learn-wgpu/code/beginner/tutorial7-instancing/src/challenge.rs

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use winit::{
event::*,
event_loop::{EventLoop, ControlFlow},
window::{Window, WindowBuilder},
};
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use cgmath::prelude::*;
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mod texture;
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#[repr(C)]
#[derive(Copy, Clone, Debug)]
struct Vertex {
position: [f32; 3],
tex_coords: [f32; 2],
}
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unsafe impl bytemuck::Pod for Vertex {}
unsafe impl bytemuck::Zeroable for Vertex {}
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impl Vertex {
fn desc<'a>() -> wgpu::VertexBufferDescriptor<'a> {
use std::mem;
wgpu::VertexBufferDescriptor {
stride: mem::size_of::<Vertex>() as wgpu::BufferAddress,
step_mode: wgpu::InputStepMode::Vertex,
attributes: &[
wgpu::VertexAttributeDescriptor {
offset: 0,
shader_location: 0,
format: wgpu::VertexFormat::Float3,
},
wgpu::VertexAttributeDescriptor {
offset: mem::size_of::<[f32; 3]>() as wgpu::BufferAddress,
shader_location: 1,
format: wgpu::VertexFormat::Float2,
},
]
}
}
}
const VERTICES: &[Vertex] = &[
Vertex { position: [-0.0868241, -0.49240386, 0.0], tex_coords: [1.0 - 0.4131759, 1.0 - 0.00759614], }, // A
Vertex { position: [-0.49513406, -0.06958647, 0.0], tex_coords: [1.0 - 0.0048659444, 1.0 - 0.43041354], }, // B
Vertex { position: [-0.21918549, 0.44939706, 0.0], tex_coords: [1.0 - 0.28081453, 1.0 - 0.949397057], }, // C
Vertex { position: [0.35966998, 0.3473291, 0.0], tex_coords: [1.0 - 0.85967, 1.0 - 0.84732911], }, // D
Vertex { position: [0.44147372, -0.2347359, 0.0], tex_coords: [1.0 - 0.9414737, 1.0 - 0.2652641], }, // E
];
const INDICES: &[u16] = &[
0, 1, 4,
1, 2, 4,
2, 3, 4,
];
#[cfg_attr(rustfmt, rustfmt_skip)]
pub const OPENGL_TO_WGPU_MATRIX: cgmath::Matrix4<f32> = cgmath::Matrix4::new(
1.0, 0.0, 0.0, 0.0,
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0.0, 1.0, 0.0, 0.0,
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0.0, 0.0, 0.5, 0.0,
0.0, 0.0, 0.5, 1.0,
);
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const NUM_INSTANCES_PER_ROW: u32 = 10;
const INSTANCE_DISPLACEMENT: cgmath::Vector3<f32> = cgmath::Vector3::new(NUM_INSTANCES_PER_ROW as f32 * 0.5, 0.0, NUM_INSTANCES_PER_ROW as f32 * 0.5);
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struct Camera {
eye: cgmath::Point3<f32>,
target: cgmath::Point3<f32>,
up: cgmath::Vector3<f32>,
aspect: f32,
fovy: f32,
znear: f32,
zfar: f32,
}
impl Camera {
fn build_view_projection_matrix(&self) -> cgmath::Matrix4<f32> {
let view = cgmath::Matrix4::look_at(self.eye, self.target, self.up);
let proj = cgmath::perspective(cgmath::Deg(self.fovy), self.aspect, self.znear, self.zfar);
return proj * view;
}
}
#[repr(C)]
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#[derive(Copy, Clone)]
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struct Uniforms {
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view_proj: cgmath::Matrix4<f32>,
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}
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unsafe impl bytemuck::Pod for Uniforms {}
unsafe impl bytemuck::Zeroable for Uniforms {}
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impl Uniforms {
fn new() -> Self {
Self {
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view_proj: cgmath::Matrix4::identity(),
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}
}
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fn update_view_proj(&mut self, camera: &Camera) {
self.view_proj = OPENGL_TO_WGPU_MATRIX * camera.build_view_projection_matrix();
}
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}
struct CameraController {
speed: f32,
is_up_pressed: bool,
is_down_pressed: bool,
is_forward_pressed: bool,
is_backward_pressed: bool,
is_left_pressed: bool,
is_right_pressed: bool,
}
impl CameraController {
fn new(speed: f32) -> Self {
Self {
speed,
is_up_pressed: false,
is_down_pressed: false,
is_forward_pressed: false,
is_backward_pressed: false,
is_left_pressed: false,
is_right_pressed: false,
}
}
fn process_events(&mut self, event: &WindowEvent) -> bool {
match event {
WindowEvent::KeyboardInput {
input: KeyboardInput {
state,
virtual_keycode: Some(keycode),
..
