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This commit implements opt-in GPU frustum culling, built on top of the infrastructure in https://github.com/bevyengine/bevy/pull/12773. To enable it on a camera, add the `GpuCulling` component to it. To additionally disable CPU frustum culling, add the `NoCpuCulling` component. Note that adding `GpuCulling` without `NoCpuCulling` *currently* does nothing useful. The reason why `GpuCulling` doesn't automatically imply `NoCpuCulling` is that I intend to follow this patch up with GPU two-phase occlusion culling, and CPU frustum culling plus GPU occlusion culling seems like a very commonly-desired mode. Adding the `GpuCulling` component to a view puts that view into *indirect mode*. This mode makes all drawcalls indirect, relying on the mesh preprocessing shader to allocate instances dynamically. In indirect mode, the `PreprocessWorkItem` `output_index` points not to a `MeshUniform` instance slot but instead to a set of `wgpu` `IndirectParameters`, from which it allocates an instance slot dynamically if frustum culling succeeds. Batch building has been updated to allocate and track indirect parameter slots, and the AABBs are now supplied to the GPU as `MeshCullingData`. A small amount of code relating to the frustum culling has been borrowed from meshlets and moved into `maths.wgsl`. Note that standard Bevy frustum culling uses AABBs, while meshlets use bounding spheres; this means that not as much code can be shared as one might think. This patch doesn't provide any way to perform GPU culling on shadow maps, to avoid making this patch bigger than it already is. That can be a followup. ## Changelog ### Added * Frustum culling can now optionally be done on the GPU. To enable it, add the `GpuCulling` component to a camera. * To disable CPU frustum culling, add `NoCpuCulling` to a camera. Note that `GpuCulling` doesn't automatically imply `NoCpuCulling`. |
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