Module wgpu_hal::gles

Available on crate feature gles only.

GLES API internals.

OpenGL ES3 API (aka GLES3).

Designed to work on Linux and Android, with context provided by EGL.

Texture views

GLES3 doesn’t really have separate texture view objects. We have to remember the original texture and the sub-range into it. Problem is, however, that there is no way to expose a subset of array layers or mip levels of a sampled texture.

Binding model

Binding model is very different from WebGPU, especially with regards to samplers. GLES3 has sampler objects, but they aren’t separately bindable to the shaders. Each sampled texture is exposed to the shader as a combined texture-sampler binding.

When building the pipeline layout, we linearize binding entries based on the groups (uniform/storage buffers, uniform/storage textures), and record the mapping into BindGroupLayoutInfo. When a pipeline gets created, and we track all the texture-sampler associations from the static use in the shader. We only support at most one sampler used with each texture so far. The linear index of this sampler is stored per texture slot in SamplerBindMap array.

The texture-sampler pairs get potentially invalidated in 2 places:

• when a new pipeline is set, we update the linear indices of associated samplers
• when a new bind group is set, we update both the textures and the samplers

We expect that the changes to sampler states between any 2 pipelines of the same layout will be minimal, if any.

Vertex data

Generally, vertex buffers are marked as dirty and lazily bound on draw.

GLES3 doesn’t support “base instance” semantics. However, it’s easy to support, since we are forced to do late binding anyway. We just adjust the offsets into the vertex data.

Old path

In GLES-3.0 and WebGL2, vertex buffer layout is provided together with the actual buffer binding. We invalidate the attributes on the vertex buffer change, and re-bind them.

New path

In GLES-3.1 and higher, the vertex buffer layout can be declared separately from the vertex data itself. This mostly matches WebGPU, however there is a catch: stride needs to be specified with the data, not as a part of the layout.

To address this, we invalidate the vertex buffers based on:

• whether or not start_instance is used
• stride has changed

Structs

• Adapter
• AdapterContextNon-WebAssembly or emscripten
  A wrapper around a glow::Context and the required EGL context that uses locking to guarantee exclusive access when shared with multiple threads.
• AdapterContextLockNon-WebAssembly or emscripten
  A guard containing a lock to an AdapterContext
• Api
• BindGroup
• BindGroupLayout
• Buffer
• CommandBuffer
• CommandEncoder
• ComputePipeline
• Device
• Fence
• PipelineLayout
• QuerySet
• Queue
• RenderPipeline
• Sampler
• ShaderModule
• Texture
• TextureFormatDesc
• TextureView

Enums

• TextureInner