},
..
} => {
let is_pressed = *state == ElementState::Pressed;
match keycode {
VirtualKeyCode::Space => {
self.is_up_pressed = is_pressed;
true
}
VirtualKeyCode::LShift => {
self.is_down_pressed = is_pressed;
true
}
VirtualKeyCode::W | VirtualKeyCode::Up => {
self.is_forward_pressed = is_pressed;
true
}
VirtualKeyCode::A | VirtualKeyCode::Left => {
self.is_left_pressed = is_pressed;
true
}
VirtualKeyCode::S | VirtualKeyCode::Down => {
self.is_backward_pressed = is_pressed;
true
}
VirtualKeyCode::D | VirtualKeyCode::Right => {
self.is_right_pressed = is_pressed;
true
}
_ => false,
}
}
_ => false,
}
}
fn update_camera(&self, camera: &mut Camera) {
let forward = (camera.target - camera.eye).normalize();
if self.is_forward_pressed {
camera.eye += forward * self.speed;
}
if self.is_backward_pressed {
camera.eye -= forward * self.speed;
}
let right = forward.cross(camera.up);
if self.is_right_pressed {
camera.eye += right * self.speed;
}
if self.is_left_pressed {
camera.eye -= right * self.speed;
}
}
}
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const ROTATION_SPEED: f32 = 2.0 * std::f32::consts::PI / 60.0;
struct Instance {
position: cgmath::Vector3<f32>,
rotation: cgmath::Quaternion<f32>,
}
impl Instance {
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fn to_matrix(&self) -> InstanceRaw {
let transform = cgmath::Matrix4::from_translation(self.position) * cgmath::Matrix4::from(self.rotation);
InstanceRaw {
transform,
}
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}
}
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#[repr(C)]
#[derive(Copy, Clone, Debug)]
struct InstanceRaw {
transform: cgmath::Matrix4<f32>,
}
unsafe impl bytemuck::Pod for InstanceRaw {}
unsafe impl bytemuck::Zeroable for InstanceRaw {}
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struct State {
surface: wgpu::Surface,
device: wgpu::Device,
queue: wgpu::Queue,
sc_desc: wgpu::SwapChainDescriptor,
swap_chain: wgpu::SwapChain,
render_pipeline: wgpu::RenderPipeline,
vertex_buffer: wgpu::Buffer,
index_buffer: wgpu::Buffer,
num_indices: u32,
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diffuse_texture: texture::Texture,
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diffuse_bind_group: wgpu::BindGroup,
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camera: Camera,
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camera_controller: CameraController,
uniforms: Uniforms,
uniform_buffer: wgpu::Buffer,
uniform_bind_group: wgpu::BindGroup,
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size: winit::dpi::PhysicalSize<u32>,
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instances: Vec<Instance>,
instance_buffer: wgpu::Buffer,
}
fn quat_mul(q: cgmath::Quaternion<f32>, r: cgmath::Quaternion<f32>) -> cgmath::Quaternion<f32> {
// This block uses quaternions of the form of
// q=q0+iq1+jq2+kq3
// and
// r=r0+ir1+jr2+kr3.
