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denoland-deno/op_crates/webgpu/lib.rs

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// Copyright 2018-2021 the Deno authors. All rights reserved. MIT license.
#![deny(warnings)]
use deno_core::error::AnyError;
use deno_core::error::{bad_resource_id, not_supported};
use deno_core::OpState;
use deno_core::Resource;
use deno_core::ResourceId;
use deno_core::ZeroCopyBuf;
use serde::Deserialize;
use serde::Serialize;
use std::borrow::Cow;
use std::cell::RefCell;
use std::path::PathBuf;
use std::rc::Rc;
pub use wgpu_core;
pub use wgpu_types;
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use error::DomExceptionOperationError;
use error::WebGpuResult;
#[macro_use]
mod macros {
macro_rules! gfx_select {
($id:expr => $global:ident.$method:ident( $($param:expr),* )) => {
match $id.backend() {
#[cfg(all(not(target_arch = "wasm32"), not(any(target_os = "ios", target_os = "macos"))))]
wgpu_types::Backend::Vulkan => $global.$method::<wgpu_core::backend::Vulkan>( $($param),* ),
#[cfg(all(not(target_arch = "wasm32"), any(target_os = "ios", target_os = "macos")))]
wgpu_types::Backend::Metal => $global.$method::<wgpu_core::backend::Metal>( $($param),* ),
#[cfg(all(not(target_arch = "wasm32"), windows))]
wgpu_types::Backend::Dx12 => $global.$method::<wgpu_core::backend::Dx12>( $($param),* ),
#[cfg(all(not(target_arch = "wasm32"), windows))]
wgpu_types::Backend::Dx11 => $global.$method::<wgpu_core::backend::Dx11>( $($param),* ),
#[cfg(any(target_arch = "wasm32", all(unix, not(any(target_os = "ios", target_os = "macos")))))]
wgpu_types::Backend::Gl => $global.$method::<wgpu_core::backend::Gl>( $($param),+ ),
other => panic!("Unexpected backend {:?}", other),
}
};
}
}
pub mod binding;
pub mod buffer;
pub mod bundle;
pub mod command_encoder;
pub mod compute_pass;
pub mod error;
pub mod pipeline;
pub mod queue;
pub mod render_pass;
pub mod sampler;
pub mod shader;
pub mod texture;
pub struct Unstable(pub bool);
fn check_unstable(state: &OpState, api_name: &str) {
let unstable = state.borrow::<Unstable>();
if !unstable.0 {
eprintln!(
"Unstable API '{}'. The --unstable flag must be provided.",
api_name
);
std::process::exit(70);
}
}
type Instance = wgpu_core::hub::Global<wgpu_core::hub::IdentityManagerFactory>;
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struct WebGpuAdapter(wgpu_core::id::AdapterId);
impl Resource for WebGpuAdapter {
fn name(&self) -> Cow<str> {
"webGPUAdapter".into()
}
}
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struct WebGpuDevice(wgpu_core::id::DeviceId);
impl Resource for WebGpuDevice {
fn name(&self) -> Cow<str> {
"webGPUDevice".into()
}
}
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struct WebGpuQuerySet(wgpu_core::id::QuerySetId);
impl Resource for WebGpuQuerySet {
fn name(&self) -> Cow<str> {
"webGPUQuerySet".into()
}
}
/// Execute this crates' JS source files.
