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better & more fine grained redraw system (should allow movement)

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Shadow Cat
2025-09-07 23:33:36 -04:00
parent d4690401eb
commit 09f4de619e
6 changed files with 308 additions and 215 deletions
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6
src/core/text.rs
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@@ -41,12 +41,10 @@ impl Widget for Text {
let (handle, offset) = painter.render_text(&mut self.buf, &self.content, &self.attrs); let (handle, offset) = painter.render_text(&mut self.buf, &self.content, &self.attrs);
let dims = handle.size(); let dims = handle.size();
let size = offset.size(&handle); let size = offset.size(&handle);
let mut region = painter.region().center().expand(size); let mut region = Align::Center.pos().expand(size);
region.top_left.offset += offset.top_left; region.top_left.offset += offset.top_left;
region.bot_right.offset = region.top_left.offset + dims; region.bot_right.offset = region.top_left.offset + dims;
painter.draw_texture_at(&handle, region); painter.draw_texture_within(&handle, region);
// TODO: when on_update is added to painter,
// reuse TextureHandle
} }
fn get_size(&mut self, ctx: &mut SizeCtx) -> Vec2 { fn get_size(&mut self, ctx: &mut SizeCtx) -> Vec2 {

353
src/layout/painter.rs
View File

@@ -1,185 +1,164 @@
use std::ops::Range;
use crate::{ use crate::{
layout::{ layout::{
Active, SensorMap, SizeCtx, TextAttrs, TextBuffer, TextData, TextOffset, TextureHandle, Active, SensorMap, SizeCtx, TextAttrs, TextBuffer, TextData, TextOffset, TextureHandle,
Textures, UiRegion, Vec2, WidgetId, WidgetInstance, Widgets, Textures, UiRegion, Vec2, WidgetId, Widgets,
}, },
render::{Primitive, PrimitiveHandle, Primitives}, render::{Primitive, PrimitiveHandle, Primitives},
util::Id, util::{HashSet, Id},
}; };
struct State { pub struct Painter<'a, 'c> {
ctx: &'a mut PainterCtx<'c>,
region: UiRegion, region: UiRegion,
children: Vec<Id>,
parent: Option<Id>,
textures: Vec<TextureHandle>, textures: Vec<TextureHandle>,
// TODO: there's probably a better way but idc at this point primitives: Vec<PrimitiveHandle>,
id: Option<Id>, children: Vec<Id>,
id: Id,
} }
pub struct Painter<'a> { pub struct PainterCtx<'a> {
widgets: &'a Widgets, pub widgets: &'a Widgets,
sensors_map: &'a SensorMap, pub sensor_map: &'a SensorMap,
pub(super) active: &'a mut Active, pub active: &'a mut Active,
pub(super) primitives: &'a mut Primitives, pub primitives: &'a mut Primitives,
textures: &'a mut Textures, pub textures: &'a mut Textures,
text: &'a mut TextData, pub text: &'a mut TextData,
screen_size: Vec2, pub screen_size: Vec2,
/// state of what's currently being drawn drawing: HashSet<Id>,
state: State,
} }
impl<'a> Painter<'a> { pub struct WidgetInstance {
#[allow(clippy::too_many_arguments)] pub id: Id,
pub(super) fn new( pub region: UiRegion,
pub parent: Option<Id>,
pub textures: Vec<TextureHandle>,
pub primitives: Vec<PrimitiveHandle>,
pub children: Vec<Id>,
pub span: Range<usize>,
}
impl<'a> PainterCtx<'a> {
pub fn new(
widgets: &'a Widgets, widgets: &'a Widgets,
primitives: &'a mut Primitives, primitives: &'a mut Primitives,
sensors_map: &'a SensorMap, sensor_map: &'a SensorMap,
active: &'a mut Active, active: &'a mut Active,
text: &'a mut TextData,
textures: &'a mut Textures, textures: &'a mut Textures,
text: &'a mut TextData,
screen_size: Vec2, screen_size: Vec2,
) -> Self { ) -> Self {
Self { Self {
widgets, widgets,
sensor_map,
active, active,
sensors_map,
primitives, primitives,
text,
textures, textures,
text,
screen_size, screen_size,
state: State { drawing: HashSet::new(),
region: UiRegion::full(),
children: Vec::new(),
parent: None,
id: None,
textures: Vec::new(),
},
} }
} }
/// Writes a primitive to be rendered pub fn redraw(&mut self, id: &Id) {
pub fn write_at<P: Primitive>(&mut self, data: P, region: UiRegion) -> PrimitiveHandle<P> { self.drawing.clear();
self.primitives.write(data, region) let Some(active) = self.remove(id) else {
