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denoland-deno/op_crates/webgpu/pipeline.rs
Aaron O'Mullan 2aed322dd5
refactor: convert ops to use serde_v8 (#10009)
This commit rewrites most of the ops to use "serde_v8" instead
of "json" serialization.
2021-04-05 18:40:24 +02:00

643 lines
21 KiB
Rust

// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
use deno_core::error::bad_resource_id;
use deno_core::error::AnyError;
use deno_core::ResourceId;
use deno_core::ZeroCopyBuf;
use deno_core::{OpState, Resource};
use serde::Deserialize;
use serde::Serialize;
use std::borrow::Cow;
use super::error::{WebGpuError, WebGpuResult};
pub(crate) struct WebGpuPipelineLayout(
pub(crate) wgpu_core::id::PipelineLayoutId,
);
impl Resource for WebGpuPipelineLayout {
fn name(&self) -> Cow<str> {
"webGPUPipelineLayout".into()
}
}
pub(crate) struct WebGpuComputePipeline(
pub(crate) wgpu_core::id::ComputePipelineId,
);
impl Resource for WebGpuComputePipeline {
fn name(&self) -> Cow<str> {
"webGPUComputePipeline".into()
}
}
pub(crate) struct WebGpuRenderPipeline(
pub(crate) wgpu_core::id::RenderPipelineId,
);
impl Resource for WebGpuRenderPipeline {
fn name(&self) -> Cow<str> {
"webGPURenderPipeline".into()
}
}
pub fn serialize_index_format(format: String) -> wgpu_types::IndexFormat {
match format.as_str() {
"uint16" => wgpu_types::IndexFormat::Uint16,
"uint32" => wgpu_types::IndexFormat::Uint32,
_ => unreachable!(),
}
}
fn serialize_stencil_operation(
operation: &str,
) -> wgpu_types::StencilOperation {
match operation {
"keep" => wgpu_types::StencilOperation::Keep,
"zero" => wgpu_types::StencilOperation::Zero,
"replace" => wgpu_types::StencilOperation::Replace,
"invert" => wgpu_types::StencilOperation::Invert,
"increment-clamp" => wgpu_types::StencilOperation::IncrementClamp,
"decrement-clamp" => wgpu_types::StencilOperation::DecrementClamp,
"increment-wrap" => wgpu_types::StencilOperation::IncrementWrap,
"decrement-wrap" => wgpu_types::StencilOperation::DecrementWrap,
_ => unreachable!(),
}
}
fn serialize_stencil_face_state(
state: GpuStencilFaceState,
) -> wgpu_types::StencilFaceState {
wgpu_types::StencilFaceState {
compare: state
.compare
.as_ref()
.map_or(wgpu_types::CompareFunction::Always, |op| {
super::sampler::serialize_compare_function(op)
}),
fail_op: state
.fail_op
.as_ref()
.map_or(wgpu_types::StencilOperation::Keep, |op| {
serialize_stencil_operation(op)
}),
depth_fail_op: state
.depth_fail_op
.as_ref()
.map_or(wgpu_types::StencilOperation::Keep, |op| {
serialize_stencil_operation(op)
}),
pass_op: state
.pass_op
.as_ref()
.map_or(wgpu_types::StencilOperation::Keep, |op| {
serialize_stencil_operation(op)
}),
}
}
fn serialize_blend_factor(blend_factor: &str) -> wgpu_types::BlendFactor {
match blend_factor {
"zero" => wgpu_types::BlendFactor::Zero,
"one" => wgpu_types::BlendFactor::One,
"src-color" => wgpu_types::BlendFactor::SrcColor,
"one-minus-src-color" => wgpu_types::BlendFactor::OneMinusSrcColor,
"src-alpha" => wgpu_types::BlendFactor::SrcAlpha,
"one-minus-src-alpha" => wgpu_types::BlendFactor::OneMinusSrcAlpha,
"dst-color" => wgpu_types::BlendFactor::DstColor,
"one-minus-dst-color" => wgpu_types::BlendFactor::OneMinusDstColor,
"dst-alpha" => wgpu_types::BlendFactor::DstAlpha,
"one-minus-dst-alpha" => wgpu_types::BlendFactor::OneMinusDstAlpha,
"src-alpha-saturated" => wgpu_types::BlendFactor::SrcAlphaSaturated,
"blend-color" => wgpu_types::BlendFactor::BlendColor,
"one-minus-blend-color" => wgpu_types::BlendFactor::OneMinusBlendColor,
_ => unreachable!(),
}
}
fn serialize_blend_component(
blend: GpuBlendComponent,