pub fn init(isolate: &mut deno_core::JsRuntime) {
let files = vec![
(
"deno:op_crates/webgpu/01_webgpu.js",
include_str!("01_webgpu.js"),
),
(
"deno:op_crates/webgpu/02_idl_types.js",
include_str!("02_idl_types.js"),
),
];
for (url, source_code) in files {
isolate.execute(url, source_code).unwrap();
}
}
pub fn get_declaration() -> PathBuf {
PathBuf::from(env!("CARGO_MANIFEST_DIR")).join("lib.deno_webgpu.d.ts")
}
fn deserialize_features(features: &wgpu_types::Features) -> Vec<&'static str> {
let mut return_features: Vec<&'static str> = vec![];
if features.contains(wgpu_types::Features::DEPTH_CLAMPING) {
return_features.push("depth-clamping");
}
if features.contains(wgpu_types::Features::PIPELINE_STATISTICS_QUERY) {
return_features.push("pipeline-statistics-query");
}
if features.contains(wgpu_types::Features::TEXTURE_COMPRESSION_BC) {
return_features.push("texture-compression-bc");
}
if features.contains(wgpu_types::Features::TIMESTAMP_QUERY) {
return_features.push("timestamp-query");
}
// extended from spec
if features.contains(wgpu_types::Features::MAPPABLE_PRIMARY_BUFFERS) {
return_features.push("mappable-primary-buffers");
}
if features.contains(wgpu_types::Features::SAMPLED_TEXTURE_BINDING_ARRAY) {
return_features.push("sampled-texture-binding-array");
}
if features
.contains(wgpu_types::Features::SAMPLED_TEXTURE_ARRAY_DYNAMIC_INDEXING)
{
return_features.push("sampled-texture-array-dynamic-indexing");
}
if features
.contains(wgpu_types::Features::SAMPLED_TEXTURE_ARRAY_NON_UNIFORM_INDEXING)
{
return_features.push("sampled-texture-array-non-uniform-indexing");
}
if features.contains(wgpu_types::Features::UNSIZED_BINDING_ARRAY) {
return_features.push("unsized-binding-array");
}
if features.contains(wgpu_types::Features::MULTI_DRAW_INDIRECT) {
return_features.push("multi-draw-indirect");
}
if features.contains(wgpu_types::Features::MULTI_DRAW_INDIRECT_COUNT) {
return_features.push("multi-draw-indirect-count");
}
if features.contains(wgpu_types::Features::PUSH_CONSTANTS) {
return_features.push("push-constants");
}
if features.contains(wgpu_types::Features::ADDRESS_MODE_CLAMP_TO_BORDER) {
return_features.push("address-mode-clamp-to-border");
}
if features.contains(wgpu_types::Features::NON_FILL_POLYGON_MODE) {
return_features.push("non-fill-polygon-mode");
}
if features.contains(wgpu_types::Features::TEXTURE_COMPRESSION_ETC2) {
return_features.push("texture-compression-etc2");
}
if features.contains(wgpu_types::Features::TEXTURE_COMPRESSION_ASTC_LDR) {
return_features.push("texture-compression-astc-ldr");
}
if features
.contains(wgpu_types::Features::TEXTURE_ADAPTER_SPECIFIC_FORMAT_FEATURES)
{
return_features.push("texture-adapter-specific-format-features");
}
if features.contains(wgpu_types::Features::SHADER_FLOAT64) {
return_features.push("shader-float64");
}
if features.contains(wgpu_types::Features::VERTEX_ATTRIBUTE_64BIT) {
return_features.push("vertex-attribute-64bit");
}
return_features
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct RequestAdapterArgs {
power_preference: Option<String>,
}
#[derive(Serialize)]
#[serde(untagged)]
pub enum GpuAdapterDeviceOrErr {
Error { err: String },
Features(GpuAdapterDevice),
}
#[derive(Serialize)]
#[serde(rename_all = "camelCase")]
pub struct GpuAdapterDevice {
rid: ResourceId,
name: Option<String>,
limits: wgpu_types::Limits,
features: Vec<&'static str>,
}
pub async fn op_webgpu_request_adapter(
state: Rc<RefCell<OpState>>,
args: RequestAdapterArgs,
_bufs: Option<ZeroCopyBuf>,
) -> Result<GpuAdapterDeviceOrErr, AnyError> {
let mut state = state.borrow_mut();
check_unstable(&state, "navigator.gpu.requestAdapter");
let instance = if let Some(instance) = state.try_borrow::<Instance>() {
instance
} else {
state.put(wgpu_core::hub::Global::new(
"webgpu",
wgpu_core::hub::IdentityManagerFactory,
wgpu_types::BackendBit::PRIMARY,
));
state.borrow::<Instance>()
};
let descriptor = wgpu_core::instance::RequestAdapterOptions {
power_preference: match args.power_preference {
Some(power_preference) => match power_preference.as_str() {
"low-power" => wgpu_types::PowerPreference::LowPower,
"high-performance" => wgpu_types::PowerPreference::HighPerformance,
_ => unreachable!(),
},
None => Default::default(),
},
compatible_surface: None, // windowless
};
let res = instance.request_adapter(
