diff options
Diffstat (limited to 'library')
42 files changed, 8942 insertions, 0 deletions
diff --git a/library/Cargo.toml b/library/Cargo.toml new file mode 100644 index 00000000..18f4779c --- /dev/null +++ b/library/Cargo.toml @@ -0,0 +1,26 @@ +[package] +name = "typst-library" +version = "0.1.0" +authors = ["The Typst Project Developers"] +edition = "2021" + +[dependencies] +typst = { path = ".." } +comemo = "0.1" +csv = "1" +hypher = "0.1" +kurbo = "0.8" +lipsum = { git = "https://github.com/reknih/lipsum" } +once_cell = "1" +rex = { git = "https://github.com/laurmaedje/ReX" } +roxmltree = "0.14" +rustybuzz = "0.5" +serde_json = "1" +syntect = { version = "5", default-features = false, features = ["default-syntaxes", "regex-fancy"] } +ttf-parser = "0.17" +typed-arena = "2" +unicode-bidi = "0.3.5" +unicode-math = { git = "https://github.com/s3bk/unicode-math/" } +unicode-script = "0.5" +unscanny = "0.1" +xi-unicode = "0.3" diff --git a/library/src/ext.rs b/library/src/ext.rs new file mode 100644 index 00000000..72ef484b --- /dev/null +++ b/library/src/ext.rs @@ -0,0 +1,181 @@ +use super::*; +use crate::prelude::*; + +/// Additional methods on content. +pub trait ContentExt { + /// Make this content strong. + fn strong(self) -> Self; + + /// Make this content emphasized. + fn emph(self) -> Self; + + /// Underline this content. + fn underlined(self) -> Self; + + /// Add weak vertical spacing above and below the content. + fn spaced(self, above: Option<Abs>, below: Option<Abs>) -> Self; + + /// Force a size for this content. + fn boxed(self, sizing: Axes<Option<Rel<Length>>>) -> Self; + + /// Set alignments for this content. + fn aligned(self, aligns: Axes<Option<GenAlign>>) -> Self; + + /// Pad this content at the sides. + fn padded(self, padding: Sides<Rel<Length>>) -> Self; + + /// Transform this content's contents without affecting layout. + fn moved(self, delta: Axes<Rel<Length>>) -> Self; + + /// Fill the frames resulting from a content. + fn filled(self, fill: Paint) -> Self; + + /// Stroke the frames resulting from a content. + fn stroked(self, stroke: Stroke) -> Self; +} + +impl ContentExt for Content { + fn strong(self) -> Self { + text::StrongNode(self).pack() + } + + fn emph(self) -> Self { + text::EmphNode(self).pack() + } + + fn underlined(self) -> Self { + text::DecoNode::<{ text::UNDERLINE }>(self).pack() + } + + fn spaced(self, above: Option<Abs>, below: Option<Abs>) -> Self { + if above.is_none() && below.is_none() { + return self; + } + + let mut seq = vec![]; + if let Some(above) = above { + seq.push( + layout::VNode { + amount: above.into(), + weak: true, + generated: true, + } + .pack(), + ); + } + + seq.push(self); + if let Some(below) = below { + seq.push( + layout::VNode { + amount: below.into(), + weak: true, + generated: true, + } + .pack(), + ); + } + + Content::sequence(seq) + } + + fn boxed(self, sizing: Axes<Option<Rel<Length>>>) -> Self { + layout::BoxNode { sizing, child: self }.pack() + } + + fn aligned(self, aligns: Axes<Option<GenAlign>>) -> Self { + layout::AlignNode { aligns, child: self }.pack() + } + + fn padded(self, padding: Sides<Rel<Length>>) -> Self { + layout::PadNode { padding, child: self }.pack() + } + + fn moved(self, delta: Axes<Rel<Length>>) -> Self { + layout::MoveNode { delta, child: self }.pack() + } + + fn filled(self, fill: Paint) -> Self { + FillNode { fill, child: self }.pack() + } + + fn stroked(self, stroke: Stroke) -> Self { + StrokeNode { stroke, child: self }.pack() + } +} + +/// Additional methods for the style chain. +pub trait StyleMapExt { + /// Set a font family composed of a preferred family and existing families + /// from a style chain. + fn set_family(&mut self, preferred: text::FontFamily, existing: StyleChain); +} + +impl StyleMapExt for StyleMap { + fn set_family(&mut self, preferred: text::FontFamily, existing: StyleChain) { + self.set( + text::TextNode::FAMILY, + FallbackList( + std::iter::once(preferred) + .chain(existing.get(text::TextNode::FAMILY).0.iter().cloned()) + .collect(), + ), + ); + } +} + +/// Fill the frames resulting from content. +#[derive(Debug, Hash)] +struct FillNode { + /// How to fill the frames resulting from the `child`. + fill: Paint, + /// The content whose frames should be filled. + child: Content, +} + +#[node(LayoutBlock)] +impl FillNode {} + +impl LayoutBlock for FillNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut frames = self.child.layout_block(world, regions, styles)?; + for frame in &mut frames { + let shape = Geometry::Rect(frame.size()).filled(self.fill); + frame.prepend(Point::zero(), Element::Shape(shape)); + } + Ok(frames) + } +} + +/// Stroke the frames resulting from content. +#[derive(Debug, Hash)] +struct StrokeNode { + /// How to stroke the frames resulting from the `child`. + stroke: Stroke, + /// The content whose frames should be stroked. + child: Content, +} + +#[node(LayoutBlock)] +impl StrokeNode {} + +impl LayoutBlock for StrokeNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut frames = self.child.layout_block(world, regions, styles)?; + for frame in &mut frames { + let shape = Geometry::Rect(frame.size()).stroked(self.stroke); + frame.prepend(Point::zero(), Element::Shape(shape)); + } + Ok(frames) + } +} diff --git a/library/src/graphics/hide.rs b/library/src/graphics/hide.rs new file mode 100644 index 00000000..3affd809 --- /dev/null +++ b/library/src/graphics/hide.rs @@ -0,0 +1,27 @@ +use crate::prelude::*; + +/// Hide content without affecting layout. +#[derive(Debug, Hash)] +pub struct HideNode(pub Content); + +#[node(LayoutInline)] +impl HideNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("body")?).pack()) + } +} + +impl LayoutInline for HideNode { + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut frames = self.0.layout_inline(world, regions, styles)?; + for frame in &mut frames { + frame.clear(); + } + Ok(frames) + } +} diff --git a/library/src/graphics/image.rs b/library/src/graphics/image.rs new file mode 100644 index 00000000..6bf02265 --- /dev/null +++ b/library/src/graphics/image.rs @@ -0,0 +1,121 @@ +use std::ffi::OsStr; + +use typst::image::{Image, ImageFormat, RasterFormat, VectorFormat}; + +use crate::prelude::*; +use crate::text::TextNode; + +/// Show a raster or vector graphic. +#[derive(Debug, Hash)] +pub struct ImageNode(pub Image); + +#[node(LayoutInline)] +impl ImageNode { + /// How the image should adjust itself to a given area. + pub const FIT: ImageFit = ImageFit::Cover; + + fn construct(vm: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let Spanned { v: path, span } = + args.expect::<Spanned<EcoString>>("path to image file")?; + + let full = vm.locate(&path).at(span)?; + let buffer = vm.world.file(&full).at(span)?; + let ext = full.extension().and_then(OsStr::to_str).unwrap_or_default(); + let format = match ext.to_lowercase().as_str() { + "png" => ImageFormat::Raster(RasterFormat::Png), + "jpg" | "jpeg" => ImageFormat::Raster(RasterFormat::Jpg), + "gif" => ImageFormat::Raster(RasterFormat::Gif), + "svg" | "svgz" => ImageFormat::Vector(VectorFormat::Svg), + _ => bail!(span, "unknown image format"), + }; + + let image = Image::new(buffer, format).at(span)?; + let width = args.named("width")?; + let height = args.named("height")?; + + Ok(ImageNode(image).pack().boxed(Axes::new(width, height))) + } +} + +impl LayoutInline for ImageNode { + fn layout_inline( + &self, + _: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let pxw = self.0.width() as f64; + let pxh = self.0.height() as f64; + let px_ratio = pxw / pxh; + + // Find out whether the image is wider or taller than the target size. + let &Regions { first, expand, .. } = regions; + let region_ratio = first.x / first.y; + let wide = px_ratio > region_ratio; + + // The space into which the image will be placed according to its fit. + let target = if expand.x && expand.y { + first + } else if expand.x || (!expand.y && wide && first.x.is_finite()) { + Size::new(first.x, first.y.min(first.x.safe_div(px_ratio))) + } else if first.y.is_finite() { + Size::new(first.x.min(first.y * px_ratio), first.y) + } else { + Size::new(Abs::pt(pxw), Abs::pt(pxh)) + }; + + // Compute the actual size of the fitted image. + let fit = styles.get(Self::FIT); + let fitted = match fit { + ImageFit::Cover | ImageFit::Contain => { + if wide == (fit == ImageFit::Contain) { + Size::new(target.x, target.x / px_ratio) + } else { + Size::new(target.y * px_ratio, target.y) + } + } + ImageFit::Stretch => target, + }; + + // First, place the image in a frame of exactly its size and then resize + // the frame to the target size, center aligning the image in the + // process. + let mut frame = Frame::new(fitted); + frame.push(Point::zero(), Element::Image(self.0.clone(), fitted)); + frame.resize(target, Align::CENTER_HORIZON); + + // Create a clipping group if only part of the image should be visible. + if fit == ImageFit::Cover && !target.fits(fitted) { + frame.clip(); + } + + // Apply link if it exists. + if let Some(url) = styles.get(TextNode::LINK) { + frame.link(url.clone()); + } + + Ok(vec![frame]) + } +} + +/// How an image should adjust itself to a given area. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum ImageFit { + /// The image should completely cover the area. + Cover, + /// The image should be fully contained in the area. + Contain, + /// The image should be stretched so that it exactly fills the area. + Stretch, +} + +castable! { + ImageFit, + Expected: "string", + Value::Str(string) => match string.as_str() { + "cover" => Self::Cover, + "contain" => Self::Contain, + "stretch" => Self::Stretch, + _ => Err(r#"expected "cover", "contain" or "stretch""#)?, + }, +} diff --git a/library/src/graphics/line.rs b/library/src/graphics/line.rs new file mode 100644 index 00000000..df427171 --- /dev/null +++ b/library/src/graphics/line.rs @@ -0,0 +1,68 @@ +use crate::prelude::*; + +/// Display a line without affecting the layout. +#[derive(Debug, Hash)] +pub struct LineNode { + /// Where the line starts. + origin: Axes<Rel<Length>>, + /// The offset from the `origin` where the line ends. + delta: Axes<Rel<Length>>, +} + +#[node(LayoutInline)] +impl LineNode { + /// How to stroke the line. + #[property(resolve, fold)] + pub const STROKE: PartialStroke = PartialStroke::default(); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let origin = args.named("origin")?.unwrap_or_default(); + + let delta = match args.named::<Axes<Rel<Length>>>("to")? { + Some(to) => to.zip(origin).map(|(to, from)| to - from), + None => { + let length = + args.named::<Rel<Length>>("length")?.unwrap_or(Abs::cm(1.0).into()); + + let angle = args.named::<Angle>("angle")?.unwrap_or_default(); + let x = angle.cos() * length; + let y = angle.sin() * length; + + Axes::new(x, y) + } + }; + + Ok(Self { origin, delta }.pack()) + } +} + +impl LayoutInline for LineNode { + fn layout_inline( + &self, + _: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let stroke = styles.get(Self::STROKE).unwrap_or_default(); + + let origin = self + .origin + .resolve(styles) + .zip(regions.base) + .map(|(l, b)| l.relative_to(b)); + + let delta = self + .delta + .resolve(styles) + .zip(regions.base) + .map(|(l, b)| l.relative_to(b)); + + let target = regions.expand.select(regions.first, Size::zero()); + let mut frame = Frame::new(target); + + let shape = Geometry::Line(delta.to_point()).stroked(stroke); + frame.push(origin.to_point(), Element::Shape(shape)); + + Ok(vec![frame]) + } +} diff --git a/library/src/graphics/mod.rs b/library/src/graphics/mod.rs new file mode 100644 index 00000000..34182121 --- /dev/null +++ b/library/src/graphics/mod.rs @@ -0,0 +1,11 @@ +//! Graphical elements and effects. + +mod hide; +mod image; +mod line; +mod shape; + +pub use self::image::*; +pub use hide::*; +pub use line::*; +pub use shape::*; diff --git a/library/src/graphics/shape.rs b/library/src/graphics/shape.rs new file mode 100644 index 00000000..d980b64a --- /dev/null +++ b/library/src/graphics/shape.rs @@ -0,0 +1,201 @@ +use std::f64::consts::SQRT_2; + +use crate::prelude::*; +use crate::text::TextNode; + +/// A sizable and fillable shape with optional content. +#[derive(Debug, Hash)] +pub struct ShapeNode<const S: ShapeKind>(pub Option<Content>); + +/// A square with optional content. +pub type SquareNode = ShapeNode<SQUARE>; + +/// A rectangle with optional content. +pub type RectNode = ShapeNode<RECT>; + +/// A circle with optional content. +pub type CircleNode = ShapeNode<CIRCLE>; + +/// A ellipse with optional content. +pub type EllipseNode = ShapeNode<ELLIPSE>; + +#[node(LayoutInline)] +impl<const S: ShapeKind> ShapeNode<S> { + /// How to fill the shape. + pub const FILL: Option<Paint> = None; + /// How to stroke the shape. + #[property(skip, resolve, fold)] + pub const STROKE: Smart<Sides<Option<PartialStroke>>> = Smart::Auto; + + /// How much to pad the shape's content. + #[property(resolve, fold)] + pub const INSET: Sides<Option<Rel<Length>>> = Sides::splat(Rel::zero()); + /// How much to extend the shape's dimensions beyond the allocated space. + #[property(resolve, fold)] + pub const OUTSET: Sides<Option<Rel<Length>>> = Sides::splat(Rel::zero()); + + /// How much to round the shape's corners. + #[property(skip, resolve, fold)] + pub const RADIUS: Corners<Option<Rel<Length>>> = Corners::splat(Rel::zero()); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let size = match S { + SQUARE => args.named::<Length>("size")?.map(Rel::from), + CIRCLE => args.named::<Length>("radius")?.map(|r| 2.0 * Rel::from(r)), + _ => None, + }; + + let width = match size { + None => args.named("width")?, + size => size, + }; + + let height = match size { + None => args.named("height")?, + size => size, + }; + + Ok(Self(args.eat()?).pack().boxed(Axes::new(width, height))) + } + + fn set(...) { + if is_round(S) { + styles.set_opt( + Self::STROKE, + args.named::<Smart<Option<PartialStroke>>>("stroke")? + .map(|some| some.map(Sides::splat)), + ); + } else { + styles.set_opt(Self::STROKE, args.named("stroke")?); + styles.set_opt(Self::RADIUS, args.named("radius")?); + } + } +} + +impl<const S: ShapeKind> LayoutInline for ShapeNode<S> { + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut frames; + if let Some(child) = &self.0 { + let mut inset = styles.get(Self::INSET); + if is_round(S) { + inset = inset.map(|side| side + Ratio::new(0.5 - SQRT_2 / 4.0)); + } + + // Pad the child. + let child = child.clone().padded(inset.map(|side| side.map(Length::from))); + + let mut pod = Regions::one(regions.first, regions.base, regions.expand); + frames = child.layout_inline(world, &pod, styles)?; + + for frame in frames.iter_mut() { + frame.apply_role(Role::GenericBlock); + } + + // Relayout with full expansion into square region to make sure + // the result is really a square or circle. + if is_quadratic(S) { + let length = if regions.expand.x || regions.expand.y { + let target = regions.expand.select(regions.first, Size::zero()); + target.x.max(target.y) + } else { + let size = frames[0].size(); + let desired = size.x.max(size.y); + desired.min(regions.first.x).min(regions.first.y) + }; + + pod.first = Size::splat(length); + pod.expand = Axes::splat(true); + frames = child.layout_inline(world, &pod, styles)?; + } + } else { + // The default size that a shape takes on if it has no child and + // enough space. + let mut size = Size::new(Abs::pt(45.0), Abs::pt(30.0)).min(regions.first); + + if is_quadratic(S) { + let length = if regions.expand.x || regions.expand.y { + let target = regions.expand.select(regions.first, Size::zero()); + target.x.max(target.y) + } else { + size.x.min(size.y) + }; + size = Size::splat(length); + } else { + size = regions.expand.select(regions.first, size); + } + + frames = vec![Frame::new(size)]; + } + + let frame = &mut frames[0]; + + // Add fill and/or stroke. + let fill = styles.get(Self::FILL); + let stroke = match styles.get(Self::STROKE) { + Smart::Auto if fill.is_none() => Sides::splat(Some(Stroke::default())), + Smart::Auto => Sides::splat(None), + Smart::Custom(strokes) => { + strokes.map(|s| s.map(PartialStroke::unwrap_or_default)) + } + }; + + let outset = styles.get(Self::OUTSET).relative_to(frame.size()); + let size = frame.size() + outset.sum_by_axis(); + + let radius = styles + .get(Self::RADIUS) + .map(|side| side.relative_to(size.x.min(size.y) / 2.0)); + + let pos = Point::new(-outset.left, -outset.top); + + if fill.is_some() || stroke.iter().any(Option::is_some) { + if is_round(S) { + let shape = ellipse(size, fill, stroke.left); + frame.prepend(pos, Element::Shape(shape)); + } else { + frame.prepend_multiple( + rounded_rect(size, radius, fill, stroke) + .into_iter() + .map(|x| (pos, Element::Shape(x))), + ) + } + } + + // Apply link if it exists. + if let Some(url) = styles.get(TextNode::LINK) { + frame.link(url.clone()); + } + + Ok(frames) + } +} + +/// A category of shape. +pub type ShapeKind = usize; + +/// A rectangle with equal side lengths. +const SQUARE: ShapeKind = 0; + +/// A quadrilateral with four right angles. +const RECT: ShapeKind = 1; + +/// An ellipse with coinciding foci. +const CIRCLE: ShapeKind = 2; + +/// A curve around two focal points. +const ELLIPSE: ShapeKind = 3; + +/// Whether a shape kind is curvy. +fn is_round(kind: ShapeKind) -> bool { + matches!(kind, CIRCLE | ELLIPSE) +} + +/// Whether a shape kind has equal side length. +fn is_quadratic(kind: ShapeKind) -> bool { + matches!(kind, SQUARE | CIRCLE) +} diff --git a/library/src/layout/align.rs b/library/src/layout/align.rs new file mode 100644 index 00000000..5e1b3555 --- /dev/null +++ b/library/src/layout/align.rs @@ -0,0 +1,62 @@ +use crate::prelude::*; +use crate::text::{HorizontalAlign, ParNode}; + +/// Align content along the layouting axes. +#[derive(Debug, Hash)] +pub struct AlignNode { + /// How to align the content horizontally and vertically. + pub aligns: Axes<Option<GenAlign>>, + /// The content to be aligned. + pub child: Content, +} + +#[node(LayoutBlock)] +impl AlignNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let aligns: Axes<Option<GenAlign>> = args.find()?.unwrap_or_default(); + let body: Content = args.expect("body")?; + + if let Axes { x: Some(x), y: None } = aligns { + if !body.has::<dyn LayoutBlock>() { + return Ok(body.styled(ParNode::ALIGN, HorizontalAlign(x))); + } + } + + Ok(body.aligned(aligns)) + } +} + +impl LayoutBlock for AlignNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + // The child only needs to expand along an axis if there's no alignment. + let mut pod = regions.clone(); + pod.expand &= self.aligns.as_ref().map(Option::is_none); + + // Align paragraphs inside the child. + let mut passed = StyleMap::new(); + if let Some(align) = self.aligns.x { + passed.set(ParNode::ALIGN, HorizontalAlign(align)); + } + + // Layout the child. + let mut frames = self.child.layout_block(world, &pod, passed.chain(&styles))?; + for (region, frame) in regions.iter().zip(&mut frames) { + // Align in the target size. The target size depends on whether we + // should expand. + let target = regions.expand.select(region, frame.size()); + let aligns = self + .aligns + .map(|align| align.resolve(styles)) + .unwrap_or(Axes::new(Align::Left, Align::Top)); + + frame.resize(target, aligns); + } + + Ok(frames) + } +} diff --git a/library/src/layout/columns.rs b/library/src/layout/columns.rs new file mode 100644 index 00000000..8eae922b --- /dev/null +++ b/library/src/layout/columns.rs @@ -0,0 +1,117 @@ +use crate::prelude::*; +use crate::text::TextNode; + +/// Separate a region into multiple equally sized columns. +#[derive(Debug, Hash)] +pub struct ColumnsNode { + /// How many columns there should be. + pub columns: NonZeroUsize, + /// The child to be layouted into the columns. Most likely, this should be a + /// flow or stack node. + pub child: Content, +} + +#[node(LayoutBlock)] +impl ColumnsNode { + /// The size of the gutter space between each column. + #[property(resolve)] + pub const GUTTER: Rel<Length> = Ratio::new(0.04).into(); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self { + columns: args.expect("column count")?, + child: args.expect("body")?, + } + .pack()) + } +} + +impl LayoutBlock for ColumnsNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + // Separating the infinite space into infinite columns does not make + // much sense. + if !regions.first.x.is_finite() { + return self.child.layout_block(world, regions, styles); + } + + // Determine the width of the gutter and each column. + let columns = self.columns.get(); + let gutter = styles.get(Self::GUTTER).relative_to(regions.base.x); + let width = (regions.first.x - gutter * (columns - 1) as f64) / columns as f64; + + // Create the pod regions. + let pod = Regions { + first: Size::new(width, regions.first.y), + base: Size::new(width, regions.base.y), + backlog: std::iter::once(®ions.first.y) + .chain(regions.backlog.as_slice()) + .flat_map(|&height| std::iter::repeat(height).take(columns)) + .skip(1) + .collect(), + last: regions.last, + expand: Axes::new(true, regions.expand.y), + }; + + // Layout the children. + let mut frames = self.child.layout_block(world, &pod, styles)?.into_iter(); + let mut finished = vec![]; + + let dir = styles.get(TextNode::DIR); + let total_regions = (frames.len() as f32 / columns as f32).ceil() as usize; + + // Stitch together the columns for each region. + for region in regions.iter().take(total_regions) { + // The height should be the parent height if we should expand. + // Otherwise its the maximum column height for the frame. In that + // case, the frame is first created with zero height and then + // resized. + let height = if regions.expand.y { region.y } else { Abs::zero() }; + let mut output = Frame::new(Size::new(regions.first.x, height)); + let mut cursor = Abs::zero(); + + for _ in 0 .. columns { + let frame = match frames.next() { + Some(frame) => frame, + None => break, + }; + + if !regions.expand.y { + output.size_mut().y.set_max(frame.height()); + } + + let width = frame.width(); + let x = if dir.is_positive() { + cursor + } else { + regions.first.x - cursor - width + }; + + output.push_frame(Point::with_x(x), frame); + cursor += width + gutter; + } + + finished.push(output); + } + + Ok(finished) + } +} + +/// A column break. +#[derive(Debug, Clone, Hash)] +pub struct ColbreakNode { + pub weak: bool, +} + +#[node] +impl ColbreakNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let weak = args.named("weak")?.unwrap_or(false); + Ok(Self { weak }.pack()) + } +} diff --git a/library/src/layout/container.rs b/library/src/layout/container.rs new file mode 100644 index 00000000..d65b78b6 --- /dev/null +++ b/library/src/layout/container.rs @@ -0,0 +1,80 @@ +use crate::prelude::*; + +/// An inline-level container that sizes content. +#[derive(Debug, Clone, Hash)] +pub struct BoxNode { + /// How to size the content horizontally and vertically. + pub sizing: Axes<Option<Rel<Length>>>, + /// The content to be sized. + pub child: Content, +} + +#[node(LayoutInline)] +impl BoxNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let width = args.named("width")?; + let height = args.named("height")?; + let body = args.eat::<Content>()?.unwrap_or_default(); + Ok(body.boxed(Axes::new(width, height))) + } +} + +impl LayoutInline for BoxNode { + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + // The "pod" is the region into which the child will be layouted. + let pod = { + // Resolve the sizing to a concrete size. + let size = self + .sizing + .resolve(styles) + .zip(regions.base) + .map(|(s, b)| s.map(|v| v.relative_to(b))) + .unwrap_or(regions.first); + + // Select the appropriate base and expansion for the child depending + // on whether it is automatically or relatively sized. + let is_auto = self.sizing.as_ref().map(Option::is_none); + let base = is_auto.select(regions.base, size); + let expand = regions.expand | !is_auto; + + Regions::one(size, base, expand) + }; + + // Layout the child. + let mut frames = self.child.layout_inline(world, &pod, styles)?; + + // Ensure frame size matches regions size if expansion is on. + let frame = &mut frames[0]; + let target = regions.expand.select(regions.first, frame.size()); + frame.resize(target, Align::LEFT_TOP); + + Ok(frames) + } +} + +/// A block-level container that places content into a separate flow. +#[derive(Debug, Clone, Hash)] +pub struct BlockNode(pub Content); + +#[node(LayoutBlock)] +impl BlockNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.eat()?.unwrap_or_default()).pack()) + } +} + +impl LayoutBlock for BlockNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + self.0.layout_block(world, regions, styles) + } +} diff --git a/library/src/layout/flow.rs b/library/src/layout/flow.rs new file mode 100644 index 00000000..a5992796 --- /dev/null +++ b/library/src/layout/flow.rs @@ -0,0 +1,267 @@ +use std::cmp::Ordering; + +use super::{AlignNode, PlaceNode, Spacing}; +use crate::prelude::*; +use crate::text::ParNode; + +/// Arrange spacing, paragraphs and block-level nodes into a flow. +/// +/// This node is reponsible for layouting both the top-level content flow and +/// the contents of boxes. +#[derive(Hash)] +pub struct FlowNode(pub StyleVec<FlowChild>); + +/// A child of a flow node. +#[derive(Hash, PartialEq)] +pub enum FlowChild { + /// Vertical spacing between other children. + Spacing(Spacing), + /// Arbitrary block-level content. + Block(Content), + /// A column / region break. + Colbreak, +} + +#[node(LayoutBlock)] +impl FlowNode {} + +impl LayoutBlock for FlowNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut layouter = FlowLayouter::new(regions); + + for (child, map) in self.0.iter() { + let styles = map.chain(&styles); + match child { + FlowChild::Spacing(kind) => { + layouter.layout_spacing(*kind, styles); + } + FlowChild::Block(block) => { + layouter.layout_block(world, block, styles)?; + } + FlowChild::Colbreak => { + layouter.finish_region(); + } + } + } + + Ok(layouter.finish()) + } +} + +impl Debug for FlowNode { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + f.write_str("Flow ")?; + self.0.fmt(f) + } +} + +impl Debug for FlowChild { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + match self { + Self::Spacing(kind) => write!(f, "{:?}", kind), + Self::Block(block) => block.fmt(f), + Self::Colbreak => f.pad("Colbreak"), + } + } +} + +impl PartialOrd for FlowChild { + fn partial_cmp(&self, other: &Self) -> Option<Ordering> { + match (self, other) { + (Self::Spacing(a), Self::Spacing(b)) => a.partial_cmp(b), + _ => None, + } + } +} + +/// Performs flow layout. +pub struct FlowLayouter { + /// The regions to layout children into. + regions: Regions, + /// Whether the flow should expand to fill the region. + expand: Axes<bool>, + /// The full size of `regions.size` that was available before we started + /// subtracting. + full: Size, + /// The size used by the frames for the current region. + used: Size, + /// The sum of fractions in the current region. + fr: Fr, + /// Spacing and layouted blocks. + items: Vec<FlowItem>, + /// Finished frames for previous regions. + finished: Vec<Frame>, +} + +/// A prepared item in a flow layout. +enum FlowItem { + /// Absolute spacing between other items. + Absolute(Abs), + /// Fractional spacing between other items. + Fractional(Fr), + /// A frame for a layouted block and how to align it. + Frame(Frame, Axes<Align>), + /// An absolutely placed frame. + Placed(Frame), +} + +impl FlowLayouter { + /// Create a new flow layouter. + pub fn new(regions: &Regions) -> Self { + let expand = regions.expand; + let full = regions.first; + + // Disable vertical expansion for children. + let mut regions = regions.clone(); + regions.expand.y = false; + + Self { + regions, + expand, + full, + used: Size::zero(), + fr: Fr::zero(), + items: vec![], + finished: vec![], + } + } + + /// Layout spacing. + pub fn layout_spacing(&mut self, spacing: Spacing, styles: StyleChain) { + match spacing { + Spacing::Relative(v) => { + // Resolve the spacing and limit it to the remaining space. + let resolved = v.resolve(styles).relative_to(self.full.y); + let limited = resolved.min(self.regions.first.y); + self.regions.first.y -= limited; + self.used.y += limited; + self.items.push(FlowItem::Absolute(resolved)); + } + Spacing::Fractional(v) => { + self.items.push(FlowItem::Fractional(v)); + self.fr += v; + } + } + } + + /// Layout a block. + pub fn layout_block( + &mut self, + world: Tracked<dyn World>, + block: &Content, + styles: StyleChain, + ) -> SourceResult<()> { + // Don't even try layouting into a full region. + if self.regions.is_full() { + self.finish_region(); + } + + // Placed nodes that are out of flow produce placed items which aren't + // aligned later. + if let Some(placed) = block.downcast::<PlaceNode>() { + if placed.out_of_flow() { + let frame = block.layout_block(world, &self.regions, styles)?.remove(0); + self.items.push(FlowItem::Placed(frame)); + return Ok(()); + } + } + + // How to align the block. + let aligns = Axes::new( + // For non-expanding paragraphs it is crucial that we align the + // whole paragraph as it is itself aligned. + styles.get(ParNode::ALIGN), + // Vertical align node alignment is respected by the flow. + block + .downcast::<AlignNode>() + .and_then(|aligned| aligned.aligns.y) + .map(|align| align.resolve(styles)) + .unwrap_or(Align::Top), + ); + + let frames = block.layout_block(world, &self.regions, styles)?; + let len = frames.len(); + for (i, mut frame) in frames.into_iter().enumerate() { + // Set the generic block role. + frame.apply_role(Role::GenericBlock); + + // Grow our size, shrink the region and save the frame for later. + let size = frame.size(); + self.used.y += size.y; + self.used.x.set_max(size.x); + self.regions.first.y -= size.y; + self.items.push(FlowItem::Frame(frame, aligns)); + + if i + 1 < len { + self.finish_region(); + } + } + + Ok(()) + } + + /// Finish the frame for one region. + pub fn finish_region(&mut self) { + // Determine the size of the flow in this region dependening on whether + // the region expands. + let mut size = self.expand.select(self.full, self.used); + + // Account for fractional spacing in the size calculation. + let remaining = self.full.y - self.used.y; + if self.fr.get() > 0.0 && self.full.y.is_finite() { + self.used.y = self.full.y; + size.y = self.full.y; + } + + let mut output = Frame::new(size); + let mut offset = Abs::zero(); + let mut ruler = Align::Top; + + // Place all frames. + for item in self.items.drain(..) { + match item { + FlowItem::Absolute(v) => { + offset += v; + } + FlowItem::Fractional(v) => { + offset += v.share(self.fr, remaining); + } + FlowItem::Frame(frame, aligns) => { + ruler = ruler.max(aligns.y); + let x = aligns.x.position(size.x - frame.width()); + let y = offset + ruler.position(size.y - self.used.y); + let pos = Point::new(x, y); + offset += frame.height(); + output.push_frame(pos, frame); + } + FlowItem::Placed(frame) => { + output.push_frame(Point::zero(), frame); + } + } + } + + // Advance to the next region. + self.regions.next(); + self.full = self.regions.first; + self.used = Size::zero(); + self.fr = Fr::zero(); + self.finished.push(output); + } + + /// Finish layouting and return the resulting frames. + pub fn finish(mut self) -> Vec<Frame> { + if self.expand.y { + while !self.regions.backlog.is_empty() { + self.finish_region(); + } + } + + self.finish_region(); + self.finished + } +} diff --git a/library/src/layout/grid.rs b/library/src/layout/grid.rs new file mode 100644 index 00000000..f6610d78 --- /dev/null +++ b/library/src/layout/grid.rs @@ -0,0 +1,600 @@ +use crate::prelude::*; + +/// Arrange content in a grid. +#[derive(Debug, Hash)] +pub struct GridNode { + /// Defines sizing for content rows and columns. + pub tracks: Axes<Vec<TrackSizing>>, + /// Defines sizing of gutter rows and columns between content. + pub gutter: Axes<Vec<TrackSizing>>, + /// The content to be arranged in a grid. + pub cells: Vec<Content>, +} + +#[node(LayoutBlock)] +impl GridNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let TrackSizings(columns) = args.named("columns")?.unwrap_or_default(); + let TrackSizings(rows) = args.named("rows")?.unwrap_or_default(); + let TrackSizings(base_gutter) = args.named("gutter")?.unwrap_or_default(); + let column_gutter = args.named("column-gutter")?.map(|TrackSizings(v)| v); + let row_gutter = args.named("row-gutter")?.map(|TrackSizings(v)| v); + Ok(Self { + tracks: Axes::new(columns, rows), + gutter: Axes::new( + column_gutter.unwrap_or_else(|| base_gutter.clone()), + row_gutter.unwrap_or(base_gutter), + ), + cells: args.all()?, + } + .pack()) + } +} + +impl LayoutBlock for GridNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + // Prepare grid layout by unifying content and gutter tracks. + let layouter = GridLayouter::new( + world, + self.tracks.as_deref(), + self.gutter.as_deref(), + &self.cells, + regions, + styles, + ); + + // Measure the columns and layout the grid row-by-row. + layouter.layout() + } +} + +/// Defines how to size a grid cell along an axis. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum TrackSizing { + /// A track that fits its cell's contents. + Auto, + /// A track size specified in absolute terms and relative to the parent's + /// size. + Relative(Rel<Length>), + /// A track size specified as a fraction of the remaining free space in the + /// parent. + Fractional(Fr), +} + +/// Track sizing definitions. +#[derive(Debug, Default, Clone, Eq, PartialEq, Hash)] +pub struct TrackSizings(pub Vec<TrackSizing>); + +castable! { + TrackSizings, + Expected: "integer, auto, relative length, fraction, or array of the latter three", + Value::Auto => Self(vec![TrackSizing::Auto]), + Value::Length(v) => Self(vec![TrackSizing::Relative(v.into())]), + Value::Ratio(v) => Self(vec![TrackSizing::Relative(v.into())]), + Value::Relative(v) => Self(vec![TrackSizing::Relative(v)]), + Value::Fraction(v) => Self(vec![TrackSizing::Fractional(v)]), + Value::Int(v) => Self(vec![ + TrackSizing::Auto; + Value::Int(v).cast::<NonZeroUsize>()?.get() + ]), + Value::Array(values) => Self(values + .into_iter() + .filter_map(|v| v.cast().ok()) + .collect()), +} + +castable! { + TrackSizing, + Expected: "auto, relative length, or fraction", + Value::Auto => Self::Auto, + Value::Length(v) => Self::Relative(v.into()), + Value::Ratio(v) => Self::Relative(v.into()), + Value::Relative(v) => Self::Relative(v), + Value::Fraction(v) => Self::Fractional(v), +} + +/// Performs grid layout. +pub struct GridLayouter<'a> { + /// The core context. + world: Tracked<'a, dyn World>, + /// The grid cells. + cells: &'a [Content], + /// The column tracks including gutter tracks. + cols: Vec<TrackSizing>, + /// The row tracks including gutter tracks. + rows: Vec<TrackSizing>, + /// The regions to layout children into. + regions: Regions, + /// The inherited styles. + styles: StyleChain<'a>, + /// Resolved column sizes. + rcols: Vec<Abs>, + /// Rows in the current region. + lrows: Vec<Row>, + /// The full height of the current region. + full: Abs, + /// The used-up size of the current region. The horizontal size is + /// determined once after columns are resolved and not touched again. + used: Size, + /// The sum of fractions in the current region. + fr: Fr, + /// Frames for finished regions. + finished: Vec<Frame>, +} + +/// Produced by initial row layout, auto and relative rows are already finished, +/// fractional rows not yet. +enum Row { + /// Finished row frame of auto or relative row. + Frame(Frame), + /// Fractional row with y index. + Fr(Fr, usize), +} + +impl<'a> GridLayouter<'a> { + /// Create a new grid layouter. + /// + /// This prepares grid layout by unifying content and gutter tracks. + pub fn new( + world: Tracked<'a, dyn World>, + tracks: Axes<&[TrackSizing]>, + gutter: Axes<&[TrackSizing]>, + cells: &'a [Content], + regions: &Regions, + styles: StyleChain<'a>, + ) -> Self { + let mut cols = vec![]; + let mut rows = vec![]; + + // Number of content columns: Always at least one. + let c = tracks.x.len().max(1); + + // Number of content rows: At least as many as given, but also at least + // as many as needed to place each item. + let r = { + let len = cells.len(); + let given = tracks.y.len(); + let needed = len / c + (len % c).clamp(0, 1); + given.max(needed) + }; + + let auto = TrackSizing::Auto; + let zero = TrackSizing::Relative(Rel::zero()); + let get_or = |tracks: &[_], idx, default| { + tracks.get(idx).or(tracks.last()).copied().unwrap_or(default) + }; + + // Collect content and gutter columns. + for x in 0 .. c { + cols.push(get_or(tracks.x, x, auto)); + cols.push(get_or(gutter.x, x, zero)); + } + + // Collect content and gutter rows. + for y in 0 .. r { + rows.push(get_or(tracks.y, y, auto)); + rows.push(get_or(gutter.y, y, zero)); + } + + // Remove superfluous gutter tracks. + cols.pop(); + rows.pop(); + + let full = regions.first.y; + let rcols = vec![Abs::zero(); cols.len()]; + let lrows = vec![]; + + // We use the regions for auto row measurement. Since at that moment, + // columns are already sized, we can enable horizontal expansion. + let mut regions = regions.clone(); + regions.expand = Axes::new(true, false); + + Self { + world, + cells, + cols, + rows, + regions, + styles, + rcols, + lrows, + full, + used: Size::zero(), + fr: Fr::zero(), + finished: vec![], + } + } + + /// Determines the columns sizes and then layouts the grid row-by-row. + pub fn layout(mut self) -> SourceResult<Vec<Frame>> { + self.measure_columns()?; + + for y in 0 .. self.rows.len() { + // Skip to next region if current one is full, but only for content + // rows, not for gutter rows. + if y % 2 == 0 && self.regions.is_full() { + self.finish_region()?; + } + + match self.rows[y] { + TrackSizing::Auto => self.layout_auto_row(y)?, + TrackSizing::Relative(v) => self.layout_relative_row(v, y)?, + TrackSizing::Fractional(v) => { + self.lrows.push(Row::Fr(v, y)); + self.fr += v; + } + } + } + + self.finish_region()?; + Ok(self.finished) + } + + /// Determine all column sizes. + fn measure_columns(&mut self) -> SourceResult<()> { + // Sum of sizes of resolved relative tracks. + let mut rel = Abs::zero(); + + // Sum of fractions of all fractional tracks. + let mut fr = Fr::zero(); + + // Resolve the size of all relative columns and compute the sum of all + // fractional tracks. + for (&col, rcol) in self.cols.iter().zip(&mut self.rcols) { + match col { + TrackSizing::Auto => {} + TrackSizing::Relative(v) => { + let resolved = + v.resolve(self.styles).relative_to(self.regions.base.x); + *rcol = resolved; + rel += resolved; + } + TrackSizing::Fractional(v) => fr += v, + } + } + + // Size that is not used by fixed-size columns. + let available = self.regions.first.x - rel; + if available >= Abs::zero() { + // Determine size of auto columns. + let (auto, count) = self.measure_auto_columns(available)?; + + // If there is remaining space, distribute it to fractional columns, + // otherwise shrink auto columns. + let remaining = available - auto; + if remaining >= Abs::zero() { + if !fr.is_zero() { + self.grow_fractional_columns(remaining, fr); + } + } else { + self.shrink_auto_columns(available, count); + } + } + + // Sum up the resolved column sizes once here. + self.used.x = self.rcols.iter().sum(); + + Ok(()) + } + + /// Measure the size that is available to auto columns. + fn measure_auto_columns(&mut self, available: Abs) -> SourceResult<(Abs, usize)> { + let mut auto = Abs::zero(); + let mut count = 0; + + // Determine size of auto columns by laying out all cells in those + // columns, measuring them and finding the largest one. + for (x, &col) in self.cols.iter().enumerate() { + if col != TrackSizing::Auto { + continue; + } + + let mut resolved = Abs::zero(); + for y in 0 .. self.rows.len() { + if let Some(cell) = self.cell(x, y) { + let size = Size::new(available, self.regions.base.y); + let mut pod = + Regions::one(size, self.regions.base, Axes::splat(false)); + + // For relative rows, we can already resolve the correct + // base, for auto it's already correct and for fr we could + // only guess anyway. + if let TrackSizing::Relative(v) = self.rows[y] { + pod.base.y = + v.resolve(self.styles).relative_to(self.regions.base.y); + } + + let frame = + cell.layout_block(self.world, &pod, self.styles)?.remove(0); + resolved.set_max(frame.width()); + } + } + + self.rcols[x] = resolved; + auto += resolved; + count += 1; + } + + Ok((auto, count)) + } + + /// Distribute remaining space to fractional columns. + fn grow_fractional_columns(&mut self, remaining: Abs, fr: Fr) { + for (&col, rcol) in self.cols.iter().zip(&mut self.rcols) { + if let TrackSizing::Fractional(v) = col { + *rcol = v.share(fr, remaining); + } + } + } + + /// Redistribute space to auto columns so that each gets a fair share. + fn shrink_auto_columns(&mut self, available: Abs, count: usize) { + // The fair share each auto column may have. + let fair = available / count as f64; + + // The number of overlarge auto columns and the space that will be + // equally redistributed to them. + let mut overlarge: usize = 0; + let mut redistribute = available; + + // Find out the number of and space used by overlarge auto columns. + for (&col, rcol) in self.cols.iter().zip(&mut self.rcols) { + if col == TrackSizing::Auto { + if *rcol > fair { + overlarge += 1; + } else { + redistribute -= *rcol; + } + } + } + + // Redistribute the space equally. + let share = redistribute / overlarge as f64; + for (&col, rcol) in self.cols.iter().zip(&mut self.rcols) { + if col == TrackSizing::Auto && *rcol > fair { + *rcol = share; + } + } + } + + /// Layout a row with automatic height. Such a row may break across multiple + /// regions. + fn layout_auto_row(&mut self, y: usize) -> SourceResult<()> { + let mut resolved: Vec<Abs> = vec![]; + + // Determine the size for each region of the row. + for (x, &rcol) in self.rcols.iter().enumerate() { + if let Some(cell) = self.cell(x, y) { + let mut pod = self.regions.clone(); + pod.first.x = rcol; + pod.base.x = rcol; + + // All widths should be `rcol` except the base for auto columns. + if self.cols[x] == TrackSizing::Auto { + pod.base.x = self.regions.base.x; + } + + let mut sizes = cell + .layout_block(self.world, &pod, self.styles)? + .into_iter() + .map(|frame| frame.height()); + + // For each region, we want to know the maximum height any + // column requires. + for (target, size) in resolved.iter_mut().zip(&mut sizes) { + target.set_max(size); + } + + // New heights are maximal by virtue of being new. Note that + // this extend only uses the rest of the sizes iterator. + resolved.extend(sizes); + } + } + + // Nothing to layout. + if resolved.is_empty() { + return Ok(()); + } + + // Layout into a single region. + if let &[first] = resolved.as_slice() { + let frame = self.layout_single_row(first, y)?; + self.push_row(frame); + return Ok(()); + } + + // Expand all but the last region if the space is not + // eaten up by any fr rows. + if self.fr.is_zero() { + let len = resolved.len(); + for (region, target) in self.regions.iter().zip(&mut resolved[.. len - 1]) { + target.set_max(region.y); + } + } + + // Layout into multiple regions. + let frames = self.layout_multi_row(&resolved, y)?; + let len = frames.len(); + for (i, frame) in frames.into_iter().enumerate() { + self.push_row(frame); + if i + 1 < len { + self.finish_region()?; + } + } + + Ok(()) + } + + /// Layout a row with relative height. Such a row cannot break across + /// multiple regions, but it may force a region break. + fn layout_relative_row(&mut self, v: Rel<Length>, y: usize) -> SourceResult<()> { + let resolved = v.resolve(self.styles).relative_to(self.regions.base.y); + let frame = self.layout_single_row(resolved, y)?; + + // Skip to fitting region. + let height = frame.height(); + while !self.regions.first.y.fits(height) && !self.regions.in_last() { + self.finish_region()?; + + // Don't skip multiple regions for gutter and don't push a row. + if y % 2 == 1 { + return Ok(()); + } + } + + self.push_row(frame); + + Ok(()) + } + + /// Layout a row with fixed height and return its frame. + fn layout_single_row(&mut self, height: Abs, y: usize) -> SourceResult<Frame> { + let mut output = Frame::new(Size::new(self.used.x, height)); + + let mut pos = Point::zero(); + + for (x, &rcol) in self.rcols.iter().enumerate() { + if let Some(cell) = self.cell(x, y) { + let size = Size::new(rcol, height); + + // Set the base to the region's base for auto rows and to the + // size for relative and fractional rows. + let base = Axes::new(self.cols[x], self.rows[y]) + .map(|s| s == TrackSizing::Auto) + .select(self.regions.base, size); + + let pod = Regions::one(size, base, Axes::splat(true)); + let frame = cell.layout_block(self.world, &pod, self.styles)?.remove(0); + match frame.role() { + Some(Role::ListLabel | Role::ListItemBody) => { + output.apply_role(Role::ListItem) + } + Some(Role::TableCell) => output.apply_role(Role::TableRow), + _ => {} + } + + output.push_frame(pos, frame); + } + + pos.x += rcol; + } + + Ok(output) + } + + /// Layout a row spanning multiple regions. + fn layout_multi_row( + &mut self, + heights: &[Abs], + y: usize, + ) -> SourceResult<Vec<Frame>> { + // Prepare frames. + let mut outputs: Vec<_> = heights + .iter() + .map(|&h| Frame::new(Size::new(self.used.x, h))) + .collect(); + + // Prepare regions. + let size = Size::new(self.used.x, heights[0]); + let mut pod = Regions::one(size, self.regions.base, Axes::splat(true)); + pod.backlog = heights[1 ..].to_vec(); + + // Layout the row. + let mut pos = Point::zero(); + for (x, &rcol) in self.rcols.iter().enumerate() { + if let Some(cell) = self.cell(x, y) { + pod.first.x = rcol; + pod.base.x = rcol; + + // All widths should be `rcol` except the base for auto columns. + if self.cols[x] == TrackSizing::Auto { + pod.base.x = self.regions.base.x; + } + + // Push the layouted frames into the individual output frames. + let frames = cell.layout_block(self.world, &pod, self.styles)?; + for (output, frame) in outputs.iter_mut().zip(frames) { + match frame.role() { + Some(Role::ListLabel | Role::ListItemBody) => { + output.apply_role(Role::ListItem) + } + Some(Role::TableCell) => output.apply_role(Role::TableRow), + _ => {} + } + output.push_frame(pos, frame); + } + } + + pos.x += rcol; + } + + Ok(outputs) + } + + /// Push a row frame into the current region. + fn push_row(&mut self, frame: Frame) { + self.regions.first.y -= frame.height(); + self.used.y += frame.height(); + self.lrows.push(Row::Frame(frame)); + } + + /// Finish rows for one region. + fn finish_region(&mut self) -> SourceResult<()> { + // Determine the size of the grid in this region, expanding fully if + // there are fr rows. + let mut size = self.used; + if self.fr.get() > 0.0 && self.full.is_finite() { + size.y = self.full; + } + + // The frame for the region. + let mut output = Frame::new(size); + let mut pos = Point::zero(); + + // Place finished rows and layout fractional rows. + for row in std::mem::take(&mut self.lrows) { + let frame = match row { + Row::Frame(frame) => frame, + Row::Fr(v, y) => { + let remaining = self.full - self.used.y; + let height = v.share(self.fr, remaining); + self.layout_single_row(height, y)? + } + }; + + let height = frame.height(); + output.push_frame(pos, frame); + pos.y += height; + } + + self.finished.push(output); + self.regions.next(); + self.full = self.regions.first.y; + self.used.y = Abs::zero(); + self.fr = Fr::zero(); + + Ok(()) + } + + /// Get the content of the cell in column `x` and row `y`. + /// + /// Returns `None` if it's a gutter cell. + #[track_caller] + fn cell(&self, x: usize, y: usize) -> Option<&'a Content> { + assert!(x < self.cols.len()); + assert!(y < self.rows.len()); + + // Even columns and rows are children, odd ones are gutter. + if x % 2 == 0 && y % 2 == 0 { + let c = 1 + self.cols.len() / 2; + self.cells.get((y / 2) * c + x / 2) + } else { + None + } + } +} diff --git a/library/src/layout/mod.rs b/library/src/layout/mod.rs new file mode 100644 index 00000000..ddfaa351 --- /dev/null +++ b/library/src/layout/mod.rs @@ -0,0 +1,835 @@ +//! Composable layouts. + +mod align; +mod columns; +mod container; +mod flow; +mod grid; +mod pad; +mod page; +mod place; +mod spacing; +mod stack; +mod transform; + +pub use align::*; +pub use columns::*; +pub use container::*; +pub use flow::*; +pub use grid::*; +pub use pad::*; +pub use page::*; +pub use place::*; +pub use spacing::*; +pub use stack::*; +pub use transform::*; + +use std::mem; + +use comemo::Tracked; +use typed_arena::Arena; +use typst::diag::SourceResult; +use typst::frame::Frame; +use typst::geom::*; +use typst::model::{ + capability, Barrier, Content, Node, SequenceNode, Show, StyleChain, StyleEntry, + StyleMap, StyleVec, StyleVecBuilder, StyledNode, Target, +}; +use typst::World; + +use crate::structure::{ + DescNode, DocNode, EnumNode, ListItem, ListNode, DESC, ENUM, LIST, +}; +use crate::text::{ + LinebreakNode, ParChild, ParNode, ParbreakNode, SmartQuoteNode, SpaceNode, TextNode, +}; + +/// The root-level layout. +#[capability] +pub trait Layout: 'static + Sync + Send { + /// Layout into one frame per page. + fn layout(&self, world: Tracked<dyn World>) -> SourceResult<Vec<Frame>>; +} + +impl Layout for Content { + #[comemo::memoize] + fn layout(&self, world: Tracked<dyn World>) -> SourceResult<Vec<Frame>> { + let styles = StyleChain::with_root(&world.config().styles); + let scratch = Scratch::default(); + + let mut builder = Builder::new(world, &scratch, true); + builder.accept(self, styles)?; + + let (doc, shared) = builder.into_doc(styles)?; + doc.layout(world, shared) + } +} + +/// Block-level layout. +#[capability] +pub trait LayoutBlock: 'static + Sync + Send { + /// Layout into one frame per region. + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>>; +} + +impl LayoutBlock for Content { + #[comemo::memoize] + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + if let Some(node) = self.to::<dyn LayoutBlock>() { + let barrier = StyleEntry::Barrier(Barrier::new(self.id())); + let styles = barrier.chain(&styles); + return node.layout_block(world, regions, styles); + } + + let scratch = Scratch::default(); + let mut builder = Builder::new(world, &scratch, false); + builder.accept(self, styles)?; + let (flow, shared) = builder.into_flow(styles)?; + flow.layout_block(world, regions, shared) + } +} + +/// Inline-level layout. +#[capability] +pub trait LayoutInline: 'static + Sync + Send { + /// Layout into a single frame. + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>>; +} + +impl LayoutInline for Content { + #[comemo::memoize] + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + if let Some(node) = self.to::<dyn LayoutInline>() { + let barrier = StyleEntry::Barrier(Barrier::new(self.id())); + let styles = barrier.chain(&styles); + return node.layout_inline(world, regions, styles); + } + + if let Some(node) = self.to::<dyn LayoutBlock>() { + let barrier = StyleEntry::Barrier(Barrier::new(self.id())); + let styles = barrier.chain(&styles); + return node.layout_block(world, regions, styles); + } + + let scratch = Scratch::default(); + let mut builder = Builder::new(world, &scratch, false); + builder.accept(self, styles)?; + let (flow, shared) = builder.into_flow(styles)?; + flow.layout_block(world, regions, shared) + } +} + +/// A sequence of regions to layout into. +#[derive(Debug, Clone, Hash)] +pub struct Regions { + /// The (remaining) size of the first region. + pub first: Size, + /// The base size for relative sizing. + pub base: Size, + /// The height of followup regions. The width is the same for all regions. + pub backlog: Vec<Abs>, + /// The height of the final region that is repeated once the backlog is + /// drained. The width is the same for all regions. + pub last: Option<Abs>, + /// Whether nodes should expand to fill the regions instead of shrinking to + /// fit the content. + pub expand: Axes<bool>, +} + +impl Regions { + /// Create a new region sequence with exactly one region. + pub fn one(size: Size, base: Size, expand: Axes<bool>) -> Self { + Self { + first: size, + base, + backlog: vec![], + last: None, + expand, + } + } + + /// Create a new sequence of same-size regions that repeats indefinitely. + pub fn repeat(size: Size, base: Size, expand: Axes<bool>) -> Self { + Self { + first: size, + base, + backlog: vec![], + last: Some(size.y), + expand, + } + } + + /// Create new regions where all sizes are mapped with `f`. + /// + /// Note that since all regions must have the same width, the width returned + /// by `f` is ignored for the backlog and the final region. + pub fn map<F>(&self, mut f: F) -> Self + where + F: FnMut(Size) -> Size, + { + let x = self.first.x; + Self { + first: f(self.first), + base: f(self.base), + backlog: self.backlog.iter().map(|&y| f(Size::new(x, y)).y).collect(), + last: self.last.map(|y| f(Size::new(x, y)).y), + expand: self.expand, + } + } + + /// Whether the first region is full and a region break is called for. + pub fn is_full(&self) -> bool { + Abs::zero().fits(self.first.y) && !self.in_last() + } + + /// Whether the first region is the last usable region. + /// + /// If this is true, calling `next()` will have no effect. + pub fn in_last(&self) -> bool { + self.backlog.is_empty() && self.last.map_or(true, |height| self.first.y == height) + } + + /// Advance to the next region if there is any. + pub fn next(&mut self) { + if let Some(height) = (!self.backlog.is_empty()) + .then(|| self.backlog.remove(0)) + .or(self.last) + { + self.first.y = height; + self.base.y = height; + } + } + + /// An iterator that returns the sizes of the first and all following + /// regions, equivalently to what would be produced by calling + /// [`next()`](Self::next) repeatedly until all regions are exhausted. + /// This iterater may be infinite. + pub fn iter(&self) -> impl Iterator<Item = Size> + '_ { + let first = std::iter::once(self.first); + let backlog = self.backlog.iter(); + let last = self.last.iter().cycle(); + first.chain(backlog.chain(last).map(|&h| Size::new(self.first.x, h))) + } +} + +/// Builds a document or a flow node from content. +struct Builder<'a> { + /// The core context. + world: Tracked<'a, dyn World>, + /// Scratch arenas for building. + scratch: &'a Scratch<'a>, + /// The current document building state. + doc: Option<DocBuilder<'a>>, + /// The current flow building state. + flow: FlowBuilder<'a>, + /// The current paragraph building state. + par: ParBuilder<'a>, + /// The current list building state. + list: ListBuilder<'a>, +} + +/// Temporary storage arenas for building. +#[derive(Default)] +struct Scratch<'a> { + /// An arena where intermediate style chains are stored. + styles: Arena<StyleChain<'a>>, + /// An arena where intermediate content resulting from show rules is stored. + templates: Arena<Content>, +} + +/// Determines whether a style could interrupt some composable structure. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd)] +pub enum Interruption { + /// The style forces a list break. + List, + /// The style forces a paragraph break. + Par, + /// The style forces a page break. + Page, +} + +impl<'a> Builder<'a> { + pub fn new( + world: Tracked<'a, dyn World>, + scratch: &'a Scratch<'a>, + top: bool, + ) -> Self { + Self { + world, + scratch, + doc: top.then(|| DocBuilder::default()), + flow: FlowBuilder::default(), + par: ParBuilder::default(), + list: ListBuilder::default(), + } + } + + pub fn into_doc( + mut self, + styles: StyleChain<'a>, + ) -> SourceResult<(DocNode, StyleChain<'a>)> { + self.interrupt(Interruption::Page, styles, true)?; + let (pages, shared) = self.doc.unwrap().pages.finish(); + Ok((DocNode(pages), shared)) + } + + pub fn into_flow( + mut self, + styles: StyleChain<'a>, + ) -> SourceResult<(FlowNode, StyleChain<'a>)> { + self.interrupt(Interruption::Par, styles, false)?; + let (children, shared) = self.flow.0.finish(); + Ok((FlowNode(children), shared)) + } + + pub fn accept( + &mut self, + content: &'a Content, + styles: StyleChain<'a>, + ) -> SourceResult<()> { + if let Some(text) = content.downcast::<TextNode>() { + if let Some(realized) = styles.apply(self.world, Target::Text(&text.0))? { + let stored = self.scratch.templates.alloc(realized); + return self.accept(stored, styles); + } + } else if let Some(styled) = content.downcast::<StyledNode>() { + return self.styled(styled, styles); + } else if let Some(seq) = content.downcast::<SequenceNode>() { + return self.sequence(seq, styles); + } else if content.has::<dyn Show>() && self.show(content, styles)? { + return Ok(()); + } + + if self.list.accept(content, styles) { + return Ok(()); + } + + self.interrupt(Interruption::List, styles, false)?; + + if content.is::<ListItem>() { + self.list.accept(content, styles); + return Ok(()); + } + + if self.par.accept(content, styles) { + return Ok(()); + } + + self.interrupt(Interruption::Par, styles, false)?; + + if self.flow.accept(content, styles) { + return Ok(()); + } + + let keep = content + .downcast::<PagebreakNode>() + .map_or(false, |pagebreak| !pagebreak.weak); + self.interrupt(Interruption::Page, styles, keep)?; + + if let Some(doc) = &mut self.doc { + doc.accept(content, styles); + } + + // We might want to issue a warning or error for content that wasn't + // handled (e.g. a pagebreak in a flow building process). However, we + // don't have the spans here at the moment. + Ok(()) + } + + fn show( + &mut self, + content: &'a Content, + styles: StyleChain<'a>, + ) -> SourceResult<bool> { + if let Some(mut realized) = styles.apply(self.world, Target::Node(content))? { + let mut map = StyleMap::new(); + let barrier = Barrier::new(content.id()); + map.push(StyleEntry::Barrier(barrier)); + map.push(StyleEntry::Barrier(barrier)); + realized = realized.styled_with_map(map); + let stored = self.scratch.templates.alloc(realized); + self.accept(stored, styles)?; + Ok(true) + } else { + Ok(false) + } + } + + fn styled( + &mut self, + styled: &'a StyledNode, + styles: StyleChain<'a>, + ) -> SourceResult<()> { + let stored = self.scratch.styles.alloc(styles); + let styles = styled.map.chain(stored); + + let intr = if styled.map.interrupts::<PageNode>() { + Some(Interruption::Page) + } else if styled.map.interrupts::<ParNode>() { + Some(Interruption::Par) + } else if styled.map.interrupts::<ListNode>() + || styled.map.interrupts::<EnumNode>() + || styled.map.interrupts::<DescNode>() + { + Some(Interruption::List) + } else { + None + }; + + if let Some(intr) = intr { + self.interrupt(intr, styles, false)?; + } + + self.accept(&styled.sub, styles)?; + + if let Some(intr) = intr { + self.interrupt(intr, styles, true)?; + } + + Ok(()) + } + + fn interrupt( + &mut self, + intr: Interruption, + styles: StyleChain<'a>, + keep: bool, + ) -> SourceResult<()> { + if intr >= Interruption::List && !self.list.is_empty() { + mem::take(&mut self.list).finish(self)?; + } + + if intr >= Interruption::Par && !self.par.is_empty() { + mem::take(&mut self.par).finish(self); + } + + if intr >= Interruption::Page { + if let Some(doc) = &mut self.doc { + if !self.flow.is_empty() || (doc.keep_next && keep) { + mem::take(&mut self.flow).finish(doc, styles); + } + doc.keep_next = !keep; + } + } + + Ok(()) + } + + fn sequence( + &mut self, + seq: &'a SequenceNode, + styles: StyleChain<'a>, + ) -> SourceResult<()> { + for content in &seq.0 { + self.accept(content, styles)?; + } + Ok(()) + } +} + +/// Accepts pagebreaks and pages. +struct DocBuilder<'a> { + /// The page runs built so far. + pages: StyleVecBuilder<'a, PageNode>, + /// Whether to keep a following page even if it is empty. + keep_next: bool, +} + +impl<'a> DocBuilder<'a> { + fn accept(&mut self, content: &'a Content, styles: StyleChain<'a>) { + if let Some(pagebreak) = content.downcast::<PagebreakNode>() { + self.keep_next = !pagebreak.weak; + } + + if let Some(page) = content.downcast::<PageNode>() { + self.pages.push(page.clone(), styles); + self.keep_next = false; + } + } +} + +impl Default for DocBuilder<'_> { + fn default() -> Self { + Self { + pages: StyleVecBuilder::new(), + keep_next: true, + } + } +} + +/// Accepts flow content. +#[derive(Default)] +struct FlowBuilder<'a>(CollapsingBuilder<'a, FlowChild>); + +impl<'a> FlowBuilder<'a> { + fn accept(&mut self, content: &'a Content, styles: StyleChain<'a>) -> bool { + // Weak flow elements: + // Weakness | Element + // 0 | weak colbreak + // 1 | weak fractional spacing + // 2 | weak spacing + // 3 | generated weak spacing + // 4 | generated weak fractional spacing + // 5 | par spacing + + if content.is::<ParbreakNode>() { + /* Nothing to do */ + } else if let Some(colbreak) = content.downcast::<ColbreakNode>() { + if colbreak.weak { + self.0.weak(FlowChild::Colbreak, styles, 0); + } else { + self.0.destructive(FlowChild::Colbreak, styles); + } + } else if let Some(vertical) = content.downcast::<VNode>() { + let child = FlowChild::Spacing(vertical.amount); + let frac = vertical.amount.is_fractional(); + if vertical.weak { + let weakness = 1 + u8::from(frac) + 2 * u8::from(vertical.generated); + self.0.weak(child, styles, weakness); + } else if frac { + self.0.destructive(child, styles); + } else { + self.0.ignorant(child, styles); + } + } else if