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llimphi/llimphi-compositor/examples/animated_size_demo.rs
T
Sergio ccab39f140 refresh: stack al día (vello 0.7 / wgpu 27 / parley 0.6) + motor 3D voxel 
Re-sincroniza las fuentes desde el monorepo (estaba en vello 0.5/wgpu 24 y con la
estructura vieja de eventloop) y suma el 3D:

- bump del workspace a vello 0.7 / wgpu 27 / parley 0.6, + accesskit 0.24 /
  accesskit_winit 0.33 / vello_hybrid 0.0.9.
- nuevos crates: llimphi-3d (voxels ray-march + mallas en un depth compartido,
  montable dentro de un View 2D vía set_viewport+scissor) y llimphi-voxel
  (world-gen, personajes, director de escenas) + shared/foreign-vox (puente .vox).
- README: sección "Not just 2D — a 3D voxel engine" + GIF (docs/llimphi_voxel.gif).
- excluido modules/allichay (arrastra deps fuera del alcance del front-door).
- cargo check --workspace: verde.

Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
2026-06-18 14:40:00 +00:00

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//! Filmstrip headless de **animateContentSize** (Bloque 15 de
//! PARIDAD-FLUTTER): un card con `View::animated_size(key, dur)`
//! arranca con tamaño 80×40 y, tras el primer frame, se reasigna a
//! 320×120. Renderizamos cinco frames simulando `Instant::now()` a
//! 0/60/120/180/240 ms — los del medio muestran el tween en curso, el
//! último ya está asentado.
//!
//! Verifica que el camino `reconcile_size_anim` parcha `style.size`
//! ANTES del mount/compute, así el layout cascade ve el tamaño
//! interpolado y los siblings reflowean (acá el padre es un row con
//! `gap`; el segundo hijo se va corriendo según crece el primero).
//!
//! `cargo run -p llimphi-compositor --example animated_size_demo -- [out.png]`
use std::fs::File;
use std::io::BufWriter;
use std::time::{Duration, Instant};
use llimphi_compositor::{
measure_text_node, mount, paint, reconcile_size_anim, SizeAnimRegistry, View,
};
use llimphi_hal::{wgpu, Hal};
use llimphi_layout::taffy;
use llimphi_layout::taffy::prelude::{length, percent, FlexDirection, Size, Style};
use llimphi_layout::taffy::{AlignItems, JustifyContent, Rect};
use llimphi_layout::LayoutTree;
use llimphi_raster::peniko::Color;
use llimphi_raster::{vello, Renderer};
use llimphi_text::{Alignment, Typesetter};
const FRAME_W: u32 = 360;
const FRAME_H: u32 = 200;
const NUM_FRAMES: u32 = 5;
const W: u32 = FRAME_W * NUM_FRAMES;
const H: u32 = FRAME_H;
const FMT: wgpu::TextureFormat = wgpu::TextureFormat::Rgba8Unorm;
const KEY: u64 = 1;
const DUR_MS: u64 = 200;
const FRAME_STEP_MS: u64 = 60;
fn rgb(r: u8, g: u8, b: u8) -> Color {
Color::from_rgba8(r, g, b, 255)
}
/// Card animable cuya `target_size` se elige según el frame (frame 0 =
/// 80×40, resto = 320×120). El gap del row y el segundo hijo (un fixed
/// 60×40) garantizan que el sibling reflowee al crecer el card.