} return;
};
/// Writes a primitive to be rendered self.primitives.set_pos(active.span.start);
pub fn write<P: Primitive>(&mut self, data: P) -> PrimitiveHandle<P> { self.draw_inner(id, active.region, active.parent(), Some(active.children));
self.write_at(data, self.state.region) let delta = self.primitives.apply(active.span.clone());
} if delta != 0
&& let Some(parent) = active.parent
/// Draws a widget within this widget's region. {
pub fn draw<W>(&mut self, id: &WidgetId<W>) { self.shift_parent(parent, active.span.start, delta);
self.draw_at(id, self.state.region); }
} }
/// Draws a widget somewhere within this one. pub fn draw(&mut self, id: &Id) {
/// Useful for drawing child widgets in select areas. self.drawing.clear();
pub fn draw_within<W>(&mut self, id: &WidgetId<W>, region: UiRegion) { self.primitives.clear();
self.draw_at(id, region.within(&self.state.region)); self.draw_inner(id, UiRegion::full(), None, None);
} self.primitives.replace();
}
/// Draws a widget in an arbitrary region.
pub fn draw_at<W>(&mut self, id: &WidgetId<W>, region: UiRegion) { fn draw_inner(
self.draw_raw_at(&id.id, region); &mut self,
} id: &Id,
region: UiRegion,
fn draw_raw_at(&mut self, id: &Id, region: UiRegion) { parent: Option<Id>,
self.state.children.push(id.duplicate()); old_children: Option<Vec<Id>>,
) {
// &mut self is passed to avoid copying all of the "static" pointers in self if self.drawing.contains(id) {
// so need to save non static data here panic!("Cannot draw the same widget twice");
let child_state = State { }
region, let mut old_children = old_children.unwrap_or_default();
children: Vec::new(), if let Some(active) = self.active.widgets.get(id) {
id: Some(id.duplicate()), if active.parent != parent {
parent: self.state.id.as_ref().map(|i| i.duplicate()), panic!("Cannot draw the same widget twice");
textures: Vec::new(), }
if active.region == region {
self.primitives.skip(&active.span);
return;
}
// TODO:
// else if active.region.size() == region.size() { move }
let active = self.remove(id).unwrap();
old_children = active.children;
}
let mut painter = Painter {
region,
id: id.duplicate(),
textures: Vec::new(),
primitives: Vec::new(),
ctx: self,
children: Vec::new(),
}; };
// save state
let self_state = std::mem::replace(&mut self.state, child_state);
// draw widgets // draw widgets
let start_i = self.primitives.cur_pos(); let start_i = painter.ctx.primitives.cur_pos();
self.widgets.get_dyn_dynamic(id).draw(self); painter.ctx.widgets.get_dyn_dynamic(id).draw(&mut painter);
let end_i = self.primitives.cur_pos(); let end_i = painter.ctx.primitives.cur_pos();
// restore state
let child_state = std::mem::replace(&mut self.state, self_state);
// add to active // add to active
self.active.add( let instance = WidgetInstance {
id, id: id.duplicate(),
WidgetInstance { region,
region, parent,
span: start_i..end_i, textures: painter.textures,
children: child_state.children, span: start_i..end_i,
parent: child_state.parent, primitives: painter.primitives,
textures: child_state.textures, children: painter.children,
}, };
self.sensors_map, for c in &old_children {
); if !instance.children.contains(c) {
} self.remove_rec(c);
}
pub fn draw_texture(&mut self, handle: &TextureHandle) {
self.state.textures.push(handle.clone());
self.write(handle.primitive());
}
pub fn draw_texture_at(&mut self, handle: &TextureHandle, region: UiRegion) {
let old = self.state.region;
self.state.region = region;
self.draw_texture(handle);
self.state.region = old;
}
/// returns (handle, offset from top left)
pub fn render_text(
&mut self,
buffer: &mut TextBuffer,
content: &str,
attrs: &TextAttrs,
) -> (TextureHandle, TextOffset) {
self.text.draw(buffer, content, attrs, self.textures)
}
pub fn region(&self) -> UiRegion {
self.state.region
}
pub fn region_size(&self) -> Vec2 {
self.state.region.in_size(self.screen_size)
}
pub fn size<W>(&mut self, id: &WidgetId<W>) -> Vec2 {
self.widgets
.get_dyn_dynamic(&id.id)
.get_size(&mut self.size_ctx())
