Newer
Older
use std::sync::{Arc, RwLock};
use bevy::{
ecs::{event::ManualEventReader, system::CommandQueue},
prelude::*,
utils::HashMap,
};
use morphorm::Hierarchy;
use crate::{
calculate_nodes::calculate_nodes,
children::KChildren,
clone_component::{clone_state, clone_system, EntityCloneSystems, PreviousWidget},
context_entities::ContextEntities,
event_dispatcher::EventDispatcher,
focus_tree::FocusTree,
layout::{LayoutCache, Rect},
layout_dispatcher::LayoutEventDispatcher,
node::{DirtyNode, WrappedIndex},
prelude::WidgetContext,
render_primitive::RenderPrimitive,
Focusable, WindowSize,
};
/// A tag component representing when a widget has been mounted(added to the tree).
#[derive(Component)]
pub struct Mounted;
const UPDATE_DEPTH: u32 = 0;
type WidgetSystems = HashMap<
String,
(
Box<dyn System<In = (WidgetContext, Entity, Entity), Out = bool>>,
Box<dyn System<In = (WidgetContext, Entity), Out = bool>>,
),
>;
#[derive(Resource)]
pub struct Context {
pub tree: Arc<RwLock<Tree>>,
pub(crate) layout_cache: Arc<RwLock<LayoutCache>>,
pub(crate) focus_tree: Arc<RwLock<FocusTree>>,
pub(crate) current_z: f32,
pub(crate) context_entities: ContextEntities,
pub(crate) current_cursor: CursorIcon,
pub(crate) clone_systems: Arc<RwLock<EntityCloneSystems>>,
pub(crate) cloned_widget_entities: Arc<RwLock<HashMap<Entity, Entity>>>,
pub(crate) widget_state: WidgetState,
}
impl Context {
pub fn new() -> Self {
Self {
tree: Arc::new(RwLock::new(Tree::default())),
layout_cache: Arc::new(RwLock::new(LayoutCache::default())),
focus_tree: Default::default(),
systems: HashMap::default(),
current_z: 0.0,
context_entities: ContextEntities::new(),
current_cursor: CursorIcon::Default,
clone_systems: Default::default(),
cloned_widget_entities: Default::default(),
widget_state: Default::default(),
}
}
pub(crate) fn get_layout(&self, id: &WrappedIndex) -> Option<Rect> {
if let Ok(cache) = self.layout_cache.try_read() {
cache.rect.get(id).cloned()
} else {
None
}
}
pub fn add_widget_system<Params, Params2>(
update: impl IntoSystem<(WidgetContext, Entity, Entity), bool, Params>,
render: impl IntoSystem<(WidgetContext, Entity), bool, Params2>,
let update_system = Box::new(IntoSystem::into_system(update));
let render_system = Box::new(IntoSystem::into_system(render));
self.systems
.insert(type_name.into(), (update_system, render_system));
}
pub fn add_widget_data<
Props: Component + Clone + PartialEq,
State: Component + Clone + PartialEq,
>(
&mut self,
) {
if let Ok(mut clone_systems) = self.clone_systems.try_write() {
clone_systems
.0
.push((clone_system::<Props>, clone_state::<State>));
}
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
}
pub fn add_widget(&mut self, parent: Option<Entity>, entity: Entity) {
if let Ok(mut tree) = self.tree.write() {
tree.add(
WrappedIndex(entity),
parent.and_then(|p| Some(WrappedIndex(p))),
);
if let Ok(mut cache) = self.layout_cache.try_write() {
cache.add(WrappedIndex(entity));
}
}
}
/// Creates a new context using the context entity for the given type_id + parent id.