// The quaternion product has the form of
// t=q×r=t0+it1+jt2+kt3,
// where
// t0=(r0 q0 r1 q1 r2 q2 r3 q3)
// t1=(r0 q1 + r1 q0 r2 q3 + r3 q2)
// t2=(r0 q2 + r1 q3 + r2 q0 r3 q1)
// t3=(r0 q3 r1 q2 + r2 q1 + r3 q0
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let w = r.s * q.s - r.v.x * q.v.x - r.v.y * q.v.y - r.v.z * q.v.z;
let xi = r.s * q.v.x + r.v.x * q.s - r.v.y * q.v.z + r.v.z * q.v.y;
let yj = r.s * q.v.y + r.v.x * q.v.z + r.v.y * q.s - r.v.z * q.v.x;
let zk = r.s * q.v.z - r.v.x * q.v.y + r.v.y * q.v.x + r.v.z * q.s;
cgmath::Quaternion::new(w, xi, yj, zk)
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}
impl State {
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async fn new(window: &Window) -> Self {
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let size = window.inner_size();
let surface = wgpu::Surface::create(window);
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let adapter = wgpu::Adapter::request(
&wgpu::RequestAdapterOptions {
power_preference: wgpu::PowerPreference::Default,
compatible_surface: Some(&surface),
},
wgpu::BackendBit::PRIMARY, // Vulkan + Metal + DX12 + Browser WebGPU
).await.unwrap();
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let (device, queue) = adapter.request_device(&wgpu::DeviceDescriptor {
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extensions: wgpu::Extensions {
anisotropic_filtering: false,
},
limits: Default::default(),
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}).await;
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let sc_desc = wgpu::SwapChainDescriptor {
usage: wgpu::TextureUsage::OUTPUT_ATTACHMENT,
format: wgpu::TextureFormat::Bgra8UnormSrgb,
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width: size.width,
height: size.height,
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present_mode: wgpu::PresentMode::Fifo,
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};
let swap_chain = device.create_swap_chain(&surface, &sc_desc);
let diffuse_bytes = include_bytes!("happy-tree.png");
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let (diffuse_texture, cmd_buffer) = texture::Texture::from_bytes(&device, diffuse_bytes, "happy-tree.png").unwrap();
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queue.submit(&[cmd_buffer]);
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let texture_bind_group_layout = device.create_bind_group_layout(&wgpu::BindGroupLayoutDescriptor {
bindings: &[
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wgpu::BindGroupLayoutEntry {
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binding: 0,
visibility: wgpu::ShaderStage::FRAGMENT,
ty: wgpu::BindingType::SampledTexture {
multisampled: false,
dimension: wgpu::TextureViewDimension::D2,
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component_type: wgpu::TextureComponentType::Uint,
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},
},
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wgpu::BindGroupLayoutEntry {
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binding: 1,
visibility: wgpu::ShaderStage::FRAGMENT,
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ty: wgpu::BindingType::Sampler {
comparison: false,
},
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},
],
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label: Some("texture_bind_group_layout"),
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});
let diffuse_bind_group = device.create_bind_group(&wgpu::BindGroupDescriptor {
layout: &texture_bind_group_layout,
bindings: &[
wgpu::Binding {
binding: 0,
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resource: wgpu::BindingResource::TextureView(&diffuse_texture.view),
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},
wgpu::Binding {
binding: 1,
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resource: wgpu::BindingResource::Sampler(&diffuse_texture.sampler),
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}
],
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label: Some("diffuse_bind_group"),
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});
let camera = Camera {
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eye: (0.0, 5.0, -10.0).into(),
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target: (0.0, 0.0, 0.0).into(),
up: cgmath::Vector3::unit_y(),
aspect: sc_desc.width as f32 / sc_desc.height as f32,
fovy: 45.0,
znear: 0.1,
zfar: 100.0,
};
let camera_controller = CameraController::new(0.2);
let mut uniforms = Uniforms::new();
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uniforms.update_view_proj(&camera);
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let uniform_buffer = device.create_buffer_with_data(
bytemuck::cast_slice(&[uniforms]),
wgpu::BufferUsage::UNIFORM | wgpu::BufferUsage::COPY_DST,
);
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let instances = (0..NUM_INSTANCES_PER_ROW).flat_map(|z| {
(0..NUM_INSTANCES_PER_ROW).map(move |x| {
let position = cgmath::Vector3 { x: x as f32, y: 0.0, z: z as f32 } - INSTANCE_DISPLACEMENT;
let rotation = if position.is_zero() {
// this is needed so an object at (0, 0, 0) won't get scaled to zero
// as Quaternions can effect scale if they're not create correctly
cgmath::Quaternion::from_axis_angle(cgmath::Vector3::unit_y(), cgmath::Deg(0.0))
} else {
cgmath::Quaternion::from_axis_angle(position.clone().normalize(), cgmath::Deg(45.0))
};
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Instance {
position, rotation,
}
})
}).collect::<Vec<_>>();
let instance_data = instances.iter().map(Instance::to_matrix).collect::<Vec<_>>();
let instance_buffer_size = instance_data.len() * std::mem::size_of::<cgmath::Matrix4<f32>>();
