use std::str::FromStr; use crate::compute::{Numbering, NumberingPattern}; use crate::layout::{BlockNode, GridNode, ParNode, Sizing, Spacing}; use crate::prelude::*; /// # Numbered List /// A numbered list. /// /// Displays a sequence of items vertically and numbers them consecutively. /// /// ## Example /// ```example /// Automatically numbered: /// + Preparations /// + Analysis /// + Conclusions /// /// Manually numbered: /// 2. What is the first step? /// 5. I am confused. /// + Moving on ... /// /// Function call. /// #enum[First][Second] /// ``` /// /// You can easily switch all your enumerations to a different numbering style /// with a set rule. /// ```example /// #set enum(numbering: "a)") /// /// + Starting off ... /// + Don't forget step two /// ``` /// /// ## Syntax /// This functions also has dedicated syntax: /// /// - Starting a line with a plus sign creates an automatically numbered /// enumeration item. /// - Starting a line with a number followed by a dot creates an explicitly /// numbered enumeration item. /// /// Enumeration items can contain multiple paragraphs and other block-level /// content. All content that is indented more than an item's plus sign or dot /// becomes part of that item. /// /// ## Parameters /// - items: `Content` (positional, variadic) /// The enumeration's children. /// /// When using the enum syntax, adjacent items are automatically collected /// into enumerations, even through constructs like for loops. /// /// ```example /// #for phase in ( /// "Launch", /// "Orbit", /// "Descent", /// ) [+ #phase] /// ``` /// /// - start: `NonZeroUsize` (named) /// Which number to start the enumeration with. /// /// ```example /// #enum( /// start: 3, /// [Skipping], /// [Ahead], /// ) /// ``` /// /// - tight: `bool` (named) /// If this is `{false}`, the items are spaced apart with /// [enum spacing]($func/enum.spacing). If it is `{true}`, they use normal /// [leading]($func/par.leading) instead. This makes the enumeration more /// compact, which can look better if the items are short. /// /// ```example /// + If an enum has a lot of text, and /// maybe other inline content, it /// should not be tight anymore. /// /// + To make an enum wide, simply /// insert a blank line between the /// items. /// ``` /// /// ## Category /// layout #[func] #[capable(Layout)] #[derive(Debug, Hash)] pub struct EnumNode { /// If true, the items are separated by leading instead of list spacing. pub tight: bool, /// The individual numbered items. pub items: StyleVec<(Option, Content)>, } #[node] impl EnumNode { /// How to number the enumeration. Accepts a /// [numbering pattern or function]($func/numbering). /// /// ```example /// #set enum(numbering: "(a)") /// + Different /// + Numbering /// + Style /// /// #set enum(numbering: n => super[#n]) /// + Superscript /// + Numbering! /// ``` #[property(referenced)] pub const NUMBERING: Numbering = Numbering::Pattern(NumberingPattern::from_str("1.").unwrap()); /// The indentation of each item's label. #[property(resolve)] pub const INDENT: Length = Length::zero(); /// The space between the numbering and the body of each item. #[property(resolve)] pub const BODY_INDENT: Length = Em::new(0.5).into(); /// The spacing between the items of a wide (non-tight) enumeration. /// /// If set to `{auto}` uses the spacing [below blocks]($func/block.below). pub const SPACING: Smart = Smart::Auto; fn construct(_: &Vm, args: &mut Args) -> SourceResult { let mut number: NonZeroUsize = args.named("start")?.unwrap_or(NonZeroUsize::new(1).unwrap()); Ok(Self { tight: args.named("tight")?.unwrap_or(true), items: args .all()? .into_iter() .map(|body| { let item = (Some(number), body); number = number.saturating_add(1); item }) .collect(), } .pack()) } fn field(&self, name: &str) -> Option { match name { "tight" => Some(Value::Bool(self.tight)), "items" => Some(Value::Array( self.items .items() .map(|(number, body)| { Value::Dict(dict! { "number" => match *number { Some(n) => Value::Int(n.get() as i64), None => Value::None, }, "body" => Value::Content(body.clone()), }) }) .collect(), )), _ => None, } } } impl Layout for EnumNode { fn layout( &self, vt: &mut Vt, styles: StyleChain, regions: Regions, ) -> SourceResult { let numbering = styles.get(Self::NUMBERING); let indent = styles.get(Self::INDENT); let body_indent = styles.get(Self::BODY_INDENT); let gutter = if self.tight { styles.get(ParNode::LEADING).into() } else { styles .get(Self::SPACING) .unwrap_or_else(|| styles.get(BlockNode::BELOW).amount) }; let mut cells = vec![]; let mut number = NonZeroUsize::new(1).unwrap(); for ((n, item), map) in self.items.iter() { number = n.unwrap_or(number); let resolved = numbering.apply(vt.world(), &[number])?.display(); cells.push(Content::empty()); cells.push(resolved.styled_with_map(map.clone())); cells.push(Content::empty()); cells.push(item.clone().styled_with_map(map.clone())); number = number.saturating_add(1); } GridNode { tracks: Axes::with_x(vec![ Sizing::Rel(indent.into()), Sizing::Auto, Sizing::Rel(body_indent.into()), Sizing::Auto, ]), gutter: Axes::with_y(vec![gutter.into()]), cells, } .layout(vt, styles, regions) } }