}
pub fn size_ctx(&mut self) -> SizeCtx<'_> {
SizeCtx {
size: self.region().in_size(self.screen_size),
text: self.text,
textures: self.textures,
widgets: self.widgets,
} }
self.active.add(id, instance, self.sensor_map);
} }
pub(crate) fn redraw(&mut self, id: &Id) { fn remove(&mut self, id: &Id) -> Option<WidgetInstance> {
if !self.active.widgets.contains_key(id) { let inst = self.active.remove(id);
return; if let Some(inst) = &inst {
for h in &inst.primitives {
self.primitives.free(h);
}
} }
let instance = self.free(id); inst
self.state.id = instance.parent; }
self.primitives.prepare(instance.span.clone());
self.draw_raw_at(id, instance.region); fn remove_rec(&mut self, id: &Id) -> Option<WidgetInstance> {
let start = instance.span.start; let inst = self.remove(id);
let delta = self.primitives.apply(instance.span); if let Some(inst) = &inst {
if delta != 0 for c in &inst.children {
&& let Some(parent) = self.state.id.take() self.remove_rec(c);
{ }
self.shift_parent(parent, start, delta);
} }
inst
} }
/// shifts the primitive spans for all widgets above this one in the tree /// shifts the primitive spans for all widgets above this one in the tree
@@ -191,7 +170,7 @@ impl<'a> Painter<'a> {
*end = end.strict_add_signed(delta); *end = end.strict_add_signed(delta);
// ids are supposed to be unique so theoretically no cloning is needed // ids are supposed to be unique so theoretically no cloning is needed
// leaving for now for testing // leaving for now for testing
let parent = instance.parent.as_ref().map(|p| p.duplicate()); let parent = instance.parent();
for child in instance for child in instance
.children .children
.iter() .iter()
@@ -221,12 +200,86 @@ impl<'a> Painter<'a> {
self.shift_child(&child, start, delta); self.shift_child(&child, start, delta);
} }
} }
}
fn free(&mut self, id: &Id) -> WidgetInstance { impl<'a, 'c> Painter<'a, 'c> {
let instance = self.active.remove(id).unwrap(); fn write_at<P: Primitive>(&mut self, data: P, region: UiRegion) {
for child in &instance.children { self.primitives
self.free(child); .push(self.ctx.primitives.write(self.id.duplicate(), data, region));
}
/// Writes a primitive to be rendered
pub fn write<P: Primitive>(&mut self, data: P) {
self.write_at(data, self.region)
}
/// Draws a widget within this widget's region.
pub fn draw<W>(&mut self, id: &WidgetId<W>) {
self.draw_at(id, self.region);
}
/// Draws a widget somewhere within this one.
/// Useful for drawing child widgets in select areas.
pub fn draw_within<W>(&mut self, id: &WidgetId<W>, region: UiRegion) {
self.draw_at(id, region.within(&self.region));
}
fn draw_at<W>(&mut self, id: &WidgetId<W>, region: UiRegion) {
self.children.push(id.id.duplicate());
self.ctx
.draw_inner(&id.id, region, Some(self.id.duplicate()), None);
}
pub fn draw_texture_within(&mut self, handle: &TextureHandle, region: UiRegion) {
self.textures.push(handle.clone());
self.write_at(handle.primitive(), region.within(&self.region));
}
pub fn draw_texture(&mut self, handle: &TextureHandle) {
self.textures.push(handle.clone());
self.write(handle.primitive());
}
pub fn draw_texture_at(&mut self, handle: &TextureHandle, region: UiRegion) {
self.textures.push(handle.clone());
self.write_at(handle.primitive(), region);
}
/// returns (handle, offset from top left)
pub fn render_text(
&mut self,
buffer: &mut TextBuffer,
content: &str,
attrs: &TextAttrs,
) -> (TextureHandle, TextOffset) {
self.ctx
.text
.draw(buffer, content, attrs, self.ctx.textures)
}
pub fn region_size(&self) -> Vec2 {
self.region.in_size(self.ctx.screen_size)
}
pub fn size<W>(&mut self, id: &WidgetId<W>) -> Vec2 {
self.ctx
.widgets
.get_dyn_dynamic(&id.id)
.get_size(&mut self.size_ctx())
}
pub fn size_ctx(&mut self) -> SizeCtx<'_> {
SizeCtx {
size: self.region.in_size(self.ctx.screen_size),
text: self.ctx.text,
textures: self.ctx.textures,
widgets: self.ctx.widgets,
} }
instance }
}
impl WidgetInstance {
pub fn parent(&self) -> Option<Id> {
self.parent.as_ref().map(|p| p.duplicate())
} }
} }