content.has::<dyn LayoutBlock>() { + let child = FlowChild::Block(content.clone()); + if content.is::<PlaceNode>() { + self.0.ignorant(child, styles); + } else { + self.0.supportive(child, styles); + } + } else { + return false; + } + + true + } + + fn par(&mut self, par: ParNode, styles: StyleChain<'a>, indent: bool) { + let amount = if indent && !styles.get(ParNode::SPACING_AND_INDENT) { + styles.get(ParNode::LEADING).into() + } else { + styles.get(ParNode::SPACING).into() + }; + + self.0.weak(FlowChild::Spacing(amount), styles, 5); + self.0.supportive(FlowChild::Block(par.pack()), styles); + self.0.weak(FlowChild::Spacing(amount), styles, 5); + } + + fn finish(self, doc: &mut DocBuilder<'a>, styles: StyleChain<'a>) { + let (flow, shared) = self.0.finish(); + let styles = if flow.is_empty() { styles } else { shared }; + let node = PageNode(FlowNode(flow).pack()); + doc.pages.push(node, styles); + } + + fn is_empty(&self) -> bool { + self.0.is_empty() + } +} + +/// Accepts paragraph content. +#[derive(Default)] +struct ParBuilder<'a>(CollapsingBuilder<'a, ParChild>); + +impl<'a> ParBuilder<'a> { + fn accept(&mut self, content: &'a Content, styles: StyleChain<'a>) -> bool { + // Weak par elements: + // Weakness | Element + // 0 | weak fractional spacing + // 1 | weak spacing + // 2 | space + + if content.is::<SpaceNode>() { + self.0.weak(ParChild::Text(' '.into()), styles, 2); + } else if let Some(linebreak) = content.downcast::<LinebreakNode>() { + let c = if linebreak.justify { '\u{2028}' } else { '\n' }; + self.0.destructive(ParChild::Text(c.into()), styles); + } else if let Some(horizontal) = content.downcast::<HNode>() { + let child = ParChild::Spacing(horizontal.amount); + let frac = horizontal.amount.is_fractional(); + if horizontal.weak { + let weakness = u8::from(!frac); + self.0.weak(child, styles, weakness); + } else if frac { + self.0.destructive(child, styles); + } else { + self.0.ignorant(child, styles); + } + } else if let Some(quote) = content.downcast::<SmartQuoteNode>() { + self.0.supportive(ParChild::Quote { double: quote.double }, styles); + } else if let Some(text) = content.downcast::<TextNode>() { + self.0.supportive(ParChild::Text(text.0.clone()), styles); + } else if content.has::<dyn LayoutInline>() { + self.0.supportive(ParChild::Inline(content.clone()), styles); + } else { + return false; + } + + true + } + + fn finish(self, parent: &mut Builder<'a>) { + let (mut children, shared) = self.0.finish(); + if children.is_empty() { + return; + } + + // Paragraph indent should only apply if the paragraph starts with + // text and follows directly after another paragraph. + let indent = shared.get(ParNode::INDENT); + if !indent.is_zero() + && children + .items() + .find_map(|child| match child { + ParChild::Spacing(_) => None, + ParChild::Text(_) | ParChild::Quote { .. } => Some(true), + ParChild::Inline(_) => Some(false), + }) + .unwrap_or_default() + && parent + .flow + .0 + .items() + .rev() + .find_map(|child| match child { + FlowChild::Spacing(_) => None, + FlowChild::Block(content) => Some(content.is::<ParNode>()), + FlowChild::Colbreak => Some(false), + }) + .unwrap_or_default() + { + children.push_front(ParChild::Spacing(indent.into())); + } + + parent.flow.par(ParNode(children), shared, !indent.is_zero()); + } + + fn is_empty(&self) -> bool { + self.0.is_empty() + } +} + +/// Accepts list / enum items, spaces, paragraph breaks. +struct ListBuilder<'a> { + /// The list items collected so far. + items: StyleVecBuilder<'a, ListItem>, + /// Whether the list contains no paragraph breaks. + tight: bool, + /// Whether the list can be attached. + attachable: bool, + /// Trailing content for which it is unclear whether it is part of the list. + staged: Vec<(&'a Content, StyleChain<'a>)>, +} + +impl<'a> ListBuilder<'a> { + fn accept(&mut self, content: &'a Content, styles: StyleChain<'a>) -> bool { + if self.items.is_empty() { + if content.is::<ParbreakNode>() { + self.attachable = false; + } else if !content.is::<SpaceNode>() && !content.is::<ListItem>() { + self.attachable = true; + } + } + + if let Some(item) = content.downcast::<ListItem>() { + if self + .items + .items() + .next() + .map_or(true, |first| item.kind() == first.kind()) + { + self.items.push(item.clone(), styles); + self.tight &= self.staged.drain(..).all(|(t, _)| !t.is::<ParbreakNode>()); + } else { + return false; + } + } else if !self.items.is_empty() + && (content.is::<SpaceNode>() || content.is::<ParbreakNode>()) + { + self.staged.push((content, styles)); + } else { + return false; + } + + true + } + + fn finish(self, parent: &mut Builder<'a>) -> SourceResult<()> { + let (items, shared) = self.items.finish(); + let kind = match items.items().next() { + Some(item) => item.kind(), + None => return Ok(()), + }; + + let tight = self.tight; + let attached = tight && self.attachable; + let content = match kind { + LIST => ListNode::<LIST> { tight, attached, items }.pack(), + ENUM => ListNode::<ENUM> { tight, attached, items }.pack(), + DESC | _ => ListNode::<DESC> { tight, attached, items }.pack(), + }; + + let stored = parent.scratch.templates.alloc(content); + parent.accept(stored, shared)?; + + for (content, styles) in self.staged { + parent.accept(content, styles)?; + } + + parent.list.attachable = true; + + Ok(()) + } + + fn is_empty(&self) -> bool { + self.items.is_empty() + } +} + +impl Default for ListBuilder<'_> { + fn default() -> Self { + Self { + items: StyleVecBuilder::default(), + tight: true, + attachable: true, + staged: vec![], + } + } +} + +/// A wrapper around a [`StyleVecBuilder`] that allows to collapse items. +struct CollapsingBuilder<'a, T> { + /// The internal builder. + builder: StyleVecBuilder<'a, T>, + /// Staged weak and ignorant items that we can't yet commit to the builder. + /// The option is `Some(_)` for weak items and `None` for ignorant items. + staged: Vec<(T, StyleChain<'a>, Option<u8>)>, + /// What the last non-ignorant item was. + last: Last, +} + +/// What the last non-ignorant item was. +#[derive(Debug, Copy, Clone, Eq, PartialEq)] +enum Last { + Weak, + Destructive, + Supportive, +} + +impl<'a, T> CollapsingBuilder<'a, T> { + /// Create a new style-vec builder. + pub fn new() -> Self { + Self { + builder: StyleVecBuilder::new(), + staged: vec![], + last: Last::Destructive, + } + } + + /// Whether the builder is empty. + pub fn is_empty(&self) -> bool { + self.builder.is_empty() && self.staged.is_empty() + } + + /// Can only exist when there is at least one supportive item to its left + /// and to its right, with no destructive items in between. There may be + /// ignorant items in between in both directions. + /// + /// Between weak items, there may be at least one per layer and among the + /// candidates the strongest one (smallest `weakness`) wins. When tied, + /// the one that compares larger through `PartialOrd` wins. + pub fn weak(&mut self, item: T, styles: StyleChain<'a>, weakness: u8) + where + T: PartialOrd, + { + if self.last == Last::Destructive { + return; + } + + if self.last == Last::Weak { + if let Some(i) = + self.staged.iter().position(|(prev_item, _, prev_weakness)| { + prev_weakness.map_or(false, |prev_weakness| { + weakness < prev_weakness + || (weakness == prev_weakness && item > *prev_item) + }) + }) + { + self.staged.remove(i); + } else { + return; + } + } + + self.staged.push((item, styles, Some(weakness))); + self.last = Last::Weak; + } + + /// Forces nearby weak items to collapse. + pub fn destructive(&mut self, item: T, styles: StyleChain<'a>) { + self.flush(false); + self.builder.push(item, styles); + self.last = Last::Destructive; + } + + /// Allows nearby weak items to exist. + pub fn supportive(&mut self, item: T, styles: StyleChain<'a>) { + self.flush(true); + self.builder.push(item, styles); + self.last = Last::Supportive; + } + + /// Has no influence on other items. + pub fn ignorant(&mut self, item: T, styles: StyleChain<'a>) { + self.staged.push((item, styles, None)); + } + + /// Iterate over the contained items. + pub fn items(&self) -> impl DoubleEndedIterator<Item = &T> { + self.builder.items().chain(self.staged.iter().map(|(item, ..)| item)) + } + + /// Return the finish style vec and the common prefix chain. + pub fn finish(mut self) -> (StyleVec<T>, StyleChain<'a>) { + self.flush(false); + self.builder.finish() + } + + /// Push the staged items, filtering out weak items if `supportive` is + /// false. + fn flush(&mut self, supportive: bool) { + for (item, styles, meta) in self.staged.drain(..) { + if supportive || meta.is_none() { + self.builder.push(item, styles); + } + } + } +} + +impl<'a, T> Default for CollapsingBuilder<'a, T> { + fn default() -> Self { + Self::new() + } +} diff --git a/library/src/layout/pad.rs b/library/src/layout/pad.rs new file mode 100644 index 00000000..318d9f27 --- /dev/null +++ b/library/src/layout/pad.rs @@ -0,0 +1,83 @@ +use crate::prelude::*; + +/// Pad content at the sides. +#[derive(Debug, Hash)] +pub struct PadNode { + /// The amount of padding. + pub padding: Sides<Rel<Length>>, + /// The content whose sides to pad. + pub child: Content, +} + +#[node(LayoutBlock)] +impl PadNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let all = args.named("rest")?.or(args.find()?); + let x = args.named("x")?; + let y = args.named("y")?; + let left = args.named("left")?.or(x).or(all).unwrap_or_default(); + let top = args.named("top")?.or(y).or(all).unwrap_or_default(); + let right = args.named("right")?.or(x).or(all).unwrap_or_default(); + let bottom = args.named("bottom")?.or(y).or(all).unwrap_or_default(); + let body = args.expect::<Content>("body")?; + let padding = Sides::new(left, top, right, bottom); + Ok(body.padded(padding)) + } +} + +impl LayoutBlock for PadNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + // Layout child into padded regions. + let padding = self.padding.resolve(styles); + let pod = regions.map(|size| shrink(size, padding)); + let mut frames = self.child.layout_block(world, &pod, styles)?; + + for frame in &mut frames { + // Apply the padding inversely such that the grown size padded + // yields the frame's size. + let padded = grow(frame.size(), padding); + let padding = padding.relative_to(padded); + let offset = Point::new(padding.left, padding.top); + + // Grow the frame and translate everything in the frame inwards. + frame.set_size(padded); + frame.translate(offset); + } + + Ok(frames) + } +} + +/// Shrink a size by padding relative to the size itself. +fn shrink(size: Size, padding: Sides<Rel<Abs>>) -> Size { + size - padding.relative_to(size).sum_by_axis() +} + +/// Grow a size by padding relative to the grown size. +/// This is the inverse operation to `shrink()`. +/// +/// For the horizontal axis the derivation looks as follows. +/// (Vertical axis is analogous.) +/// +/// Let w be the grown target width, +/// s be the given width, +/// l be the left padding, +/// r be the right padding, +/// p = l + r. +/// +/// We want that: w - l.resolve(w) - r.resolve(w) = s +/// +/// Thus: w - l.resolve(w) - r.resolve(w) = s +/// <=> w - p.resolve(w) = s +/// <=> w - p.rel * w - p.abs = s +/// <=> (1 - p.rel) * w = s + p.abs +/// <=> w = (s + p.abs) / (1 - p.rel) +fn grow(size: Size, padding: Sides<Rel<Abs>>) -> Size { + size.zip(padding.sum_by_axis()) + .map(|(s, p)| (s + p.abs).safe_div(1.0 - p.rel.get())) +} diff --git a/library/src/layout/page.rs b/library/src/layout/page.rs new file mode 100644 index 00000000..53a8cbc7 --- /dev/null +++ b/library/src/layout/page.rs @@ -0,0 +1,421 @@ +use std::str::FromStr; + +use super::ColumnsNode; +use crate::prelude::*; + +/// Layouts its child onto one or multiple pages. +#[derive(PartialEq, Clone, Hash)] +pub struct PageNode(pub Content); + +#[node] +impl PageNode { + /// The unflipped width of the page. + #[property(resolve)] + pub const WIDTH: Smart<Length> = Smart::Custom(Paper::A4.width().into()); + /// The unflipped height of the page. + #[property(resolve)] + pub const HEIGHT: Smart<Length> = Smart::Custom(Paper::A4.height().into()); + /// Whether the page is flipped into landscape orientation. + pub const FLIPPED: bool = false; + + /// The page's margins. + #[property(fold)] + pub const MARGINS: Sides<Option<Smart<Rel<Length>>>> = Sides::splat(Smart::Auto); + + /// How many columns the page has. + pub const COLUMNS: NonZeroUsize = NonZeroUsize::new(1).unwrap(); + /// The page's background color. + pub const FILL: Option<Paint> = None; + + /// The page's header. + #[property(referenced)] + pub const HEADER: Marginal = Marginal::None; + /// The page's footer. + #[property(referenced)] + pub const FOOTER: Marginal = Marginal::None; + /// Content in the page's background. + #[property(referenced)] + pub const BACKGROUND: Marginal = Marginal::None; + /// Content in the page's foreground. + #[property(referenced)] + pub const FOREGROUND: Marginal = Marginal::None; + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("body")?).pack()) + } + + fn set(...) { + if let Some(paper) = args.named_or_find::<Paper>("paper")? { + styles.set(Self::WIDTH, Smart::Custom(paper.width().into())); + styles.set(Self::HEIGHT, Smart::Custom(paper.height().into())); + } + } +} + +impl PageNode { + /// Layout the page run into a sequence of frames, one per page. + pub fn layout( + &self, + world: Tracked<dyn World>, + mut page: usize, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + // When one of the lengths is infinite the page fits its content along + // that axis. + let width = styles.get(Self::WIDTH).unwrap_or(Abs::inf()); + let height = styles.get(Self::HEIGHT).unwrap_or(Abs::inf()); + let mut size = Size::new(width, height); + if styles.get(Self::FLIPPED) { + std::mem::swap(&mut size.x, &mut size.y); + } + + let mut min = width.min(height); + if !min.is_finite() { + min = Paper::A4.width(); + } + + // Determine the margins. + let default = Rel::from(0.1190 * min); + let padding = styles.get(Self::MARGINS).map(|side| side.unwrap_or(default)); + + let mut child = self.0.clone(); + + // Realize columns. + let columns = styles.get(Self::COLUMNS); + if columns.get() > 1 { + child = ColumnsNode { columns, child: self.0.clone() }.pack(); + } + + // Realize margins. + child = child.padded(padding); + + // Realize background fill. + if let Some(fill) = styles.get(Self::FILL) { + child = child.filled(fill); + } + + // Layout the child. + let regions = Regions::repeat(size, size, size.map(Abs::is_finite)); + let mut frames = child.layout_block(world, ®ions, styles)?; + + let header = styles.get(Self::HEADER); + let footer = styles.get(Self::FOOTER); + let foreground = styles.get(Self::FOREGROUND); + let background = styles.get(Self::BACKGROUND); + + // Realize overlays. + for frame in &mut frames { + let size = frame.size(); + let pad = padding.resolve(styles).relative_to(size); + let pw = size.x - pad.left - pad.right; + let py = size.y - pad.bottom; + for (role, marginal, pos, area) in [ + ( + Role::Header, + header, + Point::with_x(pad.left), + Size::new(pw, pad.top), + ), + ( + Role::Footer, + footer, + Point::new(pad.left, py), + Size::new(pw, pad.bottom), + ), + (Role::Foreground, foreground, Point::zero(), size), + (Role::Background, background, Point::zero(), size), + ] { + if let Some(content) = marginal.resolve(world, page)? { + let pod = Regions::one(area, area, Axes::splat(true)); + let mut sub = content.layout_block(world, &pod, styles)?.remove(0); + sub.apply_role(role); + + if role == Role::Background { + frame.prepend_frame(pos, sub); + } else { + frame.push_frame(pos, sub); + } + } + } + + page += 1; + } + + Ok(frames) + } +} + +impl Debug for PageNode { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + f.write_str("Page(")?; + self.0.fmt(f)?; + f.write_str(")") + } +} + +/// A page break. +#[derive(Debug, Copy, Clone, Hash)] +pub struct PagebreakNode { + pub weak: bool, +} + +#[node] +impl PagebreakNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let weak = args.named("weak")?.unwrap_or(false); + Ok(Self { weak }.pack()) + } +} + +/// A header, footer, foreground or background definition. +#[derive(Debug, Clone, PartialEq, Hash)] +pub enum Marginal { + /// Nothing, + None, + /// Bare content. + Content(Content), + /// A closure mapping from a page number to content. + Func(Func, Span), +} + +impl Marginal { + /// Resolve the marginal based on the page number. + pub fn resolve( + &self, + world: Tracked<dyn World>, + page: usize, + ) -> SourceResult<Option<Content>> { + Ok(match self { + Self::None => None, + Self::Content(content) => Some(content.clone()), + Self::Func(func, span) => { + let args = Args::new(*span, [Value::Int(page as i64)]); + Some(func.call_detached(world, args)?.display(world)) + } + }) + } +} + +impl Cast<Spanned<Value>> for Marginal { + fn is(value: &Spanned<Value>) -> bool { + matches!(&value.v, Value::Content(_) | Value::Func(_)) + } + + fn cast(value: Spanned<Value>) -> StrResult<Self> { + match value.v { + Value::None => Ok(Self::None), + Value::Str(v) => Ok(Self::Content(TextNode(v.into()).pack())), + Value::Content(v) => Ok(Self::Content(v)), + Value::Func(v) => Ok(Self::Func(v, value.span)), + v => Err(format!( + "expected none, content or function, found {}", + v.type_name(), + )), + } + } +} + +/// Specification of a paper. +#[derive(Debug, Copy, Clone)] +pub struct Paper { + /// The width of the paper in millimeters. + width: f64, + /// The height of the paper in millimeters. + height: f64, +} + +impl Paper { + /// The width of the paper. + pub fn width(self) -> Abs { + Abs::mm(self.width) + } + + /// The height of the paper. + pub fn height(self) -> Abs { + Abs::mm(self.height) + } +} + +/// Defines paper constants and a paper parsing implementation. +macro_rules! papers { + ($(($var:ident: $width:expr, $height: expr, $($pats:tt)*))*) => { + /// Predefined papers. + /// + /// Each paper is parsable from its name in kebab-case. + impl Paper { + $(pub const $var: Self = Self { width: $width, height: $height };)* + } + + impl FromStr for Paper { + type Err = &'static str; + + fn from_str(name: &str) -> Result<Self, Self::Err> { + match name.to_lowercase().as_str() { + $($($pats)* => Ok(Self::$var),)* + _ => Err("invalid paper name"), + } + } + } + }; +} + +castable! { + Paper, + Expected: "string", + Value::Str(string) => Self::from_str(&string)?, +} + +// All paper sizes in mm. +// +// Resources: +// - https://papersizes.io/ +// - https://en.wikipedia.org/wiki/Paper_size +// - https://www.theedkins.co.uk/jo/units/oldunits/print.htm +// - https://vintagepaper.co/blogs/news/traditional-paper-sizes +papers! { + // ---------------------------------------------------------------------- // + // ISO 216 A Series + (A0: 841.0, 1189.0, "a0") + (A1: 594.0, 841.0, "a1") + (A2: 420.0, 594.0, "a2") + (A3: 297.0, 420.0, "a3") + (A4: 210.0, 297.0, "a4") + (A5: 148.0, 210.0, "a5") + (A6: 105.0, 148.0, "a6") + (A7: 74.0, 105.0, "a7") + (A8: 52.0, 74.0, "a8") + (A9: 37.0, 52.0, "a9") + (A10: 26.0, 37.0, "a10") + (A11: 18.0, 26.0, "a11") + + // ISO 216 B Series + (ISO_B1: 707.0, 1000.0, "iso-b1") + (ISO_B2: 500.0, 707.0, "iso-b2") + (ISO_B3: 353.0, 500.0, "iso-b3") + (ISO_B4: 250.0, 353.0, "iso-b4") + (ISO_B5: 176.0, 250.0, "iso-b5") + (ISO_B6: 125.0, 176.0, "iso-b6") + (ISO_B7: 88.0, 125.0, "iso-b7") + (ISO_B8: 62.0, 88.0, "iso-b8") + + // ISO 216 C Series + (ISO_C3: 324.0, 458.0, "iso-c3") + (ISO_C4: 229.0, 324.0, "iso-c4") + (ISO_C5: 162.0, 229.0, "iso-c5") + (ISO_C6: 114.0, 162.0, "iso-c6") + (ISO_C7: 81.0, 114.0, "iso-c7") + (ISO_C8: 57.0, 81.0, "iso-c8") + + // DIN D Series (extension to ISO) + (DIN_D3: 272.0, 385.0, "din-d3") + (DIN_D4: 192.0, 272.0, "din-d4") + (DIN_D5: 136.0, 192.0, "din-d5") + (DIN_D6: 96.0, 136.0, "din-d6") + (DIN_D7: 68.0, 96.0, "din-d7") + (DIN_D8: 48.0, 68.0, "din-d8") + + // SIS (used in academia) + (SIS_G5: 169.0, 239.0, "sis-g5") + (SIS_E5: 115.0, 220.0, "sis-e5") + + // ANSI Extensions + (ANSI_A: 216.0, 279.0, "ansi-a") + (ANSI_B: 279.0, 432.0, "ansi-b") + (ANSI_C: 432.0, 559.0, "ansi-c") + (ANSI_D: 559.0, 864.0, "ansi-d") + (ANSI_E: 864.0, 1118.0, "ansi-e") + + // ANSI Architectural Paper + (ARCH_A: 229.0, 305.0, "arch-a") + (ARCH_B: 305.0, 457.0, "arch-b") + (ARCH_C: 457.0, 610.0, "arch-c") + (ARCH_D: 610.0, 914.0, "arch-d") + (ARCH_E1: 762.0, 1067.0, "arch-e1") + (ARCH_E: 914.0, 1219.0, "arch-e") + + // JIS B Series + (JIS_B0: 1030.0, 1456.0, "jis-b0") + (JIS_B1: 728.0, 1030.0, "jis-b1") + (JIS_B2: 515.0, 728.0, "jis-b2") + (JIS_B3: 364.0, 515.0, "jis-b3") + (JIS_B4: 257.0, 364.0, "jis-b4") + (JIS_B5: 182.0, 257.0, "jis-b5") + (JIS_B6: 128.0, 182.0, "jis-b6") + (JIS_B7: 91.0, 128.0, "jis-b7") + (JIS_B8: 64.0, 91.0, "jis-b8") + (JIS_B9: 45.0, 64.0, "jis-b9") + (JIS_B10: 32.0, 45.0, "jis-b10") + (JIS_B11: 22.0, 32.0, "jis-b11") + + // SAC D Series + (SAC_D0: 764.0, 1064.0, "sac-d0") + (SAC_D1: 532.0, 760.0, "sac-d1") + (SAC_D2: 380.0, 528.0, "sac-d2") + (SAC_D3: 264.0, 376.0, "sac-d3") + (SAC_D4: 188.0, 260.0, "sac-d4") + (SAC_D5: 130.0, 184.0, "sac-d5") + (SAC_D6: 92.0, 126.0, "sac-d6") + + // ISO 7810 ID + (ISO_ID_1: 85.6, 53.98, "iso-id-1") + (ISO_ID_2: 74.0, 105.0, "iso-id-2") + (ISO_ID_3: 88.0, 125.0, "iso-id-3") + + // ---------------------------------------------------------------------- // + // Asia + (ASIA_F4: 210.0, 330.0, "asia-f4") + + // Japan + (JP_SHIROKU_BAN_4: 264.0, 379.0, "jp-shiroku-ban-4") + (JP_SHIROKU_BAN_5: 189.0, 262.0, "jp-shiroku-ban-5") + (JP_SHIROKU_BAN_6: 127.0, 188.0, "jp-shiroku-ban-6") + (JP_KIKU_4: 227.0, 306.0, "jp-kiku-4") + (JP_KIKU_5: 151.0, 227.0, "jp-kiku-5") + (JP_BUSINESS_CARD: 91.0, 55.0, "jp-business-card") + + // China + (CN_BUSINESS_CARD: 90.0, 54.0, "cn-business-card") + + // Europe + (EU_BUSINESS_CARD: 85.0, 55.0, "eu-business-card") + + // French Traditional (AFNOR) + (FR_TELLIERE: 340.0, 440.0, "fr-tellière") + (FR_COURONNE_ECRITURE: 360.0, 460.0, "fr-couronne-écriture") + (FR_COURONNE_EDITION: 370.0, 470.0, "fr-couronne-édition") + (FR_RAISIN: 500.0, 650.0, "fr-raisin") + (FR_CARRE: 450.0, 560.0, "fr-carré") + (FR_JESUS: 560.0, 760.0, "fr-jésus") + + // United Kingdom Imperial + (UK_BRIEF: 406.4, 342.9, "uk-brief") + (UK_DRAFT: 254.0, 406.4, "uk-draft") + (UK_FOOLSCAP: 203.2, 330.2, "uk-foolscap") + (UK_QUARTO: 203.2, 254.0, "uk-quarto") + (UK_CROWN: 508.0, 381.0, "uk-crown") + (UK_BOOK_A: 111.0, 178.0, "uk-book-a") + (UK_BOOK_B: 129.0, 198.0, "uk-book-b") + + // Unites States + (US_LETTER: 215.9, 279.4, "us-letter") + (US_LEGAL: 215.9, 355.6, "us-legal") + (US_TABLOID: 279.4, 431.8, "us-tabloid") + (US_EXECUTIVE: 84.15, 266.7, "us-executive") + (US_FOOLSCAP_FOLIO: 215.9, 342.9, "us-foolscap-folio") + (US_STATEMENT: 139.7, 215.9, "us-statement") + (US_LEDGER: 431.8, 279.4, "us-ledger") + (US_OFICIO: 215.9, 340.36, "us-oficio") + (US_GOV_LETTER: 203.2, 266.7, "us-gov-letter") + (US_GOV_LEGAL: 215.9, 330.2, "us-gov-legal") + (US_BUSINESS_CARD: 88.9, 50.8, "us-business-card") + (US_DIGEST: 139.7, 215.9, "us-digest") + (US_TRADE: 152.4, 228.6, "us-trade") + + // ---------------------------------------------------------------------- // + // Other + (NEWSPAPER_COMPACT: 280.0, 430.0, "newspaper-compact") + (NEWSPAPER_BERLINER: 315.0, 470.0, "newspaper-berliner") + (NEWSPAPER_BROADSHEET: 381.0, 578.0, "newspaper-broadsheet") + (PRESENTATION_16_9: 297.0, 167.0625, "presentation-16-9") + (PRESENTATION_4_3: 280.0, 210.0, "presentation-4-3") +} diff --git a/library/src/layout/place.rs b/library/src/layout/place.rs new file mode 100644 index 00000000..7d760ab6 --- /dev/null +++ b/library/src/layout/place.rs @@ -0,0 +1,56 @@ +use super::AlignNode; +use crate::prelude::*; + +/// Place content at an absolute position. +#[derive(Debug, Hash)] +pub struct PlaceNode(pub Content); + +#[node(LayoutBlock)] +impl PlaceNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let aligns = args.find()?.unwrap_or(Axes::with_x(Some(GenAlign::Start))); + let dx = args.named("dx")?.unwrap_or_default(); + let dy = args.named("dy")?.unwrap_or_default(); + let body = args.expect::<Content>("body")?; + Ok(Self(body.moved(Axes::new(dx, dy)).aligned(aligns)).pack()) + } +} + +impl LayoutBlock for PlaceNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let out_of_flow = self.out_of_flow(); + + // The pod is the base area of the region because for absolute + // placement we don't really care about the already used area. + let pod = { + let finite = regions.base.map(Abs::is_finite); + let expand = finite & (regions.expand | out_of_flow); + Regions::one(regions.base, regions.base, expand) + }; + + let mut frames = self.0.layout_block(world, &pod, styles)?; + + // If expansion is off, zero all sizes so that we don't take up any + // space in our parent. Otherwise, respect the expand settings. + let target = regions.expand.select(regions.first, Size::zero()); + frames[0].resize(target, Align::LEFT_TOP); + + Ok(frames) + } +} + +impl PlaceNode { + /// Whether this node wants to be placed relative to its its parent's base + /// origin. Instead of relative to the parent's current flow/cursor + /// position. + pub fn out_of_flow(&self) -> bool { + self.0 + .downcast::<AlignNode>() + .map_or(false, |node| node.aligns.y.is_some()) + } +} diff --git a/library/src/layout/spacing.rs b/library/src/layout/spacing.rs new file mode 100644 index 00000000..67fff5db --- /dev/null +++ b/library/src/layout/spacing.rs @@ -0,0 +1,100 @@ +use std::cmp::Ordering; + +use crate::prelude::*; +use crate::text::ParNode; + +/// Horizontal spacing. +#[derive(Debug, Clone, Hash)] +pub struct HNode { + pub amount: Spacing, + pub weak: bool, +} + +#[node] +impl HNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let amount = args.expect("spacing")?; + let weak = args.named("weak")?.unwrap_or(false); + Ok(Self { amount, weak }.pack()) + } +} + +/// Vertical spacing. +#[derive(Debug, Clone, Hash)] +pub struct VNode { + pub amount: Spacing, + pub weak: bool, + pub generated: bool, +} + +#[node] +impl VNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let amount = args.expect("spacing")?; + let weak = args.named("weak")?.unwrap_or(false); + Ok(Self { amount, weak, generated: false }.pack()) + } +} + +/// Kinds of spacing. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum Spacing { + /// Spacing specified in absolute terms and relative to the parent's size. + Relative(Rel<Length>), + /// Spacing specified as a fraction of the remaining free space in the + /// parent. + Fractional(Fr), +} + +impl Spacing { + /// Whether this is fractional spacing. + pub fn is_fractional(self) -> bool { + matches!(self, Self::Fractional(_)) + } +} + +impl From<Abs> for Spacing { + fn from(abs: Abs) -> Self { + Self::Relative(abs.into()) + } +} + +impl PartialOrd for Spacing { + fn partial_cmp(&self, other: &Self) -> Option<Ordering> { + match (self, other) { + (Self::Relative(a), Self::Relative(b)) => a.partial_cmp(b), + (Self::Fractional(a), Self::Fractional(b)) => a.partial_cmp(b), + _ => None, + } + } +} + +castable! { + Spacing, + Expected: "relative length or fraction", + Value::Length(v) => Self::Relative(v.into()), + Value::Ratio(v) => Self::Relative(v.into()), + Value::Relative(v) => Self::Relative(v), + Value::Fraction(v) => Self::Fractional(v), +} + +/// Spacing around and between blocks, relative to paragraph spacing. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub struct BlockSpacing(Rel<Length>); + +castable!