mirror of
https://github.com/typst/typst
synced 2025-05-13 12:36:23 +08:00
338 lines
11 KiB
Rust
338 lines
11 KiB
Rust
use typst::model::StyledNode;
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use super::{AlignNode, BlockNode, ColbreakNode, ParNode, PlaceNode, Spacing, VNode};
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use crate::prelude::*;
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use crate::visualize::{CircleNode, EllipseNode, ImageNode, RectNode, SquareNode};
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/// Arrange spacing, paragraphs and block-level nodes into a flow.
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///
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/// This node is responsible for layouting both the top-level content flow and
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/// the contents of boxes.
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///
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/// Display: Flow
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/// Category: layout
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#[node(Layout)]
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pub struct FlowNode {
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/// The children that will be arranges into a flow.
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#[variadic]
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pub children: Vec<Content>,
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}
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impl Layout for FlowNode {
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fn layout(
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&self,
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vt: &mut Vt,
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styles: StyleChain,
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regions: Regions,
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) -> SourceResult<Fragment> {
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let mut layouter = FlowLayouter::new(regions);
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for mut child in self.children() {
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let map;
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let outer = styles;
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let mut styles = outer;
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if let Some(node) = child.to::<StyledNode>() {
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map = node.styles();
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styles = outer.chain(&map);
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child = node.body();
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}
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if let Some(node) = child.to::<VNode>() {
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layouter.layout_spacing(node, styles);
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} else if let Some(node) = child.to::<ParNode>() {
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layouter.layout_par(vt, node, styles)?;
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} else if child.is::<RectNode>()
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|| child.is::<SquareNode>()
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|| child.is::<EllipseNode>()
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|| child.is::<CircleNode>()
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|| child.is::<ImageNode>()
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{
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let layoutable = child.with::<dyn Layout>().unwrap();
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layouter.layout_single(vt, layoutable, styles)?;
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} else if child.is::<MetaNode>() {
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let mut frame = Frame::new(Size::zero());
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frame.meta(styles, true);
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layouter.items.push(FlowItem::Frame(
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frame,
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Axes::new(Align::Top, Align::Left),
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true,
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));
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} else if child.can::<dyn Layout>() {
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layouter.layout_multiple(vt, &child, styles)?;
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} else if child.is::<ColbreakNode>() {
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if !layouter.regions.backlog.is_empty() || layouter.regions.last.is_some()
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{
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layouter.finish_region();
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}
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} else {
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bail!(child.span(), "unexpected flow child");
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}
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}
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Ok(layouter.finish())
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}
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}
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/// Performs flow layout.
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struct FlowLayouter<'a> {
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/// The regions to layout children into.
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regions: Regions<'a>,
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/// Whether the flow should expand to fill the region.
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expand: Axes<bool>,
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/// The intial size of `regions.size` that was available before we started
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/// subtracting.
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initial: Size,
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/// Whether the last block was a paragraph.
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last_was_par: bool,
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/// Spacing and layouted blocks.
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items: Vec<FlowItem>,
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/// Finished frames for previous regions.
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finished: Vec<Frame>,
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}
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/// A prepared item in a flow layout.
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#[derive(Debug)]
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enum FlowItem {
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/// Spacing between other items and whether it is weak.
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Absolute(Abs, bool),
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/// Fractional spacing between other items.
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Fractional(Fr),
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/// A frame for a layouted block, how to align it, and whether it is sticky.
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Frame(Frame, Axes<Align>, bool),
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/// An absolutely placed frame.
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Placed(Frame),
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}
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impl<'a> FlowLayouter<'a> {
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/// Create a new flow layouter.
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fn new(mut regions: Regions<'a>) -> Self {
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let expand = regions.expand;
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// Disable vertical expansion for children.
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regions.expand.y = false;
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Self {
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regions,
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expand,
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initial: regions.size,
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last_was_par: false,
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items: vec![],
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finished: vec![],
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}
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}
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/// Layout vertical spacing.
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fn layout_spacing(&mut self, node: &VNode, styles: StyleChain) {
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self.layout_item(match node.amount() {
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Spacing::Rel(v) => FlowItem::Absolute(
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v.resolve(styles).relative_to(self.initial.y),
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node.weakness(styles) > 0,
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),
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Spacing::Fr(v) => FlowItem::Fractional(v),
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});
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}
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/// Layout a paragraph.
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fn layout_par(
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&mut self,
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vt: &mut Vt,
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par: &ParNode,
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styles: StyleChain,
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) -> SourceResult<()> {
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let aligns = AlignNode::alignment_in(styles).resolve(styles);
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let leading = ParNode::leading_in(styles);
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let consecutive = self.last_was_par;
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let frames = par
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.layout(vt, styles, consecutive, self.regions.base(), self.regions.expand.x)?