) -> wgpu_types::BlendState {
wgpu_types::BlendState {
src_factor: blend
.src_factor
.as_ref()
.map_or(wgpu_types::BlendFactor::One, |factor| {
serialize_blend_factor(factor)
}),
dst_factor: blend
.dst_factor
.as_ref()
.map_or(wgpu_types::BlendFactor::Zero, |factor| {
serialize_blend_factor(factor)
}),
operation: match &blend.operation {
Some(operation) => match operation.as_str() {
"add" => wgpu_types::BlendOperation::Add,
"subtract" => wgpu_types::BlendOperation::Subtract,
"reverse-subtract" => wgpu_types::BlendOperation::ReverseSubtract,
"min" => wgpu_types::BlendOperation::Min,
"max" => wgpu_types::BlendOperation::Max,
_ => unreachable!(),
},
None => wgpu_types::BlendOperation::Add,
},
}
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuProgrammableStage {
module: u32,
entry_point: String,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct CreateComputePipelineArgs {
device_rid: ResourceId,
label: Option<String>,
layout: Option<u32>,
compute: GpuProgrammableStage,
}
pub fn op_webgpu_create_compute_pipeline(
state: &mut OpState,
args: CreateComputePipelineArgs,
_zero_copy: Option<ZeroCopyBuf>,
) -> Result<WebGpuResult, AnyError> {
let instance = state.borrow::<super::Instance>();
let device_resource = state
.resource_table
.get::<super::WebGpuDevice>(args.device_rid)
.ok_or_else(bad_resource_id)?;
let device = device_resource.0;
let pipeline_layout = if let Some(rid) = args.layout {
let id = state
.resource_table
.get::<WebGpuPipelineLayout>(rid)
.ok_or_else(bad_resource_id)?;
Some(id.0)
} else {
None
};
let compute_shader_module_resource = state
.resource_table
.get::<super::shader::WebGpuShaderModule>(args.compute.module)
.ok_or_else(bad_resource_id)?;
let descriptor = wgpu_core::pipeline::ComputePipelineDescriptor {
label: args.label.map(Cow::from),
layout: pipeline_layout,
stage: wgpu_core::pipeline::ProgrammableStageDescriptor {
module: compute_shader_module_resource.0,
entry_point: Cow::from(args.compute.entry_point),
},
};
let implicit_pipelines = match args.layout {
Some(_) => None,
None => Some(wgpu_core::device::ImplicitPipelineIds {
root_id: std::marker::PhantomData,
group_ids: &[std::marker::PhantomData; wgpu_core::MAX_BIND_GROUPS],
}),
};
let (compute_pipeline, _, maybe_err) = gfx_select!(device => instance.device_create_compute_pipeline(
device,
&descriptor,
std::marker::PhantomData,
implicit_pipelines
));
let rid = state
.resource_table
.add(WebGpuComputePipeline(compute_pipeline));
Ok(WebGpuResult::rid_err(rid, maybe_err))
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct ComputePipelineGetBindGroupLayoutArgs {
compute_pipeline_rid: ResourceId,
index: u32,
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
pub struct PipelineLayout {
rid: ResourceId,
label: String,
err: Option<WebGpuError>,
}
pub fn op_webgpu_compute_pipeline_get_bind_group_layout(
state: &mut OpState,
args: ComputePipelineGetBindGroupLayoutArgs,
_zero_copy: Option<ZeroCopyBuf>,
) -> Result<PipelineLayout, AnyError> {
let instance = state.borrow::<super::Instance>();
let compute_pipeline_resource = state
.resource_table
.get::<WebGpuComputePipeline>(args.compute_pipeline_rid)
.ok_or_else(bad_resource_id)?;
let compute_pipeline = compute_pipeline_resource.0;
let (bind_group_layout, maybe_err) = gfx_select!(compute_pipeline => instance.compute_pipeline_get_bind_group_layout(compute_pipeline, args.index, std::marker::PhantomData));
let label = gfx_select!(bind_group_layout => instance.bind_group_layout_label(bind_group_layout));
let rid = state
.resource_table
.add(super::binding::WebGpuBindGroupLayout(bind_group_layout));