&descriptor,
wgpu_core::instance::AdapterInputs::Mask(
wgpu_types::BackendBit::PRIMARY,
|_| std::marker::PhantomData,
),
);
let adapter = match res {
Ok(adapter) => adapter,
Err(err) => {
return Ok(GpuAdapterDeviceOrErr::Error {
err: err.to_string(),
})
}
};
let name = gfx_select!(adapter => instance.adapter_get_info(adapter))?.name;
let adapter_features =
gfx_select!(adapter => instance.adapter_features(adapter))?;
let features = deserialize_features(&adapter_features);
let adapter_limits =
gfx_select!(adapter => instance.adapter_limits(adapter))?;
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let rid = state.resource_table.add(WebGpuAdapter(adapter));
Ok(GpuAdapterDeviceOrErr::Features(GpuAdapterDevice {
rid,
name: Some(name),
features,
limits: adapter_limits,
}))
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
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struct GpuLimits {
_max_texture_dimension1d: Option<u32>,
_max_texture_dimension2d: Option<u32>,
_max_texture_dimension3d: Option<u32>,
_max_texture_array_layers: Option<u32>,
max_bind_groups: Option<u32>,
max_dynamic_uniform_buffers_per_pipeline_layout: Option<u32>,
max_dynamic_storage_buffers_per_pipeline_layout: Option<u32>,
max_sampled_textures_per_shader_stage: Option<u32>,
max_samplers_per_shader_stage: Option<u32>,
max_storage_buffers_per_shader_stage: Option<u32>,
max_storage_textures_per_shader_stage: Option<u32>,
max_uniform_buffers_per_shader_stage: Option<u32>,
max_uniform_buffer_binding_size: Option<u32>,
_max_storage_buffer_binding_size: Option<u32>,
_max_vertex_buffers: Option<u32>,
_max_vertex_attributes: Option<u32>,
_max_vertex_buffer_array_stride: Option<u32>,
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct RequestDeviceArgs {
adapter_rid: ResourceId,
label: Option<String>,
non_guaranteed_features: Option<Vec<String>>,
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non_guaranteed_limits: Option<GpuLimits>,
}
pub async fn op_webgpu_request_device(
state: Rc<RefCell<OpState>>,
args: RequestDeviceArgs,
_bufs: Option<ZeroCopyBuf>,
) -> Result<GpuAdapterDevice, AnyError> {
let mut state = state.borrow_mut();
let adapter_resource = state
.resource_table
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.get::<WebGpuAdapter>(args.adapter_rid)
.ok_or_else(bad_resource_id)?;
let adapter = adapter_resource.0;
let instance = state.borrow::<Instance>();
let mut features: wgpu_types::Features = wgpu_types::Features::empty();
if let Some(passed_features) = args.non_guaranteed_features {
if passed_features.contains(&"depth-clamping".to_string()) {
features.set(wgpu_types::Features::DEPTH_CLAMPING, true);
}
if passed_features.contains(&"pipeline-statistics-query".to_string()) {
features.set(wgpu_types::Features::PIPELINE_STATISTICS_QUERY, true);
}
if passed_features.contains(&"texture-compression-bc".to_string()) {
features.set(wgpu_types::Features::TEXTURE_COMPRESSION_BC, true);
}
if passed_features.contains(&"timestamp-query".to_string()) {
features.set(wgpu_types::Features::TIMESTAMP_QUERY, true);
}
// extended from spec
if passed_features.contains(&"mappable-primary-buffers".to_string()) {
features.set(wgpu_types::Features::MAPPABLE_PRIMARY_BUFFERS, true);
}
if passed_features.contains(&"sampled-texture-binding-array".to_string()) {
features.set(wgpu_types::Features::SAMPLED_TEXTURE_BINDING_ARRAY, true);
}
if passed_features
.contains(&"sampled-texture-array-dynamic-indexing".to_string())
{
features.set(
wgpu_types::Features::SAMPLED_TEXTURE_ARRAY_DYNAMIC_INDEXING,
true,
);
}
if passed_features
.contains(&"sampled-texture-array-non-uniform-indexing".to_string())
{
features.set(
wgpu_types::Features::SAMPLED_TEXTURE_ARRAY_NON_UNIFORM_INDEXING,
true,
);
}
if passed_features.contains(&"unsized-binding-array".to_string()) {
features.set(wgpu_types::Features::UNSIZED_BINDING_ARRAY, true);
}
if passed_features.contains(&"multi-draw-indirect".to_string()) {
features.set(wgpu_types::Features::MULTI_DRAW_INDIRECT, true);
}
if passed_features.contains(&"multi-draw-indirect-count".to_string()) {
features.set(wgpu_types::Features::MULTI_DRAW_INDIRECT_COUNT, true);
}
if passed_features.contains(&"push-constants".to_string()) {
features.set(wgpu_types::Features::PUSH_CONSTANTS, true);
}
