Split crates

1 files changed, 201 insertions, 0 deletions

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)
+}