(c) => Value::Color(c),
Table(t) => Value::Table(t.eval(ctx, f).await),
Tree(t) => Value::Tree(t.clone()),
Call(call) => call.eval(ctx, f).await,
Neg(_) => todo!("eval neg"),
Add(_, _) => todo!("eval add"),
Sub(_, _) => todo!("eval sub"),
Mul(_, _) => todo!("eval mul"),
Div(_, _) => todo!("eval div"),
}
}
}
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),
Bool(b) => b.fmt(f),
Number(n) => n.fmt(f),
Length(s) => s.fmt(f),
Color(c) => c.fmt(f),
Table(t) => t.fmt(f),
Tree(t) => t.fmt(f),
Call(c) => c.fmt(f),
Neg(e) => write!(f, "-{:?}", e),
Add(a, b) => write!(f, "({:?} + {:?})", a, b),
Sub(a, b) => write!(f, "({:?} - {:?})", a, b),
Mul(a, b) => write!(f, "({:?} * {:?})", a, b),
Div(a, b) => write!(f, "({:?} / {:?})", a, b),
}
}
}
/// An identifier as defined by unicode with a few extra permissible characters.
#[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 a valid.
pub fn new(ident: impl AsRef<str> + Into<String>) -> Option<Self> {
if is_identifier(ident.as_ref()) {
Some(Self(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 {
write!(f, "`{}`", self.0)
}
}
/// A table of expressions.
///
/// # Example
/// ```typst
/// (false, 12cm, greeting="hi")
/// ```
pub type TableExpr = Table<SpannedEntry<Expr>>;
impl TableExpr {
/// Evaluate the table expression to a table value.
pub fn eval<'a>(
&'a self,
ctx: &'a LayoutContext<'a>,
f: &'a mut Feedback,
) -> DynFuture<'a, TableValue> {
Box::pin(async move {
let mut table = TableValue::new();
for (key, entry) in self.iter() {
let val = entry.val.v.eval(ctx, f).await;
let spanned = Spanned::new(val, entry.val.span);
let entry = SpannedEntry::new(entry.key, spanned);
table.insert(key, entry);
}
table
})
}
}
/// An invocation of a function.
#[derive(Debug, Clone, PartialEq)]
pub struct CallExpr {
pub name: Spanned<Ident>,
pub args: TableExpr,
}
impl CallExpr {
/// Evaluate the call expression to a value.
pub async fn eval(&self, ctx: &LayoutContext<'_>, f: &mut Feedback) -> Value {
let name = self.name.v.as_str();
let span = self.name.span;
let args = self.args.eval(ctx, f).await;
if let Some(func) = ctx.scope.func(name) {
let pass = func(span, args, ctx.clone()).await;
f.extend(pass.feedback);
f.decorations.push(Spanned::new(Decoration::Resolved, span));
pass.output
} else {
if !name.is_empty() {
error!(@f, span, "unknown function");
f.decorations.push(Spanned::new(Decoration::Unresolved, span));
}
Value::Table(args)
}
}
}
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