pub fn set_context_entity<T: Default + 'static>(
&self,
parent_id: Option<Entity>,
context_entity: Entity,
) {
if let Some(parent_id) = parent_id {
self.context_entities
.add_context_entity::<T>(parent_id, context_entity);
}
}
pub fn get_child_at(&self, entity: Option<Entity>) -> Option<Entity> {
if let Ok(tree) = self.tree.try_read() {
if let Some(entity) = entity {
let children = tree.child_iter(WrappedIndex(entity)).collect::<Vec<_>>();
return children.get(0).cloned().map(|index| index.0);
}
}
None
}
pub fn build_render_primitives(
&self,
nodes: &Query<&crate::node::Node>,
widget_names: &Query<&WidgetName>,
) -> Vec<RenderPrimitive> {
let node_tree = self.tree.try_read();
if node_tree.is_err() {
return vec![];
}
let node_tree = node_tree.unwrap();
if node_tree.root_node.is_none() {
return vec![];
}
// self.node_tree.dump();
recurse_node_tree_to_build_primitives(
&*node_tree,
&self.layout_cache,
nodes,
node_tree.root_node.unwrap(),
0.0,
RenderPrimitive::Empty,
)
}
}
fn recurse_node_tree_to_build_primitives(
node_tree: &Tree,
layout_cache: &Arc<RwLock<LayoutCache>>,
nodes: &Query<&crate::node::Node>,
widget_names: &Query<&WidgetName>,
current_node: WrappedIndex,
mut main_z_index: f32,
mut prev_clip: RenderPrimitive,
) -> Vec<RenderPrimitive> {
let mut render_primitives = Vec::new();
if let Ok(node) = nodes.get(current_node.0) {
if let Ok(cache) = layout_cache.try_read() {
if let Some(layout) = cache.rect.get(¤t_node) {
let mut render_primitive = node.primitive.clone();
let mut layout = *layout;
let new_z_index = if matches!(render_primitive, RenderPrimitive::Clip { .. }) {
main_z_index - 0.1
} else {
main_z_index
};
layout.z_index = new_z_index;
render_primitive.set_layout(layout);
if matches!(render_primitive, RenderPrimitive::Empty) {
log::trace!(
"No render primitive for node: {}-{}",
widget_names.get(current_node.0).unwrap().0,
current_node.0.id(),
);
}
render_primitives.push(render_primitive.clone());
let new_prev_clip = if matches!(render_primitive, RenderPrimitive::Clip { .. }) {
render_primitive.clone()
} else {
prev_clip
};
prev_clip = new_prev_clip.clone();
if node_tree.children.contains_key(¤t_node) {
for child in node_tree.children.get(¤t_node).unwrap() {
main_z_index += 1.0;
render_primitives.extend(recurse_node_tree_to_build_primitives(
node_tree,
layout_cache,
nodes,
*child,
main_z_index,
new_prev_clip.clone(),
));
main_z_index = layout.z_index;
// Between each child node we need to reset the clip.
if matches!(prev_clip, RenderPrimitive::Clip { .. }) {
// main_z_index = new_z_index;
match &mut prev_clip {
RenderPrimitive::Clip { layout } => {
layout.z_index = main_z_index + 0.1;
}
_ => {}
};
render_primitives.push(prev_clip.clone());
}
}
} else {
log::trace!(
"No children for node: {}-{}",
widget_names.get(current_node.0).unwrap().0,
current_node.0.id()
);
log::warn!(
"No layout for node: {}-{}",
widget_names.get(current_node.0).unwrap().0,
current_node.0.id()
);
log::error!(
"No render node: {}-{} > {}-{}",
node_tree
.get_parent(current_node)
.and_then(|v| Some(v.0.id() as i32))
.unwrap_or(-1),
widget_names
.get(
node_tree
.get_parent(current_node)
.and_then(|v| Some(v.0))
.unwrap_or(Entity::from_raw(0))
)
.and_then(|v| Ok(v.0.clone()))
.unwrap_or("None".into()),
widget_names.get(current_node.0).unwrap().0,
current_node.0.id()
);
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
}
render_primitives
}
fn update_widgets_sys(world: &mut World) {
let mut context = world.remove_resource::<Context>().unwrap();
let tree_iterator = if let Ok(tree) = context.tree.read() {
tree.down_iter().collect::<Vec<_>>()
} else {
panic!("Failed to acquire read lock.");
};
// let change_tick = world.increment_change_tick();
let old_focus = if let Ok(mut focus_tree) = context.focus_tree.try_write() {
let current = focus_tree.current();
focus_tree.clear();
if let Ok(tree) = context.tree.read() {
focus_tree.add(tree.root_node.unwrap(), &tree);
}