4
src/layout/pos.rs
View File

@@ -4,7 +4,7 @@ use crate::{
}; };
#[repr(C)] #[repr(C)]
#[derive(Debug, Copy, Clone, bytemuck::Pod, bytemuck::Zeroable, Default)] #[derive(Debug, Copy, Clone, PartialEq, bytemuck::Pod, bytemuck::Zeroable, Default)]
pub struct UiPos { pub struct UiPos {
pub anchor: Vec2, pub anchor: Vec2,
pub offset: Vec2, pub offset: Vec2,
@@ -132,7 +132,7 @@ impl UIScalar {
} }
#[repr(C)] #[repr(C)]
#[derive(Debug, Copy, Clone, bytemuck::Pod, bytemuck::Zeroable)] #[derive(Debug, Copy, Clone, PartialEq, bytemuck::Pod, bytemuck::Zeroable)]
pub struct UiRegion { pub struct UiRegion {
pub top_left: UiPos, pub top_left: UiPos,
pub bot_right: UiPos, pub bot_right: UiPos,

29
src/layout/ui.rs
View File

@@ -2,15 +2,15 @@ use image::DynamicImage;
use crate::{ use crate::{
layout::{ layout::{
ActiveSensors, Painter, SensorMap, StaticWidgetId, TextData, TextureHandle, Textures, ActiveSensors, PainterCtx, SensorMap, StaticWidgetId, TextData, TextureHandle, Textures,
UiRegion, Vec2, Widget, WidgetId, WidgetLike, Vec2, Widget, WidgetId, WidgetInstance, WidgetLike,
}, },
render::Primitives, render::Primitives,
util::{HashMap, Id, IdTracker}, util::{HashMap, Id, IdTracker},
}; };
use std::{ use std::{
any::{Any, TypeId}, any::{Any, TypeId},
ops::{Deref, DerefMut, Index, IndexMut, Range}, ops::{Deref, DerefMut, Index, IndexMut},
sync::mpsc::{Receiver, Sender, channel}, sync::mpsc::{Receiver, Sender, channel},
}; };
@@ -118,22 +118,20 @@ impl Ui {
pub fn redraw_all(&mut self) { pub fn redraw_all(&mut self) {
self.active.clear(); self.active.clear();
self.primitives.clear();
// free before bc nothing should exist // free before bc nothing should exist
self.free(); self.free();
let mut painter = Painter::new( let mut ctx = PainterCtx::new(
&self.widgets, &self.widgets,
&mut self.primitives, &mut self.primitives,
&self.sensor_map, &self.sensor_map,
&mut self.active, &mut self.active,
&mut self.text,
&mut self.textures, &mut self.textures,
&mut self.text,
self.size, self.size,
); );
if let Some(base) = &self.base { if let Some(base) = &self.base {
painter.draw(base); ctx.draw(&base.id);
} }
self.primitives.replace();
} }
pub fn update(&mut self) { pub fn update(&mut self) {
@@ -146,17 +144,17 @@ impl Ui {
} }
fn redraw_updates(&mut self) { fn redraw_updates(&mut self) {
let mut painter = Painter::new( let mut ctx = PainterCtx::new(
&self.widgets, &self.widgets,
&mut self.primitives, &mut self.primitives,
&self.sensor_map, &self.sensor_map,
&mut self.active, &mut self.active,
&mut self.text,
&mut self.textures, &mut self.textures,
&mut self.text,
self.size, self.size,
); );
for id in self.updates.drain(..) { for id in self.updates.drain(..) {
painter.redraw(&id); ctx.redraw(&id);
} }
self.free(); self.free();
} }
@@ -350,17 +348,10 @@ impl Default for Ui {
} }
} }
pub struct WidgetInstance {
pub region: UiRegion,
pub span: Range<usize>,
pub children: Vec<Id>,
pub parent: Option<Id>,
pub textures: Vec<TextureHandle>,
}
pub type ActiveWidgets = HashMap<Id, WidgetInstance>; pub type ActiveWidgets = HashMap<Id, WidgetInstance>;
#[derive(Default)] #[derive(Default)]
pub(super) struct Active { pub struct Active {
pub sensors: ActiveSensors, pub sensors: ActiveSensors,
pub widgets: ActiveWidgets, pub widgets: ActiveWidgets,
} }

