use smallvec::smallvec; use super::*; /// Layout a syntax tree into a multibox. pub fn layout_tree(tree: &SyntaxTree, ctx: LayoutContext) -> LayoutResult { let mut layouter = TreeLayouter::new(ctx); layouter.layout(tree)?; layouter.finish() } #[derive(Debug, Clone)] struct TreeLayouter<'a, 'p> { ctx: LayoutContext<'a, 'p>, flex: FlexLayouter, style: LayoutStyle, } impl<'a, 'p> TreeLayouter<'a, 'p> { /// Create a new syntax tree layouter. fn new(ctx: LayoutContext<'a, 'p>) -> TreeLayouter<'a, 'p> { TreeLayouter { flex: FlexLayouter::new(FlexContext { spaces: ctx.spaces.clone(), axes: ctx.axes, alignment: ctx.alignment, flex_spacing: flex_spacing(&ctx.style.text), }), style: ctx.style.clone(), ctx, } } fn layout(&mut self, tree: &SyntaxTree) -> LayoutResult<()> { for node in &tree.nodes { match &node.v { Node::Text(text) => self.layout_text(text)?, Node::Space => self.layout_space(), Node::Newline => self.layout_paragraph()?, Node::ToggleItalics => self.style.text.toggle_class(FontClass::Italic), Node::ToggleBold => self.style.text.toggle_class(FontClass::Bold), Node::ToggleMonospace => self.style.text.toggle_class(FontClass::Monospace), Node::Func(func) => self.layout_func(func)?, } } Ok(()) } fn layout_text(&mut self, text: &str) -> LayoutResult<()> { let layout = layout_text(text, TextContext { loader: &self.ctx.loader, style: &self.style.text, alignment: self.ctx.alignment, })?; Ok(self.flex.add(layout)) } fn layout_space(&mut self) { self.flex.add_primary_space( word_spacing(&self.style.text), SPACE_KIND, ); } fn layout_paragraph(&mut self) -> LayoutResult<()> { self.flex.add_secondary_space( paragraph_spacing(&self.style.text), PARAGRAPH_KIND, ) } fn layout_func(&mut self, func: &FuncCall) -> LayoutResult<()> { let spaces = self.flex.remaining(); let commands = func.0.layout(LayoutContext { loader: self.ctx.loader, style: &self.style, top_level: false, spaces, .. self.ctx })?; for command in commands { self.execute(command)?; } Ok(()) } fn execute(&mut self, command: Command) -> LayoutResult<()> { use Command::*; match command { LayoutTree(tree) => self.layout(tree)?, Add(layout) => self.flex.add(layout), AddMultiple(layouts) => self.flex.add_multiple(layouts), AddSpacing(space, kind, axis) => match axis { GenericAxisKind::Primary => self.flex.add_primary_space(space, kind), GenericAxisKind::Secondary => self.flex.add_secondary_space(space, kind)?, } FinishLine => self.flex.add_break(), FinishRun => { self.flex.finish_run()?; }, FinishSpace => self.flex.finish_space(true)?, BreakParagraph => self.layout_paragraph()?, SetTextStyle(style) => self.style.text = style, SetPageStyle(style) => { if !self.ctx.top_level { error!("the page style cannot only be altered from a top-level context"); } self.style.page = style; self.flex.set_spaces(smallvec![ LayoutSpace { dimensions: style.dimensions, padding: style.margins, expand: (true, true), } ], true); } SetAlignment(alignment) => self.ctx.alignment = alignment, SetAxes(axes) => { self.flex.set_axes(axes); self.ctx.axes = axes; } } Ok(()) } fn finish(self) -> LayoutResult { self.flex.finish() } } fn word_spacing(style: &TextStyle) -> Size { style.word_spacing * style.font_size } fn flex_spacing(style: &TextStyle) -> Size { (style.line_spacing - 1.0) * style.font_size } fn paragraph_spacing(style: &TextStyle) -> Size { (style.paragraph_spacing - 1.0) * style.font_size }