current
} else {
None
};
let mut new_ticks = HashMap::new();
// dbg!("Updating widgets!");
update_widgets(
world,
&context.tree,
&context.layout_cache,
&mut context.systems,
tree_iterator,
&context.context_entities,
&context.focus_tree,
&context.clone_systems,
&context.cloned_widget_entities,
&context.widget_state,
&mut new_ticks,
);
if let Some(old_focus) = old_focus {
if let Ok(mut focus_tree) = context.focus_tree.try_write() {
if focus_tree.contains(old_focus) {
focus_tree.focus(old_focus);
}
}
}
// dbg!("Finished updating widgets!");
let tick = world.read_change_tick();
for (key, system) in context.systems.iter_mut() {
if let Some(new_tick) = new_ticks.get(key) {
system.0.set_last_change_tick(*new_tick);
system.1.set_last_change_tick(*new_tick);
system.0.set_last_change_tick(tick);
system.1.set_last_change_tick(tick);
}
// system.apply_buffers(world);
}
// if let Ok(tree) = context.tree.try_read() {
// tree.dump();
// }
world.insert_resource(context);
}
fn update_widgets(
world: &mut World,
tree: &Arc<RwLock<Tree>>,
layout_cache: &Arc<RwLock<LayoutCache>>,
systems: &mut WidgetSystems,
widgets: Vec<WrappedIndex>,
context_entities: &ContextEntities,
focus_tree: &Arc<RwLock<FocusTree>>,
clone_systems: &Arc<RwLock<EntityCloneSystems>>,
cloned_widget_entities: &Arc<RwLock<HashMap<Entity, Entity>>>,
widget_state: &WidgetState,
new_ticks: &mut HashMap<String, u32>,
) {
for entity in widgets.iter() {
if let Some(entity_ref) = world.get_entity(entity.0) {
if let Some(widget_type) = entity_ref.get::<WidgetName>() {
let widget_context = WidgetContext::new(
tree.clone(),
context_entities.clone(),
layout_cache.clone(),
);
widget_context.copy_from_point(&tree, *entity);
let children_before = widget_context.get_children(entity.0);
let (widget_context, should_update_children) = update_widget(
systems,
tree,
world,
*entity,
widget_type.0.clone(),
widget_context,
children_before,
clone_systems,
cloned_widget_entities,
widget_state,
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
new_ticks,
);
if should_update_children {
if let Ok(mut tree) = tree.write() {
let diff = tree.diff_children(&widget_context, *entity, UPDATE_DEPTH);
for (_index, child, _parent, changes) in diff.changes.iter() {
for change in changes.iter() {
if matches!(change, Change::Inserted) {
if let Ok(mut cache) = layout_cache.try_write() {
cache.add(*child);
}
}
}
}
// dbg!("Dumping widget tree:");
// widget_context.dump_at(*entity);
// dbg!(entity.0, &diff);
tree.merge(&widget_context, *entity, diff, UPDATE_DEPTH);
// dbg!(tree.dump_at(*entity));
}
}
// if should_update_children {
let children = widget_context.child_iter(*entity).collect::<Vec<_>>();
update_widgets(
world,
tree,
layout_cache,
systems,
children,
context_entities,
focus_tree,
clone_systems,
cloned_widget_entities,
widget_state,
new_ticks,
);
// }
}
}
if let Some(entity_ref) = world.get_entity(entity.0) {
if entity_ref.contains::<Focusable>() {
if let Ok(tree) = tree.try_read() {
if let Ok(mut focus_tree) = focus_tree.try_write() {
focus_tree.add(*entity, &tree);
}
}
}
}
}
}
fn update_widget(
systems: &mut WidgetSystems,
tree: &Arc<RwLock<Tree>>,
world: &mut World,
entity: WrappedIndex,
widget_type: String,
widget_context: WidgetContext,
previous_children: Vec<Entity>,
clone_systems: &Arc<RwLock<EntityCloneSystems>>,
cloned_widget_entities: &Arc<RwLock<HashMap<Entity, Entity>>>,
widget_state: &WidgetState,
new_ticks: &mut HashMap<String, u32>,
) -> (Tree, bool) {
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
// Check if we should update this widget
let should_rerender = {
let old_props_entity =
if let Ok(mut cloned_widget_entities) = cloned_widget_entities.try_write() {
if let Some(entity) = cloned_widget_entities.get(&entity.0) {
*entity
} else {
let target = world.spawn_empty().insert(PreviousWidget).id();
cloned_widget_entities.insert(entity.0, target);
target
}
} else {
panic!("Couldn't get write lock!")