4
src/render/mod.rs
View File

@@ -51,8 +51,8 @@ impl UiRenderer {
pub fn update(&mut self, device: &Device, queue: &Queue, ui: &mut Ui) { pub fn update(&mut self, device: &Device, queue: &Queue, ui: &mut Ui) {
if ui.primitives.updated { if ui.primitives.updated {
self.instance self.instance
.update(device, queue, &ui.primitives.instances); .update(device, queue, ui.primitives.instances());
self.primitives.update(device, queue, &ui.primitives.data); self.primitives.update(device, queue, ui.primitives.data());
self.primitive_group = self.primitive_group =
Self::primitive_group(device, &self.primitive_layout, self.primitives.buffers()) Self::primitive_group(device, &self.primitive_layout, self.primitives.buffers())
} }

127
src/render/primitive.rs
View File

@@ -1,19 +1,24 @@
use std::{ use std::ops::{Deref, DerefMut, Range};
marker::PhantomData,
ops::{Deref, DerefMut, Range},
};
use crate::{ use crate::{
layout::{Color, UiRegion}, layout::{Color, UiRegion},
render::{ArrBuf, data::PrimitiveInstance}, render::{ArrBuf, data::PrimitiveInstance},
util::Id,
}; };
use bytemuck::Pod; use bytemuck::Pod;
use wgpu::*; use wgpu::*;
#[derive(Default)]
struct Instances {
data: Vec<PrimitiveInstance>,
assoc: Vec<Id>,
}
pub struct Primitives { pub struct Primitives {
pub(super) instances: Vec<PrimitiveInstance>, instances: Instances,
pub(super) run: Vec<PrimitiveInstance>, run: Instances,
pub(super) data: PrimitiveData, pos: usize,
data: PrimitiveData,
pub updated: bool, pub updated: bool,
run_start: usize, run_start: usize,
} }
@@ -23,6 +28,7 @@ impl Default for Primitives {
Self { Self {
instances: Default::default(), instances: Default::default(),
run: Default::default(), run: Default::default(),
pos: 0,
data: Default::default(), data: Default::default(),
updated: true, updated: true,
run_start: 0, run_start: 0,
@@ -98,15 +104,40 @@ macro_rules! primitives {
} }
impl Primitives { impl Primitives {
pub fn write<P: Primitive>(&mut self, data: P, region: UiRegion) -> PrimitiveHandle<P> { pub fn write<P: Primitive>(&mut self, id: Id, data: P, region: UiRegion) -> PrimitiveHandle {
let vec = P::vec(&mut self.data); let vec = P::vec(&mut self.data);
let i = vec.add(data); let i = vec.add(data);
self.run.push(PrimitiveInstance { let inst = PrimitiveInstance {
region, region,
idx: i as u32, idx: i as u32,
binding: P::BINDING, binding: P::BINDING,
}); };
PrimitiveHandle::new(i) if self.running() {
self.run.push(id, inst);
} else if self.instances.assoc.get(self.pos).is_some_and(|i| *i == id) {
self.instances.data[self.pos] = inst;
} else {
self.run_start = self.pos;
self.run.push(id, inst);
}
self.pos += 1;
PrimitiveHandle::new::<P>(i)
}
fn running(&self) -> bool {
self.run.len() != 0
}
pub fn skip(&mut self, range: &Range<usize>) {
if self.running() {