Ok(PipelineLayout {
rid,
label,
err: maybe_err.map(WebGpuError::from),
})
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuPrimitiveState {
topology: Option<String>,
strip_index_format: Option<String>,
front_face: Option<String>,
cull_mode: Option<String>,
}
#[derive(Deserialize, Clone)]
#[serde(rename_all = "camelCase")]
struct GpuBlendComponent {
src_factor: Option<String>,
dst_factor: Option<String>,
operation: Option<String>,
}
#[derive(Deserialize, Clone)]
#[serde(rename_all = "camelCase")]
struct GpuBlendState {
color: GpuBlendComponent,
alpha: GpuBlendComponent,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuColorTargetState {
format: String,
blend: Option<GpuBlendState>,
write_mask: Option<u32>,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuStencilFaceState {
compare: Option<String>,
fail_op: Option<String>,
depth_fail_op: Option<String>,
pass_op: Option<String>,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuDepthStencilState {
format: String,
depth_write_enabled: Option<bool>,
depth_compare: Option<String>,
stencil_front: Option<GpuStencilFaceState>,
stencil_back: Option<GpuStencilFaceState>,
stencil_read_mask: Option<u32>,
stencil_write_mask: Option<u32>,
depth_bias: Option<i32>,
depth_bias_slope_scale: Option<f32>,
depth_bias_clamp: Option<f32>,
clamp_depth: Option<bool>,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuVertexAttribute {
format: String,
offset: u64,
shader_location: u32,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuVertexBufferLayout {
array_stride: u64,
step_mode: Option<String>,
attributes: Vec<GpuVertexAttribute>,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuVertexState {
module: u32,
entry_point: String,
buffers: Option<Vec<Option<GpuVertexBufferLayout>>>,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuMultisampleState {
count: Option<u32>,
mask: Option<u64>, // against spec, but future proof
alpha_to_coverage_enabled: Option<bool>,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
struct GpuFragmentState {
targets: Vec<GpuColorTargetState>,
module: u32,
entry_point: String,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct CreateRenderPipelineArgs {
device_rid: ResourceId,
label: Option<String>,
layout: Option<u32>,
vertex: GpuVertexState,
primitive: Option<GpuPrimitiveState>,
depth_stencil: Option<GpuDepthStencilState>,
multisample: Option<GpuMultisampleState>,
fragment: Option<GpuFragmentState>,
}
pub fn op_webgpu_create_render_pipeline(
state: &mut OpState,
args: CreateRenderPipelineArgs,
_zero_copy: Option<ZeroCopyBuf>,
) -> Result<WebGpuResult, AnyError> {
let instance = state.borrow::<super::Instance>();
let device_resource = state
.resource_table
.get::<super::WebGpuDevice>(args.device_rid)
.ok_or_else(bad_resource_id)?;
let device = device_resource.0;
let layout = if let Some(rid) = args.layout {
let pipeline_layout_resource = state
.resource_table
.get::<WebGpuPipelineLayout>(rid)
.ok_or_else(bad_resource_id)?;
Some(pipeline_layout_resource.0)
} else {
None
};
let vertex_shader_module_resource = state
.resource_table
.get::<super::shader::WebGpuShaderModule>(args.vertex.module)
.ok_or_else(bad_resource_id)?;
let descriptor = wgpu_core::pipeline::RenderPipelineDescriptor {
label: args.label.map(Cow::from),
layout,
vertex: wgpu_core::pipeline::VertexState {
stage: wgpu_core::pipeline::ProgrammableStageDescriptor {
module: vertex_shader_module_resource.0,
entry_point: Cow::from(args.vertex.entry_point),
},
buffers: Cow::from(if let Some(buffers) = args.vertex.buffers {
let mut return_buffers = vec![];
for buffer in buffers.into_iter().flatten() {
