Provides a mechanism to lay out data into GPU buffers ensuring WGSL's memory layout requirements are met.
&T, &mut T, Box<T>, ...)Having to manually lay out data into GPU buffers can become very tedious and error prone. How do you make sure the data in the buffer is laid out correctly? Enforce it so that future changes don't break this delicate balance?
encase gives you the ability to make sure at compile time that your types will be laid out correctly.
The core trait is [WgslType] which mainly contains metadata about the given type.
The [WriteInto], [ReadFrom] and [CreateFrom] traits represent the ability of a type to be written into the buffer, read from the buffer and created from the buffer respectively.
Most data types can implement the above traits via their respective macros:
impl_vector!] for vectorsimpl_matrix!] for matricesimpl_rts_array!] for runtime-sized arraysimpl_wrapper!] for wrappersWgslType for structsThe [UniformBuffer], [StorageBuffer], [DynamicUniformBuffer] and [DynamicStorageBuffer] structs are wrappers around an underlying raw buffer (a type implementing [BufferRef] and/or [BufferMut] depending on required capability). They facilitate the read/write/create operations.
Write affine transform to uniform buffer
```rust use encase::{WgslType, UniformBuffer};
struct AffineTransform2D { matrix: glam::Mat2, translate: glam::Vec2 }
let transform = AffineTransform2D { matrix: glam::Mat2::IDENTITY, translate: glam::Vec2::ZERO, };
let mut buffer = UniformBuffer::new(Vec::new()); buffer.write(&transform).unwrap(); let bytebuffer = buffer.intoinner();
// write byte_buffer to GPU
asserteq!(&bytebuffer, &[0, 0, 128, 63, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 128, 63, 0, 0, 0, 0, 0, 0, 0, 0]); ```
Create vector instance by reading from dynamic uniform buffer at specific offset
```rust use encase::DynamicUniformBuffer;
// read bytebuffer from GPU let bytebuffer = [1u8; 256 + 8];
let mut buffer = DynamicUniformBuffer::new(&bytebuffer);
buffer.setoffset(256);
let vector: mint::Vector2
assert_eq!(vector, mint::Vector2 { x: 16843009, y: 16843009 }); ```
Write and read back data from storage buffer
```rust use encase::{WgslType, ArrayLength, StorageBuffer};
struct Positions {
length: ArrayLength,
#[size(runtime)]
positions: Vec
let mut positions = Positions { length: ArrayLength, positions: Vec::from([ mint::Point2 { x: 4.5, y: 3.4 }, mint::Point2 { x: 1.5, y: 7.4 }, mint::Point2 { x: 4.3, y: 1.9 }, ]) };
let mut byte_buffer = Vec::new();
let mut buffer = StorageBuffer::new(&mut byte_buffer); buffer.write(&positions).unwrap();
// write byte_buffer to GPU
// change length on GPU side byte_buffer[0] = 2;
// read byte_buffer from GPU
let mut buffer = StorageBuffer::new(&mut byte_buffer); buffer.read(&mut positions).unwrap();
assert_eq!(positions.positions.len(), 2);
```
Write different data types to dynamic storage buffer
```rust use encase::{WgslType, DynamicStorageBuffer};
let mut byte_buffer = Vec::new();
let mut buffer = DynamicStorageBuffer::newwithalignment(&mut byte_buffer, 64); let offsets = [ buffer.write(&[5.; 10]).unwrap(), buffer.write(&vec![3u32; 20]).unwrap(), buffer.write(&glam::Vec3::ONE).unwrap(), ];
// write byte_buffer to GPU
assert_eq!(offsets, [0, 64, 192]);
```