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.into_frames();
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let mut sticky = self.items.len();
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for (i, item) in self.items.iter().enumerate().rev() {
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match *item {
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FlowItem::Absolute(_, _) => {}
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FlowItem::Frame(.., true) => sticky = i,
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_ => break,
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}
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}
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if let [first, ..] = frames.as_slice() {
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if !self.regions.size.y.fits(first.height()) && !self.regions.in_last() {
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let carry: Vec<_> = self.items.drain(sticky..).collect();
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self.finish_region();
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for item in carry {
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self.layout_item(item);
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}
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}
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}
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for (i, frame) in frames.into_iter().enumerate() {
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if i > 0 {
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self.layout_item(FlowItem::Absolute(leading, true));
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}
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self.layout_item(FlowItem::Frame(frame, aligns, false));
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}
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self.last_was_par = true;
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Ok(())
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}
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/// Layout into a single region.
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fn layout_single(
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&mut self,
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vt: &mut Vt,
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content: &dyn Layout,
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styles: StyleChain,
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) -> SourceResult<()> {
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let aligns = AlignNode::alignment_in(styles).resolve(styles);
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let sticky = BlockNode::sticky_in(styles);
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let pod = Regions::one(self.regions.base(), Axes::splat(false));
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let frame = content.layout(vt, styles, pod)?.into_frame();
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self.layout_item(FlowItem::Frame(frame, aligns, sticky));
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self.last_was_par = false;
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Ok(())
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}
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/// Layout into multiple regions.
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fn layout_multiple(
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&mut self,
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vt: &mut Vt,
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block: &Content,
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styles: StyleChain,
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) -> SourceResult<()> {
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// Placed nodes that are out of flow produce placed items which aren't
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// aligned later.
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if let Some(placed) = block.to::<PlaceNode>() {
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if placed.out_of_flow(styles) {
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let frame = block.layout(vt, styles, self.regions)?.into_frame();
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self.layout_item(FlowItem::Placed(frame));
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return Ok(());
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}
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}
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// How to align the block.
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let aligns = if let Some(align) = block.to::<AlignNode>() {
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align.alignment(styles)
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} else if let Some(styled) = block.to::<StyledNode>() {
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AlignNode::alignment_in(styles.chain(&styled.styles()))
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} else {
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AlignNode::alignment_in(styles)
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}
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.resolve(styles);
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// Layout the block itself.
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let sticky = BlockNode::sticky_in(styles);
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let fragment = block.layout(vt, styles, self.regions)?;
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for (i, frame) in fragment.into_iter().enumerate() {
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if i > 0 {
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self.finish_region();
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}
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self.layout_item(FlowItem::Frame(frame, aligns, sticky));
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}
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self.last_was_par = false;
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Ok(())
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}
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/// Layout a finished frame.
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fn layout_item(&mut self, item: FlowItem) {
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match item {
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FlowItem::Absolute(v, _) => self.regions.size.y -= v,
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FlowItem::Fractional(_) => {}
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FlowItem::Frame(ref frame, ..) => {
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let size = frame.size();
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if !self.regions.size.y.fits(size.y) && !self.regions.in_last() {
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self.finish_region();
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}
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self.regions.size.y -= size.y;
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}
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FlowItem::Placed(_) => {}
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}
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self.items.push(item);
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}
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/// Finish the frame for one region.
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fn finish_region(&mut self) {
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// Trim weak spacing.
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while self
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.items
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.last()
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.map_or(false, |item| matches!(item, FlowItem::Absolute(_, true)))
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{
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self.items.pop();
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}
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// Determine the used size.
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let mut fr = Fr::zero();
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let mut used = Size::zero();
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for item in &self.items {
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match item {
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FlowItem::Absolute(v, _) => used.y += *v,
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FlowItem::Fractional(v) => fr += *v,
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FlowItem::Frame(frame, ..) => {
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let size = frame.size();
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used.y += size.y;
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used.x.set_max(size.x);
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}
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FlowItem::Placed(_) => {}
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}
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}
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// Determine the size of the flow in this region depending on whether
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// the region expands. Also account for fractional spacing.
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let mut size = self.expand.select(self.initial, used).min(self.initial);
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if fr.get() > 0.0 && self.initial.y.is_finite() {
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size.y = self.initial.y;
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}
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let mut output = Frame::new(size);
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let mut offset = Abs::zero();
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let mut ruler = Align::Top;
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// Place all frames.
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for item in self.items.drain(..) {
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match item {
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FlowItem::Absolute(v, _) => {
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offset += v;
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}
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FlowItem::Fractional(v) => {
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let remaining = self.initial.y - used.y;
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offset += v.share(fr, remaining);
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}
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FlowItem::Frame(frame, aligns, _) => {
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ruler = ruler.max(aligns.y);
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let x = aligns.x.position(size.x - frame.width());
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let y = offset + ruler.position(size.y - used.y);
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let pos = Point::new(x, y);
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offset += frame.height();
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output.push_frame(pos, frame);
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}
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FlowItem::Placed(frame) => {
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output.push_frame(Point::zero(), frame);
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}
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}
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}
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// Advance to the next region.
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self.finished.push(output);
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self.regions.next();
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self.initial = self.regions.size;
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}
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/// Finish layouting and return the resulting fragment.
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fn finish(mut self) -> Fragment {
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if self.expand.y {
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while !self.regions.backlog.is_empty() {
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self.finish_region();
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}
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}
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self.finish_region();
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Fragment::frames(self.finished)
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}
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}
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