Quelle texture_cache_stress.rs
Sprache: unbekannt
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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
extern crate gleam;
extern crate glutin;
extern crate webrender;
extern crate winit;
#[path = "common/boilerplate.rs"]
mod boilerplate;
use crate::boilerplate::{Example, HandyDandyRectBuilder};
use gleam::gl;
use std::mem;
use webrender::api::*;
use webrender::render_api::*;
use webrender::api::units::*;
struct ImageGenerator {
patterns: [[u8; 3]; 6],
next_pattern: usize,
current_image: Vec<u8>,
}
impl ImageGenerator {
fn new() -> Self {
ImageGenerator {
next_pattern: 0,
patterns: [
[1, 0, 0],
[0, 1, 0],
[0, 0, 1],
[1, 1, 0],
[0, 1, 1],
[1, 0, 1],
],
current_image: Vec::new(),
}
}
fn generate_image(&mut self, size: i32) {
let pattern = &self.patterns[self.next_pattern];
self.current_image.clear();
for y in 0 .. size {
for x in 0 .. size {
let lum = 255 * (1 - (((x & 8) == 0) ^ ((y & 8) == 0)) as u8);
self.current_image.extend_from_slice(&[
lum * pattern[0],
lum * pattern[1],
lum * pattern[2],
0xff,
]);
}
}
self.next_pattern = (self.next_pattern + 1) % self.patterns.len();
}
fn take(&mut self) -> Vec<u8> {
mem::replace(&mut self.current_image, Vec::new())
}
}
impl ExternalImageHandler for ImageGenerator {
fn lock(
&mut self,
_key: ExternalImageId,
channel_index: u8,
) -> ExternalImage {
self.generate_image(channel_index as i32);
ExternalImage {
uv: TexelRect::new(0.0, 0.0, 1.0, 1.0),
source: ExternalImageSource::RawData(&self.current_image),
}
}
fn unlock(&mut self, _key: ExternalImageId, _channel_index: u8) {}
}
struct App {
stress_keys: Vec<ImageKey>,
image_key: Option<ImageKey>,
image_generator: ImageGenerator,
swap_keys: Vec<ImageKey>,
swap_index: usize,
}
impl Example for App {
fn render(
&mut self,
api: &mut RenderApi,
builder: &mut DisplayListBuilder,
txn: &mut Transaction,
_device_size: DeviceIntSize,
pipeline_id: PipelineId,
_document_id: DocumentId,
) {
let bounds = (0, 0).to(512, 512);
let space_and_clip = SpaceAndClipInfo::root_scroll(pipeline_id);
builder.push_simple_stacking_context(
bounds.min,
space_and_clip.spatial_id,
PrimitiveFlags::IS_BACKFACE_VISIBLE,
);
let x0 = 50.0;
let y0 = 50.0;
let image_size = LayoutSize::new(4.0, 4.0);
if self.swap_keys.is_empty() {
let key0 = api.generate_image_key();
let key1 = api.generate_image_key();
self.image_generator.generate_image(128);
txn.add_image(
key0,
ImageDescriptor::new(128, 128, ImageFormat::BGRA8, ImageDescriptorFlags::IS_OPAQUE) ,
ImageData::new(self.image_generator.take()),
None,
);
self.image_generator.generate_image(128);
txn.add_image(
key1,
ImageDescriptor::new(128, 128, ImageFormat::BGRA8, ImageDescriptorFlags::IS_OPAQUE),
ImageData::new(self.image_generator.take()),
None,
);
self.swap_keys.push(key0);
self.swap_keys.push(key1);
}
for (i, key) in self.stress_keys.iter().enumerate() {
let x = (i % 128) as f32;
let y = (i / 128) as f32;
let info = CommonItemProperties::new(
LayoutRect::from_origin_and_size(
LayoutPoint::new(x0 + image_size.width * x, y0 + image_size.height * y),
image_size,
),
space_and_clip,
);
builder.push_image(
&info,
bounds,
ImageRendering::Auto,
AlphaType::PremultipliedAlpha,
*key,
ColorF::WHITE,
);
}
if let Some(image_key) = self.image_key {
let image_size = LayoutSize::new(100.0, 100.0);
let info = CommonItemProperties::new(