};
let widget_update_system = &mut systems.get_mut(&widget_type).unwrap().0;
let old_tick = widget_update_system.get_last_change_tick();
let should_rerender =
widget_update_system.run((widget_context.clone(), entity.0, old_props_entity), world);
let new_tick = widget_update_system.get_last_change_tick();
new_ticks.insert(widget_type.clone(), new_tick);
widget_update_system.set_last_change_tick(old_tick);
if should_rerender {
if let Ok(cloned_widget_entities) = cloned_widget_entities.try_read() {
let target_entity = cloned_widget_entities.get(&entity.0).unwrap();
if let Ok(clone_systems) = clone_systems.try_read() {
for s in clone_systems.0.iter() {
s.0(world, *target_entity, entity.0);
s.1(world, *target_entity, entity.0, &widget_state);
if let Some(styles) = world.entity(entity.0).get::<KStyle>().cloned() {
world.entity_mut(*target_entity).insert(styles);
}
if let Some(children) = world.entity(entity.0).get::<KChildren>().cloned() {
world.entity_mut(*target_entity).insert(children);
}
}
}
}
}
should_rerender
};
if !should_rerender {
return (widget_context.take(), false);
}
// if let Ok(tree) = tree.try_read() {
// if tree.root_node.unwrap() != entity {
// }
log::trace!("Re-rendering: {:?} {:?}", &widget_type, entity.0.id());
{
// Remove children from previous render.
widget_context.remove_children(previous_children);
let widget_render_system = &mut systems.get_mut(&widget_type).unwrap().1;
let old_tick = widget_render_system.get_last_change_tick();
should_update_children =
widget_render_system.run((widget_context.clone(), entity.0), world);
let new_tick = widget_render_system.get_last_change_tick();
widget_render_system.set_last_change_tick(old_tick);
widget_render_system.apply_buffers(world);
}
let widget_context = widget_context.take();
let mut command_queue = CommandQueue::default();
let mut commands = Commands::new(&mut command_queue, world);
commands.entity(entity.0).remove::<Mounted>();
let diff = if let Ok(tree) = tree.read() {
tree.diff_children(&widget_context, entity, UPDATE_DEPTH)
} else {
panic!("Failed to acquire read lock.");
};
log::trace!("Diff: {:?}", &diff);
// Always mark widget dirty if it's re-rendered.
// Mark node as needing a recalculation of rendering/layout.
commands.entity(entity.0).insert(DirtyNode);
for child in widget_context.child_iter(entity) {
commands.entity(child.0).insert(DirtyNode);
}
if let Ok(cloned_widget_entities) = cloned_widget_entities.try_read() {
let target_entity = cloned_widget_entities.get(&entity.0).unwrap();
if let Some(styles) = world.entity(entity.0).get::<KStyle>().cloned() {
commands.entity(*target_entity).insert(styles);
}
if let Some(children) = world.entity(entity.0).get::<KChildren>().cloned() {
commands.entity(*target_entity).insert(children);
}
}
if should_update_children {
for (_, changed_entity, _, changes) in diff.changes.iter() {
if changes.iter().any(|change| *change == Change::Deleted) {
// commands.entity(changed_entity.0).despawn();
commands.entity(changed_entity.0).remove::<DirtyNode>();
}
if changes.iter().any(|change| *change == Change::Inserted) {
commands.entity(changed_entity.0).insert(Mounted);
}
}
}
command_queue.apply(world);
if should_update_children {
for (_, child_entity, _, changes) in diff.changes.iter() {
// Clone to entity.