return_buffers.push(wgpu_core::pipeline::VertexBufferLayout {
array_stride: buffer.array_stride,
step_mode: match buffer.step_mode {
Some(step_mode) => match step_mode.as_str() {
"vertex" => wgpu_types::InputStepMode::Vertex,
"instance" => wgpu_types::InputStepMode::Instance,
_ => unreachable!(),
},
None => wgpu_types::InputStepMode::Vertex,
},
attributes: Cow::from(
buffer
.attributes
.iter()
.map(|attribute| wgpu_types::VertexAttribute {
format: match attribute.format.as_str() {
"uchar2" => wgpu_types::VertexFormat::Uchar2,
"uchar4" => wgpu_types::VertexFormat::Uchar4,
"char2" => wgpu_types::VertexFormat::Char2,
"char4" => wgpu_types::VertexFormat::Char4,
"uchar2norm" => wgpu_types::VertexFormat::Uchar2Norm,
"uchar4norm" => wgpu_types::VertexFormat::Uchar4,
"char2norm" => wgpu_types::VertexFormat::Char2Norm,
"char4norm" => wgpu_types::VertexFormat::Char4Norm,
"ushort2" => wgpu_types::VertexFormat::Ushort2,
"ushort4" => wgpu_types::VertexFormat::Ushort4,
"short2" => wgpu_types::VertexFormat::Short2,
"short4" => wgpu_types::VertexFormat::Short4,
"ushort2norm" => wgpu_types::VertexFormat::Ushort2Norm,
"ushort4norm" => wgpu_types::VertexFormat::Ushort4Norm,
"short2norm" => wgpu_types::VertexFormat::Short2Norm,
"short4norm" => wgpu_types::VertexFormat::Short4Norm,
"half2" => wgpu_types::VertexFormat::Half2,
"half4" => wgpu_types::VertexFormat::Half4,
"float" => wgpu_types::VertexFormat::Float,
"float2" => wgpu_types::VertexFormat::Float2,
"float3" => wgpu_types::VertexFormat::Float3,
"float4" => wgpu_types::VertexFormat::Float4,
"uint" => wgpu_types::VertexFormat::Uint,
"uint2" => wgpu_types::VertexFormat::Uint2,
"uint3" => wgpu_types::VertexFormat::Uint3,
"uint4" => wgpu_types::VertexFormat::Uint4,
"int" => wgpu_types::VertexFormat::Int,
"int2" => wgpu_types::VertexFormat::Int2,
"int3" => wgpu_types::VertexFormat::Int3,
"int4" => wgpu_types::VertexFormat::Int4,
_ => unreachable!(),
},
offset: attribute.offset,
shader_location: attribute.shader_location,
})
.collect::<Vec<wgpu_types::VertexAttribute>>(),
),
});
}
return_buffers
} else {
vec![]
}),
},
primitive: args.primitive.map_or(Default::default(), |primitive| {
wgpu_types::PrimitiveState {
topology: match primitive.topology {
Some(topology) => match topology.as_str() {
"point-list" => wgpu_types::PrimitiveTopology::PointList,
"line-list" => wgpu_types::PrimitiveTopology::LineList,
"line-strip" => wgpu_types::PrimitiveTopology::LineStrip,
"triangle-list" => wgpu_types::PrimitiveTopology::TriangleList,
"triangle-strip" => wgpu_types::PrimitiveTopology::TriangleStrip,
_ => unreachable!(),
},
None => wgpu_types::PrimitiveTopology::TriangleList,
},
strip_index_format: primitive
.strip_index_format
.map(serialize_index_format),
front_face: match primitive.front_face {
Some(front_face) => match front_face.as_str() {
"ccw" => wgpu_types::FrontFace::Ccw,
"cw" => wgpu_types::FrontFace::Cw,
_ => unreachable!(),
},
None => wgpu_types::FrontFace::Ccw,
},
cull_mode: match primitive.cull_mode {
Some(cull_mode) => match cull_mode.as_str() {
"none" => wgpu_types::CullMode::None,
"front" => wgpu_types::CullMode::Front,
"back" => wgpu_types::CullMode::Back,
_ => unreachable!(),
},
None => wgpu_types::CullMode::None,
},
polygon_mode: Default::default(), // native-only
}
}),
depth_stencil: args.depth_stencil.map(|depth_stencil| {
wgpu_types::DepthStencilState {
format: super::texture::serialize_texture_format(&depth_stencil.format)
.unwrap(),
depth_write_enabled: depth_stencil.depth_write_enabled.unwrap_or(false),
depth_compare: match depth_stencil.depth_compare {
Some(depth_compare) => {
