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learn-wgpu/code/beginner/tutorial2-surface/src/challenge.rs

243 lines
8.3 KiB
Rust
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use std::iter;
use winit::{
event::*,
event_loop::EventLoop,
keyboard::{KeyCode, PhysicalKey},
window::{Window, WindowBuilder},
};
struct State<'a> {
#[allow(dead_code)]
instance: wgpu::Instance,
#[allow(dead_code)]
adapter: wgpu::Adapter,
surface: wgpu::Surface<'a>,
device: wgpu::Device,
queue: wgpu::Queue,
config: wgpu::SurfaceConfiguration,
size: winit::dpi::PhysicalSize<u32>,
clear_color: wgpu::Color,
window: &'a Window,
}
impl<'a> State<'a> {
async fn new(window: &'a Window) -> State<'a> {
let size = window.inner_size();
// The instance is a handle to our GPU
// BackendBit::PRIMARY => Vulkan + Metal + DX12 + Browser WebGPU
let instance = wgpu::Instance::new(wgpu::InstanceDescriptor {
#[cfg(not(target_arch="wasm32"))]
backends: wgpu::Backends::PRIMARY,
#[cfg(target_arch="wasm32")]
backends: wgpu::Backends::GL,
..Default::default()
});
// # Safety
//
// The surface needs to live as long as the window that created it.
// State owns the window so this should be safe.
let surface = instance.create_surface(window).unwrap();
let adapter = instance
.request_adapter(&wgpu::RequestAdapterOptions {
power_preference: wgpu::PowerPreference::default(),
compatible_surface: Some(&surface),
force_fallback_adapter: false,
})
.await
.unwrap();
let (device, queue) = adapter
.request_device(
&wgpu::DeviceDescriptor {
label: None,
required_features: wgpu::Features::empty(),
// WebGL doesn't support all of wgpu's features, so if
// we're building for the web we'll have to disable some.
required_limits: if cfg!(target_arch = "wasm32") {
wgpu::Limits::downlevel_webgl2_defaults()
} else {
wgpu::Limits::default()
},
},
None, // Trace path
)
.await
.unwrap();
let surface_caps = surface.get_capabilities(&adapter);
// Shader code in this tutorial assumes an Srgb surface texture. Using a different
// one will result all the colors comming out darker. If you want to support non
// Srgb surfaces, you'll need to account for that when drawing to the frame.
let surface_format = surface_caps
.formats
.iter()
.copied()
.find(|f| f.is_srgb())
.unwrap_or(surface_caps.formats[0]);
let config = wgpu::SurfaceConfiguration {
usage: wgpu::TextureUsages::RENDER_ATTACHMENT,
format: surface_format,
width: size.width,
height: size.height,
present_mode: surface_caps.present_modes[0],
alpha_mode: surface_caps.alpha_modes[0],
desired_maximum_frame_latency: 2,
view_formats: vec![],
};
let clear_color = wgpu::Color::BLACK;
Self {
instance,
adapter,
surface,
device,
queue,
config,
clear_color,
size,
window,
}
}
fn window(&self) -> &Window {
&self.window
}
pub fn resize(&mut self, new_size: winit::dpi::PhysicalSize<u32>) {
if new_size.width > 0 && new_size.height > 0 {
self.size = new_size;
self.config.width = new_size.width;
self.config.height = new_size.height;
self.surface.configure(&self.device, &self.config);
}
}
fn input(&mut self, event: &WindowEvent) -> bool {
match event {
WindowEvent::CursorMoved { position, .. } => {
self.clear_color = wgpu::Color {
r: position.x as f64 / self.size.width as f64,
g: position.y as f64 / self.size.height as f64,
b: 1.0,
a: 1.0,
};
true
}
_ => false,
}
}
fn update(&mut self) {}
fn render(&mut self) -> Result<(), wgpu::SurfaceError> {
let output = self.surface.get_current_texture()?;
let view = output
.texture
.create_view(&wgpu::TextureViewDescriptor::default());
let mut encoder = self
.device
.create_command_encoder(&wgpu::CommandEncoderDescriptor {
label: Some("Render Encoder"),
});
{
let _render_pass = encoder.begin_render_pass(&wgpu::RenderPassDescriptor {
label: Some("Render Pass"),
color_attachments: &[Some(wgpu::RenderPassColorAttachment {
view: &view,
resolve_target: None,
ops: wgpu::Operations {
load: wgpu::LoadOp::Clear(self.clear_color),
store: wgpu::StoreOp::Store,
},
})],
depth_stencil_attachment: None,
occlusion_query_set: None,
timestamp_writes: None,
});
}
self.queue.submit(iter::once(encoder.finish()));
output.present();
Ok(())
}
}
fn main() {
pollster::block_on(run());
}
async fn run() {
env_logger::init();
let event_loop = EventLoop::new().unwrap();
let window = WindowBuilder::new().build(&event_loop).unwrap();
// State::new uses async code, so we're going to wait for it to finish
let mut state = State::new(&window).await;
let mut surface_configured = false;
event_loop
.run(move |event, control_flow| {
match event {
Event::WindowEvent {
ref event,
window_id,
} if window_id == state.window().id() => {
if !state.input(event) {
match event {
WindowEvent::CloseRequested
| WindowEvent::KeyboardInput {
event:
KeyEvent {
state: ElementState::Pressed,
physical_key: PhysicalKey::Code(KeyCode::Escape),
..
},
..
} => control_flow.exit(),
WindowEvent::Resized(physical_size) => {
state.resize(*physical_size);
surface_configured = true;
}
WindowEvent::RedrawRequested => {
state.window().request_redraw();
if !surface_configured {
return;
}
state.update();
match state.render() {
Ok(_) => {}
// Reconfigure the surface if it's lost or outdated
Err(
wgpu::SurfaceError::Lost | wgpu::SurfaceError::Outdated,
) => state.resize(state.size),
// The system is out of memory, we should probably quit
Err(wgpu::SurfaceError::OutOfMemory) => {
log::error!("OutOfMemory");
control_flow.exit();
}
// We're ignoring timeouts
Err(wgpu::SurfaceError::Timeout) => {
log::warn!("Surface timeout")
}
}
}
_ => {}
}
}
}
_ => {}
}
})
.unwrap();
}
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