self.run.data.extend(&self.instances.data[range.clone()]);
self.run.assoc.extend(
self.instances.assoc[range.clone()]
.iter()
.map(|i| i.duplicate()),
);
}
self.pos += range.len();
} }
pub(crate) fn clear(&mut self) { pub(crate) fn clear(&mut self) {
@@ -114,53 +145,55 @@ impl Primitives {
self.instances.clear(); self.instances.clear();
self.run.clear(); self.run.clear();
self.data.clear(); self.data.clear();
} self.pos = 0;
pub fn set<P: Primitive>(&mut self, handle: &PrimitiveHandle<P>, data: P) {
P::vec(&mut self.data)[handle.idx] = data;
}
pub fn prepare(&mut self, span: Range<usize>) {
self.run_start = span.start;
for instance in &self.instances[span] {
self.data.free(instance.binding, instance.idx as usize);
}
} }
pub fn apply(&mut self, span: Range<usize>) -> isize { pub fn apply(&mut self, span: Range<usize>) -> isize {
let delta = self.run.len() as isize - span.len() as isize; let delta = self.pos as isize - span.end as isize;
self.instances.splice(span, self.run.drain(..)); if self.run.len() == 0 {
self.run_start = self.pos;
}
let span = self.run_start..span.end;
self.instances.splice(span, &mut self.run);
delta delta
} }
pub fn set_pos(&mut self, p: usize) {
self.pos = p;
}
pub fn free(&mut self, h: &PrimitiveHandle) {
self.data.free(h.binding, h.idx);
}
pub fn replace(&mut self) { pub fn replace(&mut self) {
std::mem::swap(&mut self.run, &mut self.instances); std::mem::swap(&mut self.run, &mut self.instances);
self.run.clear(); self.run.clear();
} }
pub fn cur_pos(&self) -> usize { pub fn cur_pos(&self) -> usize {
self.run_start + self.run.len() self.pos
}
pub fn data(&self) -> &PrimitiveData {
&self.data
}
pub fn instances(&self) -> &Vec<PrimitiveInstance> {
&self.instances.data
} }
} }
/// primitives but only exposes set for redrawing pub struct PrimitiveHandle {
pub struct PrimitiveEditor<'a>(&'a mut Primitives);
impl PrimitiveEditor<'_> {
pub fn set<P: Primitive>(&mut self, handle: &PrimitiveHandle<P>, data: P) {
self.0.set(handle, data);
}
}
pub struct PrimitiveHandle<P: Primitive> {
idx: usize, idx: usize,
_pd: PhantomData<P>, binding: u32,
} }
impl<P: Primitive> PrimitiveHandle<P> { impl PrimitiveHandle {
fn new(idx: usize) -> Self { fn new<P: Primitive>(idx: usize) -> Self {
Self { Self {
idx, idx,
_pd: PhantomData, binding: P::BINDING,
} }
} }
} }
@@ -236,3 +269,21 @@ impl<T> DerefMut for PrimitiveVec<T> {
&mut self.vec &mut self.vec
} }
} }
impl Instances {
pub fn clear(&mut self) {
self.data.clear();
self.assoc.clear();
}
pub fn len(&self) -> usize {
self.data.len()
}
pub fn push(&mut self, id: Id, inst: PrimitiveInstance) {
self.assoc.push(id);
self.data.push(inst);
}
pub fn splice(&mut self, span: Range<usize>, other: &mut Instances) {
self.data.splice(span.clone(), other.data.drain(..));
self.assoc.splice(span, other.assoc.drain(..));
}
}