super::sampler::serialize_compare_function(&depth_compare)
}
None => wgpu_types::CompareFunction::Always,
},
stencil: wgpu_types::StencilState {
front: depth_stencil
.stencil_front
.map_or(Default::default(), serialize_stencil_face_state),
back: depth_stencil
.stencil_back
.map_or(Default::default(), serialize_stencil_face_state),
read_mask: depth_stencil.stencil_read_mask.unwrap_or(0xFFFFFFFF),
write_mask: depth_stencil.stencil_write_mask.unwrap_or(0xFFFFFFFF),
},
bias: wgpu_types::DepthBiasState {
constant: depth_stencil.depth_bias.unwrap_or(0),
slope_scale: depth_stencil.depth_bias_slope_scale.unwrap_or(0.0),
clamp: depth_stencil.depth_bias_clamp.unwrap_or(0.0),
},
clamp_depth: depth_stencil.clamp_depth.unwrap_or(false),
}
}),
multisample: args.multisample.map_or(Default::default(), |multisample| {
wgpu_types::MultisampleState {
count: multisample.count.unwrap_or(1),
mask: multisample.mask.unwrap_or(0xFFFFFFFF),
alpha_to_coverage_enabled: multisample
.alpha_to_coverage_enabled
.unwrap_or(false),
}
}),
fragment: args.fragment.map(|fragment| {
let fragment_shader_module_resource = state
.resource_table
.get::<super::shader::WebGpuShaderModule>(fragment.module)
.ok_or_else(bad_resource_id)
.unwrap();
wgpu_core::pipeline::FragmentState {
stage: wgpu_core::pipeline::ProgrammableStageDescriptor {
module: fragment_shader_module_resource.0,
entry_point: Cow::from(fragment.entry_point),
},
targets: Cow::from(
fragment
.targets
.iter()
.map(|target| {
let blends = target.blend.clone().map(|blend| {
(
serialize_blend_component(blend.alpha),
serialize_blend_component(blend.color),
)
});
wgpu_types::ColorTargetState {
format: super::texture::serialize_texture_format(
&target.format,
)
.unwrap(),
alpha_blend: blends
.clone()
.map_or(Default::default(), |states| states.0),
color_blend: blends
.map_or(Default::default(), |states| states.1),
write_mask: target
.write_mask
.map_or(Default::default(), |mask| {
wgpu_types::ColorWrite::from_bits(mask).unwrap()
}),
}
})
.collect::<Vec<wgpu_types::ColorTargetState>>(),
),
}
}),
};
let implicit_pipelines = match args.layout {
Some(_) => None,
None => Some(wgpu_core::device::ImplicitPipelineIds {
root_id: std::marker::PhantomData,
group_ids: &[std::marker::PhantomData; wgpu_core::MAX_BIND_GROUPS],
}),
};
let (render_pipeline, _, maybe_err) = gfx_select!(device => instance.device_create_render_pipeline(
device,
&descriptor,
std::marker::PhantomData,
implicit_pipelines
));
let rid = state
.resource_table
.add(WebGpuRenderPipeline(render_pipeline));
Ok(WebGpuResult::rid_err(rid, maybe_err))
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct RenderPipelineGetBindGroupLayoutArgs {
render_pipeline_rid: ResourceId,
index: u32,
}
pub fn op_webgpu_render_pipeline_get_bind_group_layout(
state: &mut OpState,
args: RenderPipelineGetBindGroupLayoutArgs,
_zero_copy: Option<ZeroCopyBuf>,
) -> Result<PipelineLayout, AnyError> {
let instance = state.borrow::<super::Instance>();
let render_pipeline_resource = state
.resource_table
.get::<WebGpuRenderPipeline>(args.render_pipeline_rid)
.ok_or_else(bad_resource_id)?;
let render_pipeline = render_pipeline_resource.0;
let (bind_group_layout, maybe_err) = gfx_select!(render_pipeline => instance.render_pipeline_get_bind_group_layout(render_pipeline, args.index, std::marker::PhantomData));
let label = gfx_select!(bind_group_layout => instance.bind_group_layout_label(bind_group_layout));
let rid = state
.resource_table
.add(super::binding::WebGpuBindGroupLayout(bind_group_layout));
Ok(PipelineLayout {
rid,
label,
err: maybe_err.map(WebGpuError::from),
})
}