LayoutRect::from_origin_and_size(LayoutPoint::new(100.0, 100.0), image_size),
space_and_clip,
);
builder.push_image(
&info,
bounds,
ImageRendering::Auto,
AlphaType::PremultipliedAlpha,
image_key,
ColorF::WHITE,
);
}
let swap_key = self.swap_keys[self.swap_index];
let image_size = LayoutSize::new(64.0, 64.0);
let info = CommonItemProperties::new(
LayoutRect::from_origin_and_size(LayoutPoint::new(100.0, 400.0), image_size),
space_and_clip,
);
builder.push_image(
&info,
bounds,
ImageRendering::Auto,
AlphaType::PremultipliedAlpha,
swap_key,
ColorF::WHITE,
);
self.swap_index = 1 - self.swap_index;
builder.pop_stacking_context();
}
fn on_event(
&mut self,
event: winit::event::WindowEvent,
_window: &winit::window::Window,
api: &mut RenderApi,
document_id: DocumentId,
) -> bool {
match event {
winit::event::WindowEvent::KeyboardInput {
input: winit::event::KeyboardInput {
state: winit::event::ElementState::Pressed,
virtual_keycode: Some(key),
..
},
..
} => {
let mut txn = Transaction::new();
match key {
winit::event::VirtualKeyCode::S => {
self.stress_keys.clear();
for _ in 0 .. 16 {
for _ in 0 .. 16 {
let size = 4;
let image_key = api.generate_image_key();
self.image_generator.generate_image(size);
txn.add_image(
image_key,
ImageDescriptor::new(
size,
size,
ImageFormat::BGRA8,
ImageDescriptorFlags::IS_OPAQUE,
),
ImageData::new(self.image_generator.take()),
None,
);
self.stress_keys.push(image_key);
}
}
}
winit::event::VirtualKeyCode::D => if let Some(image_key) = self.image_key.take() {
txn.delete_image(image_key);
},
winit::event::VirtualKeyCode::U => if let Some(image_key) = self.image_key {
let size = 128;
self.image_generator.generate_image(size);
txn.update_image(
image_key,
ImageDescriptor::new(size, size, ImageFormat::BGRA8, ImageDescriptorFlags::IS_OPAQUE),
ImageData::new(self.image_generator.take()),
&DirtyRect::All,
);
},
winit::event::VirtualKeyCode::E => {
if let Some(image_key) = self.image_key.take() {
txn.delete_image(image_key);
}
let size = 32;
let image_key = api.generate_image_key();
let image_data = ExternalImageData {
id: ExternalImageId(0),
channel_index: size as u8,
image_type: ExternalImageType::Buffer,
normalized_uvs: false,
};
txn.add_image(
image_key,
ImageDescriptor::new(size, size, ImageFormat::BGRA8, ImageDescriptorFlags::IS_OPAQUE),
ImageData::External(image_data),
None,
);
self.image_key = Some(image_key);
}
winit::event::VirtualKeyCode::R => {
if let Some(image_key) = self.image_key.take() {
txn.delete_image(image_key);
}
let image_key = api.generate_image_key();
let size = 32;
self.image_generator.generate_image(size);
txn.add_image(
image_key,
ImageDescriptor::new(size, size, ImageFormat::BGRA8, ImageDescriptorFlags::IS_OPAQUE),
ImageData::new(self.image_generator.take()),
None,
);
self.image_key = Some(image_key);
}
_ => {}
}
api.send_transaction(document_id, txn);
return true;
}
_ => {}
}
false
}
fn get_image_handler(
&mut self,
_gl: &dyn gl::Gl,
) -> Option<Box<dyn ExternalImageHandler>> {
Some(Box::new(ImageGenerator::new()))
}
}
fn main() {
let mut app = App {
image_key: None,
stress_keys: Vec::new(),
image_generator: ImageGenerator::new(),
swap_keys: Vec::new(),
swap_index: 0,
};
boilerplate::main_wrapper(&mut app, None);
}
[ Dauer der Verarbeitung: 0.2 Sekunden
(vorverarbeitet)
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2026-04-04
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