mod common {
pub mod image;
pub mod text;
}
use common::image::{image_measure_function, ImageContext};
use common::text::{text_measure_function, FontMetrics, TextContext, WritingMode, LOREM_IPSUM};
use taffy::tree::Cache;
use taffy::util::print_tree;
use taffy::{
compute_cached_layout, compute_flexbox_layout, compute_grid_layout, compute_leaf_layout, compute_root_layout,
prelude::*, round_layout,
};
#[derive(Debug, Copy, Clone)]
#[allow(dead_code)]
enum NodeKind {
Flexbox,
Grid,
Text,
Image,
}
struct Node {
kind: NodeKind,
style: Style,
text_data: Option<TextContext>,
image_data: Option<ImageContext>,
cache: Cache,
unrounded_layout: Layout,
final_layout: Layout,
children: Vec<Node>,
}
impl Default for Node {
fn default() -> Self {
Node {
kind: NodeKind::Flexbox,
style: Style::default(),
text_data: None,
image_data: None,
cache: Cache::new(),
unrounded_layout: Layout::with_order(0),
final_layout: Layout::with_order(0),
children: Vec::new(),
}
}
}
#[allow(dead_code)]
impl Node {
pub fn new_row(style: Style) -> Node {
Node {
kind: NodeKind::Flexbox,
style: Style { display: Display::Flex, flex_direction: FlexDirection::Row, ..style },
..Node::default()
}
}
pub fn new_column(style: Style) -> Node {
Node {
kind: NodeKind::Flexbox,
style: Style { display: Display::Flex, flex_direction: FlexDirection::Column, ..style },
..Node::default()
}
}
pub fn new_grid(style: Style) -> Node {
Node { kind: NodeKind::Grid, style: Style { display: Display::Grid, ..style }, ..Node::default() }
}
pub fn new_text(style: Style, text_data: TextContext) -> Node {
Node { kind: NodeKind::Text, style, text_data: Some(text_data), ..Node::default() }
}
pub fn new_image(style: Style, image_data: ImageContext) -> Node {
Node { kind: NodeKind::Image, style, image_data: Some(image_data), ..Node::default() }
}
pub fn append_child(&mut self, node: Node) {
self.children.push(node);
}
unsafe fn as_id(&self) -> NodeId {
NodeId::from(self as *const Node as usize)
}
pub fn compute_layout(&mut self, available_space: Size<AvailableSpace>, use_rounding: bool) {
let root_node_id = unsafe { self.as_id() };
compute_root_layout(&mut StatelessLayoutTree, root_node_id, available_space);
if use_rounding {
round_layout(&mut StatelessLayoutTree, root_node_id)
}
}
pub fn print_tree(&mut self) {
print_tree(&mut StatelessLayoutTree, unsafe { self.as_id() });
}
}
struct ChildIter<'a>(std::slice::Iter<'a, Node>);
impl<'a> Iterator for ChildIter<'a> {
type Item = NodeId;
fn next(&mut self) -> Option<Self::Item> {
self.0.next().map(|c| NodeId::from(c as *const Node as usize))
}
}
#[inline(always)]
unsafe fn node_from_id<'a>(node_id: NodeId) -> &'a Node {
&*(usize::from(node_id) as *const Node)
}
#[inline(always)]
unsafe fn node_from_id_mut<'a>(node_id: NodeId) -> &'a mut Node {
&mut *(usize::from(node_id) as *mut Node)
}
struct StatelessLayoutTree;
impl TraversePartialTree for StatelessLayoutTree {
type ChildIter<'a> = ChildIter<'a>;
fn child_ids(&self, node_id: NodeId) -> Self::ChildIter<'_> {
unsafe { ChildIter(node_from_id(node_id).children.iter()) }
}
fn child_count(&self, node_id: NodeId) -> usize {
unsafe { node_from_id(node_id).children.len() }
}
fn get_child_id(&self, node_id: NodeId, index: usize) -> NodeId {
unsafe { node_from_id(node_id).children[index].as_id() }
}
}
impl TraverseTree for StatelessLayoutTree {}
impl LayoutPartialTree for StatelessLayoutTree {
fn get_style(&self, node_id: NodeId) -> &Style {
unsafe { &node_from_id(node_id).style }
}
fn set_unrounded_layout(&mut self, node_id: NodeId, layout: &Layout) {
unsafe { node_from_id_mut(node_id).unrounded_layout = *layout };
}
fn get_cache_mut(&mut self, node_id: NodeId) -> &mut Cache {
unsafe { &mut node_from_id_mut(node_id).cache }
}
fn compute_child_layout(&mut self, node_id: NodeId, inputs: taffy::tree::LayoutInput) -> taffy::tree::LayoutOutput {
compute_cached_layout(self, node_id, inputs, |tree, node_id, inputs| {
let node = unsafe { node_from_id_mut(node_id) };
let font_metrics = FontMetrics { char_width: 10.0, char_height: 10.0 };
match node.kind {
NodeKind::Flexbox => compute_flexbox_layout(tree, node_id, inputs),
NodeKind::Grid => compute_grid_layout(tree, node_id, inputs),
NodeKind::Text => compute_leaf_layout(inputs, &node.style, |known_dimensions, available_space| {
text_measure_function(
known_dimensions,
available_space,
node.text_data.as_ref().unwrap(),
&font_metrics,
)
}),
NodeKind::Image => compute_leaf_layout(inputs, &node.style, |known_dimensions, _available_space| {
image_measure_function(known_dimensions, node.image_data.as_ref().unwrap())
}),
}
})
}
}
impl RoundTree for StatelessLayoutTree {
fn get_unrounded_layout(&self, node_id: NodeId) -> &Layout {
unsafe { &node_from_id_mut(node_id).unrounded_layout }
}
fn set_final_layout(&mut self, node_id: NodeId, layout: &Layout) {
unsafe { node_from_id_mut(node_id).final_layout = *layout }
}
}
impl PrintTree for StatelessLayoutTree {
fn get_debug_label(&self, node_id: NodeId) -> &'static str {
match unsafe { node_from_id(node_id).kind } {
NodeKind::Flexbox => "FLEX",
NodeKind::Grid => "GRID",
NodeKind::Text => "TEXT",
NodeKind::Image => "IMAGE",
}
}
fn get_final_layout(&self, node_id: NodeId) -> &Layout {
unsafe { &node_from_id(node_id).final_layout }
}
}
fn main() -> Result<(), taffy::TaffyError> {
let mut root = Node::new_column(Style::DEFAULT);
let text_node = Node::new_text(
Style::default(),
TextContext { text_content: LOREM_IPSUM.into(), writing_mode: WritingMode::Horizontal },
);
root.append_child(text_node);
let image_node = Node::new_image(Style::default(), ImageContext { width: 400.0, height: 300.0 });
root.append_child(image_node);
root.compute_layout(Size::MAX_CONTENT, true);
root.print_tree();
Ok(())
}