fn build_view(target_size: (f32, f32), accent: Color, fg: Color, panel: Color) -> View<()> {
let card = View::<()>::new(Style {
size: Size {
width: length(target_size.0),
height: length(target_size.1),
},
align_items: Some(AlignItems::Center),
justify_content: Some(JustifyContent::Center),
..Default::default()
})
.fill(accent)
.radius(12.0)
.text_aligned("animated", 14.0, panel, Alignment::Center)
.animated_size(KEY, Duration::from_millis(DUR_MS));
let companion = View::<()>::new(Style {
size: Size {
width: length(60.0_f32),
height: length(40.0_f32),
},
align_items: Some(AlignItems::Center),
justify_content: Some(JustifyContent::Center),
..Default::default()
})
.fill(panel)
.radius(8.0)
.border(1.0, rgb(180, 184, 196))
.text_aligned("sib", 11.0, fg, Alignment::Center);
View::<()>::new(Style {
flex_direction: FlexDirection::Row,
size: Size {
width: percent(1.0_f32),
height: percent(1.0_f32),
},
align_items: Some(AlignItems::Center),
justify_content: Some(JustifyContent::FlexStart),
gap: Size {
width: length(12.0_f32),
height: length(0.0_f32),
},
padding: Rect {
left: length(16.0_f32),
right: length(16.0_f32),
top: length(16.0_f32),
bottom: length(16.0_f32),
},
..Default::default()
})
.fill(rgb(245, 247, 250))
.children(vec![card, companion])
}
fn main() {
let out = std::env::args()
.nth(1)
.unwrap_or_else(|| "animated_size.png".to_string());
let theme = llimphi_theme::Theme::light();
let accent = theme.accent;
let fg = Color::from_rgba8(30, 34, 44, 255);
let panel = theme.bg_panel;
let mut reg = SizeAnimRegistry::new();
let t0 = Instant::now();
let hal = pollster::block_on(Hal::new(None)).expect("hal");
let mut renderer = Renderer::new(&hal).expect("renderer");
let target = hal.device.create_texture(&wgpu::TextureDescriptor {
label: Some("dump-animated-size"),
size: wgpu::Extent3d { width: W, height: H, depth_or_array_layers: 1 },
mip_level_count: 1,
sample_count: 1,
dimension: wgpu::TextureDimension::D2,
format: FMT,
usage: wgpu::TextureUsages::STORAGE_BINDING
| wgpu::TextureUsages::RENDER_ATTACHMENT
| wgpu::TextureUsages::COPY_SRC,
view_formats: &[],
});
let view_tex = target.create_view(&wgpu::TextureViewDescriptor::default());
let [r, g, b, _] = theme.bg_app.components;
let bg = Color::from_rgba8((r * 255.0) as u8, (g * 255.0) as u8, (b * 255.0) as u8, 255);
// Componemos UNA scene grande con los 5 frames lado-a-lado. Cada
// frame es un sub-tree de `View` posicionado con offset horizontal
// vía translate del paint — más simple: para cada sub-scene
// renderizamos a un buffer y lo blitteamos? Lo más directo: armamos
// un root flex Row de 5 frames con un divider mínimo.
let mut frames: Vec<View<()>> = Vec::with_capacity(NUM_FRAMES as usize);
let mut ts = Typesetter::new();
for i in 0..NUM_FRAMES {
// Target size: frame 0 = 80×40 (asentado); resto = 320×120 (target nuevo).
let target_size = if i == 0 { (80.0, 40.0) } else { (320.0, 120.0) };
let mut frame_view = build_view(target_size, accent, fg, panel);
let when = t0 + Duration::from_millis(i as u64 * FRAME_STEP_MS);
// Reconcilá el size en el árbol del frame. Después del frame 0
// el registry conoce target=80×40. En el frame 1 el target nuevo
// arranca el tween; los frames 2-4 lo continúan.
let animating = reconcile_size_anim(&mut frame_view, &mut reg, when);
// Pintamos cada frame en una columna fija dentro de un row root.