(BlockSpacing: Rel<Length>); + +impl Resolve for BlockSpacing { + type Output = Abs; + + fn resolve(self, styles: StyleChain) -> Self::Output { + let whole = styles.get(ParNode::SPACING); + self.0.resolve(styles).relative_to(whole) + } +} + +impl From<Ratio> for BlockSpacing { + fn from(ratio: Ratio) -> Self { + Self(ratio.into()) + } +} diff --git a/library/src/layout/stack.rs b/library/src/layout/stack.rs new file mode 100644 index 00000000..44bcbf67 --- /dev/null +++ b/library/src/layout/stack.rs @@ -0,0 +1,322 @@ +use typst::model::StyledNode; + +use super::{AlignNode, Spacing}; +use crate::prelude::*; +use crate::text::ParNode; + +/// Arrange content and spacing along an axis. +#[derive(Debug, Hash)] +pub struct StackNode { + /// The stacking direction. + pub dir: Dir, + /// The spacing between non-spacing children. + pub spacing: Option<Spacing>, + /// The children to be stacked. + pub children: Vec<StackChild>, +} + +#[node(LayoutBlock)] +impl StackNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self { + dir: args.named("dir")?.unwrap_or(Dir::TTB), + spacing: args.named("spacing")?, + children: args.all()?, + } + .pack()) + } +} + +impl LayoutBlock for StackNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut layouter = StackLayouter::new(self.dir, regions, styles); + + // Spacing to insert before the next block. + let mut deferred = None; + + for child in &self.children { + match child { + StackChild::Spacing(kind) => { + layouter.layout_spacing(*kind); + deferred = None; + } + StackChild::Block(block) => { + if let Some(kind) = deferred { + layouter.layout_spacing(kind); + } + + layouter.layout_block(world, block, styles)?; + deferred = self.spacing; + } + } + } + + Ok(layouter.finish()) + } +} + +/// A child of a stack node. +#[derive(Hash)] +pub enum StackChild { + /// Spacing between other children. + Spacing(Spacing), + /// Arbitrary block-level content. + Block(Content), +} + +impl Debug for StackChild { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + match self { + Self::Spacing(kind) => kind.fmt(f), + Self::Block(block) => block.fmt(f), + } + } +} + +castable! { + StackChild, + Expected: "relative length, fraction, or content", + Value::Length(v) => Self::Spacing(Spacing::Relative(v.into())), + Value::Ratio(v) => Self::Spacing(Spacing::Relative(v.into())), + Value::Relative(v) => Self::Spacing(Spacing::Relative(v)), + Value::Fraction(v) => Self::Spacing(Spacing::Fractional(v)), + Value::Content(v) => Self::Block(v), +} + +/// Performs stack layout. +pub struct StackLayouter<'a> { + /// The stacking direction. + dir: Dir, + /// The axis of the stacking direction. + axis: Axis, + /// The regions to layout children into. + regions: Regions, + /// The inherited styles. + styles: StyleChain<'a>, + /// Whether the stack itself should expand to fill the region. + expand: Axes<bool>, + /// The full size of the current region that was available at the start. + full: Size, + /// The generic size used by the frames for the current region. + used: Gen<Abs>, + /// The sum of fractions in the current region. + fr: Fr, + /// Already layouted items whose exact positions are not yet known due to + /// fractional spacing. + items: Vec<StackItem>, + /// Finished frames for previous regions. + finished: Vec<Frame>, +} + +/// A prepared item in a stack layout. +enum StackItem { + /// Absolute spacing between other items. + Absolute(Abs), + /// Fractional spacing between other items. + Fractional(Fr), + /// A frame for a layouted block. + Frame(Frame, Align), +} + +impl<'a> StackLayouter<'a> { + /// Create a new stack layouter. + pub fn new(dir: Dir, regions: &Regions, styles: StyleChain<'a>) -> Self { + let axis = dir.axis(); + let expand = regions.expand; + let full = regions.first; + + // Disable expansion along the block axis for children. + let mut regions = regions.clone(); + regions.expand.set(axis, false); + + Self { + dir, + axis, + regions, + styles, + expand, + full, + used: Gen::zero(), + fr: Fr::zero(), + items: vec![], + finished: vec![], + } + } + + /// Add spacing along the spacing direction. + pub fn layout_spacing(&mut self, spacing: Spacing) { + match spacing { + Spacing::Relative(v) => { + // Resolve the spacing and limit it to the remaining space. + let resolved = + v.resolve(self.styles).relative_to(self.regions.base.get(self.axis)); + let remaining = self.regions.first.get_mut(self.axis); + let limited = resolved.min(*remaining); + *remaining -= limited; + self.used.main += limited; + self.items.push(StackItem::Absolute(resolved)); + } + Spacing::Fractional(v) => { + self.fr += v; + self.items.push(StackItem::Fractional(v)); + } + } + } + + /// Layout an arbitrary block. + pub fn layout_block( + &mut self, + world: Tracked<dyn World>, + block: &Content, + styles: StyleChain, + ) -> SourceResult<()> { + if self.regions.is_full() { + self.finish_region(); + } + + // Block-axis alignment of the `AlignNode` is respected + // by the stack node. + let align = block + .downcast::<AlignNode>() + .and_then(|node| node.aligns.get(self.axis)) + .map(|align| align.resolve(styles)) + .unwrap_or_else(|| { + if let Some(styled) = block.downcast::<StyledNode>() { + let map = &styled.map; + if map.contains(ParNode::ALIGN) { + return StyleChain::with_root(map).get(ParNode::ALIGN); + } + } + + self.dir.start().into() + }); + + let frames = block.layout_block(world, &self.regions, styles)?; + let len = frames.len(); + for (i, mut frame) in frames.into_iter().enumerate() { + // Set the generic block role. + frame.apply_role(Role::GenericBlock); + + // Grow our size, shrink the region and save the frame for later. + let size = frame.size(); + let size = match self.axis { + Axis::X => Gen::new(size.y, size.x), + Axis::Y => Gen::new(size.x, size.y), + }; + + self.used.main += size.main; + self.used.cross.set_max(size.cross); + *self.regions.first.get_mut(self.axis) -= size.main; + self.items.push(StackItem::Frame(frame, align)); + + if i + 1 < len { + self.finish_region(); + } + } + + Ok(()) + } + + /// Advance to the next region. + pub fn finish_region(&mut self) { + // Determine the size of the stack in this region dependening on whether + // the region expands. + let used = self.used.to_axes(self.axis); + let mut size = self.expand.select(self.full, used); + + // Expand fully if there are fr spacings. + let full = self.full.get(self.axis); + let remaining = full - self.used.main; + if self.fr.get() > 0.0 && full.is_finite() { + self.used.main = full; + size.set(self.axis, full); + } + + let mut output = Frame::new(size); + let mut cursor = Abs::zero(); + let mut ruler: Align = self.dir.start().into(); + + // Place all frames. + for item in self.items.drain(..) { + match item { + StackItem::Absolute(v) => cursor += v, + StackItem::Fractional(v) => cursor += v.share(self.fr, remaining), + StackItem::Frame(frame, align) => { + if self.dir.is_positive() { + ruler = ruler.max(align); + } else { + ruler = ruler.min(align); + } + + // Align along the block axis. + let parent = size.get(self.axis); + let child = frame.size().get(self.axis); + let block = ruler.position(parent - self.used.main) + + if self.dir.is_positive() { + cursor + } else { + self.used.main - child - cursor + }; + + let pos = Gen::new(Abs::zero(), block).to_point(self.axis); + cursor += child; + output.push_frame(pos, frame); + } + } + } + + // Advance to the next region. + self.regions.next(); + self.full = self.regions.first; + self.used = Gen::zero(); + self.fr = Fr::zero(); + self.finished.push(output); + } + + /// Finish layouting and return the resulting frames. + pub fn finish(mut self) -> Vec<Frame> { + self.finish_region(); + self.finished + } +} + +/// A container with a main and cross component. +#[derive(Default, Copy, Clone, Eq, PartialEq, Hash)] +pub struct Gen<T> { + /// The main component. + pub cross: T, + /// The cross component. + pub main: T, +} + +impl<T> Gen<T> { + /// Create a new instance from the two components. + pub const fn new(cross: T, main: T) -> Self { + Self { cross, main } + } + + /// Convert to the specific representation, given the current main axis. + pub fn to_axes(self, main: Axis) -> Axes<T> { + match main { + Axis::X => Axes::new(self.main, self.cross), + Axis::Y => Axes::new(self.cross, self.main), + } + } +} + +impl Gen<Abs> { + /// The zero value. + pub fn zero() -> Self { + Self { cross: Abs::zero(), main: Abs::zero() } + } + + /// Convert to a point. + pub fn to_point(self, main: Axis) -> Point { + self.to_axes(main).to_point() + } +} diff --git a/library/src/layout/transform.rs b/library/src/layout/transform.rs new file mode 100644 index 00000000..4e0b8ac2 --- /dev/null +++ b/library/src/layout/transform.rs @@ -0,0 +1,117 @@ +use typst::geom::Transform; + +use crate::prelude::*; + +/// Move content without affecting layout. +#[derive(Debug, Hash)] +pub struct MoveNode { + /// The offset by which to move the content. + pub delta: Axes<Rel<Length>>, + /// The content that should be moved. + pub child: Content, +} + +#[node(LayoutInline)] +impl MoveNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let dx = args.named("dx")?.unwrap_or_default(); + let dy = args.named("dy")?.unwrap_or_default(); + Ok(Self { + delta: Axes::new(dx, dy), + child: args.expect("body")?, + } + .pack()) + } +} + +impl LayoutInline for MoveNode { + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut frames = self.child.layout_inline(world, regions, styles)?; + + let delta = self.delta.resolve(styles); + for frame in &mut frames { + let delta = delta.zip(frame.size()).map(|(d, s)| d.relative_to(s)); + frame.translate(delta.to_point()); + } + + Ok(frames) + } +} + +/// Transform content without affecting layout. +#[derive(Debug, Hash)] +pub struct TransformNode<const T: TransformKind> { + /// Transformation to apply to the content. + pub transform: Transform, + /// The content that should be transformed. + pub child: Content, +} + +/// Rotate content without affecting layout. +pub type RotateNode = TransformNode<ROTATE>; + +/// Scale content without affecting layout. +pub type ScaleNode = TransformNode<SCALE>; + +#[node(LayoutInline)] +impl<const T: TransformKind> TransformNode<T> { + /// The origin of the transformation. + #[property(resolve)] + pub const ORIGIN: Axes<Option<GenAlign>> = Axes::default(); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let transform = match T { + ROTATE => { + let angle = args.named_or_find("angle")?.unwrap_or_default(); + Transform::rotate(angle) + } + SCALE | _ => { + let all = args.find()?; + let sx = args.named("x")?.or(all).unwrap_or(Ratio::one()); + let sy = args.named("y")?.or(all).unwrap_or(Ratio::one()); + Transform::scale(sx, sy) + } + }; + + Ok(Self { transform, child: args.expect("body")? }.pack()) + } +} + +impl<const T: TransformKind> LayoutInline for TransformNode<T> { + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let origin = styles.get(Self::ORIGIN).unwrap_or(Align::CENTER_HORIZON); + let mut frames = self.child.layout_inline(world, regions, styles)?; + + for frame in &mut frames { + let Axes { x, y } = origin.zip(frame.size()).map(|(o, s)| o.position(s)); + let transform = Transform::translate(x, y) + .pre_concat(self.transform) + .pre_concat(Transform::translate(-x, -y)); + + frame.transform(transform); + } + + Ok(frames) + } +} + +/// Kinds of transformations. +/// +/// The move transformation is handled separately. +pub type TransformKind = usize; + +/// A rotational transformation. +const ROTATE: TransformKind = 1; + +/// A scale transformation. +const SCALE: TransformKind = 2; diff --git a/library/src/lib.rs b/library/src/lib.rs new file mode 100644 index 00000000..ed332a06 --- /dev/null +++ b/library/src/lib.rs @@ -0,0 +1,191 @@ +//! Typst's standard library. + +pub mod graphics; +pub mod layout; +pub mod math; +pub mod prelude; +pub mod structure; +pub mod text; +pub mod utility; + +mod ext; + +use typst::geom::{Align, Color, Dir, GenAlign}; +use typst::model::{LangItems, Node, Scope, StyleMap}; + +use self::layout::Layout; + +/// Construct the standard library scope. +pub fn scope() -> Scope { + let mut std = Scope::new(); + + // Text. + std.def_node::<text::SpaceNode>("space"); + std.def_node::<text::LinebreakNode>("linebreak"); + std.def_node::<text::SmartQuoteNode>("smartquote"); + std.def_node::<text::TextNode>("text"); + std.def_node::<text::ParNode>("par"); + std.def_node::<text::ParbreakNode>("parbreak"); + std.def_node::<text::StrongNode>("strong"); + std.def_node::<text::EmphNode>("emph"); + std.def_node::<text::RawNode>("raw"); + std.def_node::<text::UnderlineNode>("underline"); + std.def_node::<text::StrikethroughNode>("strike"); + std.def_node::<text::OverlineNode>("overline"); + std.def_node::<text::SuperNode>("super"); + std.def_node::<text::SubNode>("sub"); + std.def_node::<text::LinkNode>("link"); + std.def_node::<text::RepeatNode>("repeat"); + std.def_fn("lower", text::lower); + std.def_fn("upper", text::upper); + std.def_fn("smallcaps", text::smallcaps); + + // Structure. + std.def_node::<structure::RefNode>("ref"); + std.def_node::<structure::HeadingNode>("heading"); + std.def_node::<structure::ListNode>("list"); + std.def_node::<structure::EnumNode>("enum"); + std.def_node::<structure::DescNode>("desc"); + std.def_node::<structure::TableNode>("table"); + + // Layout. + std.def_node::<layout::PageNode>("page"); + std.def_node::<layout::PagebreakNode>("pagebreak"); + std.def_node::<layout::HNode>("h"); + std.def_node::<layout::VNode>("v"); + std.def_node::<layout::BoxNode>("box"); + std.def_node::<layout::BlockNode>("block"); + std.def_node::<layout::AlignNode>("align"); + std.def_node::<layout::PadNode>("pad"); + std.def_node::<layout::StackNode>("stack"); + std.def_node::<layout::GridNode>("grid"); + std.def_node::<layout::ColumnsNode>("columns"); + std.def_node::<layout::ColbreakNode>("colbreak"); + std.def_node::<layout::PlaceNode>("place"); + std.def_node::<layout::MoveNode>("move"); + std.def_node::<layout::ScaleNode>("scale"); + std.def_node::<layout::RotateNode>("rotate"); + + // Graphics. + std.def_node::<graphics::ImageNode>("image"); + std.def_node::<graphics::LineNode>("line"); + std.def_node::<graphics::RectNode>("rect"); + std.def_node::<graphics::SquareNode>("square"); + std.def_node::<graphics::EllipseNode>("ellipse"); + std.def_node::<graphics::CircleNode>("circle"); + std.def_node::<graphics::HideNode>("hide"); + + // Math. + std.def_node::<math::MathNode>("math"); + std.define("sum", "∑"); + std.define("in", "∈"); + std.define("arrow", "→"); + std.define("NN", "ℕ"); + std.define("RR", "ℝ"); + + // Utility. + std.def_fn("type", utility::type_); + std.def_fn("assert", utility::assert); + std.def_fn("eval", utility::eval); + std.def_fn("int", utility::int); + std.def_fn("float", utility::float); + std.def_fn("abs", utility::abs); + std.def_fn("min", utility::min); + std.def_fn("max", utility::max); + std.def_fn("even", utility::even); + std.def_fn("odd", utility::odd); + std.def_fn("mod", utility::mod_); + std.def_fn("range", utility::range); + std.def_fn("luma", utility::luma); + std.def_fn("rgb", utility::rgb); + std.def_fn("cmyk", utility::cmyk); + std.def_fn("repr", utility::repr); + std.def_fn("str", utility::str); + std.def_fn("regex", utility::regex); + std.def_fn("letter", utility::letter); + std.def_fn("roman", utility::roman); + std.def_fn("symbol", utility::symbol); + std.def_fn("lorem", utility::lorem); + std.def_fn("csv", utility::csv); + std.def_fn("json", utility::json); + std.def_fn("xml", utility::xml); + + // Predefined colors. + std.define("black", Color::BLACK); + std.define("gray", Color::GRAY); + std.define("silver", Color::SILVER); + std.define("white", Color::WHITE); + std.define("navy", Color::NAVY); + std.define("blue", Color::BLUE); + std.define("aqua", Color::AQUA); + std.define("teal", Color::TEAL); + std.define("eastern", Color::EASTERN); + std.define("purple", Color::PURPLE); + std.define("fuchsia", Color::FUCHSIA); + std.define("maroon", Color::MAROON); + std.define("red", Color::RED); + std.define("orange", Color::ORANGE); + std.define("yellow", Color::YELLOW); + std.define("olive", Color::OLIVE); + std.define("green", Color::GREEN); + std.define("lime", Color::LIME); + + // Other constants. + std.define("ltr", Dir::LTR); + std.define("rtl", Dir::RTL); + std.define("ttb", Dir::TTB); + std.define("btt", Dir::BTT); + std.define("start", GenAlign::Start); + std.define("end", GenAlign::End); + std.define("left", GenAlign::Specific(Align::Left)); + std.define("center", GenAlign::Specific(Align::Center)); + std.define("right", GenAlign::Specific(Align::Right)); + std.define("top", GenAlign::Specific(Align::Top)); + std.define("horizon", GenAlign::Specific(Align::Horizon)); + std.define("bottom", GenAlign::Specific(Align::Bottom)); + + std +} + +/// Construct the standard style map. +pub fn styles() -> StyleMap { + StyleMap::new() +} + +/// Construct the standard lang item mapping. +pub fn items() -> LangItems { + LangItems { + root: |world, content| content.layout(world), + em: |styles| styles.get(text::TextNode::SIZE), + dir: |styles| styles.get(text::TextNode::DIR), + space: || text::SpaceNode.pack(), + linebreak: |justify| text::LinebreakNode { justify }.pack(), + text: |text| text::TextNode(text).pack(), + smart_quote: |double| text::SmartQuoteNode { double }.pack(), + parbreak: || text::ParbreakNode.pack(), + strong: |body| text::StrongNode(body).pack(), + emph: |body| text::EmphNode(body).pack(), + raw: |text, lang, block| { + let content = text::RawNode { text, block }.pack(); + match lang { + Some(_) => content.styled(text::RawNode::LANG, lang), + None => content, + } + }, + link: |url| text::LinkNode::from_url(url).pack(), + ref_: |target| structure::RefNode(target).pack(), + heading: |level, body| structure::HeadingNode { level, body }.pack(), + list_item: |body| structure::ListItem::List(Box::new(body)).pack(), + enum_item: |number, body| { + structure::ListItem::Enum(number, Box::new(body)).pack() + }, + desc_item: |term, body| { + structure::ListItem::Desc(Box::new(structure::DescItem { term, body })).pack() + }, + math: |children, display| math::MathNode { children, display }.pack(), + math_atom: |atom| math::AtomNode(atom).pack(), + math_script: |base, sub, sup| math::ScriptNode { base, sub, sup }.pack(), + math_frac: |num, denom| math::FracNode { num, denom }.pack(), + math_align: |count| math::AlignNode(count).pack(), + } +} diff --git a/library/src/math/mod.rs b/library/src/math/mod.rs new file mode 100644 index 00000000..e46ba040 --- /dev/null +++ b/library/src/math/mod.rs @@ -0,0 +1,188 @@ +//! Mathematical formulas. + +mod tex; + +use std::fmt::Write; + +use self::tex::{layout_tex, Texify}; +use crate::layout::BlockSpacing; +use crate::prelude::*; +use crate::text::FontFamily; + +/// A piece of a mathematical formula. +#[derive(Debug, Clone, Hash)] +pub struct MathNode { + /// The pieces of the formula. + pub children: Vec<Content>, + /// Whether the formula is display-level. + pub display: bool, +} + +#[node(Show, LayoutInline, Texify)] +impl MathNode { + /// The math font family. + #[property(referenced)] + pub const FAMILY: FontFamily = FontFamily::new("NewComputerModernMath"); + /// The spacing above display math. + #[property(resolve, shorthand(around))] + pub const ABOVE: Option<BlockSpacing> = Some(Ratio::one().into()); + /// The spacing below display math. + #[property(resolve, shorthand(around))] + pub const BELOW: Option<BlockSpacing> = Some(Ratio::one().into()); +} + +impl Show for MathNode { + fn unguard_parts(&self, _: Selector) -> Content { + self.clone().pack() + } + + fn field(&self, _: &str) -> Option<Value> { + None + } + + fn realize(&self, _: Tracked<dyn World>, _: StyleChain) -> SourceResult<Content> { + Ok(if self.display { + self.clone().pack().aligned(Axes::with_x(Some(Align::Center.into()))) + } else { + self.clone().pack() + }) + } + + fn finalize( + &self, + _: Tracked<dyn World>, + styles: StyleChain, + realized: Content, + ) -> SourceResult<Content> { + Ok(if self.display { + realized.spaced(styles.get(Self::ABOVE), styles.get(Self::BELOW)) + } else { + realized + }) + } +} + +impl LayoutInline for MathNode { + fn layout_inline( + &self, + world: Tracked<dyn World>, + _: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + Ok(vec![layout_tex( + &self.texify(), + self.display, + world, + styles, + )?]) + } +} + +impl Texify for MathNode { + fn texify(&self) -> EcoString { + self.children.iter().map(Texify::texify).collect() + } +} + +/// An atom in a math formula: `x`, `+`, `12`. +#[derive(Debug, Hash)] +pub struct AtomNode(pub EcoString); + +#[node(Texify)] +impl AtomNode {} + +impl Texify for AtomNode { + fn texify(&self) -> EcoString { + self.0.chars().map(escape_char).collect() + } +} + +/// A fraction in a mathematical formula. +#[derive(Debug, Hash)] +pub struct FracNode { + /// The numerator. + pub num: Content, + /// The denominator. + pub denom: Content, +} + +#[node(Texify)] +impl FracNode {} + +impl Texify for FracNode { + fn texify(&self) -> EcoString { + format_eco!( + "\\frac{{{}}}{{{}}}", + unparen(self.num.texify()), + unparen(self.denom.texify()) + ) + } +} + +/// A sub- and/or superscript in a mathematical formula. +#[derive(Debug, Hash)] +pub struct ScriptNode { + /// The base. + pub base: Content, + /// The subscript. + pub sub: Option<Content>, + /// The superscript. + pub sup: Option<Content>, +} + +#[node(Texify)] +impl ScriptNode {} + +impl Texify for ScriptNode { + fn texify(&self) -> EcoString { + let mut tex = self.base.texify(); + + if let Some(sub) = &self.sub { + write!(tex, "_{{{}}}", unparen(sub.texify())).unwrap(); + } + + if let Some(sup) = &self.sup { + write!(tex, "^{{{}}}", unparen(sup.texify())).unwrap(); + } + + tex + } +} + +/// A math alignment indicator: `&`, `&&`. +#[derive(Debug, Hash)] +pub struct AlignNode(pub usize); + +#[node(Texify)] +impl AlignNode {} + +impl Texify for AlignNode { + fn texify(&self) -> EcoString { + EcoString::new() + } +} + +/// Escape a char for TeX usage. +#[rustfmt::skip] +fn escape_char(c: char) -> EcoString { + match c { + '{' | '}' | '%' | '&' | '$' | '#' => format_eco!(" \\{c} "), + 'a' ..= 'z' | 'A' ..= 'Z' | '0' ..= '9' | 'Α' ..= 'Ω' | 'α' ..= 'ω' | + '*' | '+' | '-' | '[' | '(' | ']' | ')' | '?' | '!' | '=' | '<' | '>' | + ':' | ',' | ';' | '|' | '/' | '@' | '.' | '"' => c.into(), + c => unicode_math::SYMBOLS + .iter() + .find(|sym| sym.codepoint == c) + .map(|sym| format_eco!("\\{} ", sym.name)) + .unwrap_or_default(), + } +} + +/// Trim grouping parenthesis≤. +fn unparen(s: EcoString) -> EcoString { + if s.starts_with('(') && s.ends_with(')') { + s[1 .. s.len() - 1].into() + } else { + s + } +} diff --git a/library/src/math/tex.rs b/library/src/math/tex.rs new file mode 100644 index 00000000..7b40aa2b --- /dev/null +++ b/library/src/math/tex.rs @@ -0,0 +1,164 @@ +use rex::error::{Error, LayoutError}; +use rex::font::FontContext; +use rex::layout::{LayoutSettings, Style}; +use rex::parser::color::RGBA; +use rex::render::{Backend, Cursor, Renderer}; +use typst::font::Font; + +use super::*; +use crate::prelude::*; +use crate::text::{variant, LinebreakNode, SpaceNode, TextNode}; + +/// Turn a math node into TeX math code. +#[capability] +pub trait Texify: 'static + Sync + Send { + /// Perform the conversion. + fn texify(&self) -> EcoString; +} + +impl Texify for Content { + fn texify(&self) -> EcoString { + if self.is::<SpaceNode>() { + return EcoString::new(); + } + + if self.is::<LinebreakNode>() { + return r"\\".into(); + } + + if let Some(node) = self.to::<dyn Texify>() { + return node.texify(); + } + + panic!("{self:?} is not math"); + } +} + +/// Layout a TeX formula into a frame. +pub fn layout_tex( + tex: &str, + display: bool, + world: Tracked<dyn World>, + styles: StyleChain, +) -> SourceResult<Frame> { + // Load the font. + let font = world + .book() + .select(styles.get(MathNode::FAMILY).as_str(), variant(styles)) + .and_then(|id| world.font(id)) + .expect("failed to find math font"); + + // Prepare the font context. + let ctx = font + .math() + .map(|math| FontContext::new(font.ttf(), math)) + .expect("font is not suitable for math"); + + // Layout the formula. + let em = styles.get(TextNode::SIZE); + let style = if display { Style::Display } else { Style::Text }; + let settings = LayoutSettings::new(&ctx, em.to_pt(), style); + let renderer = Renderer::new(); + let layout = renderer + .layout(&tex, settings) + .map_err(|err| match err { + Error::Parse(err) => err.to_string(), + Error::Layout(LayoutError::Font(err)) => err.to_string(), + }) + .expect("failed to layout with rex"); + + // Determine the metrics. + let (x0, y0, x1, y1) = renderer.size(&layout); + let width = Abs::pt(x1 - x0); + let mut top = Abs::pt(y1); + let mut bottom = Abs::pt(-y0); + if style != Style::Display { + let metrics = font.metrics(); + top = styles.get(TextNode::TOP_EDGE).resolve(styles, metrics); + bottom = -styles.get(TextNode::BOTTOM_EDGE).resolve(styles, metrics); + }; + + // Prepare a frame rendering backend. + let size = Size::new(width, top + bottom); + let mut backend = FrameBackend { + frame: { + let mut frame = Frame::new(size); + frame.set_baseline(top); + frame.apply_role(Role::Formula); + frame + }, + baseline: top, + font: font.clone(), + fill: styles.get(TextNode::FILL), + lang: styles.get(TextNode::LANG), + colors: vec![], + }; + + // Render into the frame. + renderer.render(&layout, &mut backend); + Ok(backend.frame) +} + +/// A ReX rendering backend that renders into a frame. +struct FrameBackend { + frame: Frame, + baseline: Abs, + font: Font, + fill: Paint, + lang: Lang, + colors: Vec<RGBA>, +} + +impl FrameBackend { + /// The currently active fill paint. + fn fill(&self) -> Paint { + self.colors + .last() + .map(|&RGBA(r, g, b, a)| RgbaColor::new(r, g, b, a).into()) + .unwrap_or(self.fill) + } + + /// Convert a cursor to a point. + fn transform(&self, cursor: Cursor) -> Point { + Point::new(Abs::pt(cursor.x), self.baseline + Abs::pt(cursor.y)) + } +} + +impl Backend for FrameBackend { + fn symbol(&mut self, pos: Cursor, gid: u16, scale: f64) { + self.frame.push( + self.transform(pos), + Element::Text(Text { + font: self.font.clone(), + size: Abs::pt(scale), + fill: self.fill(), + lang: self.lang, + glyphs: vec![Glyph { + id: gid, + x_advance: Em::new(0.0), + x_offset: Em::new(0.0), + c: ' ', + }], + }), + ); + } + + fn rule(&mut self, pos: Cursor, width: f64, height: f64) { + self.frame.push( + self.transform(pos), + Element::Shape(Shape { + geometry: Geometry::Rect(Size::new(Abs::pt(width), Abs::pt(height))), + fill: Some(self.fill()), + stroke: None, + }), + ); + } + + fn begin_color(&mut self, color: RGBA) { + self.colors.push(color); + } + + fn end_color(&mut self) { + self.colors.pop(); + } +} diff --git a/library/src/prelude.rs b/library/src/prelude.rs new file mode 100644 index 00000000..0c3b0eb1 --- /dev/null +++ b/library/src/prelude.rs @@ -0,0 +1,27 @@ +//! Helpful imports for creating library functionality. + +pub use std::fmt::{self, Debug, Formatter}; +pub use std::hash::Hash; +pub use std::io; +pub use std::num::NonZeroUsize; +pub use std::sync::Arc; + +pub use comemo::Tracked; +pub use typst::diag::{ + bail, error, with_alternative, At, FileError, FileResult, SourceError, SourceResult, + StrResult, +}; +pub use typst::frame::*; +pub use typst::geom::*; +pub use typst::model::{ + array, capability, castable, dict, dynamic, format_str, node, Args, Array, + Capability, Cast, Content, Dict, Dynamic, Fold, Func, Key, LangItems, Node, Resolve, + Scope, Selector, Show, Smart, Str, StyleChain, StyleMap, StyleVec, Value, Vm, +}; +pub use typst::syntax::{Span, Spanned}; +pub use typst::util::{format_eco, EcoString}; +pub use typst::World; + +pub use super::ext::{ContentExt, StyleMapExt}; +pub use super::layout::{Layout, LayoutBlock, LayoutInline, Regions}; +pub use super::text::{FallbackList, TextNode}; diff --git a/library/src/structure/doc.rs b/library/src/structure/doc.rs new file mode 100644 index 00000000..ac12c3ab --- /dev/null +++ b/library/src/structure/doc.rs @@ -0,0 +1,29 @@ +use crate::layout::PageNode; +use crate::prelude::*; + +/// A sequence of page runs. +#[derive(Hash)] +pub struct DocNode(pub StyleVec<PageNode>); + +impl DocNode { + /// Layout the document into a sequence of frames, one per page. + pub fn layout( + &self, + world: Tracked<dyn World>, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + let mut frames = vec![]; + for (page, map) in self.0.iter() { + let number = 1 + frames.len(); + frames.extend(page.layout(world, number, map.chain(&styles))?); + } + Ok(frames) + } +} + +impl Debug for DocNode { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + f.write_str("Doc ")?; + self.0.fmt(f) + } +} diff --git a/library/src/structure/heading.rs b/library/src/structure/heading.rs new file mode 100644 index 00000000..62a67000 --- /dev/null +++ b/library/src/structure/heading.rs @@ -0,0 +1,176 @@ +use crate::layout::{BlockNode, BlockSpacing}; +use crate::prelude::*; +use crate::text::{FontFamily, TextNode, TextSize}; + +/// A section heading. +#[derive(Debug, Hash)] +pub struct HeadingNode { + /// The logical nesting depth of the section, starting from one. In the + /// default style, this controls the text size of the heading. + pub level: NonZeroUsize, + /// The heading's contents. + pub body: Content, +} + +#[node(Show)] +impl HeadingNode { + /// The heading's font family. Just the normal text family if `auto`. + #[property(referenced)] + pub const FAMILY: Leveled<Smart<FontFamily>> = Leveled::Value(Smart::Auto); + /// The color of text in the heading. Just the normal text color if `auto`. + #[property(referenced)] + pub const FILL: Leveled<Smart<Paint>> = Leveled::Value(Smart::Auto); + /// The size of text in the heading. + #[property(referenced)] + pub const SIZE: Leveled<TextSize> = Leveled::Mapping(|level| { + let size = match level.get() { + 1 => 1.4, + 2 => 1.2, + _ => 1.0, + }; + TextSize(Em::new(size).into()) + }); + + /// Whether text in the heading is strengthend. + #[property(referenced)] + pub const STRONG: Leveled<bool> = Leveled::Value(true); + /// Whether text in the heading is emphasized. + #[property(referenced)] + pub const EMPH: Leveled<bool> = Leveled::Value(false); + /// Whether the heading is underlined. + #[property(referenced)] + pub const UNDERLINE: Leveled<bool> = Leveled::Value(false); + + /// The spacing above the heading. + #[property(referenced, shorthand(around))] + pub const ABOVE: Leveled<Option<BlockSpacing>> = Leveled::Mapping(|level| { + let ratio = match level.get() { + 1 => 1.5, + _ => 1.2, + }; + Some(Ratio::new(ratio).into()) + }); + /// The spacing below the heading. + #[property(referenced, shorthand(around))] + pub const BELOW: Leveled<Option<BlockSpacing>> = + Leveled::Value(Some(Ratio::new(0.55).into())); + + /// Whether the heading appears in the outline. + pub const OUTLINED: bool = true; + /// Whether the heading is numbered. + pub const NUMBERED: bool = true; + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self { + body: args.expect("body")?, + level: args.named("level")?.unwrap_or(NonZeroUsize::new(1).unwrap()), + } + .pack()) + } +} + +impl Show for HeadingNode { + fn unguard_parts(&self, sel: Selector) -> Content { + Self { body: self.body.unguard(sel), ..*self }.pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "level" => Some(Value::Int(self.level.get() as i64)), + "body" => Some(Value::Content(self.body.clone())), + _ => None, + } + } + + fn realize(&self, _: Tracked<dyn World>, _: StyleChain) -> SourceResult<Content> { + Ok(BlockNode(self.body.clone()).pack()) + } + + fn finalize( + &self, + world: Tracked<dyn World>, + styles: StyleChain, + mut realized: Content, + ) -> SourceResult<Content> { + macro_rules! resolve { + ($key:expr) => { + styles.get($key).resolve(world, self.level)? + }; + } + + let mut map = StyleMap::new(); + map.set(TextNode::SIZE, resolve!(Self::SIZE)); + + if let Smart::Custom(family) = resolve!(Self::FAMILY) { + map.set_family(family, styles); + } + + if let Smart::Custom(fill) = resolve!(Self::FILL) { + map.set(TextNode::FILL, fill); + } + + if resolve!(Self::STRONG) { + realized = realized.strong(); + } + + if resolve!(Self::EMPH) { + realized = realized.emph(); + } + + if resolve!(Self::UNDERLINE) { + realized = realized.underlined(); + } + + realized = realized.styled_with_map(map); + realized = realized.spaced( + resolve!(Self::ABOVE).resolve(styles), + resolve!(Self::BELOW).resolve(styles), + ); + + Ok(realized) + } +} + +/// Either the value or a closure mapping to the value. +#[derive(Debug, Clone, PartialEq, Hash)] +pub enum Leveled<T> { + /// A bare value. + Value(T), + /// A simple mapping from a heading level to a value. + Mapping(fn(NonZeroUsize) -> T), + /// A closure mapping from a heading level to a value. + Func(Func, Span), +} + +impl<T: Cast + Clone> Leveled<T> { + /// Resolve the value based on the level. + pub fn resolve( + &self, + world: Tracked<dyn World>, + level: NonZeroUsize, + ) -> SourceResult<T> { + Ok(match self { + Self::Value(value) => value.clone(), + Self::Mapping(mapping) => mapping(level), + Self::Func(func, span) => { + let args = Args::new(*span, [Value::Int(level.get() as i64)]); + func.call_detached(world, args)?.cast().at(*span)? + } + }) + } +} + +impl<T: Cast> Cast<Spanned<Value>> for Leveled<T> { + fn is(value: &Spanned<Value>) -> bool { + matches!