Rust version of https://github.com/Overv/VulkanTutorial using Vulkano.
Goal: Rust port with code structure as similar as possible to the original C++, so the original tutorial can easily be followed (similar to learn-opengl-rs).
Current State: The chapters Drawing a triangle
and Vertex buffers
are complete.
- Introduction
- Overview
- Development Environment
- Drawing a triangle
- Vertex buffers
- Uniform buffers (TODO)
- Texture mapping (TODO)
- Depth buffering (TODO)
- Loading models (TODO)
- Generating Mipmaps (TODO)
- Multisampling (TODO)
This tutorial consists of the the ported code and notes about the differences between the original C++ and the Rust code. The explanatory texts generally apply equally, although the Rust version is often shorter due to the use of Vulkano, a safe wrapper around the Vulkan API with some convencience functionality (the final triangle example is about 600 lines, compared to 950 lines in C++).
If you prefer a lower-level API closer to the Vulkan C API, have a look at Ash and vulkan-tutorial-rust.
https://vulkan-tutorial.com/Overview
(nothing to note here)
https://vulkan-tutorial.com/Development_environment
Download the Vulkan SDK as described, but ignore everything about library and project setup. Instead, create a new Cargo project:
$ cargo new vulkan-tutorial-rs
Then add this to your Cargo.toml
:
[dependencies]
vulkano = "0.10.0"
On macOS, copy mac-env.sh, adapt the VULKAN_SDK
path if necessary and source
the file in your terminal. See also vulkano-rs/vulkano#macos-and-ios-setup.
https://vulkan-tutorial.com/Drawing_a_triangle/Setup/Base_code
extern crate vulkano;
struct HelloTriangleApplication {
}
impl HelloTriangleApplication {
pub fn initialize() -> Self {
Self {
}
}
fn main_loop(&mut self) {
}
}
fn main() {
let mut app = HelloTriangleApplication::new();
app.main_loop();
}
Vulkano handles calling vkDestroyXXX
/vkFreeXXX
in the Drop
implementation of all wrapper objects, so we will skip all cleanup code.
Instead of GLFW we're using winit, an alternative window managment library written in pure Rust.
Add this to your Cargo.toml:
winit = "0.17.1"
And extend your main.rs:
extern crate winit;
use winit::{WindowBuilder, dpi::LogicalSize};
const WIDTH: u32 = 800;
const HEIGHT: u32 = 600;
struct HelloTriangleApplication {
events_loop: EventsLoop,
}
pub fn initialize() -> Self {
let events_loop = Self::init_window();
Self {
events_loop,
}
}
fn init_window() -> EventsLoop {
let events_loop = EventsLoop::new();
let _window = WindowBuilder::new()
.with_title("Vulkan")
.with_dimensions(LogicalSize::new(f64::from(WIDTH), f64::from(HEIGHT)))
.build(&events_loop);
events_loop
}
fn main_loop(&mut self) {
loop {
let mut done = false;
self.events_loop.poll_events(|ev| {
match ev {
Event::WindowEvent { event: WindowEvent::CloseRequested, .. } => done = true,
_ => ()
}
});
if done {
return;
}
}
}
https://vulkan-tutorial.com/Drawing_a_triangle/Setup/Instance
Cargo.toml:
vulkano-win = "0.10.0"
main.rs:
extern crate vulkano_win;
use std::sync::Arc;
use vulkano::instance::{
Instance,
InstanceExtensions,
ApplicationInfo,
Version,
};
struct HelloTriangleApplication {
instance: Option<Arc<Instance>>,
events_loop: EventsLoop,
}
pub fn initialize() -> Self {
let instance = Self::create_instance();
let events_loop = Self::init_window();
Self {
instance,
events_loop,
}
}
fn create_instance() -> Arc<Instance> {
let supported_extensions = InstanceExtensions::supported_by_core()
.expect("failed to retrieve supported extensions");
println!("Supported extensions: {:?}", supported_extensions);
let app_info = ApplicationInfo {
application_name: Some("Hello Triangle".into()),
application_version: Some(Version { major: 1, minor: 0, patch: 0 }),
engine_name: Some("No Engine".into()),
engine_version: Some(Version { major: 1, minor: 0, patch: 0 }),
};
let required_extensions = vulkano_win::required_extensions();
Instance::new(Some(&app_info), &required_extensions, None)
.expect("failed to create Vulkan instance")
}
https://vulkan-tutorial.com/Drawing_a_triangle/Setup/Validation_layers
https://vulkan-tutorial.com/Drawing_a_triangle/Setup/Physical_devices_and_queue_families
https://vulkan-tutorial.com/Drawing_a_triangle/Setup/Logical_device_and_queues
https://vulkan-tutorial.com/Drawing_a_triangle/Presentation/Window_surface
https://vulkan-tutorial.com/Drawing_a_triangle/Presentation/Swap_chain
https://vulkan-tutorial.com/Drawing_a_triangle/Presentation/Image_views
We're skipping this section because image views are handled by Vulkano and can be accessed via the SwapchainImage
s created in the last section.
https://vulkan-tutorial.com/Drawing_a_triangle/Graphics_pipeline_basics
https://vulkan-tutorial.com/Drawing_a_triangle/Graphics_pipeline_basics/Shader_modules
Instead of compiling the shaders to SPIR-V manually and loading them at runtime, we'll use vulkano-shader-derive to do the same at compile-time. Loading them at runtime is also possible, but a bit more invovled - see the runtime shader example of Vulkano.
Diff / Rust code / Vertex shader / Fragment shader
https://vulkan-tutorial.com/Drawing_a_triangle/Graphics_pipeline_basics/Fixed_functions
https://vulkan-tutorial.com/Drawing_a_triangle/Graphics_pipeline_basics/Render_passes
https://vulkan-tutorial.com/Drawing_a_triangle/Graphics_pipeline_basics/Conclusion
https://vulkan-tutorial.com/Drawing_a_triangle/Drawing/Framebuffers
https://vulkan-tutorial.com/Drawing_a_triangle/Drawing/Command_buffers
We're skipping the first part because Vulkano maintains a StandardCommandPool
.
https://vulkan-tutorial.com/Drawing_a_triangle/Drawing/Rendering_and_presentation
https://vulkan-tutorial.com/Drawing_a_triangle/Swap_chain_recreation
https://vulkan-tutorial.com/Vertex_buffers/Vertex_input_description
Vertex shader diff / Vertex shader
(Rust code combined with next section, since this alone won't compile)
https://vulkan-tutorial.com/Vertex_buffers/Vertex_buffer_creation
https://vulkan-tutorial.com/Vertex_buffers/Staging_buffer
We're just replacing CpuAccessibleBuffer
with ImmutableBuffer
, which uses a staging buffer internally. See vulkano::buffer
for an overview of Vulkano's buffer types.