// El alto fijo + width fijo hace que el rect del frame esté
// delimitado; el contenido del frame ocupa todo el alto.
let frame_box = View::<()>::new(Style {
size: Size {
width: length(FRAME_W as f32),
height: length(FRAME_H as f32),
},
flex_direction: FlexDirection::Column,
..Default::default()
})
.fill(rgb(228, 232, 240))
.children(vec![
View::<()>::new(Style {
size: Size {
width: percent(1.0_f32),
height: length(20.0_f32),
},
..Default::default()
})
.text_aligned(
format!(
"t = {} ms{}",
i as u64 * FRAME_STEP_MS,
if animating { " (animando)" } else { "" }
),
11.0,
fg,
Alignment::Center,
),
View::<()>::new(Style {
size: Size {
width: percent(1.0_f32),
height: length((FRAME_H - 20) as f32),
},
..Default::default()
})
.children(vec![frame_view]),
]);
frames.push(frame_box);
}
let root = View::<()>::new(Style {
flex_direction: FlexDirection::Row,
size: Size {
width: length(W as f32),
height: length(H as f32),
},
..Default::default()
})
.children(frames);
let mut layout = LayoutTree::new();
let mounted = mount(&mut layout, root);
let computed = {
let tmap = &mounted.text_measures;
layout
.compute_with_measure(mounted.root, (W as f32, H as f32), |nid, known, avail| {
match tmap.get(&nid) {
Some(tm) => measure_text_node(&mut ts, tm, known, avail),
None => taffy::Size::ZERO,
}
})
.expect("layout")
};
let mut scene = vello::Scene::new();
paint(&mut scene, &mounted, &computed, &mut ts, None, None);
renderer
.render_to_view(&hal, &scene, &view_tex, W, H, bg)
.expect("render_to_view");
write_png(&hal, &target, &out);
eprintln!(
"animated_size_demo: escrito {out} ({W}x{H}) — 5 frames del card que \
crece de 80x40 a 320x120 en 200 ms. El sibling (cuadrado 'sib') se \
corre hacia la derecha por el gap del row a medida que el card crece.",
);
}
fn write_png(hal: &Hal, target: &wgpu::Texture, path: &str) {
let unpadded = (W * 4) as usize;
let align = wgpu::COPY_BYTES_PER_ROW_ALIGNMENT as usize;
let padded = unpadded.div_ceil(align) * align;
let buf = hal.device.create_buffer(&wgpu::BufferDescriptor {
label: Some("readback"),
size: (padded * H as usize) as u64,
usage: wgpu::BufferUsages::MAP_READ | wgpu::BufferUsages::COPY_DST,
mapped_at_creation: false,
});
let mut enc = hal
.device
.create_command_encoder(&wgpu::CommandEncoderDescriptor { label: None });
enc.copy_texture_to_buffer(
wgpu::TexelCopyTextureInfo {
texture: target,
mip_level: 0,
origin: wgpu::Origin3d::ZERO,
aspect: wgpu::TextureAspect::All,
},
wgpu::TexelCopyBufferInfo {
buffer: &buf,
layout: wgpu::TexelCopyBufferLayout {
offset: 0,
bytes_per_row: Some(padded as u32),
rows_per_image: Some(H),
},
},
wgpu::Extent3d { width: W, height: H, depth_or_array_layers: 1 },
);
hal.queue.submit(std::iter::once(enc.finish()));
let slice = buf.slice(..);
let (tx, rx) = std::sync::mpsc::channel();
slice.map_async(wgpu::MapMode::Read, move |r| {
let _ = tx.send(r);
});
hal.device.poll(wgpu::PollType::wait_indefinitely());
rx.recv().unwrap().unwrap();
let data = slice.get_mapped_range();
let mut pixels = Vec::with_capacity((W * H * 4) as usize);
for row in 0..H as usize {
let s = row * padded;
pixels.extend_from_slice(&data[s..s + unpadded]);
}
drop(data);
buf.unmap();
let file = File::create(path).expect("png");
let mut enc = png::Encoder::new(BufWriter::new(file), W, H);
enc.set_color(png::ColorType::Rgba);
enc.set_depth(png::BitDepth::Eight);
let mut w = enc.write_header().unwrap();
w.write_image_data(&pixels).unwrap();
}
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