(&value.v, Value::Func(_)) || T::is(&value.v) + } + + fn cast(value: Spanned<Value>) -> StrResult<Self> { + match value.v { + Value::Func(v) => Ok(Self::Func(v, value.span)), + v => T::cast(v) + .map(Self::Value) + .map_err(|msg| with_alternative(msg, "function")), + } + } +} diff --git a/library/src/structure/list.rs b/library/src/structure/list.rs new file mode 100644 index 00000000..2015f19b --- /dev/null +++ b/library/src/structure/list.rs @@ -0,0 +1,371 @@ +use unscanny::Scanner; + +use crate::layout::{BlockSpacing, GridNode, HNode, TrackSizing}; +use crate::prelude::*; +use crate::text::{ParNode, SpaceNode}; +use crate::utility::Numbering; + +/// An unordered (bulleted) or ordered (numbered) list. +#[derive(Debug, Hash)] +pub struct ListNode<const L: ListKind = LIST> { + /// If true, the items are separated by leading instead of list spacing. + pub tight: bool, + /// If true, the spacing above the list is leading instead of above spacing. + pub attached: bool, + /// The individual bulleted or numbered items. + pub items: StyleVec<ListItem>, +} + +/// An ordered list. +pub type EnumNode = ListNode<ENUM>; + +/// A description list. +pub type DescNode = ListNode<DESC>; + +#[node(Show)] +impl<const L: ListKind> ListNode<L> { + /// How the list is labelled. + #[property(referenced)] + pub const LABEL: Label = Label::Default; + /// The indentation of each item's label. + #[property(resolve)] + pub const INDENT: Length = Length::zero(); + /// The space between the label and the body of each item. + #[property(resolve)] + pub const BODY_INDENT: Length = Em::new(match L { + LIST | ENUM => 0.5, + DESC | _ => 1.0, + }) + .into(); + + /// The spacing above the list. + #[property(resolve, shorthand(around))] + pub const ABOVE: Option<BlockSpacing> = Some(Ratio::one().into()); + /// The spacing below the list. + #[property(resolve, shorthand(around))] + pub const BELOW: Option<BlockSpacing> = Some(Ratio::one().into()); + /// The spacing between the items of a wide (non-tight) list. + #[property(resolve)] + pub const SPACING: BlockSpacing = Ratio::one().into(); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let items = match L { + LIST => args + .all()? + .into_iter() + .map(|body| ListItem::List(Box::new(body))) + .collect(), + ENUM => { + let mut number: usize = args.named("start")?.unwrap_or(1); + args.all()? + .into_iter() + .map(|body| { + let item = ListItem::Enum(Some(number), Box::new(body)); + number += 1; + item + }) + .collect() + } + DESC | _ => args + .all()? + .into_iter() + .map(|item| ListItem::Desc(Box::new(item))) + .collect(), + }; + + Ok(Self { + tight: args.named("tight")?.unwrap_or(true), + attached: args.named("attached")?.unwrap_or(false), + items, + } + .pack()) + } +} + +impl<const L: ListKind> Show for ListNode<L> { + fn unguard_parts(&self, sel: Selector) -> Content { + Self { + items: self.items.map(|item| item.unguard(sel)), + ..*self + } + .pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "tight" => Some(Value::Bool(self.tight)), + "attached" => Some(Value::Bool(self.attached)), + "items" => Some(Value::Array( + self.items.items().map(|item| item.encode()).collect(), + )), + _ => None, + } + } + + fn realize( + &self, + world: Tracked<dyn World>, + styles: StyleChain, + ) -> SourceResult<Content> { + let mut cells = vec![]; + let mut number = 1; + + let label = styles.get(Self::LABEL); + let indent = styles.get(Self::INDENT); + let body_indent = styles.get(Self::BODY_INDENT); + let gutter = if self.tight { + styles.get(ParNode::LEADING) + } else { + styles.get(Self::SPACING) + }; + + for (item, map) in self.items.iter() { + if let &ListItem::Enum(Some(n), _) = item { + number = n; + } + + cells.push(Content::empty()); + + let label = if L == LIST || L == ENUM { + label.resolve(world, L, number)?.styled_with_map(map.clone()) + } else { + Content::empty() + }; + + cells.push(label); + cells.push(Content::empty()); + + let body = match &item { + ListItem::List(body) => body.as_ref().clone(), + ListItem::Enum(_, body) => body.as_ref().clone(), + ListItem::Desc(item) => Content::sequence(vec![ + HNode { + amount: (-body_indent).into(), + weak: false, + } + .pack(), + (item.term.clone() + TextNode(':'.into()).pack()).strong(), + SpaceNode.pack(), + item.body.clone(), + ]), + }; + + cells.push(body.styled_with_map(map.clone())); + number += 1; + } + + Ok(GridNode { + tracks: Axes::with_x(vec![ + TrackSizing::Relative(indent.into()), + TrackSizing::Auto, + TrackSizing::Relative(body_indent.into()), + TrackSizing::Auto, + ]), + gutter: Axes::with_y(vec![TrackSizing::Relative(gutter.into())]), + cells, + } + .pack()) + } + + fn finalize( + &self, + _: Tracked<dyn World>, + styles: StyleChain, + realized: Content, + ) -> SourceResult<Content> { + let mut above = styles.get(Self::ABOVE); + let mut below = styles.get(Self::BELOW); + + if self.attached { + if above.is_some() { + above = Some(styles.get(ParNode::LEADING)); + } + if below.is_some() { + below = Some(styles.get(ParNode::SPACING)); + } + } + + Ok(realized.spaced(above, below)) + } +} + +/// An item in a list. +#[derive(Clone, PartialEq, Hash)] +pub enum ListItem { + /// An item of an unordered list. + List(Box<Content>), + /// An item of an ordered list. + Enum(Option<usize>, Box<Content>), + /// An item of a description list. + Desc(Box<DescItem>), +} + +impl ListItem { + /// What kind of item this is. + pub fn kind(&self) -> ListKind { + match self { + Self::List(_) => LIST, + Self::Enum { .. } => ENUM, + Self::Desc { .. } => DESC, + } + } + + fn unguard(&self, sel: Selector) -> Self { + match self { + Self::List(body) => Self::List(Box::new(body.unguard(sel))), + Self::Enum(number, body) => Self::Enum(*number, Box::new(body.unguard(sel))), + Self::Desc(item) => Self::Desc(Box::new(DescItem { + term: item.term.unguard(sel), + body: item.body.unguard(sel), + })), + } + } + + /// Encode the item into a value. + fn encode(&self) -> Value { + match self { + Self::List(body) => Value::Content(body.as_ref().clone()), + Self::Enum(number, body) => Value::Dict(dict! { + "number" => match *number { + Some(n) => Value::Int(n as i64), + None => Value::None, + }, + "body" => Value::Content(body.as_ref().clone()), + }), + Self::Desc(item) => Value::Dict(dict! { + "term" => Value::Content(item.term.clone()), + "body" => Value::Content(item.body.clone()), + }), + } + } +} + +impl Debug for ListItem { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + match self { + Self::List(body) => write!(f, "- {body:?}"), + Self::Enum(number, body) => match number { + Some(n) => write!(f, "{n}. {body:?}"), + None => write!(f, "+ {body:?}"), + }, + Self::Desc(item) => item.fmt(f), + } + } +} + +#[node] +impl ListItem {} + +/// A description list item. +#[derive(Clone, PartialEq, Hash)] +pub struct DescItem { + /// The term described by the list item. + pub term: Content, + /// The description of the term. + pub body: Content, +} + +castable! { + DescItem, + Expected: "dictionary with `term` and `body` keys", + Value::Dict(dict) => { + let term: Content = dict.get("term")?.clone().cast()?; + let body: Content = dict.get("body")?.clone().cast()?; + Self { term, body } + }, +} + +impl Debug for DescItem { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + write!(f, "/ {:?}: {:?}", self.term, self.body) + } +} + +/// How to label a list. +pub type ListKind = usize; + +/// An unordered list. +pub const LIST: ListKind = 0; + +/// An ordered list. +pub const ENUM: ListKind = 1; + +/// A description list. +pub const DESC: ListKind = 2; + +/// How to label a list or enumeration. +#[derive(Debug, Clone, PartialEq, Hash)] +pub enum Label { + /// The default labelling. + Default, + /// A pattern with prefix, numbering, lower / upper case and suffix. + Pattern(EcoString, Numbering, bool, EcoString), + /// Bare content. + Content(Content), + /// A closure mapping from an item number to a value. + Func(Func, Span), +} + +impl Label { + /// Resolve the value based on the level. + pub fn resolve( + &self, + world: Tracked<dyn World>, + kind: ListKind, + number: usize, + ) -> SourceResult<Content> { + Ok(match self { + Self::Default => match kind { + LIST => TextNode('•'.into()).pack(), + ENUM => TextNode(format_eco!("{}.", number)).pack(), + DESC | _ => panic!("description lists don't have a label"), + }, + Self::Pattern(prefix, numbering, upper, suffix) => { + let fmt = numbering.apply(number); + let mid = if *upper { fmt.to_uppercase() } else { fmt.to_lowercase() }; + TextNode(format_eco!("{}{}{}", prefix, mid, suffix)).pack() + } + Self::Content(content) => content.clone(), + Self::Func(func, span) => { + let args = Args::new(*span, [Value::Int(number as i64)]); + func.call_detached(world, args)?.display(world) + } + }) + } +} + +impl Cast<Spanned<Value>> for Label { + fn is(value: &Spanned<Value>) -> bool { + matches!(&value.v, Value::Content(_) | Value::Func(_)) + } + + fn cast(value: Spanned<Value>) -> StrResult<Self> { + match value.v { + Value::None => Ok(Self::Content(Content::empty())), + Value::Str(pattern) => { + let mut s = Scanner::new(&pattern); + let mut prefix; + let numbering = loop { + prefix = s.before(); + match s.eat().map(|c| c.to_ascii_lowercase()) { + Some('1') => break Numbering::Arabic, + Some('a') => break Numbering::Letter, + Some('i') => break Numbering::Roman, + Some('*') => break Numbering::Symbol, + Some(_) => {} + None => Err("invalid pattern")?, + } + }; + let upper = s.scout(-1).map_or(false, char::is_uppercase); + let suffix = s.after().into(); + Ok(Self::Pattern(prefix.into(), numbering, upper, suffix)) + } + Value::Content(v) => Ok(Self::Content(v)), + Value::Func(v) => Ok(Self::Func(v, value.span)), + v => Err(format!( + "expected string, content or function, found {}", + v.type_name(), + )), + } + } +} diff --git a/library/src/structure/mod.rs b/library/src/structure/mod.rs new file mode 100644 index 00000000..088d1e6c --- /dev/null +++ b/library/src/structure/mod.rs @@ -0,0 +1,13 @@ +//! Document structuring. + +mod doc; +mod heading; +mod list; +mod reference; +mod table; + +pub use doc::*; +pub use heading::*; +pub use list::*; +pub use reference::*; +pub use table::*; diff --git a/library/src/structure/reference.rs b/library/src/structure/reference.rs new file mode 100644 index 00000000..632ecba5 --- /dev/null +++ b/library/src/structure/reference.rs @@ -0,0 +1,29 @@ +use crate::prelude::*; + +/// A reference to a label. +#[derive(Debug, Hash)] +pub struct RefNode(pub EcoString); + +#[node(Show)] +impl RefNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("label")?).pack()) + } +} + +impl Show for RefNode { + fn unguard_parts(&self, _: Selector) -> Content { + Self(self.0.clone()).pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "label" => Some(Value::Str(self.0.clone().into())), + _ => None, + } + } + + fn realize(&self, _: Tracked<dyn World>, _: StyleChain) -> SourceResult<Content> { + Ok(TextNode(format_eco!("@{}", self.0)).pack()) + } +} diff --git a/library/src/structure/table.rs b/library/src/structure/table.rs new file mode 100644 index 00000000..722f11e6 --- /dev/null +++ b/library/src/structure/table.rs @@ -0,0 +1,160 @@ +use crate::layout::{BlockSpacing, GridNode, TrackSizing, TrackSizings}; +use crate::prelude::*; + +/// A table of items. +#[derive(Debug, Hash)] +pub struct TableNode { + /// Defines sizing for content rows and columns. + pub tracks: Axes<Vec<TrackSizing>>, + /// Defines sizing of gutter rows and columns between content. + pub gutter: Axes<Vec<TrackSizing>>, + /// The content to be arranged in the table. + pub cells: Vec<Content>, +} + +#[node(Show)] +impl TableNode { + /// How to fill the cells. + #[property(referenced)] + pub const FILL: Celled<Option<Paint>> = Celled::Value(None); + /// How to stroke the cells. + #[property(resolve, fold)] + pub const STROKE: Option<PartialStroke> = Some(PartialStroke::default()); + /// How much to pad the cells's content. + pub const PADDING: Rel<Length> = Abs::pt(5.0).into(); + + /// The spacing above the table. + #[property(resolve, shorthand(around))] + pub const ABOVE: Option<BlockSpacing> = Some(Ratio::one().into()); + /// The spacing below the table. + #[property(resolve, shorthand(around))] + pub const BELOW: Option<BlockSpacing> = Some(Ratio::one().into()); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let TrackSizings(columns) = args.named("columns")?.unwrap_or_default(); + let TrackSizings(rows) = args.named("rows")?.unwrap_or_default(); + let TrackSizings(base_gutter) = args.named("gutter")?.unwrap_or_default(); + let column_gutter = args.named("column-gutter")?.map(|TrackSizings(v)| v); + let row_gutter = args.named("row-gutter")?.map(|TrackSizings(v)| v); + Ok(Self { + tracks: Axes::new(columns, rows), + gutter: Axes::new( + column_gutter.unwrap_or_else(|| base_gutter.clone()), + row_gutter.unwrap_or(base_gutter), + ), + cells: args.all()?, + } + .pack()) + } +} + +impl Show for TableNode { + fn unguard_parts(&self, sel: Selector) -> Content { + Self { + tracks: self.tracks.clone(), + gutter: self.gutter.clone(), + cells: self.cells.iter().map(|cell| cell.unguard(sel)).collect(), + } + .pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "cells" => Some(Value::Array( + self.cells.iter().cloned().map(Value::Content).collect(), + )), + _ => None, + } + } + + fn realize( + &self, + world: Tracked<dyn World>, + styles: StyleChain, + ) -> SourceResult<Content> { + let fill = styles.get(Self::FILL); + let stroke = styles.get(Self::STROKE).map(PartialStroke::unwrap_or_default); + let padding = styles.get(Self::PADDING); + + let cols = self.tracks.x.len().max(1); + let cells = self + .cells + .iter() + .cloned() + .enumerate() + .map(|(i, child)| { + let mut child = child.padded(Sides::splat(padding)); + + if let Some(stroke) = stroke { + child = child.stroked(stroke); + } + + let x = i % cols; + let y = i / cols; + if let Some(fill) = fill.resolve(world, x, y)? { + child = child.filled(fill); + } + + Ok(child) + }) + .collect::<SourceResult<_>>()?; + + Ok(GridNode { + tracks: self.tracks.clone(), + gutter: self.gutter.clone(), + cells, + } + .pack()) + } + + fn finalize( + &self, + _: Tracked<dyn World>, + styles: StyleChain, + realized: Content, + ) -> SourceResult<Content> { + Ok(realized.spaced(styles.get(Self::ABOVE), styles.get(Self::BELOW))) + } +} + +/// A value that can be configured per cell. +#[derive(Debug, Clone, PartialEq, Hash)] +pub enum Celled<T> { + /// A bare value, the same for all cells. + Value(T), + /// A closure mapping from cell coordinates to a value. + Func(Func, Span), +} + +impl<T: Cast + Clone> Celled<T> { + /// Resolve the value based on the cell position. + pub fn resolve( + &self, + world: Tracked<dyn World>, + x: usize, + y: usize, + ) -> SourceResult<T> { + Ok(match self { + Self::Value(value) => value.clone(), + Self::Func(func, span) => { + let args = Args::new(*span, [Value::Int(x as i64), Value::Int(y as i64)]); + func.call_detached(world, args)?.cast().at(*span)? + } + }) + } +} + +impl<T: Cast> Cast<Spanned<Value>> for Celled<T> { + fn is(value: &Spanned<Value>) -> bool { + matches!(&value.v, Value::Func(_)) || T::is(&value.v) + } + + fn cast(value: Spanned<Value>) -> StrResult<Self> { + match value.v { + Value::Func(v) => Ok(Self::Func(v, value.span)), + v => T::cast(v) + .map(Self::Value) + .map_err(|msg| with_alternative(msg, "function")), + } + } +} diff --git a/library/src/text/deco.rs b/library/src/text/deco.rs new file mode 100644 index 00000000..cd3acef5 --- /dev/null +++ b/library/src/text/deco.rs @@ -0,0 +1,248 @@ +use kurbo::{BezPath, Line, ParamCurve}; +use ttf_parser::{GlyphId, OutlineBuilder}; + +use super::TextNode; +use crate::prelude::*; + +/// Typeset underline, stricken-through or overlined text. +#[derive(Debug, Hash)] +pub struct DecoNode<const L: DecoLine>(pub Content); + +/// Typeset underlined text. +pub type UnderlineNode = DecoNode<UNDERLINE>; + +/// Typeset stricken-through text. +pub type StrikethroughNode = DecoNode<STRIKETHROUGH>; + +/// Typeset overlined text. +pub type OverlineNode = DecoNode<OVERLINE>; + +#[node(Show)] +impl<const L: DecoLine> DecoNode<L> { + /// How to stroke the line. The text color and thickness are read from the + /// font tables if `auto`. + #[property(shorthand, resolve, fold)] + pub const STROKE: Smart<PartialStroke> = Smart::Auto; + /// Position of the line relative to the baseline, read from the font tables + /// if `auto`. + #[property(resolve)] + pub const OFFSET: Smart<Length> = Smart::Auto; + /// Amount that the line will be longer or shorter than its associated text. + #[property(resolve)] + pub const EXTENT: Length = Length::zero(); + /// Whether the line skips sections in which it would collide + /// with the glyphs. Does not apply to strikethrough. + pub const EVADE: bool = true; + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("body")?).pack()) + } +} + +impl<const L: DecoLine> Show for DecoNode<L> { + fn unguard_parts(&self, sel: Selector) -> Content { + Self(self.0.unguard(sel)).pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "body" => Some(Value::Content(self.0.clone())), + _ => None, + } + } + + fn realize( + &self, + _: Tracked<dyn World>, + styles: StyleChain, + ) -> SourceResult<Content> { + Ok(self.0.clone().styled(TextNode::DECO, Decoration { + line: L, + stroke: styles.get(Self::STROKE).unwrap_or_default(), + offset: styles.get(Self::OFFSET), + extent: styles.get(Self::EXTENT), + evade: styles.get(Self::EVADE), + })) + } +} + +/// Defines a line that is positioned over, under or on top of text. +/// +/// For more details, see [`DecoNode`]. +#[derive(Debug, Clone, Eq, PartialEq, Hash)] +pub struct Decoration { + pub line: DecoLine, + pub stroke: PartialStroke<Abs>, + pub offset: Smart<Abs>, + pub extent: Abs, + pub evade: bool, +} + +/// A kind of decorative line. +pub type DecoLine = usize; + +/// A line under text. +pub const UNDERLINE: DecoLine = 0; + +/// A line through text. +pub const STRIKETHROUGH: DecoLine = 1; + +/// A line over text. +pub const OVERLINE: DecoLine = 2; + +/// Add line decorations to a single run of shaped text. +pub fn decorate( + frame: &mut Frame, + deco: &Decoration, + text: &Text, + shift: Abs, + pos: Point, + width: Abs, +) { + let font_metrics = text.font.metrics(); + let metrics = match deco.line { + STRIKETHROUGH => font_metrics.strikethrough, + OVERLINE => font_metrics.overline, + UNDERLINE | _ => font_metrics.underline, + }; + + let evade = deco.evade && deco.line != STRIKETHROUGH; + let offset = deco.offset.unwrap_or(-metrics.position.at(text.size)) - shift; + let stroke = deco.stroke.unwrap_or(Stroke { + paint: text.fill, + thickness: metrics.thickness.at(text.size), + }); + + let gap_padding = 0.08 * text.size; + let min_width = 0.162 * text.size; + + let mut start = pos.x - deco.extent; + let end = pos.x + (width + 2.0 * deco.extent); + + let mut push_segment = |from: Abs, to: Abs| { + let origin = Point::new(from, pos.y + offset); + let target = Point::new(to - from, Abs::zero()); + + if target.x >= min_width || !evade { + let shape = Geometry::Line(target).stroked(stroke); + frame.push(origin, Element::Shape(shape)); + } + }; + + if !evade { + push_segment(start, end); + return; + } + + let line = Line::new( + kurbo::Point::new(pos.x.to_raw(), offset.to_raw()), + kurbo::Point::new((pos.x + width).to_raw(), offset.to_raw()), + ); + + let mut x = pos.x; + let mut intersections = vec![]; + + for glyph in text.glyphs.iter() { + let dx = glyph.x_offset.at(text.size) + x; + let mut builder = + BezPathBuilder::new(font_metrics.units_per_em, text.size, dx.to_raw()); + + let bbox = text.font.ttf().outline_glyph(GlyphId(glyph.id), &mut builder); + let path = builder.finish(); + + x += glyph.x_advance.at(text.size); + + // Only do the costly segments intersection test if the line + // intersects the bounding box. + if bbox.map_or(false, |bbox| { + let y_min = -text.font.to_em(bbox.y_max).at(text.size); + let y_max = -text.font.to_em(bbox.y_min).at(text.size); + offset >= y_min && offset <= y_max + }) { + // Find all intersections of segments with the line. + intersections.extend( + path.segments() + .flat_map(|seg| seg.intersect_line(line)) + .map(|is| Abs::raw(line.eval(is.line_t).x)), + ); + } + } + + // When emitting the decorative line segments, we move from left to + // right. The intersections are not necessarily in this order, yet. + intersections.sort(); + + for gap in intersections.chunks_exact(2) { + let l = gap[0] - gap_padding; + let r = gap[1] + gap_padding; + + if start >= end { + break; + } + + if start >= l { + start = r; + continue; + } + + push_segment(start, l); + start = r; + } + + if start < end { + push_segment(start, end); + } +} + +/// Builds a kurbo [`BezPath`] for a glyph. +struct BezPathBuilder { + path: BezPath, + units_per_em: f64, + font_size: Abs, + x_offset: f64, +} + +impl BezPathBuilder { + fn new(units_per_em: f64, font_size: Abs, x_offset: f64) -> Self { + Self { + path: BezPath::new(), + units_per_em, + font_size, + x_offset, + } + } + + fn finish(self) -> BezPath { + self.path + } + + fn p(&self, x: f32, y: f32) -> kurbo::Point { + kurbo::Point::new(self.s(x) + self.x_offset, -self.s(y)) + } + + fn s(&self, v: f32) -> f64 { + Em::from_units(v, self.units_per_em).at(self.font_size).to_raw() + } +} + +impl OutlineBuilder for BezPathBuilder { + fn move_to(&mut self, x: f32, y: f32) { + self.path.move_to(self.p(x, y)); + } + + fn line_to(&mut self, x: f32, y: f32) { + self.path.line_to(self.p(x, y)); + } + + fn quad_to(&mut self, x1: f32, y1: f32, x: f32, y: f32) { + self.path.quad_to(self.p(x1, y1), self.p(x, y)); + } + + fn curve_to(&mut self, x1: f32, y1: f32, x2: f32, y2: f32, x: f32, y: f32) { + self.path.curve_to(self.p(x1, y1), self.p(x2, y2), self.p(x, y)); + } + + fn close(&mut self) { + self.path.close_path(); + } +} diff --git a/library/src/text/link.rs b/library/src/text/link.rs new file mode 100644 index 00000000..82abe5cd --- /dev/null +++ b/library/src/text/link.rs @@ -0,0 +1,102 @@ +use super::TextNode; +use crate::prelude::*; + +/// Link text and other elements to a destination. +#[derive(Debug, Hash)] +pub struct LinkNode { + /// The destination the link points to. + pub dest: Destination, + /// How the link is represented. + pub body: Option<Content>, +} + +impl LinkNode { + /// Create a link node from a URL with its bare text. + pub fn from_url(url: EcoString) -> Self { + Self { dest: Destination::Url(url), body: None } + } +} + +#[node(Show)] +impl LinkNode { + /// The fill color of text in the link. Just the surrounding text color + /// if `auto`. + pub const FILL: Smart<Paint> = Smart::Auto; + /// Whether to underline the link. + pub const UNDERLINE: Smart<bool> = Smart::Auto; + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let dest = args.expect::<Destination>("destination")?; + let body = match dest { + Destination::Url(_) => args.eat()?, + Destination::Internal(_) => Some(args.expect("body")?), + }; + Ok(Self { dest, body }.pack()) + } +} + +impl Show for LinkNode { + fn unguard_parts(&self, sel: Selector) -> Content { + Self { + dest: self.dest.clone(), + body: self.body.as_ref().map(|body| body.unguard(sel)), + } + .pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "url" => Some(match &self.dest { + Destination::Url(url) => Value::Str(url.clone().into()), + Destination::Internal(loc) => Value::Dict(loc.encode()), + }), + "body" => Some(match &self.body { + Some(body) => Value::Content(body.clone()), + None => Value::None, + }), + _ => None, + } + } + + fn realize(&self, _: Tracked<dyn World>, _: StyleChain) -> SourceResult<Content> { + Ok(self + .body + .clone() + .unwrap_or_else(|| match &self.dest { + Destination::Url(url) => { + let mut text = url.as_str(); + for prefix in ["mailto:", "tel:"] { + text = text.trim_start_matches(prefix); + } + let shorter = text.len() < url.len(); + TextNode(if shorter { text.into() } else { url.clone() }).pack() + } + Destination::Internal(_) => Content::empty(), + }) + .styled(TextNode::LINK, Some(self.dest.clone()))) + } + + fn finalize( + &self, + _: Tracked<dyn World>, + styles: StyleChain, + mut realized: Content, + ) -> SourceResult<Content> { + let mut map = StyleMap::new(); + if let Smart::Custom(fill) = styles.get(Self::FILL) { + map.set(TextNode::FILL, fill); + } + + if match styles.get(Self::UNDERLINE) { + Smart::Auto => match &self.dest { + Destination::Url(_) => true, + Destination::Internal(_) => false, + }, + Smart::Custom(underline) => underline, + } { + realized = realized.underlined(); + } + + Ok(realized.styled_with_map(map)) + } +} diff --git a/library/src/text/mod.rs b/library/src/text/mod.rs new file mode 100644 index 00000000..d793f614 --- /dev/null +++ b/library/src/text/mod.rs @@ -0,0 +1,555 @@ +//! Text handling and paragraph layout. + +mod deco; +mod link; +mod par; +mod quotes; +mod raw; +mod shaping; +mod shift; + +pub use deco::*; +pub use link::*; +pub use par::*; +pub use quotes::*; +pub use raw::*; +pub use shaping::*; +pub use shift::*; + +use std::borrow::Cow; + +use rustybuzz::Tag; +use typst::font::{FontMetrics, FontStretch, FontStyle, FontWeight, VerticalFontMetric}; +use typst::util::EcoString; + +use crate::prelude::*; + +/// A single run of text with the same style. +#[derive(Debug, Clone, Hash)] +pub struct TextNode(pub EcoString); + +#[node] +impl TextNode { + /// A prioritized sequence of font families. + #[property(skip, referenced)] + pub const FAMILY: FallbackList = FallbackList(vec![FontFamily::new("IBM Plex Sans")]); + /// Whether to allow font fallback when the primary font list contains no + /// match. + pub const FALLBACK: bool = true; + + /// How the font is styled. + pub const STYLE: FontStyle = FontStyle::Normal; + /// The boldness / thickness of the font's glyphs. + pub const WEIGHT: FontWeight = FontWeight::REGULAR; + /// The width of the glyphs. + pub const STRETCH: FontStretch = FontStretch::NORMAL; + + /// The size of the glyphs. + #[property(shorthand, fold)] + pub const SIZE: TextSize = Abs::pt(11.0); + /// The glyph fill color. + #[property(shorthand)] + pub const FILL: Paint = Color::BLACK.into(); + /// The amount of space that should be added between characters. + #[property(resolve)] + pub const TRACKING: Length = Length::zero(); + /// The width of spaces relative to the font's space width. + #[property(resolve)] + pub const SPACING: Rel<Length> = Rel::one(); + /// The offset of the baseline. + #[property(resolve)] + pub const BASELINE: Length = Length::zero(); + /// Whether certain glyphs can hang over into the margin. + pub const OVERHANG: bool = true; + /// The top end of the text bounding box. + pub const TOP_EDGE: TextEdge = TextEdge::Metric(VerticalFontMetric::CapHeight); + /// The bottom end of the text bounding box. + pub const BOTTOM_EDGE: TextEdge = TextEdge::Metric(VerticalFontMetric::Baseline); + + /// An ISO 639-1/2/3 language code. + pub const LANG: Lang = Lang::ENGLISH; + /// An ISO 3166-1 alpha-2 region code. + pub const REGION: Option<Region> = None; + /// The direction for text and inline objects. When `auto`, the direction is + /// automatically inferred from the language. + #[property(resolve)] + pub const DIR: HorizontalDir = HorizontalDir(Smart::Auto); + /// Whether to hyphenate text to improve line breaking. When `auto`, words + /// will will be hyphenated if and only if justification is enabled. + #[property(resolve)] + pub const HYPHENATE: Hyphenate = Hyphenate(Smart::Auto); + /// Whether to apply smart quotes. + pub const SMART_QUOTES: bool = true; + + /// Whether to apply kerning ("kern"). + pub const KERNING: bool = true; + /// Whether to apply stylistic alternates. ("salt") + pub const ALTERNATES: bool = false; + /// Which stylistic set to apply. ("ss01" - "ss20") + pub const STYLISTIC_SET: Option<StylisticSet> = None; + /// Whether standard ligatures are active. ("liga", "clig") + pub const LIGATURES: bool = true; + /// Whether ligatures that should be used sparingly are active. ("dlig") + pub const DISCRETIONARY_LIGATURES: bool = false; + /// Whether historical ligatures are active. ("hlig") + pub const HISTORICAL_LIGATURES: bool = false; + /// Which kind of numbers / figures to select. + pub const NUMBER_TYPE: Smart<NumberType> = Smart::Auto; + /// The width of numbers / figures. + pub const NUMBER_WIDTH: Smart<NumberWidth> = Smart::Auto; + /// Whether to have a slash through the zero glyph. ("zero") + pub const SLASHED_ZERO: bool = false; + /// Whether to convert fractions. ("frac") + pub const FRACTIONS: bool = false; + /// Raw OpenType features to apply. + #[property(fold)] + pub const FEATURES: FontFeatures = FontFeatures(vec![]); + + /// Whether the font weight should be increased by 300. + #[property(skip, fold)] + pub const BOLD: Toggle = false; + /// Whether the font style should be inverted. + #[property(skip, fold)] + pub const ITALIC: Toggle = false; + /// A case transformation that should be applied to the text. + #[property(skip)] + pub const CASE: Option<Case> = None; + /// Whether small capital glyphs should be used. ("smcp") + #[property(skip)] + pub const SMALLCAPS: bool = false; + /// A destination the text should be linked to. + #[property(skip, referenced)] + pub const LINK: Option<Destination> = None; + /// Decorative lines. + #[property(skip, fold)] + pub const DECO: Decoration = vec![]; + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + // The text constructor is special: It doesn't create a text node. + // Instead, it leaves the passed argument structurally unchanged, but + // styles all text in it. + args.expect("body") + } + + fn set(...) { + if let Some(family) = args.named("family")? { + styles.set(Self::FAMILY, family); + } else { + let mut count = 0; + let mut content = false; + for item in args.items.iter().filter(|item| item.name.is_none()) { + if EcoString::is(&item.value) { + count += 1; + } else if <Content as Cast<Spanned<Value>>>::is(&item.value) { + content = true; + } + } + + // Skip the final string if it's needed as the body. + if constructor && !content && count > 0 { + count -= 1; + } + + if count > 0 { + let mut list = Vec::with_capacity(count); + for _ in 0 .. count { + list.push(args.find()?.unwrap()); + } + + styles.set(Self::FAMILY, FallbackList(list)); + } + } + } +} + +/// A lowercased font family like "arial". +#[derive(Clone, Eq, PartialEq, Hash)] +pub struct FontFamily(EcoString); + +impl FontFamily { + /// Create a named font family variant. + pub fn new(string: &str) -> Self { + Self(string.to_lowercase().into()) + } + + /// The lowercased family name. + pub fn as_str(&self) -> &str { + &self.0 + } +} + +impl Debug for FontFamily { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + self.0.fmt(f) + } +} + +castable! { + FontFamily, + Expected: "string", + Value::Str(string) => Self::new(&string), +} + +/// Font family fallback list. +#[derive(Debug, Default, Clone, Eq, PartialEq, Hash)] +pub struct FallbackList(pub Vec<FontFamily>); + +castable! { + FallbackList, + Expected: "string or array of strings", + Value::Str(string) => Self(vec![FontFamily::new(&string)]), + Value::Array(values) => Self(values + .into_iter() + .filter_map(|v| v.cast().ok()) + .map(|string: EcoString| FontFamily::new(&string)) + .collect()), +} + +/// The size of text. