Fix set_push_constants for render bundles (#6540)

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fyellin 2024-11-19 02:12:21 -08:00 committed by GitHub
parent 0b82776947
commit 2389106a75
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2 changed files with 221 additions and 2 deletions

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@ -1,5 +1,8 @@
use std::mem::size_of;
use std::num::NonZeroU64; use std::num::NonZeroU64;
use wgpu::util::RenderEncoder;
use wgpu::*;
use wgpu_test::{gpu_test, GpuTestConfiguration, TestParameters, TestingContext}; use wgpu_test::{gpu_test, GpuTestConfiguration, TestParameters, TestingContext};
/// We want to test that partial updates to push constants work as expected. /// We want to test that partial updates to push constants work as expected.
@ -153,3 +156,219 @@ async fn partial_update_test(ctx: TestingContext) {
// second 4 floats the first update // second 4 floats the first update
assert_eq!(floats, [1.0, 2.0, 3.0, 4.0, 1.0, 5.0, 3.0, 4.0]); assert_eq!(floats, [1.0, 2.0, 3.0, 4.0, 1.0, 5.0, 3.0, 4.0]);
} }
#[gpu_test]
static RENDER_PASS_TEST: GpuTestConfiguration = GpuTestConfiguration::new()
.parameters(
TestParameters::default()
.features(Features::PUSH_CONSTANTS | Features::VERTEX_WRITABLE_STORAGE)
.limits(wgpu::Limits {
max_push_constant_size: 64,
..Default::default()
}),
)
.run_async(move |ctx| async move {
for use_render_bundle in [false, true] {
render_pass_test(&ctx, use_render_bundle).await;
}
});
// This shader simply moves the values from vector_constants and push_constants into the
// result buffer. It expects to be called 4 times (with vector_index in 0..4) with its
// topology being PointList, so that each vertex shader call leads to exactly one fragment
// call.
const SHADER2: &str = "
const POSITION: vec4f = vec4f(0, 0, 0, 1);
struct PushConstants {
vertex_constants: vec4i,
fragment_constants: vec4i,
}
var<push_constant> push_constants: PushConstants;
@group(0) @binding(0) var<storage, read_write> result: array<i32>;
struct VertexOutput {
@builtin(position) position: vec4f,
@location(0) index: u32,
}
@vertex fn vertex(
@builtin(vertex_index) ix: u32,
) -> VertexOutput {
result[ix] = push_constants.vertex_constants[ix];
return VertexOutput(POSITION, ix);
}
@fragment fn fragment(
@location(0) ix: u32,
) -> @location(0) vec4f {
result[ix + 4u] = push_constants.fragment_constants[ix];
return vec4f();
}
";
async fn render_pass_test(ctx: &TestingContext, use_render_bundle: bool) {
let output_buffer = ctx.device.create_buffer(&BufferDescriptor {
label: Some("output buffer"),
size: 8 * size_of::<u32>() as BufferAddress,
usage: BufferUsages::STORAGE | BufferUsages::COPY_SRC,
mapped_at_creation: false,
});
let cpu_buffer = ctx.device.create_buffer(&BufferDescriptor {
label: Some("cpu buffer"),
size: output_buffer.size(),
usage: BufferUsages::COPY_DST | BufferUsages::MAP_READ,
mapped_at_creation: false,
});
// We need an output texture, even though we're not ever going to look at it.
let output_texture = ctx.device.create_texture(&TextureDescriptor {
size: Extent3d {
width: 2,
height: 2,
depth_or_array_layers: 1,
},
mip_level_count: 1,
sample_count: 1,
dimension: TextureDimension::D2,
format: TextureFormat::Rgba8UnormSrgb,
usage: TextureUsages::RENDER_ATTACHMENT,
label: Some("Output Texture"),
view_formats: &[],
});
let output_texture_view = output_texture.create_view(&Default::default());
let shader = ctx.device.create_shader_module(ShaderModuleDescriptor {
label: Some("Shader"),
source: ShaderSource::Wgsl(SHADER2.into()),
});
let bind_group_layout = ctx
.device
.create_bind_group_layout(&BindGroupLayoutDescriptor {
label: None,
entries: &[BindGroupLayoutEntry {
binding: 0,
visibility: ShaderStages::VERTEX_FRAGMENT,
ty: BindingType::Buffer {
ty: BufferBindingType::Storage { read_only: false },
has_dynamic_offset: false,
min_binding_size: None,
},