if changes.iter().any(|change| *change == Change::Deleted) {
if let Ok(cloned_widget_entities) = cloned_widget_entities.try_read() {
if let Some(entity) = cloned_widget_entities.get(&child_entity.0) {
world.despawn(*entity);
}
}
}
}
}
(widget_context, should_update_children)
}
fn init_systems(world: &mut World) {
let mut context = world.remove_resource::<Context>().unwrap();
for system in context.systems.values_mut() {
system.0.initialize(world);
system.1.initialize(world);
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
}
world.insert_resource(context);
}
pub struct ContextPlugin;
#[derive(Resource)]
pub struct CustomEventReader<T: bevy::ecs::event::Event>(pub ManualEventReader<T>);
impl Plugin for ContextPlugin {
fn build(&self, app: &mut App) {
app.insert_resource(WindowSize::default())
.insert_resource(EventDispatcher::new())
.insert_resource(CustomEventReader(ManualEventReader::<
bevy::window::CursorMoved,
>::default()))
.insert_resource(CustomEventReader(ManualEventReader::<
bevy::input::mouse::MouseButtonInput,
>::default()))
.insert_resource(CustomEventReader(ManualEventReader::<
bevy::input::mouse::MouseWheel,
>::default()))
.insert_resource(CustomEventReader(ManualEventReader::<
bevy::window::ReceivedCharacter,
>::default()))
.insert_resource(CustomEventReader(ManualEventReader::<
bevy::input::keyboard::KeyboardInput,
>::default()))
.add_plugin(crate::camera::KayakUICameraPlugin)
.add_plugin(crate::render::BevyKayakUIRenderPlugin)
.register_type::<Node>()
.add_startup_system_to_stage(StartupStage::PostStartup, init_systems.at_end())
.add_system_to_stage(CoreStage::Update, crate::input::process_events)
.add_system_to_stage(CoreStage::PostUpdate, update_widgets_sys.at_start())
.add_system_to_stage(CoreStage::PostUpdate, calculate_ui.at_end())
.add_system(crate::window_size::update_window_size);
}
}
fn calculate_ui(world: &mut World) {
// dbg!("Calculating nodes!");
let mut system = IntoSystem::into_system(calculate_nodes);
system.initialize(world);
for _ in 0..5 {
system.run((), world);
system.apply_buffers(world);
world.resource_scope::<Context, _>(|world, mut context| {
LayoutEventDispatcher::dispatch(&mut context, world);
});
}
world.resource_scope::<Context, _>(|world, mut context| {
world.resource_scope::<EventDispatcher, _>(|world, event_dispatcher| {
if event_dispatcher.hovered.is_none() {
context.current_cursor = CursorIcon::Default;
return;
}
let hovered = event_dispatcher.hovered.unwrap();
if let Some(entity) = world.get_entity(hovered.0) {
if let Some(node) = entity.get::<crate::node::Node>() {
let icon = node.resolved_styles.cursor.resolve();
context.current_cursor = icon.0;
}
}
});
if let Some(ref mut windows) = world.get_resource_mut::<Windows>() {
if let Some(window) = windows.get_primary_mut() {
window.set_cursor_icon(context.current_cursor);
}
}
});
// dbg!("Finished calculating nodes!");
// dbg!("Dispatching layout events!");
// dbg!("Finished dispatching layout events!");
}
#[derive(Component, Debug)]
pub struct WidgetName(pub String);
impl From<String> for WidgetName {
fn from(value: String) -> Self {
WidgetName(value)
}
}
impl Into<String> for WidgetName {
fn into(self) -> String {
self.0.into()
}
}