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub struct TextSize(pub Length); + +impl Fold for TextSize { + type Output = Abs; + + fn fold(self, outer: Self::Output) -> Self::Output { + self.0.em.at(outer) + self.0.abs + } +} + +castable!(TextSize: Length); + +/// Specifies the bottom or top edge of text. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum TextEdge { + /// An edge specified using one of the well-known font metrics. + Metric(VerticalFontMetric), + /// An edge specified as a length. + Length(Length), +} + +impl TextEdge { + /// Resolve the value of the text edge given a font's metrics. + pub fn resolve(self, styles: StyleChain, metrics: &FontMetrics) -> Abs { + match self { + Self::Metric(metric) => metrics.vertical(metric).resolve(styles), + Self::Length(length) => length.resolve(styles), + } + } +} + +castable! { + TextEdge, + Expected: "string or length", + Value::Length(v) => Self::Length(v), + Value::Str(string) => Self::Metric(match string.as_str() { + "ascender" => VerticalFontMetric::Ascender, + "cap-height" => VerticalFontMetric::CapHeight, + "x-height" => VerticalFontMetric::XHeight, + "baseline" => VerticalFontMetric::Baseline, + "descender" => VerticalFontMetric::Descender, + _ => Err("unknown font metric")?, + }), +} + +/// The direction of text and inline objects in their line. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub struct HorizontalDir(pub Smart<Dir>); + +castable! { + HorizontalDir, + Expected: "direction or auto", + Value::Auto => Self(Smart::Auto), + @dir: Dir => match dir.axis() { + Axis::X => Self(Smart::Custom(*dir)), + Axis::Y => Err("must be horizontal")?, + }, +} + +impl Resolve for HorizontalDir { + type Output = Dir; + + fn resolve(self, styles: StyleChain) -> Self::Output { + match self.0 { + Smart::Auto => styles.get(TextNode::LANG).dir(), + Smart::Custom(dir) => dir, + } + } +} + +/// Whether to hyphenate text. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub struct Hyphenate(pub Smart<bool>); + +castable! { + Hyphenate, + Expected: "boolean or auto", + Value::Auto => Self(Smart::Auto), + Value::Bool(v) => Self(Smart::Custom(v)), +} + +impl Resolve for Hyphenate { + type Output = bool; + + fn resolve(self, styles: StyleChain) -> Self::Output { + match self.0 { + Smart::Auto => styles.get(ParNode::JUSTIFY), + Smart::Custom(v) => v, + } + } +} + +/// A stylistic set in a font. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub struct StylisticSet(u8); + +impl StylisticSet { + /// Create a new set, clamping to 1-20. + pub fn new(index: u8) -> Self { + Self(index.clamp(1, 20)) + } + + /// Get the value, guaranteed to be 1-20. + pub fn get(self) -> u8 { + self.0 + } +} + +castable! { + StylisticSet, + Expected: "integer", + Value::Int(v) => match v { + 1 ..= 20 => Self::new(v as u8), + _ => Err("must be between 1 and 20")?, + }, +} + +/// Which kind of numbers / figures to select. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum NumberType { + /// Numbers that fit well with capital text. ("lnum") + Lining, + /// Numbers that fit well into a flow of upper- and lowercase text. ("onum") + OldStyle, +} + +castable! { + NumberType, + Expected: "string", + Value::Str(string) => match string.as_str() { + "lining" => Self::Lining, + "old-style" => Self::OldStyle, + _ => Err(r#"expected "lining" or "old-style""#)?, + }, +} + +/// The width of numbers / figures. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum NumberWidth { + /// Number widths are glyph specific. ("pnum") + Proportional, + /// All numbers are of equal width / monospaced. ("tnum") + Tabular, +} + +castable! { + NumberWidth, + Expected: "string", + Value::Str(string) => match string.as_str() { + "proportional" => Self::Proportional, + "tabular" => Self::Tabular, + _ => Err(r#"expected "proportional" or "tabular""#)?, + }, +} + +/// OpenType font features settings. +#[derive(Debug, Default, Clone, Eq, PartialEq, Hash)] +pub struct FontFeatures(pub Vec<(Tag, u32)>); + +castable! { + FontFeatures, + Expected: "array of strings or dictionary mapping tags to integers", + Value::Array(values) => Self(values + .into_iter() + .filter_map(|v| v.cast().ok()) + .map(|string: EcoString| (Tag::from_bytes_lossy(string.as_bytes()), 1)) + .collect()), + Value::Dict(values) => Self(values + .into_iter() + .filter_map(|(k, v)| { + let tag = Tag::from_bytes_lossy(k.as_bytes()); + let num = v.cast::<i64>().ok()?.try_into().ok()?; + Some((tag, num)) + }) + .collect()), +} + +impl Fold for FontFeatures { + type Output = Self; + + fn fold(mut self, outer: Self::Output) -> Self::Output { + self.0.extend(outer.0); + self + } +} + +/// A text space. +#[derive(Debug, Clone, Hash)] +pub struct SpaceNode; + +#[node] +impl SpaceNode { + fn construct(_: &mut Vm, _: &mut Args) -> SourceResult<Content> { + Ok(Self.pack()) + } +} + +/// A line break. +#[derive(Debug, Clone, Hash)] +pub struct LinebreakNode { + pub justify: bool, +} + +#[node] +impl LinebreakNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let justify = args.named("justify")?.unwrap_or(false); + Ok(Self { justify }.pack()) + } +} + +/// A smart quote. +#[derive(Debug, Clone, Hash)] +pub struct SmartQuoteNode { + pub double: bool, +} + +#[node] +impl SmartQuoteNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + let double = args.named("double")?.unwrap_or(true); + Ok(Self { double }.pack()) + } +} + +/// Convert a string or content to lowercase. +pub fn lower(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + case(Case::Lower, args) +} + +/// Convert a string or content to uppercase. +pub fn upper(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + case(Case::Upper, args) +} + +/// Change the case of text. +fn case(case: Case, args: &mut Args) -> SourceResult<Value> { + let Spanned { v, span } = args.expect("string or content")?; + Ok(match v { + Value::Str(v) => Value::Str(case.apply(&v).into()), + Value::Content(v) => Value::Content(v.styled(TextNode::CASE, Some(case))), + v => bail!(span, "expected string or content, found {}", v.type_name()), + }) +} + +/// A case transformation on text. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum Case { + /// Everything is uppercased. + Upper, + /// Everything is lowercased. + Lower, +} + +impl Case { + /// Apply the case to a string. + pub fn apply(self, text: &str) -> String { + match self { + Self::Upper => text.to_uppercase(), + Self::Lower => text.to_lowercase(), + } + } +} + +/// Display text in small capitals. +pub fn smallcaps(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let body: Content = args.expect("content")?; + Ok(Value::Content(body.styled(TextNode::SMALLCAPS, true))) +} + +/// Strong content, rendered in boldface by default. +#[derive(Debug, Hash)] +pub struct StrongNode(pub Content); + +#[node(Show)] +impl StrongNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("body")?).pack()) + } +} + +impl Show for StrongNode { + fn unguard_parts(&self, sel: Selector) -> Content { + Self(self.0.unguard(sel)).pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "body" => Some(Value::Content(self.0.clone())), + _ => None, + } + } + + fn realize(&self, _: Tracked<dyn World>, _: StyleChain) -> SourceResult<Content> { + Ok(self.0.clone().styled(TextNode::BOLD, Toggle)) + } +} + +/// Emphasized content, rendered with an italic font by default. +#[derive(Debug, Hash)] +pub struct EmphNode(pub Content); + +#[node(Show)] +impl EmphNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("body")?).pack()) + } +} + +impl Show for EmphNode { + fn unguard_parts(&self, sel: Selector) -> Content { + Self(self.0.unguard(sel)).pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "body" => Some(Value::Content(self.0.clone())), + _ => None, + } + } + + fn realize(&self, _: Tracked<dyn World>, _: StyleChain) -> SourceResult<Content> { + Ok(self.0.clone().styled(TextNode::ITALIC, Toggle)) + } +} + +/// A toggle that turns on and off alternatingly if folded. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub struct Toggle; + +impl Fold for Toggle { + type Output = bool; + + fn fold(self, outer: Self::Output) -> Self::Output { + !outer + } +} + +impl Fold for Decoration { + type Output = Vec<Self>; + + fn fold(self, mut outer: Self::Output) -> Self::Output { + outer.insert(0, self); + outer + } +} diff --git a/library/src/text/par.rs b/library/src/text/par.rs new file mode 100644 index 00000000..95371e1a --- /dev/null +++ b/library/src/text/par.rs @@ -0,0 +1,1259 @@ +use std::cmp::Ordering; + +use typst::util::EcoString; +use unicode_bidi::{BidiInfo, Level as BidiLevel}; +use unicode_script::{Script, UnicodeScript}; +use xi_unicode::LineBreakIterator; + +use super::{shape, Lang, Quoter, Quotes, ShapedText, TextNode}; +use crate::layout::Spacing; +use crate::prelude::*; + +/// Arrange text, spacing and inline-level nodes into a paragraph. +#[derive(Hash)] +pub struct ParNode(pub StyleVec<ParChild>); + +/// A uniformly styled atomic piece of a paragraph. +#[derive(Hash, PartialEq)] +pub enum ParChild { + /// A chunk of text. + Text(EcoString), + /// A single or double smart quote. + Quote { double: bool }, + /// Horizontal spacing between other children. + Spacing(Spacing), + /// Arbitrary inline-level content. + Inline(Content), +} + +#[node(LayoutBlock)] +impl ParNode { + /// The spacing between lines. + #[property(resolve)] + pub const LEADING: Length = Em::new(0.65).into(); + /// The extra spacing between paragraphs. + #[property(resolve)] + pub const SPACING: Length = Em::new(1.2).into(); + /// The indent the first line of a consecutive paragraph should have. + #[property(resolve)] + pub const INDENT: Length = Length::zero(); + /// Whether to allow paragraph spacing when there is paragraph indent. + pub const SPACING_AND_INDENT: bool = false; + + /// How to align text and inline objects in their line. + #[property(resolve)] + pub const ALIGN: HorizontalAlign = HorizontalAlign(GenAlign::Start); + /// Whether to justify text in its line. + pub const JUSTIFY: bool = false; + /// How to determine line breaks. + pub const LINEBREAKS: Smart<Linebreaks> = Smart::Auto; + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + // The paragraph constructor is special: It doesn't create a paragraph + // node. Instead, it just ensures that the passed content lives is in a + // separate paragraph and styles it. + Ok(Content::sequence(vec![ + ParbreakNode.pack(), + args.expect("body")?, + ParbreakNode.pack(), + ])) + } +} + +impl LayoutBlock for ParNode { + fn layout_block( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + // Collect all text into one string for BiDi analysis. + let (text, segments) = collect(self, &styles); + + // Perform BiDi analysis and then prepare paragraph layout by building a + // representation on which we can do line breaking without layouting + // each and every line from scratch. + let p = prepare(world, self, &text, segments, regions, styles)?; + + // Break the paragraph into lines. + let lines = linebreak(&p, world, regions.first.x); + + // Stack the lines into one frame per region. + stack(&p, world, &lines, regions) + } +} + +impl Debug for ParNode { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + f.write_str("Par ")?; + self.0.fmt(f) + } +} + +impl Debug for ParChild { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + match self { + Self::Text(text) => write!(f, "Text({:?})", text), + Self::Quote { double } => write!(f, "Quote({double})"), + Self::Spacing(kind) => write!(f, "{:?}", kind), + Self::Inline(inline) => inline.fmt(f), + } + } +} + +impl PartialOrd for ParChild { + fn partial_cmp(&self, other: &Self) -> Option<Ordering> { + match (self, other) { + (Self::Spacing(a), Self::Spacing(b)) => a.partial_cmp(b), + _ => None, + } + } +} + +/// A horizontal alignment. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub struct HorizontalAlign(pub GenAlign); + +castable! { + HorizontalAlign, + Expected: "alignment", + @align: GenAlign => match align.axis() { + Axis::X => Self(*align), + Axis::Y => Err("must be horizontal")?, + }, +} + +impl Resolve for HorizontalAlign { + type Output = Align; + + fn resolve(self, styles: StyleChain) -> Self::Output { + self.0.resolve(styles) + } +} + +/// How to determine line breaks in a paragraph. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum Linebreaks { + /// Determine the linebreaks in a simple first-fit style. + Simple, + /// Optimize the linebreaks for the whole paragraph. + Optimized, +} + +castable! { + Linebreaks, + Expected: "string", + Value::Str(string) => match string.as_str() { + "simple" => Self::Simple, + "optimized" => Self::Optimized, + _ => Err(r#"expected "simple" or "optimized""#)?, + }, +} + +/// A paragraph break. +#[derive(Debug, Clone, Hash)] +pub struct ParbreakNode; + +#[node] +impl ParbreakNode { + fn construct(_: &mut Vm, _: &mut Args) -> SourceResult<Content> { + Ok(Self.pack()) + } +} + +/// Repeats content to fill a line. +#[derive(Debug, Hash)] +pub struct RepeatNode(pub Content); + +#[node(LayoutInline)] +impl RepeatNode { + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("body")?).pack()) + } +} + +impl LayoutInline for RepeatNode { + fn layout_inline( + &self, + world: Tracked<dyn World>, + regions: &Regions, + styles: StyleChain, + ) -> SourceResult<Vec<Frame>> { + self.0.layout_inline(world, regions, styles) + } +} + +/// Range of a substring of text. +type Range = std::ops::Range<usize>; + +// The characters by which spacing, inline content and pins are replaced in the +// paragraph's full text. +const SPACING_REPLACE: char = ' '; // Space +const NODE_REPLACE: char = '\u{FFFC}'; // Object Replacement Character + +/// A paragraph representation in which children are already layouted and text +/// is already preshaped. +/// +/// In many cases, we can directly reuse these results when constructing a line. +/// Only when a line break falls onto a text index that is not safe-to-break per +/// rustybuzz, we have to reshape that portion. +struct Preparation<'a> { + /// Bidirectional text embedding levels for the paragraph. + bidi: BidiInfo<'a>, + /// Text runs, spacing and layouted nodes. + items: Vec<Item<'a>>, + /// The styles shared by all children. + styles: StyleChain<'a>, + /// Whether to hyphenate if it's the same for all children. + hyphenate: Option<bool>, + /// The text language if it's the same for all children. + lang: Option<Lang>, + /// The resolved leading between lines. + leading: Abs, + /// The paragraph's resolved alignment. + align: Align, + /// Whether to justify the paragraph. + justify: bool, +} + +impl<'a> Preparation<'a> { + /// Find the item that contains the given `text_offset`. + fn find(&self, text_offset: usize) -> Option<&Item<'a>> { + let mut cursor = 0; + for item in &self.items { + let end = cursor + item.len(); + if (cursor .. end).contains(&text_offset) { + return Some(item); + } + cursor = end; + } + None + } + + /// Return the items that intersect the given `text_range`. + /// + /// Returns the expanded range around the items and the items. + fn slice(&self, text_range: Range) -> (Range, &[Item<'a>]) { + let mut cursor = 0; + let mut start = 0; + let mut end = 0; + let mut expanded = text_range.clone(); + + for (i, item) in self.items.iter().enumerate() { + if cursor <= text_range.start { + start = i; + expanded.start = cursor; + } + + let len = item.len(); + if cursor < text_range.end || cursor + len <= text_range.end { + end = i + 1; + expanded.end = cursor + len; + } else { + break; + } + + cursor += len; + } + + (expanded, &self.items[start .. end]) + } +} + +/// A segment of one or multiple collapsed children. +#[derive(Debug, Copy, Clone)] +enum Segment<'a> { + /// One or multiple collapsed text or text-equivalent children. Stores how + /// long the segment is (in bytes of the full text string). + Text(usize), + /// Horizontal spacing between other segments. + Spacing(Spacing), + /// Arbitrary inline-level content. + Inline(&'a Content), +} + +impl Segment<'_> { + /// The text length of the item. + fn len(&self) -> usize { + match *self { + Self::Text(len) => len, + Self::Spacing(_) => SPACING_REPLACE.len_utf8(), + Self::Inline(_) => NODE_REPLACE.len_utf8(), + } + } +} + +/// A prepared item in a paragraph layout. +#[derive(Debug)] +enum Item<'a> { + /// A shaped text run with consistent style and direction. + Text(ShapedText<'a>), + /// Absolute spacing between other items. + Absolute(Abs), + /// Fractional spacing between other items. + Fractional(Fr), + /// Layouted inline-level content. + Frame(Frame), + /// A repeating node that fills the remaining space in a line. + Repeat(&'a RepeatNode, StyleChain<'a>), +} + +impl<'a> Item<'a> { + /// If this a text item, return it. + fn text(&self) -> Option<&ShapedText<'a>> { + match self { + Self::Text(shaped) => Some(shaped), + _ => None, + } + } + + /// The text length of the item. + fn len(&self) -> usize { + match self { + Self::Text(shaped) => shaped.text.len(), + Self::Absolute(_) | Self::Fractional(_) => SPACING_REPLACE.len_utf8(), + Self::Frame(_) | Self::Repeat(_, _) => NODE_REPLACE.len_utf8(), + } + } + + /// The natural layouted width of the item. + fn width(&self) -> Abs { + match self { + Self::Text(shaped) => shaped.width, + Self::Absolute(v) => *v, + Self::Frame(frame) => frame.width(), + Self::Fractional(_) | Self::Repeat(_, _) => Abs::zero(), + } + } +} + +/// A layouted line, consisting of a sequence of layouted paragraph items that +/// are mostly borrowed from the preparation phase. This type enables you to +/// measure the size of a line in a range before comitting to building the +/// line's frame. +/// +/// At most two paragraph items must be created individually for this line: The +/// first and last one since they may be broken apart by the start or end of the +/// line, respectively. But even those can partially reuse previous results when +/// the break index is safe-to-break per rustybuzz. +struct Line<'a> { + /// Bidi information about the paragraph. + bidi: &'a BidiInfo<'a>, + /// The trimmed range the line spans in the paragraph. + trimmed: Range, + /// The untrimmed end where the line ends. + end: usize, + /// A reshaped text item if the line sliced up a text item at the start. + first: Option<Item<'a>>, + /// Inner items which don't need to be reprocessed. + inner: &'a [Item<'a>], + /// A reshaped text item if the line sliced up a text item at the end. If + /// there is only one text item, this takes precedence over `first`. + last: Option<Item<'a>>, + /// The width of the line. + width: Abs, + /// Whether the line should be justified. + justify: bool, + /// Whether the line ends with a hyphen or dash, either naturally or through + /// hyphenation. + dash: bool, +} + +impl<'a> Line<'a> { + /// Iterate over the line's items. + fn items(&self) -> impl Iterator<Item = &Item<'a>> { + self.first.iter().chain(self.inner).chain(&self.last) + } + + /// Return items that intersect the given `text_range`. + fn slice(&self, text_range: Range) -> impl Iterator<Item = &Item<'a>> { + let mut cursor = self.trimmed.start; + let mut start = 0; + let mut end = 0; + + for (i, item) in self.items().enumerate() { + if cursor <= text_range.start { + start = i; + } + + let len = item.len(); + if cursor < text_range.end || cursor + len <= text_range.end { + end = i + 1; + } else { + break; + } + + cursor += len; + } + + self.items().skip(start).take(end - start) + } + + /// How many justifiable glyphs the line contains. + fn justifiables(&self) -> usize { + let mut count = 0; + for shaped in self.items().filter_map(Item::text) { + count += shaped.justifiables(); + } + count + } + + /// How much of the line is stretchable spaces. + fn stretch(&self) -> Abs { + let mut stretch = Abs::zero(); + for shaped in self.items().filter_map(Item::text) { + stretch += shaped.stretch(); + } + stretch + } + + /// The sum of fractions in the line. + fn fr(&self) -> Fr { + self.items() + .filter_map(|item| match item { + Item::Fractional(fr) => Some(*fr), + Item::Repeat(_, _) => Some(Fr::one()), + _ => None, + }) + .sum() + } +} + +/// Collect all text of the paragraph into one string. This also performs +/// string-level preprocessing like case transformations. +fn collect<'a>( + par: &'a ParNode, + styles: &'a StyleChain<'a>, +) -> (String, Vec<(Segment<'a>, StyleChain<'a>)>) { + let mut full = String::new(); + let mut quoter = Quoter::new(); + let mut segments = vec![]; + let mut iter = par.0.iter().peekable(); + + while let Some((child, map)) = iter.next() { + let styles = map.chain(styles); + let segment = match child { + ParChild::Text(text) => { + let prev = full.len(); + if let Some(case) = styles.get(TextNode::CASE) { + full.push_str(&case.apply(text)); + } else { + full.push_str(text); + } + Segment::Text(full.len() - prev) + } + &ParChild::Quote { double } => { + let prev = full.len(); + if styles.get(TextNode::SMART_QUOTES) { + let lang = styles.get(TextNode::LANG); + let region = styles.get(TextNode::REGION); + let quotes = Quotes::from_lang(lang, region); + let peeked = iter.peek().and_then(|(child, _)| match child { + ParChild::Text(text) => text.chars().next(), + ParChild::Quote { .. } => Some('"'), + ParChild::Spacing(_) => Some(SPACING_REPLACE), + ParChild::Inline(_) => Some(NODE_REPLACE), + }); + + full.push_str(quoter.quote("es, double, peeked)); + } else { + full.push(if double { '"' } else { '\'' }); + } + Segment::Text(full.len() - prev) + } + &ParChild::Spacing(spacing) => { + full.push(SPACING_REPLACE); + Segment::Spacing(spacing) + } + ParChild::Inline(inline) => { + full.push(NODE_REPLACE); + Segment::Inline(inline) + } + }; + + if let Some(last) = full.chars().last() { + quoter.last(last); + } + + if let (Some((Segment::Text(last_len), last_styles)), Segment::Text(len)) = + (segments.last_mut(), segment) + { + if *last_styles == styles { + *last_len += len; + continue; + } + } + + segments.push((segment, styles)); + } + + (full, segments) +} + +/// Prepare paragraph layout by shaping the whole paragraph and layouting all +/// contained inline-level content. +fn prepare<'a>( + world: Tracked<dyn World>, + par: &'a ParNode, + text: &'a str, + segments: Vec<(Segment<'a>, StyleChain<'a>)>, + regions: &Regions, + styles: StyleChain<'a>, +) -> SourceResult<Preparation<'a>> { + let bidi = BidiInfo::new(text, match styles.get(TextNode::DIR) { + Dir::LTR => Some(BidiLevel::ltr()), + Dir::RTL => Some(BidiLevel::rtl()), + _ => None, + }); + + let mut cursor = 0; + let mut items = vec![]; + + // Shape / layout the children and collect them into items. + for (segment, styles) in segments { + let end = cursor + segment.len(); + match segment { + Segment::Text(_) => { + shape_range(&mut items, world, &bidi, cursor .. end, styles); + } + Segment::Spacing(spacing) => match spacing { + Spacing::Relative(v) => { + let resolved = v.resolve(styles).relative_to(regions.base.x); + items.push(Item::Absolute(resolved)); + } + Spacing::Fractional(v) => { + items.push(Item::Fractional(v)); + } + }, + Segment::Inline(inline) => { + if let Some(repeat) = inline.downcast::<RepeatNode>() { + items.push(Item::Repeat(repeat, styles)); + } else { + let size = Size::new(regions.first.x, regions.base.y); + let pod = Regions::one(size, regions.base, Axes::splat(false)); + let mut frame = inline.layout_inline(world, &pod, styles)?.remove(0); + frame.translate(Point::with_y(styles.get(TextNode::BASELINE))); + frame.apply_role(Role::GenericInline); + items.push(Item::Frame(frame)); + } + } + } + + cursor = end; + } + + Ok(Preparation { + bidi, + items, + styles, + hyphenate: shared_get(styles, &par.0, TextNode::HYPHENATE), + lang: shared_get(styles, &par.0, TextNode::LANG), + leading: styles.get(ParNode::LEADING), + align: styles.get(ParNode::ALIGN), + justify: styles.get(ParNode::JUSTIFY), + }) +} + +/// Group a range of text by BiDi level and script, shape the runs and generate +/// items for them. +fn shape_range<'a>( + items: &mut Vec<Item<'a>>, + world: Tracked<dyn World>, + bidi: &BidiInfo<'a>, + range: Range, + styles: StyleChain<'a>, +) { + let mut process = |text, level: BidiLevel| { + let dir = if level.is_ltr() { Dir::LTR } else { Dir::RTL }; + let shaped = shape(world, text, styles, dir); + items.push(Item::Text(shaped)); + }; + + let mut prev_level = BidiLevel::ltr(); + let mut prev_script = Script::Unknown; + let mut cursor = range.start; + + // Group by embedding level and script. + for i in cursor .. range.end { + if !bidi.text.is_char_boundary(i) { + continue; + } + + let level = bidi.levels[i]; + let script = + bidi.text[i ..].chars().next().map_or(Script::Unknown, |c| c.script()); + + if level != prev_level || !is_compatible(script, prev_script) { + if cursor < i { + process(&bidi.text[cursor .. i], prev_level); + } + cursor = i; + prev_level = level; + prev_script = script; + } else if is_generic_script(prev_script) { + prev_script = script; + } + } + + process(&bidi.text[cursor .. range.end], prev_level); +} + +/// Whether this is not a specific script. +fn is_generic_script(script: Script) -> bool { + matches!(script, Script::Unknown | Script::Common | Script::Inherited) +} + +/// Whether these script can be part of the same shape run. +fn is_compatible(a: Script, b: Script) -> bool { + is_generic_script(a) || is_generic_script(b) || a == b +} + +/// Get a style property, but only if it is the same for all children of the +/// paragraph. +fn shared_get<'a, K: Key<'a>>( + styles: StyleChain<'a>, + children: &StyleVec<ParChild>, + key: K, +) -> Option<K::Output> { + children + .styles() + .all(|map| !map.contains(key)) + .then(|| styles.get(key)) +} + +/// Find suitable linebreaks. +fn linebreak<'a>( + p: &'a Preparation<'a>, + world: Tracked<dyn World>, + width: Abs, +) -> Vec<Line<'a>> { + let linebreaks = p.styles.get(ParNode::LINEBREAKS).unwrap_or_else(|| { + if p.styles.get(ParNode::JUSTIFY) { + Linebreaks::Optimized + } else { + Linebreaks::Simple + } + }); + + match linebreaks { + Linebreaks::Simple => linebreak_simple(p, world, width), + Linebreaks::Optimized => linebreak_optimized(p, world, width), + } +} + +/// Perform line breaking in simple first-fit style. This means that we build +/// lines greedily, always taking the longest possible line. This may lead to +/// very unbalanced line, but is fast and simple. +fn linebreak_simple<'a>( + p: &'a Preparation<'a>, + world: Tracked<dyn World>, + width: Abs, +) -> Vec<Line<'a>> { + let mut lines = vec![]; + let mut start = 0; + let mut last = None; + + for (end, mandatory, hyphen) in breakpoints(p) { + // Compute the line and its size. + let mut attempt = line(p, world, start .. end, mandatory, hyphen); + + // If the line doesn't fit anymore, we push the last fitting attempt + // into the stack and rebuild the line from the attempt's end. The + // resulting line cannot be broken up further. + if !width.fits(attempt.width) { + if let Some((last_attempt, last_end)) = last.take() { + lines.push(last_attempt); + start = last_end; + attempt = line(p, world, start .. end, mandatory, hyphen); + } + } + + // Finish the current line if there is a mandatory line break (i.e. + // due to "\n") or if the line doesn't fit horizontally already + // since then no shorter line will be possible. + if mandatory || !width.fits(attempt.width) { + lines.push(attempt); + start = end; + last = None; + } else { + last = Some((attempt, end)); + } + } + + if let Some((line, _)) = last { + lines.push(line); + } + + lines +} + +/// Perform line breaking in optimized Knuth-Plass style. Here, we use more +/// context to determine the line breaks than in the simple first-fit style. For +/// example, we might choose to cut a line short even though there is still a +/// bit of space to improve the fit of one of the following lines. The +/// Knuth-Plass algorithm is based on the idea of "cost". A line which has a +/// very tight or very loose fit has a higher cost than one that is just right. +/// Ending a line with a hyphen incurs extra cost and endings two successive +/// lines with hyphens even more. +/// +/// To find the layout with the minimal total cost the algorithm uses dynamic +/// programming: For each possible breakpoint it determines the optimal +/// paragraph layout _up to that point_. It walks over all possible start points +/// for a line ending at that point and finds the one for which the cost of the +/// line plus the cost of the optimal paragraph up to the start point (already +/// computed and stored in dynamic programming table) is minimal. The final +/// result is simply the layout determined for the last breakpoint at the end of +/// text. +fn linebreak_optimized<'a>( + p: &'a Preparation<'a>, + world: Tracked<dyn World>, + width: Abs, +) -> Vec<Line<'a>> { + /// The cost of a line or paragraph layout. + type Cost = f64; + + /// An entry in the dynamic programming table. + struct Entry<'a> { + pred: usize, + total: Cost, + line: Line<'a>, + } + + // Cost parameters. + const HYPH_COST: Cost = 0.5; + const CONSECUTIVE_DASH_COST: Cost = 30.0; + const MAX_COST: Cost = 1_000_000.0; + const MIN_COST: Cost = -MAX_COST; + const MIN_RATIO: f64 = -0.15; + + // Dynamic programming table. + let mut active = 0; + let mut table = vec![Entry { + pred: 0, + total: 0.0, + line: line(p, world, 0 .. 