count: None,
}],
});
let render_pipeline_layout = ctx
.device
.create_pipeline_layout(&PipelineLayoutDescriptor {
bind_group_layouts: &[&bind_group_layout],
push_constant_ranges: &[PushConstantRange {
stages: ShaderStages::VERTEX_FRAGMENT,
range: 0..8 * size_of::<u32>() as u32,
}],
..Default::default()
});
let pipeline = ctx
.device
.create_render_pipeline(&RenderPipelineDescriptor {
label: Some("Render Pipeline"),
layout: Some(&render_pipeline_layout),
vertex: VertexState {
module: &shader,
entry_point: None,
buffers: &[],
compilation_options: Default::default(),
},
fragment: Some(FragmentState {
module: &shader,
entry_point: None,
targets: &[Some(output_texture.format().into())],
compilation_options: Default::default(),
}),
primitive: PrimitiveState {
topology: PrimitiveTopology::PointList,
..Default::default()
},
depth_stencil: None,
multisample: MultisampleState::default(),
multiview: None,
cache: None,
});
let render_pass_desc = RenderPassDescriptor {
label: Some("Render Pass"),
color_attachments: &[Some(RenderPassColorAttachment {
view: &output_texture_view,
resolve_target: None,
ops: Operations {
load: LoadOp::Clear(Color::default()),
store: StoreOp::Store,
},
})],
..Default::default()
};
let bind_group = ctx.device.create_bind_group(&BindGroupDescriptor {
label: Some("bind group"),
layout: &pipeline.get_bind_group_layout(0),
entries: &[BindGroupEntry {
binding: 0,
resource: output_buffer.as_entire_binding(),
}],
});
let data: Vec<i32> = (0..8).map(|i| (i * i) - 1).collect();
fn do_encoding<'a>(
encoder: &mut dyn RenderEncoder<'a>,
pipeline: &'a RenderPipeline,
bind_group: &'a BindGroup,
data: &'a Vec<i32>,
) {
let data_as_u8: &[u8] = bytemuck::cast_slice(data.as_slice());
encoder.set_pipeline(pipeline);
encoder.set_push_constants(ShaderStages::VERTEX_FRAGMENT, 0, data_as_u8);
encoder.set_bind_group(0, Some(bind_group), &[]);
encoder.draw(0..4, 0..1);
}
let mut command_encoder = ctx
.device
.create_command_encoder(&CommandEncoderDescriptor::default());
{
let mut render_pass = command_encoder.begin_render_pass(&render_pass_desc);
if use_render_bundle {
// Execute the commands in a render_bundle_encoder.
let mut render_bundle_encoder =
ctx.device
.create_render_bundle_encoder(&RenderBundleEncoderDescriptor {
color_formats: &[Some(output_texture.format())],
sample_count: 1,
..RenderBundleEncoderDescriptor::default()
});
do_encoding(&mut render_bundle_encoder, &pipeline, &bind_group, &data);
let render_bundle = render_bundle_encoder.finish(&RenderBundleDescriptor::default());
render_pass.execute_bundles([&render_bundle]);
} else {
// Execute the commands directly.
do_encoding(&mut render_pass, &pipeline, &bind_group, &data);
}
}
// Move the result to the cpu buffer, so that we can read them.
command_encoder.copy_buffer_to_buffer(&output_buffer, 0, &cpu_buffer, 0, output_buffer.size());
let command_buffer = command_encoder.finish();
ctx.queue.submit([command_buffer]);
cpu_buffer.slice(..).map_async(MapMode::Read, |_| ());
ctx.async_poll(wgpu::Maintain::wait())
.await
.panic_on_timeout();
let mapped_data = cpu_buffer.slice(..).get_mapped_range();
let result = bytemuck::cast_slice::<u8, i32>(&mapped_data).to_vec();
drop(mapped_data);
cpu_buffer.unmap();
assert_eq!(&result, &data);
}

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@ -543,8 +543,8 @@ impl RenderBundleEncoder {
label: desc.label.as_ref().map(|cow| cow.to_string()), label: desc.label.as_ref().map(|cow| cow.to_string()),
commands, commands,
dynamic_offsets: flat_dynamic_offsets, dynamic_offsets: flat_dynamic_offsets,
string_data: Vec::new(), string_data: self.base.string_data,
push_constant_data: Vec::new(), push_constant_data: self.base.push_constant_data,
}, },
is_depth_read_only: self.is_depth_read_only, is_depth_read_only: self.is_depth_read_only,
is_stencil_read_only: self.is_stencil_read_only, is_stencil_read_only: self.is_stencil_read_only,