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let instance_buffer = device.create_buffer_with_data(
bytemuck::cast_slice(&instance_data),
wgpu::BufferUsage::STORAGE_READ | wgpu::BufferUsage::COPY_DST,
);
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let uniform_bind_group_layout = device.create_bind_group_layout(&wgpu::BindGroupLayoutDescriptor {
bindings: &[
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wgpu::BindGroupLayoutEntry {
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binding: 0,
visibility: wgpu::ShaderStage::VERTEX,
ty: wgpu::BindingType::UniformBuffer {
dynamic: false,
},
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},
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wgpu::BindGroupLayoutEntry {
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binding: 1,
visibility: wgpu::ShaderStage::VERTEX,
ty: wgpu::BindingType::StorageBuffer {
dynamic: false,
readonly: true,
}
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}
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],
label: Some("uniform_bind_group_layout"),
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});
let uniform_bind_group = device.create_bind_group(&wgpu::BindGroupDescriptor {
layout: &uniform_bind_group_layout,
bindings: &[
wgpu::Binding {
binding: 0,
resource: wgpu::BindingResource::Buffer {
buffer: &uniform_buffer,
range: 0..std::mem::size_of_val(&uniforms) as wgpu::BufferAddress,
}
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},
wgpu::Binding {
binding: 1,
resource: wgpu::BindingResource::Buffer {
buffer: &instance_buffer,
range: 0..instance_buffer_size as wgpu::BufferAddress,
}
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}
],
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label: Some("uniform_bind_group"),
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});
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let vs_src = include_str!("challenge.vert");
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let fs_src = include_str!("shader.frag");
let mut compiler = shaderc::Compiler::new().unwrap();
let vs_spirv = compiler.compile_into_spirv(vs_src, shaderc::ShaderKind::Vertex, "challenge.vert", "main", None).unwrap();
let fs_spirv = compiler.compile_into_spirv(fs_src, shaderc::ShaderKind::Fragment, "shader.frag", "main", None).unwrap();
let vs_data = wgpu::read_spirv(std::io::Cursor::new(vs_spirv.as_binary_u8())).unwrap();
let fs_data = wgpu::read_spirv(std::io::Cursor::new(fs_spirv.as_binary_u8())).unwrap();
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let vs_module = device.create_shader_module(&vs_data);
let fs_module = device.create_shader_module(&fs_data);
let render_pipeline_layout = device.create_pipeline_layout(&wgpu::PipelineLayoutDescriptor {
bind_group_layouts: &[&texture_bind_group_layout, &uniform_bind_group_layout],
});
let render_pipeline = device.create_render_pipeline(&wgpu::RenderPipelineDescriptor {
layout: &render_pipeline_layout,
vertex_stage: wgpu::ProgrammableStageDescriptor {
module: &vs_module,
entry_point: "main",
},
fragment_stage: Some(wgpu::ProgrammableStageDescriptor {
module: &fs_module,
entry_point: "main",
}),
rasterization_state: Some(wgpu::RasterizationStateDescriptor {
front_face: wgpu::FrontFace::Ccw,
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cull_mode: wgpu::CullMode::Back,
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depth_bias: 0,
depth_bias_slope_scale: 0.0,
depth_bias_clamp: 0.0,
}),
primitive_topology: wgpu::PrimitiveTopology::TriangleList,
color_states: &[
wgpu::ColorStateDescriptor {
format: sc_desc.format,
color_blend: wgpu::BlendDescriptor::REPLACE,
alpha_blend: wgpu::BlendDescriptor::REPLACE,
write_mask: wgpu::ColorWrite::ALL,
},
],
depth_stencil_state: None,
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vertex_state: wgpu::VertexStateDescriptor {
index_format: wgpu::IndexFormat::Uint16,
vertex_buffers: &[
Vertex::desc(),
],
},
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sample_count: 1,
sample_mask: !0,
alpha_to_coverage_enabled: false,
});
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let vertex_buffer = device.create_buffer_with_data(
bytemuck::cast_slice(VERTICES),
wgpu::BufferUsage::VERTEX,
);
let index_buffer = device.create_buffer_with_data(
bytemuck::cast_slice(INDICES),
wgpu::BufferUsage::INDEX,
);
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let num_indices = INDICES.len() as u32;
Self {
surface,
device,
queue,
sc_desc,
swap_chain,
render_pipeline,
vertex_buffer,
index_buffer,
num_indices,
diffuse_texture,
diffuse_bind_group,
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camera,
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camera_controller,
uniform_buffer,
uniform_bind_group,
uniforms,
size,
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instances,
instance_buffer,
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}
}
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fn resize(&mut self, new_size: winit::dpi::PhysicalSize<u32>) {
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self.size = new_size;
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self.sc_desc.width = new_size.width;
self.sc_desc.height = new_size.height;
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self.swap_chain = self.device.create_swap_chain(&self.surface, &self.sc_desc);
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self.camera.aspect = self.sc_desc.width as f32 / self.sc_desc.height as f32;
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}
fn input(&mut self, event: &WindowEvent) -> bool {
self.camera_controller.process_events(event)
}