0, false, false), + }]; + + let em = p.styles.get(TextNode::SIZE); + + for (end, mandatory, hyphen) in breakpoints(p) { + let k = table.len(); + let eof = end == p.bidi.text.len(); + let mut best: Option<Entry> = None; + + // Find the optimal predecessor. + for (i, pred) in table.iter_mut().enumerate().skip(active) { + // Layout the line. + let start = pred.line.end; + let attempt = line(p, world, start .. end, mandatory, hyphen); + + // Determine how much the line's spaces would need to be stretched + // to make it the desired width. + let delta = width - attempt.width; + let mut ratio = delta / attempt.stretch(); + if ratio.is_infinite() { + ratio = delta / (em / 2.0); + } + + // At some point, it doesn't matter any more. + ratio = ratio.min(10.0); + + // Determine the cost of the line. + let min_ratio = if attempt.justify { MIN_RATIO } else { 0.0 }; + let mut cost = if ratio < min_ratio { + // The line is overfull. This is the case if + // - justification is on, but we'd need to shrink too much + // - justification is off and the line just doesn't fit + // Since any longer line will also be overfull, we can deactive + // this breakpoint. + active = i + 1; + MAX_COST + } else if mandatory || eof { + // This is a mandatory break and the line is not overfull, so it + // has minimum cost. All breakpoints before this one become + // inactive since no line can span above the mandatory break. + active = k; + MIN_COST + if attempt.justify { ratio.powi(3).abs() } else { 0.0 } + } else { + // Normal line with cost of |ratio^3|. + ratio.powi(3).abs() + }; + + // Penalize hyphens. + if hyphen { + cost += HYPH_COST; + } + + // Penalize two consecutive dashes (not necessarily hyphens) extra. + if attempt.dash && pred.line.dash { + cost += CONSECUTIVE_DASH_COST; + } + + // The total cost of this line and its chain of predecessors. + let total = pred.total + cost; + + // If this attempt is better than what we had before, take it! + if best.as_ref().map_or(true, |best| best.total >= total) { + best = Some(Entry { pred: i, total, line: attempt }); + } + } + + table.push(best.unwrap()); + } + + // Retrace the best path. + let mut lines = vec![]; + let mut idx = table.len() - 1; + while idx != 0 { + table.truncate(idx + 1); + let entry = table.pop().unwrap(); + lines.push(entry.line); + idx = entry.pred; + } + + lines.reverse(); + lines +} + +/// Determine all possible points in the text where lines can broken. +/// +/// Returns for each breakpoint the text index, whether the break is mandatory +/// (after `\n`) and whether a hyphen is required (when breaking inside of a +/// word). +fn breakpoints<'a>(p: &'a Preparation) -> Breakpoints<'a> { + Breakpoints { + p, + linebreaks: LineBreakIterator::new(p.bidi.text), + syllables: None, + offset: 0, + suffix: 0, + end: 0, + mandatory: false, + } +} + +/// An iterator over the line break opportunities in a text. +struct Breakpoints<'a> { + /// The paragraph's items. + p: &'a Preparation<'a>, + /// The inner iterator over the unicode line break opportunities. + linebreaks: LineBreakIterator<'a>, + /// Iterator over syllables of the current word. + syllables: Option<hypher::Syllables<'a>>, + /// The current text offset. + offset: usize, + /// The trimmed end of the current word. + suffix: usize, + /// The untrimmed end of the current word. + end: usize, + /// Whether the break after the current word is mandatory. + mandatory: bool, +} + +impl Iterator for Breakpoints<'_> { + type Item = (usize, bool, bool); + + fn next(&mut self) -> Option<Self::Item> { + // If we're currently in a hyphenated "word", process the next syllable. + if let Some(syllable) = self.syllables.as_mut().and_then(Iterator::next) { + self.offset += syllable.len(); + if self.offset == self.suffix { + self.offset = self.end; + } + + // Filter out hyphenation opportunities where hyphenation was + // actually disabled. + let hyphen = self.offset < self.end; + if hyphen && !self.hyphenate(self.offset) { + return self.next(); + } + + return Some((self.offset, self.mandatory && !hyphen, hyphen)); + } + + // Get the next "word". + (self.end, self.mandatory) = self.linebreaks.next()?; + + // Hyphenate the next word. + if self.p.hyphenate != Some(false) { + if let Some(lang) = self.lang(self.offset) { + let word = &self.p.bidi.text[self.offset .. self.end]; + let trimmed = word.trim_end_matches(|c: char| !c.is_alphabetic()); + if !trimmed.is_empty() { + self.suffix = self.offset + trimmed.len(); + self.syllables = Some(hypher::hyphenate(trimmed, lang)); + return self.next(); + } + } + } + + self.offset = self.end; + Some((self.end, self.mandatory, false)) + } +} + +impl Breakpoints<'_> { + /// Whether hyphenation is enabled at the given offset. + fn hyphenate(&self, offset: usize) -> bool { + self.p + .hyphenate + .or_else(|| { + let shaped = self.p.find(offset)?.text()?; + Some(shaped.styles.get(TextNode::HYPHENATE)) + }) + .unwrap_or(false) + } + + /// The text language at the given offset. + fn lang(&self, offset: usize) -> Option<hypher::Lang> { + let lang = self.p.lang.or_else(|| { + let shaped = self.p.find(offset)?.text()?; + Some(shaped.styles.get(TextNode::LANG)) + })?; + + let bytes = lang.as_str().as_bytes().try_into().ok()?; + hypher::Lang::from_iso(bytes) + } +} + +/// Create a line which spans the given range. +fn line<'a>( + p: &'a Preparation, + world: Tracked<dyn World>, + mut range: Range, + mandatory: bool, + hyphen: bool, +) -> Line<'a> { + let end = range.end; + let mut justify = p.justify && end < p.bidi.text.len() && !mandatory; + + if range.is_empty() { + return Line { + bidi: &p.bidi, + end, + trimmed: range, + first: None, + inner: &[], + last: None, + width: Abs::zero(), + justify, + dash: false, + }; + } + + // Slice out the relevant items. + let (expanded, mut inner) = p.slice(range.clone()); + let mut width = Abs::zero(); + + // Reshape the last item if it's split in half or hyphenated. + let mut last = None; + let mut dash = false; + if let Some((Item::Text(shaped), before)) = inner.split_last() { + // Compute the range we want to shape, trimming whitespace at the + // end of the line. + let base = expanded.end - shaped.text.len(); + let start = range.start.max(base); + let text = &p.bidi.text[start .. range.end]; + let trimmed = text.trim_end(); + range.end = start + trimmed.len(); + + // Deal with hyphens, dashes and justification. + let shy = trimmed.ends_with('\u{ad}'); + dash = hyphen || shy || trimmed.ends_with(['-', '–', '—']); + justify |= text.ends_with('\u{2028}'); + + // Usually, we don't want to shape an empty string because: + // - We don't want the height of trimmed whitespace in a different + // font to be considered for the line height. + // - Even if it's in the same font, its unnecessary. + // + // There is one exception though. When the whole line is empty, we + // need the shaped empty string to make the line the appropriate + // height. That is the case exactly if the string is empty and there + // are no other items in the line. + if hyphen || start + shaped.text.len() > range.end { + if hyphen || start < range.end || before.is_empty() { + let shifted = start - base .. range.end - base; + let mut reshaped = shaped.reshape(world, shifted); + if hyphen || shy { + reshaped.push_hyphen(world); + } + width += reshaped.width; + last = Some(Item::Text(reshaped)); + } + + inner = before; + } + } + + // Reshape the start item if it's split in half. + let mut first = None; + if let Some((Item::Text(shaped), after)) = inner.split_first() { + // Compute the range we want to shape. + let base = expanded.start; + let end = range.end.min(base + shaped.text.len()); + + // Reshape if necessary. + if range.start + shaped.text.len() > end { + if range.start < end { + let shifted = range.start - base .. end - base; + let reshaped = shaped.reshape(world, shifted); + width += reshaped.width; + first = Some(Item::Text(reshaped)); + } + + inner = after; + } + } + + // Measure the inner items. + for item in inner { + width += item.width(); + } + + Line { + bidi: &p.bidi, + trimmed: range, + end, + first, + inner, + last, + width, + justify, + dash, + } +} + +/// Combine layouted lines into one frame per region. +fn stack( + p: &Preparation, + world: Tracked<dyn World>, + lines: &[Line], + regions: &Regions, +) -> SourceResult<Vec<Frame>> { + // Determine the paragraph's width: Full width of the region if we + // should expand or there's fractional spacing, fit-to-width otherwise. + let mut width = regions.first.x; + if !regions.expand.x && lines.iter().all(|line| line.fr().is_zero()) { + width = lines.iter().map(|line| line.width).max().unwrap_or_default(); + } + + // State for final frame building. + let mut regions = regions.clone(); + let mut finished = vec![]; + let mut first = true; + let mut output = Frame::new(Size::with_x(width)); + output.apply_role(Role::Paragraph); + + // Stack the lines into one frame per region. + for line in lines { + let frame = commit(p, world, line, ®ions, width)?; + let height = frame.size().y; + + while !regions.first.y.fits(height) && !regions.in_last() { + finished.push(output); + output = Frame::new(Size::with_x(width)); + output.apply_role(Role::Paragraph); + regions.next(); + first = true; + } + + if !first { + output.size_mut().y += p.leading; + } + + let pos = Point::with_y(output.height()); + output.size_mut().y += height; + output.push_frame(pos, frame); + + regions.first.y -= height + p.leading; + first = false; + } + + finished.push(output); + Ok(finished) +} + +/// Commit to a line and build its frame. +fn commit( + p: &Preparation, + world: Tracked<dyn World>, + line: &Line, + regions: &Regions, + width: Abs, +) -> SourceResult<Frame> { + let mut remaining = width - line.width; + let mut offset = Abs::zero(); + + // Reorder the line from logical to visual order. + let reordered = reorder(line); + + // Handle hanging punctuation to the left. + if let Some(Item::Text(text)) = reordered.first() { + if let Some(glyph) = text.glyphs.first() { + if !text.dir.is_positive() + && text.styles.get(TextNode::OVERHANG) + && (reordered.len() > 1 || text.glyphs.len() > 1) + { + let amount = overhang(glyph.c) * glyph.x_advance.at(text.size); + offset -= amount; + remaining += amount; + } + } + } + + // Handle hanging punctuation to the right. + if let Some(Item::Text(text)) = reordered.last() { + if let Some(glyph) = text.glyphs.last() { + if text.dir.is_positive() + && text.styles.get(TextNode::OVERHANG) + && (reordered.len() > 1 || text.glyphs.len() > 1) + { + let amount = overhang(glyph.c) * glyph.x_advance.at(text.size); + remaining += amount; + } + } + } + + // Determine how much to justify each space. + let fr = line.fr(); + let mut justification = Abs::zero(); + if remaining < Abs::zero() || (line.justify && fr.is_zero()) { + let justifiables = line.justifiables(); + if justifiables > 0 { + justification = remaining / justifiables as f64; + remaining = Abs::zero(); + } + } + + let mut top = Abs::zero(); + let mut bottom = Abs::zero(); + + // Build the frames and determine the height and baseline. + let mut frames = vec![]; + for item in reordered { + let mut push = |offset: &mut Abs, frame: Frame| { + let width = frame.width(); + top.set_max(frame.baseline()); + bottom.set_max(frame.size().y - frame.baseline()); + frames.push((*offset, frame)); + *offset += width; + }; + + match item { + Item::Absolute(v) => { + offset += *v; + } + Item::Fractional(v) => { + offset += v.share(fr, remaining); + } + Item::Text(shaped) => { + let frame = shaped.build(world, justification); + push(&mut offset, frame); + } + Item::Frame(frame) => { + push(&mut offset, frame.clone()); + } + Item::Repeat(repeat, styles) => { + let before = offset; + let fill = Fr::one().share(fr, remaining); + let size = Size::new(fill, regions.base.y); + let pod = Regions::one(size, regions.base, Axes::new(false, false)); + let frame = repeat.layout_inline(world, &pod, *styles)?.remove(0); + let width = frame.width(); + let count = (fill / width).floor(); + let remaining = fill % width; + let apart = remaining / (count - 1.0); + if count == 1.0 { + offset += p.align.position(remaining); + } + if width > Abs::zero() { + for _ in 0 .. (count as usize).min(1000) { + push(&mut offset, frame.clone()); + offset += apart; + } + } + offset = before + fill; + } + } + } + + // Remaining space is distributed now. + if !fr.is_zero() { + remaining = Abs::zero(); + } + + let size = Size::new(width, top + bottom); + let mut output = Frame::new(size); + output.set_baseline(top); + + // Construct the line's frame. + for (offset, frame) in frames { + let x = offset + p.align.position(remaining); + let y = top - frame.baseline(); + output.push_frame(Point::new(x, y), frame); + } + + Ok(output) +} + +/// Return a line's items in visual order. +fn reorder<'a>(line: &'a Line<'a>) -> Vec<&Item<'a>> { + let mut reordered = vec![]; + + // The bidi crate doesn't like empty lines. + if line.trimmed.is_empty() { + return line.slice(line.trimmed.clone()).collect(); + } + + // Find the paragraph that contains the line. + let para = line + .bidi + .paragraphs + .iter() + .find(|para| para.range.contains(&line.trimmed.start)) + .unwrap(); + + // Compute the reordered ranges in visual order (left to right). + let (levels, runs) = line.bidi.visual_runs(para, line.trimmed.clone()); + + // Collect the reordered items. + for run in runs { + // Skip reset L1 runs because handling them would require reshaping + // again in some cases. + if line.bidi.levels[run.start] != levels[run.start] { + continue; + } + + let prev = reordered.len(); + reordered.extend(line.slice(run.clone())); + + if levels[run.start].is_rtl() { + reordered[prev ..].reverse(); + } + } + + reordered +} + +/// How much a character should hang into the end margin. +/// +/// For more discussion, see: +/// https://recoveringphysicist.com/21/ +fn overhang(c: char) -> f64 { + match c { + // Dashes. + '–' | '—' => 0.2, + '-' => 0.55, + + // Punctuation. + '.' | ',' => 0.8, + ':' | ';' => 0.3, + + // Arabic and Ideographic + '\u{60C}' | '\u{6D4}' => 0.4, + '\u{3001}' | '\u{3002}' => 1.0, + + _ => 0.0, + } +} diff --git a/library/src/text/quotes.rs b/library/src/text/quotes.rs new file mode 100644 index 00000000..ab4d3f9d --- /dev/null +++ b/library/src/text/quotes.rs @@ -0,0 +1,149 @@ +use typst::syntax::is_newline; + +use super::{Lang, Region}; + +/// State machine for smart quote subtitution. +#[derive(Debug, Clone)] +pub struct Quoter { + /// How many quotes have been opened. + quote_depth: usize, + /// Whether an opening quote might follow. + expect_opening: bool, + /// Whether the last character was numeric. + last_num: bool, +} + +impl Quoter { + /// Start quoting. + pub fn new() -> Self { + Self { + quote_depth: 0, + expect_opening: true, + last_num: false, + } + } + + /// Process the last seen character. + pub fn last(&mut self, c: char) { + self.expect_opening = is_ignorable(c) || is_opening_bracket(c); + self.last_num = c.is_numeric(); + } + + /// Process and substitute a quote. + pub fn quote<'a>( + &mut self, + quotes: &Quotes<'a>, + double: bool, + peeked: Option<char>, + ) -> &'a str { + let peeked = peeked.unwrap_or(' '); + if self.expect_opening { + self.quote_depth += 1; + quotes.open(double) + } else if self.quote_depth > 0 + && (peeked.is_ascii_punctuation() || is_ignorable(peeked)) + { + self.quote_depth -= 1; + quotes.close(double) + } else if self.last_num { + quotes.prime(double) + } else { + quotes.fallback(double) + } + } +} + +impl Default for Quoter { + fn default() -> Self { + Self::new() + } +} + +fn is_ignorable(c: char) -> bool { + c.is_whitespace() || is_newline(c) +} + +fn is_opening_bracket(c: char) -> bool { + matches!(c, '(' | '{' | '[') +} + +/// Decides which quotes to subtitute smart quotes with. +pub struct Quotes<'s> { + /// The opening single quote. + pub single_open: &'s str, + /// The closing single quote. + pub single_close: &'s str, + /// The opening double quote. + pub double_open: &'s str, + /// The closing double quote. + pub double_close: &'s str, +} + +impl<'s> Quotes<'s> { + /// Create a new `Quotes` struct with the defaults for a language and + /// region. + /// + /// The language should be specified as an all-lowercase ISO 639-1 code, the + /// region as an all-uppercase ISO 3166-alpha2 code. + /// + /// Currently, the supported languages are: English, Czech, Danish, German, + /// Swiss / Liechtensteinian German, Estonian, Icelandic, Lithuanian, + /// Latvian, Slovak, Slovenian, Bosnian, Finnish, Swedish, French, + /// Hungarian, Polish, Romanian, Japanese, Traditional Chinese, Russian, and + /// Norwegian. + /// + /// For unknown languages, the English quotes are used. + pub fn from_lang(lang: Lang, region: Option<Region>) -> Self { + let region = region.as_ref().map(Region::as_str); + let (single_open, single_close, double_open, double_close) = match lang.as_str() { + "de" if matches!(region, Some("CH" | "LI")) => ("‹", "›", "«", "»"), + "cs" | "da" | "de" | "et" | "is" | "lt" | "lv" | "sk" | "sl" => { + ("‚", "‘", "„", "“") + } + "fr" => ("‹\u{00A0}", "\u{00A0}›", "«\u{00A0}", "\u{00A0}»"), + "bs" | "fi" | "sv" => ("’", "’", "”", "”"), + "hu" | "pl" | "ro" => ("’", "’", "„", "”"), + "ru" | "no" | "nn" => ("’", "’", "«", "»"), + _ => return Self::default(), + }; + + Self { + single_open, + single_close, + double_open, + double_close, + } + } + + /// The opening quote. + fn open(&self, double: bool) -> &'s str { + if double { self.double_open } else { self.single_open } + } + + /// The closing quote. + fn close(&self, double: bool) -> &'s str { + if double { self.double_close } else { self.single_close } + } + + /// Which character should be used as a prime. + fn prime(&self, double: bool) -> &'static str { + if double { "″" } else { "′" } + } + + /// Which character should be used as a fallback quote. + fn fallback(&self, double: bool) -> &'static str { + if double { "\"" } else { "’" } + } +} + +impl Default for Quotes<'_> { + /// Returns the english quotes as default. + fn default() -> Self { + Self { + single_open: "‘", + single_close: "’", + double_open: "“", + double_close: "”", + } + } +} diff --git a/library/src/text/raw.rs b/library/src/text/raw.rs new file mode 100644 index 00000000..31f1517e --- /dev/null +++ b/library/src/text/raw.rs @@ -0,0 +1,206 @@ +use once_cell::sync::Lazy; +use syntect::easy::HighlightLines; +use syntect::highlighting::{ + Color, FontStyle, Style, StyleModifier, Theme, ThemeItem, ThemeSettings, +}; +use syntect::parsing::SyntaxSet; +use typst::syntax; + +use super::{FontFamily, Hyphenate, LinebreakNode, TextNode}; +use crate::layout::{BlockNode, BlockSpacing}; +use crate::prelude::*; + +/// Monospaced text with optional syntax highlighting. +#[derive(Debug, Hash)] +pub struct RawNode { + /// The raw text. + pub text: EcoString, + /// Whether the node is block-level. + pub block: bool, +} + +#[node(Show)] +impl RawNode { + /// The language to syntax-highlight in. + #[property(referenced)] + pub const LANG: Option<EcoString> = None; + /// The raw text's font family. + #[property(referenced)] + pub const FAMILY: FontFamily = FontFamily::new("IBM Plex Mono"); + /// The spacing above block-level raw. + #[property(resolve, shorthand(around))] + pub const ABOVE: Option<BlockSpacing> = Some(Ratio::one().into()); + /// The spacing below block-level raw. + #[property(resolve, shorthand(around))] + pub const BELOW: Option<BlockSpacing> = Some(Ratio::one().into()); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self { + text: args.expect("text")?, + block: args.named("block")?.unwrap_or(false), + } + .pack()) + } +} + +impl Show for RawNode { + fn unguard_parts(&self, _: Selector) -> Content { + Self { text: self.text.clone(), ..*self }.pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "text" => Some(Value::Str(self.text.clone().into())), + "block" => Some(Value::Bool(self.block)), + _ => None, + } + } + + fn realize( + &self, + _: Tracked<dyn World>, + styles: StyleChain, + ) -> SourceResult<Content> { + let lang = styles.get(Self::LANG).as_ref().map(|s| s.to_lowercase()); + let foreground = THEME + .settings + .foreground + .map(Color::from) + .unwrap_or(Color::BLACK) + .into(); + + let mut realized = if matches!(lang.as_deref(), Some("typ" | "typst" | "typc")) { + let root = match lang.as_deref() { + Some("typc") => syntax::parse_code(&self.text), + _ => syntax::parse(&self.text), + }; + + let mut seq = vec![]; + syntax::highlight::highlight_themed(&root, &THEME, |range, style| { + seq.push(styled(&self.text[range], foreground, style)); + }); + + Content::sequence(seq) + } else if let Some(syntax) = + lang.and_then(|token| SYNTAXES.find_syntax_by_token(&token)) + { + let mut seq = vec![]; + let mut highlighter = HighlightLines::new(syntax, &THEME); + for (i, line) in self.text.lines().enumerate() { + if i != 0 { + seq.push(LinebreakNode { justify: false }.pack()); + } + + for (style, piece) in + highlighter.highlight_line(line, &SYNTAXES).into_iter().flatten() + { + seq.push(styled(piece, foreground, style)); + } + } + + Content::sequence(seq) + } else { + TextNode(self.text.clone()).pack() + }; + + if self.block { + realized = BlockNode(realized).pack(); + } + + let mut map = StyleMap::new(); + map.set(TextNode::OVERHANG, false); + map.set(TextNode::HYPHENATE, Hyphenate(Smart::Custom(false))); + map.set(TextNode::SMART_QUOTES, false); + + Ok(realized.styled_with_map(map)) + } + + fn finalize( + &self, + _: Tracked<dyn World>, + styles: StyleChain, + mut realized: Content, + ) -> SourceResult<Content> { + let mut map = StyleMap::new(); + map.set_family(styles.get(Self::FAMILY).clone(), styles); + + if self.block { + realized = realized.spaced(styles.get(Self::ABOVE), styles.get(Self::BELOW)); + } + + Ok(realized.styled_with_map(map)) + } +} + +/// Style a piece of text with a syntect style. +fn styled(piece: &str, foreground: Paint, style: Style) -> Content { + let mut body = TextNode(piece.into()).pack(); + + let paint = style.foreground.into(); + if paint != foreground { + body = body.styled(TextNode::FILL, paint); + } + + if style.font_style.contains(FontStyle::BOLD) { + body = body.strong(); + } + + if style.font_style.contains(FontStyle::ITALIC) { + body = body.emph(); + } + + if style.font_style.contains(FontStyle::UNDERLINE) { + body = body.underlined(); + } + + body +} + +/// The syntect syntax definitions. +static SYNTAXES: Lazy<SyntaxSet> = Lazy::new(|| SyntaxSet::load_defaults_newlines()); + +/// The default theme used for syntax highlighting. +#[rustfmt::skip] +pub static THEME: Lazy<Theme> = Lazy::new(|| Theme { + name: Some("Typst Light".into()), + author: Some("The Typst Project Developers".into()), + settings: ThemeSettings::default(), + scopes: vec![ + item("comment", Some("#8a8a8a"), None), + item("constant.character.escape", Some("#1d6c76"), None), + item("constant.character.shortcut", Some("#1d6c76"), None), + item("markup.bold", None, Some(FontStyle::BOLD)), + item("markup.italic", None, Some(FontStyle::ITALIC)), + item("markup.underline", None, Some(FontStyle::UNDERLINE)), + item("markup.raw", Some("#818181"), None), + item("string.other.math.typst", None, None), + item("punctuation.definition.math", Some("#298e0d"), None), + item("keyword.operator.math", Some("#1d6c76"), None), + item("markup.heading, entity.name.section", None, Some(FontStyle::BOLD)), + item("markup.heading.typst", None, Some(FontStyle::BOLD | FontStyle::UNDERLINE)), + item("punctuation.definition.list", Some("#8b41b1"), None), + item("markup.list.term", None, Some(FontStyle::BOLD)), + item("entity.name.label, markup.other.reference", Some("#1d6c76"), None), + item("keyword, constant.language, variable.language", Some("#d73a49"), None), + item("storage.type, storage.modifier", Some("#d73a49"), None), + item("constant", Some("#b60157"), None), + item("string", Some("#298e0d"), None), + item("entity.name, variable.function, support", Some("#4b69c6"), None), + item("support.macro", Some("#16718d"), None), + item("meta.annotation", Some("#301414"), None), + item("entity.other, meta.interpolation", Some("#8b41b1"), None), + item("invalid", Some("#ff0000"), None), + ], +}); + +/// Create a syntect theme item. +fn item(scope: &str, color: Option<&str>, font_style: Option<FontStyle>) -> ThemeItem { + ThemeItem { + scope: scope.parse().unwrap(), + style: StyleModifier { + foreground: color.map(|s| s.parse::<RgbaColor>().unwrap().into()), + background: None, + font_style, + }, + } +} diff --git a/library/src/text/shaping.rs b/library/src/text/shaping.rs new file mode 100644 index 00000000..32143862 --- /dev/null +++ b/library/src/text/shaping.rs @@ -0,0 +1,655 @@ +use std::ops::Range; +use std::str::FromStr; + +use rustybuzz::{Feature, Tag, UnicodeBuffer}; +use typst::font::{Font, FontVariant}; +use typst::util::SliceExt; + +use super::*; +use crate::prelude::*; + +/// The result of shaping text. +/// +/// This type contains owned or borrowed shaped text runs, which can be +/// measured, used to reshape substrings more quickly and converted into a +/// frame. +pub struct ShapedText<'a> { + /// The text that was shaped. + pub text: &'a str, + /// The text direction. + pub dir: Dir, + /// The text's style properties. + pub styles: StyleChain<'a>, + /// The font variant. + pub variant: FontVariant, + /// The font size. + pub size: Abs, + /// The width of the text's bounding box. + pub width: Abs, + /// The shaped glyphs. + pub glyphs: Cow<'a, [ShapedGlyph]>, +} + +/// A single glyph resulting from shaping. +#[derive(Debug, Clone)] +pub struct ShapedGlyph { + /// The font the glyph is contained in. + pub font: Font, + /// The glyph's index in the font. + pub glyph_id: u16, + /// The advance width of the glyph. + pub x_advance: Em, + /// The horizontal offset of the glyph. + pub x_offset: Em, + /// The vertical offset of the glyph. + pub y_offset: Em, + /// The byte index in the source text where this glyph's cluster starts. A + /// cluster is a sequence of one or multiple glyphs that cannot be + /// separated and must always be treated as a union. + pub cluster: usize, + /// Whether splitting the shaping result before this glyph would yield the + /// same results as shaping the parts to both sides of `text_index` + /// separately. + pub safe_to_break: bool, + /// The first char in this glyph's cluster. + pub c: char, +} + +impl ShapedGlyph { + /// Whether the glyph is a space. + pub fn is_space(&self) -> bool { + matches!(self.c, ' ' | '\u{00A0}' | ' ') + } + + /// Whether the glyph is justifiable. + pub fn is_justifiable(&self) -> bool { + self.is_space() || matches!(self.c, ',' | '。' | '、') + } +} + +/// A side you can go toward. +enum Side { + /// To the left-hand side. + Left, + /// To the right-hand side. + Right, +} + +impl<'a> ShapedText<'a> { + /// Build the shaped text's frame. + /// + /// The `justification` defines how much extra advance width each + /// [justifiable glyph](ShapedGlyph::is_justifiable) will get. + pub fn build(&self, world: Tracked<dyn World>, justification: Abs) -> Frame { + let (top, bottom) = self.measure(world); + let size = Size::new(self.width, top + bottom); + + let mut offset = Abs::zero(); + let mut frame = Frame::new(size); + frame.set_baseline(top); + + let shift = self.styles.get(TextNode::BASELINE); + let lang = self.styles.get(TextNode::LANG); + let decos = self.styles.get(TextNode::DECO); + let fill = self.styles.get(TextNode::FILL); + let link = self.styles.get(TextNode::LINK); + + for ((font, y_offset), group) in + self.glyphs.as_ref().group_by_key(|g| (g.font.clone(), g.y_offset)) + { + let pos = Point::new(offset, top + shift + y_offset.at(self.size)); + + let glyphs = group + .iter() + .map(|glyph| Glyph { + id: glyph.glyph_id, + x_advance: glyph.x_advance + + if glyph.is_justifiable() { + frame.size_mut().x += justification; + Em::from_length(justification, self.size) + } else { + Em::zero() + }, + x_offset: glyph.x_offset, + c: glyph.c, + }) + .collect(); + + let text = Text { + font, + size: self.size, + lang, + fill, + glyphs, + }; + + let text_layer = frame.layer(); + let width = text.width(); + + // Apply line decorations. + for deco in &decos { + decorate(&mut frame, deco, &text, shift, pos, width); + } + + frame.insert(text_layer, pos, Element::Text(text)); + offset += width; + } + + // Apply link if it exists. + if let Some(dest) = link { + frame.link(dest.clone()); + } + + frame + } + + /// Measure the top and bottom extent of this text. + fn measure(&self, world: Tracked<dyn World>) -> (Abs, Abs) { + let mut top = Abs::zero(); + let mut bottom = Abs::zero(); + + let top_edge = self.styles.get(TextNode::TOP_EDGE); + let bottom_edge = self.styles.get(TextNode::BOTTOM_EDGE); + + // Expand top and bottom by reading the font's vertical metrics. + let mut expand = |font: &Font| { + let metrics = font.metrics(); + top.set_max(top_edge.resolve(self.styles, metrics)); + bottom.set_max(-bottom_edge.resolve(self.styles, metrics)); + }; + + if self.glyphs.is_empty() { + // When there are no glyphs, we just use the vertical metrics of the + // first available font. + for family in families(self.styles) { + if let Some(font) = world + .book() + .select(family, self.variant) + .and_then(|id| world.font(id)) + { + expand(&font); + break; + } + } + } else { + for g in self.glyphs.iter() { + expand(&g.font); + } + } + + (top, bottom) + } + + /// How many justifiable glyphs the text contains. + pub fn justifiables(&self) -> usize { + self.glyphs.iter().filter(|g| g.is_justifiable()).count() + } + + /// The width of the spaces in the text. + pub fn stretch(&self) -> Abs { + self.glyphs + .iter() + .filter(|g| g.is_justifiable()) + .map(|g| g.x_advance) + .sum::<Em>() + .at(self.size) + } + + /// Reshape a range of the shaped text, reusing information from this + /// shaping process if possible. + pub fn reshape( + &'a self, + world: Tracked<dyn World>, + text_range: Range<usize>, + ) -> ShapedText<'a> { + if let Some(glyphs) = self.slice_safe_to_break(text_range.clone()) { + Self { + text: &self.text[text_range], + dir: self.dir, + styles: self.styles, + size: self.size, + variant: self.variant, + width: glyphs.iter().map(|g| g.x_advance).sum::<Em>().at(self.size), + glyphs: Cow::Borrowed(glyphs), + } + } else { + shape(world, &self.text[text_range], self.styles, self.dir) + } + } + + /// Push a hyphen to end of the text. + pub fn push_hyphen(&mut self, world: Tracked<dyn World>) { + families(self.styles).find_map(|family| { + let font = world + .book() + .select(family, self.variant) + .and_then(|id| world.font(id))?; + let ttf = font.ttf(); + let glyph_id = ttf.glyph_index('-')?; + let x_advance = font.to_em(ttf.glyph_hor_advance(glyph_id)?); + let cluster = self.glyphs.last().map(|g| g.cluster).unwrap_or_default(); + self.width += x_advance.at(self.size); + self.glyphs.to_mut().push(ShapedGlyph { + font, + glyph_id: glyph_id.0, + x_advance, + x_offset: Em::zero(), + y_offset: Em::zero(), + cluster, + safe_to_break: true, + c: '-', + }); + Some(()) + }); + } + + /// Find the subslice of glyphs that represent the given text range if both + /// sides are safe to break. + fn slice_safe_to_break(&self, text_range: Range<usize>) -> Option<&[ShapedGlyph]> { + let Range { mut start, mut end } = text_range; + if !self.dir.is_positive() { + std::mem::swap(&mut start, &mut end); + } + + let left = self.find_safe_to_break(start, Side::Left)?; + let right = self.find_safe_to_break(end, Side::Right)?; + Some(&self.glyphs[left .. right]) + } + + /// Find the glyph offset matching the text index that is most towards the + /// given side and safe-to-break. + fn find_safe_to_break(&self, text_index: usize, towards: Side) -> Option<usize> { + let ltr = self.dir.is_positive(); + + // Handle edge cases. + let len = self.glyphs.len(); + if text_index == 0 { + return Some(if ltr { 0 } else { len }); + } else if text_index == self.text.len() { + return Some(if ltr { len } else { 0 }); + } + + // Find any glyph with the text index. + let mut idx = self + .glyphs + .binary_search_by(|g| { + let ordering = g.cluster.cmp(&text_index); + if ltr { ordering } else { ordering.reverse() } + }) + .ok()?; + + let next = match towards { + Side::Left => usize::checked_sub, + Side::Right => usize::checked_add, + }; + + // Search for the outermost glyph with the text index. + while let Some(next) = next(idx, 1) { + if self.glyphs.get(next).map_or(true, |g| g.cluster != text_index) { + break; + } + idx = next; + } + + // RTL needs offset one because the left side of the range should be + // exclusive and the right side inclusive, contrary to the normal + // behaviour of ranges. + self.glyphs[idx].safe_to_break.then(|| idx + (!ltr) as usize) + } +} + +impl Debug for ShapedText<'_> { + fn fmt(&self, f: &mut Formatter) -> fmt::Result { + self.text.fmt(f) + } +} + +/// Holds shaping results and metadata common to all shaped segments. +struct ShapingContext<'a> { + world: Tracked<'a, dyn World>, + glyphs: Vec<ShapedGlyph>, + used: Vec<Font>, + styles: StyleChain<'a>, + size: Abs, + variant: FontVariant, + tags: Vec<rustybuzz::Feature>, + fallback: bool, + dir: Dir, +} + +/// Shape text into [`ShapedText`]. +pub fn shape<'a>( + world: Tracked<dyn World>, + text: &'a str, + styles: StyleChain<'a>, + dir: Dir, +) -> ShapedText<'a> { + let size = styles.get(TextNode::SIZE); + + let mut ctx = ShapingContext { + world, + size, + glyphs: vec![], + used: vec![], + styles, + variant: variant(styles), + tags: tags(styles), + fallback: styles.get(TextNode::FALLBACK), + dir, + }; + + if !text.is_empty() { + shape_segment(&mut ctx, 0, text, families(styles)); + } + + track_and_space(&mut ctx); + + ShapedText { + text, + dir, + styles, + variant: ctx.variant, + size, + width: ctx.glyphs.iter().map(|g| g.x_advance).sum::<Em>().at(size), + glyphs: Cow::Owned(ctx.glyphs), + } +} + +/// Shape text with font fallback using the `families` iterator. +fn shape_segment<'a>( + ctx: &mut ShapingContext, + base: usize, + text: &str, + mut families: impl Iterator<Item = &'a str> + Clone, +) { + // Fonts dont have newlines and tabs. + if text.chars().all(|c| c == '\n' || c == '\t') { + return; + } + + // Find the next available family. + let book = ctx.world.book(); + let mut selection = families.find_map(|family| { + book.select(family, ctx.variant) + .and_then(|id| ctx.world.font(id)) + .filter(|font| !ctx.used.contains(font)) + }); + + // Do font fallback if the families are exhausted and fallback is enabled. + if selection.is_none() && ctx.fallback { + let first = ctx.used.first().map(Font::info); + selection = book + .select_fallback(first, ctx.variant, text) + .and_then(|id| ctx.world.font(id)) + .filter(|font| !ctx.used.contains(font)); + } + + // Extract the font id or shape notdef glyphs if we couldn't find any font. + let font = if let Some(font) = selection { + font + } else { + if let Some(font) = ctx.used.first().cloned() { + shape_tofus(ctx, base, text, font); + } + return; + }; + + ctx.used.push(font.clone()); + + // Fill the buffer with our text. + let mut buffer = UnicodeBuffer::new(); + buffer.push_str(text); + buffer.set_language(language(ctx.styles)); + buffer.set_direction(match ctx.dir { + Dir::LTR => rustybuzz::Direction::LeftToRight, + Dir::RTL => rustybuzz::Direction::RightToLeft, + _ => unimplemented!("vertical text layout"), + }); + + // Shape! + let buffer = rustybuzz::shape(font.rusty(), &ctx.tags, buffer); + let infos = buffer.glyph_infos(); + let pos = buffer.glyph_positions(); + + // Collect the shaped glyphs, doing fallback and shaping parts again with + // the next font if necessary. + let mut i = 0; + while i < infos.len() { + let info = &infos[i]; + let cluster = info.cluster as usize; + + if info.glyph_id != 0 { + // Add the glyph to the shaped output. + // TODO: Don't ignore y_advance. + ctx.glyphs.push(ShapedGlyph { + font: font.clone(), + glyph_id: info.glyph_id as u16, + x_advance: font.to_em(pos[i].x_advance), + x_offset: font.to_em(pos[i].x_offset), + y_offset: font.to_em(pos[i].y_offset), + cluster: base + cluster, + safe_to_break: !info.unsafe_to_break(), + c: text[cluster ..].chars().next().unwrap(), + }); + } else { + // Determine the source text range for the tofu sequence. + let range = { + // First, search for the end of the tofu sequence. + let k = i; + while infos.get(i + 1).map_or(false, |info| info.glyph_id == 0) { + i += 1; + } + + // Then, determine the start and end text index. + // + // Examples: + // Everything is shown in visual order. Tofus are written as "_". + // We want to find out that the tofus span the text `2..6`. + // Note that the clusters are longer than 1 char. + // + // Left-to-right: + // Text: h a l i h a l l o + // Glyphs: A _ _ C E + // Clusters: 0 2 4 6 8 + // k=1 i=2 + // + // Right-to-left: + // Text: O L L A H I L A H + // Glyphs: E C _ _ A + // Clusters: 8 6 4 2 0 + // k=2 i=3 + let ltr = ctx.dir.is_positive(); + let first = if ltr { k } else { i }; + let start = infos[first].cluster as usize; + let last = if ltr { i.checked_add(1) } else { k.checked_sub(1) }; + let end = last + .and_then(|last| infos.get(last)) + .map_or(text.len(), |info| info.cluster as usize); + + start .. end + }; + + // Trim half-baked cluster. + let remove = base + range.start .. base + range.end; + while ctx.glyphs.last().map_or(false, |g| remove.contains(&g.cluster)) { + ctx.glyphs.pop(); + } + + // Recursively shape the tofu sequence with the next family. + shape_segment(ctx, base + range.start, &text[range], families.clone()); + } + + i += 1; + } + + ctx.used.pop(); +} + +/// Shape the text with tofus from the given font. +fn shape_tofus(ctx: &mut ShapingContext, base: usize, text: &str, font: Font) { + let x_advance = font.advance(0).unwrap_or_default(); + for (cluster, c) in text.char_indices() { + ctx.glyphs.push(ShapedGlyph { + font: font.clone(), + glyph_id: 0, + x_advance, + x_offset: Em::zero(), + y_offset: Em::zero(), + cluster: base + cluster, + safe_to_break: true, + c, + }); + } +} + +/// Apply tracking and spacing to the shaped glyphs. +fn track_and_space(ctx: &mut ShapingContext) { + let tracking = Em::from_length(ctx.styles.get(TextNode::TRACKING), ctx.size); + let spacing = ctx + .styles + .get(TextNode::SPACING) + .map(|abs| Em::from_length(abs, ctx.size)); + + let mut glyphs = ctx.glyphs.iter_mut().peekable(); + while let Some(glyph) = glyphs.next() { + // Make non-breaking space same width as normal space. + if glyph.c == '\u{00A0}' { + glyph.x_advance -= nbsp_delta(&glyph.font).unwrap_or_default(); + } + + if glyph.is_space() { + glyph.x_advance = spacing.relative_to(glyph.x_advance); + } + + if glyphs.peek().map_or(false, |next| glyph.cluster != next.cluster) { + glyph.x_advance += tracking; + } + } +} + +/// Difference between non-breaking and normal space. +fn nbsp_delta(font: &Font) -> Option<Em> { + let space = font.ttf().glyph_index(' ')?.0; + let nbsp = font.ttf().glyph_index('\u{00A0}')?.0; + Some(font.advance(nbsp)? - font.advance(space)?) +} + +/// Resolve the font variant with `BOLD` and `ITALIC` factored in. +pub fn variant(styles: StyleChain) -> FontVariant { + let mut variant = FontVariant::new( + styles.get(TextNode::STYLE), + styles.get(TextNode::WEIGHT), + styles.get(TextNode::STRETCH), + ); + + if styles.get(TextNode::BOLD) { + variant.weight = variant.weight.thicken(300); + } + + if styles.get(TextNode::ITALIC) { + variant.style = match variant.style { + FontStyle::Normal => FontStyle::Italic, + FontStyle::Italic => FontStyle::Normal, + FontStyle::Oblique => FontStyle::Normal, + } + } + + variant +} + +/// Resolve a prioritized iterator over the font families. +fn families(styles: StyleChain) -> impl Iterator<Item = &str> + Clone { + const FALLBACKS: &[&str] = &[ + "ibm plex sans", + "twitter color emoji", + "noto color emoji", + "apple color emoji", + "segoe ui emoji", + ]; + + let tail = if styles.get(TextNode::FALLBACK) { FALLBACKS } else { &[] }; + styles + .get(TextNode::FAMILY) + .0 + .iter() + .map(|family| family.as_str()) + .chain(tail.iter().copied()) +} + +/// Collect the tags of the OpenType features to apply. +fn tags(styles: StyleChain) -> Vec<Feature> { + let mut tags = vec![]; + let mut feat = |tag, value| { + tags.push(Feature::new(Tag::from_bytes(tag), value, ..)); + }; + + // Features that are on by default in Harfbuzz are only added if disabled. + if !styles.get(TextNode::KERNING) { + feat(b"kern", 0); + } + + // Features that are off by default in Harfbuzz are only added if enabled. + if styles.get(TextNode::SMALLCAPS) { + feat(b"smcp", 1); + } + + if styles.get(TextNode::ALTERNATES) { + feat(b"salt", 1); + } + + let storage; + if let Some(set) = styles.get(TextNode::STYLISTIC_SET) { + storage = [b's', b's', b'0' + set.get() / 10, b'0' + set.get() % 10]; + feat(&storage, 1); + } + + if !styles.get(TextNode::LIGATURES) { + feat(b"liga", 0); + feat(b"clig", 0); + } + + if styles.get(TextNode::DISCRETIONARY_LIGATURES) { + feat(b"dlig", 1); + } + + if styles.get(TextNode::HISTORICAL_LIGATURES) { + feat(b"hilg", 1); + } + + match styles.get(TextNode::NUMBER_TYPE) { + Smart::Auto => {} + Smart::Custom(NumberType::Lining) => feat(b"lnum", 1), + Smart::Custom(NumberType::OldStyle) => feat(b"onum", 1), + } + + match styles.get(TextNode::NUMBER_WIDTH) { + Smart::Auto => {} + Smart::Custom(NumberWidth::Proportional) => feat(b"pnum", 1), + Smart::Custom(NumberWidth::Tabular) => feat(b"tnum", 1), + } + + if styles.get(TextNode::SLASHED_ZERO) { + feat(b"zero", 1); + } + + if styles.get(TextNode::FRACTIONS) { + feat(b"frac", 1); + } + + for (tag, value) in styles.get(TextNode::FEATURES).0 { + tags.push(Feature::new(tag, value, ..)) + } + + tags +} + +/// Process the language and and region of a style chain into a +/// rustybuzz-compatible BCP 47 language. +fn language(styles: StyleChain) -> rustybuzz::Language { + let mut bcp: EcoString = styles.get(TextNode::LANG).as_str().into(); + if let Some(region) = styles.get(TextNode::REGION) { + bcp.push('-'); + bcp.push_str(region.as_str()); + } + rustybuzz::Language::from_str(&bcp).unwrap() +} diff --git a/library/src/text/shift.rs b/library/src/text/shift.rs new file mode 100644 index 00000000..e5f142dd --- /dev/null +++ b/library/src/text/shift.rs @@ -0,0 +1,188 @@ +use typst::model::SequenceNode; +use typst::util::EcoString; + +use super::{variant, SpaceNode, TextNode, TextSize}; +use crate::prelude::*; + +/// Sub or superscript text. +/// +/// The text is rendered smaller and its baseline is raised. To provide the best +/// typography possible, we first try to transform the text to superscript +/// codepoints. If that fails, we fall back to rendering shrunk normal letters +/// in a raised way. +#[derive(Debug, Hash)] +pub struct ShiftNode<const S: ScriptKind>(pub Content); + +/// Shift the text into superscript. +pub type SuperNode = ShiftNode<SUPERSCRIPT>; + +/// Shift the text into subscript. +pub type SubNode = ShiftNode<SUBSCRIPT>; + +#[node(Show)] +impl<const S: ScriptKind> ShiftNode<S> { + /// Whether to prefer the dedicated sub- and superscript characters of the + /// font. + pub const TYPOGRAPHIC: bool = true; + /// The baseline shift for synthetic sub- and superscripts. + pub const BASELINE: Length = + Em::new(if S == SUPERSCRIPT { -0.5 } else { 0.2 }).into(); + /// The font size for synthetic sub- and superscripts. + pub const SIZE: TextSize = TextSize(Em::new(0.6).into()); + + fn construct(_: &mut Vm, args: &mut Args) -> SourceResult<Content> { + Ok(Self(args.expect("body")?).pack()) + } +} + +impl<const S: ScriptKind> Show for ShiftNode<S> { + fn unguard_parts(&self, _: Selector) -> Content { + Self(self.0.clone()).pack() + } + + fn field(&self, name: &str) -> Option<Value> { + match name { + "body" => Some(Value::Content(self.0.clone())), + _ => None, + } + } + + fn realize( + &self, + world: Tracked<dyn World>, + styles: StyleChain, + ) -> SourceResult<Content> { + let mut transformed = None; + if styles.get(Self::TYPOGRAPHIC) { + if let Some(text) = search_text(&self.0, S) { + if is_shapable(world, &text, styles) { + transformed = Some(TextNode(text).pack()); + } + } + }; + + Ok(transformed.unwrap_or_else(|| { + let mut map = StyleMap::new(); + map.set(TextNode::BASELINE, styles.get(Self::BASELINE)); + map.set(TextNode::SIZE, styles.get(Self::SIZE)); + self.0.clone().styled_with_map(map) + })) + } +} + +/// Find and transform the text contained in `content` to the given script kind +/// if and only if it only consists of `Text`, `Space`, and `Empty` leaf nodes. +fn search_text(content: &Content, mode: ScriptKind) -> Option<EcoString> { + if content.is_empty() { + Some(EcoString::new()) + } else if content.is::<SpaceNode>() { + Some(' '.into()) + } else if let Some(text) = content.downcast::<TextNode>() { + if let Some(sup) = convert_script(&text.0, mode) { + return Some(sup); + } + None + } else if let Some(seq) = content.downcast::<SequenceNode>() { + let mut full = EcoString::new(); + for item in seq.0.iter() { + match search_text(item, mode) { + Some(text) => full.push_str(&text), + None => return None, + } + } + Some(full) + } else { + None + } +} + +/// Checks whether the first retrievable family contains all code points of the +/// given string. +fn is_shapable(world: Tracked<dyn World>, text: &str, styles: StyleChain) -> bool { + for family in styles.get(TextNode::FAMILY).0.iter() { + if let Some(font) = world + .book() + .select(family.as_str(), variant(styles)) + .and_then(|id| world.font(id)) + { + return text.chars().all(|c| font.ttf().glyph_index(c).is_some()); + } + } + + false +} + +/// Convert a string to sub- or superscript codepoints if all characters +/// can be mapped to such a codepoint. +fn convert_script(text: &str, mode: ScriptKind) -> Option<EcoString> { + let mut result = EcoString::with_capacity(text.len()); + let converter = match mode { + SUPERSCRIPT => to_superscript_codepoint, + SUBSCRIPT | _ => to_subscript_codepoint, + }; + + for c in text.chars() { + match converter(c) { + Some(c) => result.push(c), + None => return None, + } + } + + Some(result) +} + +/// Convert a character to its corresponding Unicode superscript. +fn to_superscript_codepoint(c: char) -> Option<char> { + char::from_u32(match c { + '0' => 0x2070, + '1' => 0x00B9, + '2' => 0x00B2, + '3' => 0x00B3, + '4' ..= '9' => 0x2070 + (c as u32 + 4 - '4' as u32), + '+' => 0x207A, + '-' => 0x207B, + '=' => 0x207C, + '(' => 0x207D, + ')' => 0x207E, + 'n' => 0x207F, + 'i' => 0x2071, + ' ' => 0x0020, + _ => return None, + }) +} + +/// Convert a character to its corresponding Unicode subscript. +fn to_subscript_codepoint(c: char) -> Option<char> { + char::from_u32(match c { + '0' => 0x2080, + '1' ..= '9' => 0x2080 + (c as u32 - '0' as u32), + '+' => 0x208A, + '-' => 0x208B, + '=' => 0x208C, + '(' => 0x208D, + ')' => 0x208E, + 'a' => 0x2090, + 'e' => 0x2091, + 'o' => 0x2092, + 'x' => 0x2093, + 'h' => 0x2095, + 'k' => 0x2096, + 'l' => 0x2097, + 'm' => 0x2098, + 'n' => 0x2099, + 'p' => 0x209A, + 's' => 0x209B, + 't' => 0x209C, + ' ' => 0x0020, + _ => return None, + }) +} + +/// A category of script. +pub type ScriptKind = usize; + +/// Text that is rendered smaller and raised, also known as superior. +const SUPERSCRIPT: ScriptKind = 0; + +/// Text that is rendered smaller and lowered, also known as inferior. +const SUBSCRIPT: ScriptKind = 1; diff --git a/library/src/utility/color.rs b/library/src/utility/color.rs new file mode 100644 index 00000000..8bb12334 --- /dev/null +++ b/library/src/utility/color.rs @@ -0,0 +1,66 @@ +use std::str::FromStr; + +use crate::prelude::*; + +/// Create a grayscale color. +pub fn luma(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Component(luma) = args.expect("gray component")?; + Ok(Value::Color(LumaColor::new(luma).into())) +} + +/// Create an RGB(A) color. +pub fn rgb(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + Ok(Value::Color( + if let Some(string) = args.find::<Spanned<EcoString>>()? { + match RgbaColor::from_str(&string.v) { + Ok(color) => color.into(), + Err(msg) => bail!(string.span, msg), + } + } else { + let Component(r) = args.expect("red component")?; + let Component(g) = args.expect("green component")?; + let Component(b) = args.expect("blue component")?; + let Component(a) = args.eat()?.unwrap_or(Component(255)); + RgbaColor::new(r, g, b, a).into() + }, + )) +} + +/// Create a CMYK color. +pub fn cmyk(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let RatioComponent(c) = args.expect("cyan component")?; + let RatioComponent(m) = args.expect("magenta component")?; + let RatioComponent(y) = args.expect("yellow component")?; + let RatioComponent(k) = args.expect("key component")?; + Ok(Value::Color(CmykColor::new(c, m, y, k).into())) +} + +/// An integer or ratio component. +struct Component(u8); + +castable! { + Component, + Expected: "integer or ratio", + Value::Int(v) => match v { + 0 ..= 255 => Self(v as u8), + _ => Err("must be between 0 and 255")?, + }, + Value::Ratio(v) => if (0.0 ..= 1.0).contains(&v.get()) { + Self((v.get() * 255.0).round() as u8) + } else { + Err("must be between 0% and 100%")? + }, +} + +/// A component that must be a ratio. +struct RatioComponent(u8); + +castable! { + RatioComponent, + Expected: "ratio", + Value::Ratio(v) => if (0.0 ..= 1.0).contains(&v.get()) { + Self((v.get() * 255.0).round() as u8) + } else { + Err("must be between 0% and 100%")? + }, +} diff --git a/library/src/utility/data.rs b/library/src/utility/data.rs new file mode 100644 index 00000000..3edade55 --- /dev/null +++ b/library/src/utility/data.rs @@ -0,0 +1,132 @@ +use std::fmt::Write; + +use typst::diag::format_xml_like_error; + +use crate::prelude::*; + +/// Read structured data from a CSV file. +pub fn csv(vm: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v: path, span } = + args.expect::<Spanned<EcoString>>("path to csv file")?; + + let path = vm.locate(&path).at(span)?; + let data = vm.world.file(&path).at(span)?; + + let mut builder = csv::ReaderBuilder::new(); + builder.has_headers(false); + + let mut reader = builder.from_reader(data.as_slice()); + let mut vec = vec![]; + + for result in reader.records() { + let row = result.map_err(format_csv_error).at(span)?; + let array = row.iter().map(|field| Value::Str(field.into())).collect(); + vec.push(Value::Array(array)) + } + + Ok(Value::Array(Array::from_vec(vec))) +} + +/// Format the user-facing CSV error message. +fn format_csv_error(error: csv::Error) -> String { + match error.kind() { + csv::ErrorKind::Utf8 { .. } => "file is not valid utf-8".into(), + csv::ErrorKind::UnequalLengths { pos, expected_len, len } => { + let mut msg = format!( + "failed to parse csv file: found {len} instead of {expected_len} fields" + ); + if let Some(pos) = pos { + write!(msg, " in line {}", pos.line()).unwrap(); + } + msg + } + _ => "failed to parse csv file".into(), + } +} + +/// Read structured data from a JSON file. +pub fn json(vm: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v: path, span } = + args.expect::<Spanned<EcoString>>("path to json file")?; + + let path = vm.locate(&path).at(span)?; + let data = vm.world.file(&path).at(span)?; + let value: serde_json::Value = + serde_json::from_slice(&data).map_err(format_json_error).at(span)?; + + Ok(convert_json(value)) +} + +/// Convert a JSON value to a Typst value. +fn convert_json(value: serde_json::Value) -> Value { + match value { + serde_json::Value::Null => Value::None, + serde_json::Value::Bool(v) => Value::Bool(v), + serde_json::Value::Number(v) => match v.as_i64() { + Some(int) => Value::Int(int), + None => Value::Float(v.as_f64().unwrap_or(f64::NAN)), + }, + serde_json::Value::String(v) => Value::Str(v.into()), + serde_json::Value::Array(v) => { + Value::Array(v.into_iter().map(convert_json).collect()) + } + serde_json::Value::Object(v) => Value::Dict( + v.into_iter() + .map(|(key, value)| (key.into(), convert_json(value))) + .collect(), + ), + } +} + +/// Format the user-facing JSON error message. +fn format_json_error(error: serde_json::Error) -> String { + assert!(error.is_syntax() || error.is_eof()); + format!( + "failed to parse json file: syntax error in line {}", + error.line() + ) +} + +/// Read structured data from an XML file. +pub fn xml(vm: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v: path, span } = + args.expect::<Spanned<EcoString>>("path to xml file")?; + + let path = vm.locate(&path).at(span)?; + let data = vm.world.file(&path).at(span)?; + let text = std::str::from_utf8(&data).map_err(FileError::from).at(span)?; + + let document = roxmltree::Document::parse(text).map_err(format_xml_error).at(span)?; + + Ok(convert_xml(document.root())) +} + +/// Convert an XML node to a Typst value. +fn convert_xml(node: roxmltree::Node) -> Value { + if node.is_text() { + return Value::Str(node.text().unwrap_or_default().into()); + } + + let children: Array = node.children().map(convert_xml).collect(); + if node.is_root() { + return Value::Array(children); + } + + let tag: Str = node.tag_name().name().into(); + let attrs: Dict = node + .attributes() + .iter() + .map(|attr| (attr.name().into(), attr.value().into())) + .collect(); + + Value::Dict(dict! { + "tag" => tag, + "attrs" => attrs, + "children" => children, + }) +} + +/// Format the user-facing XML error message. +fn format_xml_error(error: roxmltree::Error) -> String { + format_xml_like_error("xml file", error) +} diff --git a/library/src/utility/math.rs b/library/src/utility/math.rs new file mode 100644 index 00000000..dd37e8e7 --- /dev/null +++ b/library/src/utility/math.rs @@ -0,0 +1,144 @@ +use std::cmp::Ordering; + +use crate::prelude::*; + +/// Convert a value to an integer. +pub fn int(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v, span } = args.expect("value")?; + Ok(Value::Int(match v { + Value::Bool(v) => v as i64, + Value::Int(v) => v, + Value::Float(v) => v as i64, + Value::Str(v) => match v.parse() { + Ok(v) => v, + Err(_) => bail!(span, "invalid integer"), + }, + v => bail!(span, "cannot convert {} to integer", v.type_name()), + })) +} + +/// Convert a value to a float. +pub fn float(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v, span } = args.expect("value")?; + Ok(Value::Float(match v { + Value::Int(v) => v as f64, + Value::Float(v) => v, + Value::Str(v) => match v.parse() { + Ok(v) => v, + Err(_) => bail!(span, "invalid float"), + }, + v => bail!(span, "cannot convert {} to float", v.type_name()), + })) +} + +/// The absolute value of a numeric value. +pub fn abs(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v, span } = args.expect("numeric value")?; + Ok(match v { + Value::Int(v) => Value::Int(v.abs()), + Value::Float(v) => Value::Float(v.abs()), + Value::Angle(v) => Value::Angle(v.abs()), + Value::Ratio(v) => Value::Ratio(v.abs()), + Value::Fraction(v) => Value::Fraction(v.abs()), + Value::Length(_) | Value::Relative(_) => { + bail!(span, "cannot take absolute value of a length") + } + v => bail!(span, "expected numeric value, found {}", v.type_name()), + }) +} + +/// The minimum of a sequence of values. +pub fn min(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + minmax(args, Ordering::Less) +} + +/// The maximum of a sequence of values. +pub fn max(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + minmax(args, Ordering::Greater) +} + +/// Find the minimum or maximum of a sequence of values. +fn minmax(args: &mut Args, goal: Ordering) -> SourceResult<Value> { + let mut extremum = args.expect::<Value>("value")?; + for Spanned { v, span } in args.all::<Spanned<Value>>()? { + match v.partial_cmp(&extremum) { + Some(ordering) => { + if ordering == goal { + extremum = v; + } + } + None => bail!( + span, + "cannot compare {} and {}", + extremum.type_name(), + v.type_name(), + ), + } + } + Ok(extremum) +} + +/// Whether an integer is even. +pub fn even(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + Ok(Value::Bool(args.expect::<i64>("integer")? % 2 == 0)) +} + +/// Whether an integer is odd. +pub fn odd(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + Ok(Value::Bool(args.expect::<i64>("integer")? % 2 != 0)) +} + +/// The modulo of two numbers. +pub fn mod_(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v: v1, span: span1 } = args.expect("integer or float")?; + let Spanned { v: v2, span: span2 } = args.expect("integer or float")?; + + let (a, b) = match (v1, v2) { + (Value::Int(a), Value::Int(b)) => match a.checked_rem(b) { + Some(res) => return Ok(Value::Int(res)), + None => bail!(span2, "divisor must not be zero"), + }, + (Value::Int(a), Value::Float(b)) => (a as f64, b), + (Value::Float(a), Value::Int(b)) => (a, b as f64), + (Value::Float(a), Value::Float(b)) => (a, b), + (Value::Int(_), b) | (Value::Float(_), b) => bail!( + span2, + format!("expected integer or float, found {}", b.type_name()) + ), + (a, _) => bail!( + span1, + format!("expected integer or float, found {}", a.type_name()) + ), + }; + + if b == 0.0 { + bail!(span2, "divisor must not be zero"); + } + + Ok(Value::Float(a % b)) +} + +/// Create a sequence of numbers. +pub fn range(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let first = args.expect::<i64>("end")?; + let (start, end) = match args.eat::<i64>()? { + Some(second) => (first, second), + None => (0, first), + }; + + let step: i64 = match args.named("step")? { + Some(Spanned { v: 0, span }) => bail!(span, "step must not be zero"), + Some(Spanned { v, .. }) => v, + None => 1, + }; + + let mut x = start; + let mut seq = vec![]; + + while x.cmp(&end) == 0.cmp(&step) { + seq.push(Value::Int(x)); + x += step; + } + + Ok(Value::Array(Array::from_vec(seq))) +} diff --git a/library/src/utility/mod.rs b/library/src/utility/mod.rs new file mode 100644 index 00000000..402944cd --- /dev/null +++ b/library/src/utility/mod.rs @@ -0,0 +1,54 @@ +//! Computational utility functions. + +mod color; +mod data; +mod math; +mod string; + +pub use color::*; +pub use data::*; +pub use math::*; +pub use string::*; + +use comemo::Track; +use typst::model::{Eval, Route, Scopes, Vm}; +use typst::syntax::Source; + +use crate::prelude::*; + +/// The name of a value's type. +pub fn type_(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + Ok(args.expect::<Value>("value")?.type_name().into()) +} + +/// Ensure that a condition is fulfilled. +pub fn assert(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v, span } = args.expect::<Spanned<bool>>("condition")?; + if !v { + bail!(span, "assertion failed"); + } + Ok(Value::None) +} + +/// Evaluate a string as Typst markup. +pub fn eval(vm: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v: text, span } = args.expect::<Spanned<String>>("source")?; + + // Parse the source and set a synthetic span for all nodes. + let source = Source::synthesized(text, span); + let ast = source.ast()?; + + // Evaluate the source. + let std = &vm.world.config().scope; + let scopes = Scopes::new(Some(std)); + let route = Route::default(); + let mut sub = Vm::new(vm.world, route.track(), None, scopes); + let result = ast.eval(&mut sub); + + // Handle control flow. + if let Some(flow) = sub.flow { + bail!(flow.forbidden()); + } + + Ok(Value::Content(result?)) +} diff --git a/library/src/utility/string.rs b/library/src/utility/string.rs new file mode 100644 index 00000000..ed444d35 --- /dev/null +++ b/library/src/utility/string.rs @@ -0,0 +1,141 @@ +use typst::model::Regex; + +use crate::prelude::*; + +/// The string representation of a value. +pub fn repr(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + Ok(args.expect::<Value>("value")?.repr().into()) +} + +/// Convert a value to a string. +pub fn str(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v, span } = args.expect("value")?; + Ok(Value::Str(match v { + Value::Int(v) => format_str!("{}", v), + Value::Float(v) => format_str!("{}", v), + Value::Str(v) => v, + v => bail!(span, "cannot convert {} to string", v.type_name()), + })) +} + +/// Create blind text. +pub fn lorem(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let words: usize = args.expect("number of words")?; + Ok(Value::Str(lipsum::lipsum(words).into())) +} + +/// Create a regular expression. +pub fn regex(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + let Spanned { v, span } = args.expect::<Spanned<EcoString>>("regular expression")?; + Ok(Regex::new(&v).at(span)?.into()) +} + +/// Converts an integer into one or multiple letters. +pub fn letter(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + numbered(Numbering::Letter, args) +} + +/// Converts an integer into a roman numeral. +pub fn roman(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + numbered(Numbering::Roman, args) +} + +/// Convert a number into a symbol. +pub fn symbol(_: &mut Vm, args: &mut Args) -> SourceResult<Value> { + numbered(Numbering::Symbol, args) +} + +fn numbered(numbering: Numbering, args: &mut Args) -> SourceResult<Value> { + let n = args.expect::<usize>("non-negative integer")?; + Ok(Value::Str(numbering.apply(n).into())) +} + +/// Allows to convert a number into letters, roman numerals and symbols. +#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)] +pub enum Numbering { + Arabic, + Letter, + Roman, + Symbol, +} + +impl Numbering { + /// Apply the numbering to the given number. + pub fn apply(self, mut n: usize) -> EcoString { + match self { + Self::Arabic => { + format_eco!("{}", n) + } + Self::Letter => { + if n == 0 { + return '-'.into(); + } + + n -= 1; + + let mut letters = vec![]; + loop { + letters.push(b'a' + (n % 26) as u8); + n /= 26; + if n == 0 { + break; + } + } + + letters.reverse(); + String::from_utf8(letters).unwrap().into() + } + Self::Roman => { + if n == 0 { + return 'N'.into(); + } + + // Adapted from Yann Villessuzanne's roman.rs under the Unlicense, at + // https://github.com/linfir/roman.rs/ + let mut fmt = EcoString::new(); + for &(name, value) in ROMANS { + while n >= value { + n -= value; + fmt.push_str(name); + } + } + + fmt + } + Self::Symbol => { + if n == 0 { + return '-'.into(); + } + + let symbol = SYMBOLS[(n - 1) % SYMBOLS.len()]; + let amount = ((n - 1) / SYMBOLS.len()) + 1; + std::iter::repeat(symbol).take(amount).collect() + } + } + } +} + +const ROMANS: &[(&str, usize)] = &[ + ("M̅", 1000000), + ("D̅", 500000), + ("C̅", 100000), + ("L̅", 50000), + ("X̅", 10000), + ("V̅", 5000), + ("I̅V̅", 4000), + ("M", 1000), + ("CM", 900), + ("D", 500), + ("CD", 400), + ("C", 100), + ("XC", 90), + ("L", 50), + ("XL", 40), + ("X", 10), + ("IX", 9), + ("V", 5), + ("IV", 4), + ("I", 1), +]; + +const SYMBOLS: &[char] = &['*', '†', '‡', '§', '‖', '¶']; |