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fn update(&mut self) {
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self.camera_controller.update_camera(&mut self.camera);
self.uniforms.update_view_proj(&self.camera);
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let mut encoder = self.device.create_command_encoder(&wgpu::CommandEncoderDescriptor {
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label: Some("update encoder"),
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});
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let staging_buffer = self.device.create_buffer_with_data(
bytemuck::cast_slice(&[self.uniforms]),
wgpu::BufferUsage::COPY_SRC,
);
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encoder.copy_buffer_to_buffer(&staging_buffer, 0, &self.uniform_buffer, 0, std::mem::size_of::<Uniforms>() as wgpu::BufferAddress);
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for instance in &mut self.instances {
let amount = cgmath::Quaternion::from_angle_y(cgmath::Rad(ROTATION_SPEED));
let current = instance.rotation;
instance.rotation = quat_mul(amount, current);
}
let instance_data = self.instances.iter().map(Instance::to_matrix).collect::<Vec<_>>();
let instance_buffer_size = instance_data.len() * std::mem::size_of::<cgmath::Matrix4<f32>>();
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let instance_buffer = self.device.create_buffer_with_data(
bytemuck::cast_slice(&instance_data),
wgpu::BufferUsage::COPY_SRC,
);
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encoder.copy_buffer_to_buffer(&instance_buffer, 0, &self.instance_buffer, 0, instance_buffer_size as wgpu::BufferAddress);
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self.queue.submit(&[encoder.finish()]);
}
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fn render(&mut self) {
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let frame = self.swap_chain.get_next_texture()
.expect("Timeout getting texture");
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let mut encoder = self.device.create_command_encoder(&wgpu::CommandEncoderDescriptor {
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label: Some("Render Encoder"),
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});
{
let mut render_pass = encoder.begin_render_pass(&wgpu::RenderPassDescriptor {
color_attachments: &[
wgpu::RenderPassColorAttachmentDescriptor {
attachment: &frame.view,
resolve_target: None,
load_op: wgpu::LoadOp::Clear,
store_op: wgpu::StoreOp::Store,
clear_color: wgpu::Color {
r: 0.1,
g: 0.2,
b: 0.3,
a: 1.0,
},
}
],
depth_stencil_attachment: None,
});
render_pass.set_pipeline(&self.render_pipeline);
render_pass.set_bind_group(0, &self.diffuse_bind_group, &[]);
render_pass.set_bind_group(1, &self.uniform_bind_group, &[]);
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render_pass.set_vertex_buffer(0, &self.vertex_buffer, 0, 0);
render_pass.set_index_buffer(&self.index_buffer, 0, 0);
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render_pass.draw_indexed(0..self.num_indices, 0, 0..self.instances.len() as u32);
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}
self.queue.submit(&[
encoder.finish()
]);
}
}
fn main() {
let event_loop = EventLoop::new();
let window = WindowBuilder::new()
.build(&event_loop)
.unwrap();
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use futures::executor::block_on;
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// Since main can't be async, we're going to need to block
let mut state = block_on(State::new(&window));
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event_loop.run(move |event, _, control_flow| {
match event {
Event::WindowEvent {
ref event,
window_id,
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} if window_id == window.id() => if !state.input(event) {
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match event {
WindowEvent::CloseRequested => *control_flow = ControlFlow::Exit,
WindowEvent::KeyboardInput {
input,
..
} => {
match input {
KeyboardInput {
state: ElementState::Pressed,
virtual_keycode: Some(VirtualKeyCode::Escape),
..
} => *control_flow = ControlFlow::Exit,
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_ => {}
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}
}
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WindowEvent::Resized(physical_size) => {
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state.resize(*physical_size);
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}
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WindowEvent::ScaleFactorChanged { new_inner_size, .. } => {
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// new_inner_size is &mut so w have to dereference it twice
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state.resize(**new_inner_size);
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}
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_ => {}
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}
}
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Event::RedrawRequested(_) => {
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state.update();
state.render();
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}
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Event::MainEventsCleared => {
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// RedrawRequested will only trigger once, unless we manually
// request it.
window.request_redraw();
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}
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_ => {}
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}
});
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}