if passed_features.contains(&"address-mode-clamp-to-border".to_string()) {
features.set(wgpu_types::Features::ADDRESS_MODE_CLAMP_TO_BORDER, true);
}
if passed_features.contains(&"non-fill-polygon-mode".to_string()) {
features.set(wgpu_types::Features::NON_FILL_POLYGON_MODE, true);
}
if passed_features.contains(&"texture-compression-etc2".to_string()) {
features.set(wgpu_types::Features::TEXTURE_COMPRESSION_ETC2, true);
}
if passed_features.contains(&"texture-compression-astc-ldr".to_string()) {
features.set(wgpu_types::Features::TEXTURE_COMPRESSION_ASTC_LDR, true);
}
if passed_features
.contains(&"texture-adapter-specific-format-features".to_string())
{
features.set(
wgpu_types::Features::TEXTURE_ADAPTER_SPECIFIC_FORMAT_FEATURES,
true,
);
}
if passed_features.contains(&"shader-float64".to_string()) {
features.set(wgpu_types::Features::SHADER_FLOAT64, true);
}
if passed_features.contains(&"vertex-attribute-64bit".to_string()) {
features.set(wgpu_types::Features::VERTEX_ATTRIBUTE_64BIT, true);
}
}
let descriptor = wgpu_types::DeviceDescriptor {
label: args.label.map(Cow::from),
features,
limits: args
.non_guaranteed_limits
.map_or(Default::default(), |limits| wgpu_types::Limits {
max_bind_groups: limits.max_bind_groups.unwrap_or(4),
max_dynamic_uniform_buffers_per_pipeline_layout: limits
.max_dynamic_uniform_buffers_per_pipeline_layout
.unwrap_or(8),
max_dynamic_storage_buffers_per_pipeline_layout: limits
.max_dynamic_storage_buffers_per_pipeline_layout
.unwrap_or(4),
max_sampled_textures_per_shader_stage: limits
.max_sampled_textures_per_shader_stage
.unwrap_or(16),
max_samplers_per_shader_stage: limits
.max_samplers_per_shader_stage
.unwrap_or(16),
max_storage_buffers_per_shader_stage: limits
.max_storage_buffers_per_shader_stage
.unwrap_or(4),
max_storage_textures_per_shader_stage: limits
.max_storage_textures_per_shader_stage
.unwrap_or(4),
max_uniform_buffers_per_shader_stage: limits
.max_uniform_buffers_per_shader_stage
.unwrap_or(12),
max_uniform_buffer_binding_size: limits
.max_uniform_buffer_binding_size
.unwrap_or(16384),
max_push_constant_size: 0,
}),
};
let (device, maybe_err) = gfx_select!(adapter => instance.adapter_request_device(
adapter,
&descriptor,
std::env::var("DENO_WEBGPU_TRACE").ok().as_ref().map(std::path::Path::new),
std::marker::PhantomData
));
if let Some(err) = maybe_err {
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return Err(DomExceptionOperationError::new(&err.to_string()).into());
}
let device_features =
gfx_select!(device => instance.device_features(device))?;
let features = deserialize_features(&device_features);
let limits = gfx_select!(device => instance.device_limits(device))?;
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let rid = state.resource_table.add(WebGpuDevice(device));
Ok(GpuAdapterDevice {
rid,
name: None,
features,
limits,
})
}
#[derive(Deserialize)]
#[serde(rename_all = "camelCase")]
pub struct CreateQuerySetArgs {
device_rid: ResourceId,
_label: Option<String>, // not yet implemented
#[serde(rename = "type")]
kind: String,
count: u32,
pipeline_statistics: Option<Vec<String>>,
}
pub fn op_webgpu_create_query_set(
state: &mut OpState,
args: CreateQuerySetArgs,
_zero_copy: Option<ZeroCopyBuf>,
) -> Result<WebGpuResult, AnyError> {
let device_resource = state
.resource_table
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.get::<WebGpuDevice>(args.device_rid)
.ok_or_else(bad_resource_id)?;
let device = device_resource.0;
let instance = &state.borrow::<Instance>();
let descriptor = wgpu_types::QuerySetDescriptor {
ty: match args.kind.as_str() {
"pipeline-statistics" => {
let mut pipeline_statistics_names =
wgpu_types::PipelineStatisticsTypes::empty();
if let Some(pipeline_statistics) = args.pipeline_statistics {
if pipeline_statistics
.contains(&"vertex-shader-invocations".to_string())
{
pipeline_statistics_names.set(
wgpu_types::PipelineStatisticsTypes::VERTEX_SHADER_INVOCATIONS,
true,
);
}
if pipeline_statistics.contains(&"clipper-invocations".to_string()) {
pipeline_statistics_names.set(
wgpu_types::PipelineStatisticsTypes::CLIPPER_INVOCATIONS,
true,
);
}
if pipeline_statistics.contains(&"clipper-primitives-out".to_string())
{
pipeline_statistics_names.set(
wgpu_types::PipelineStatisticsTypes::CLIPPER_PRIMITIVES_OUT,
true,
);
}
if pipeline_statistics
.contains(&"fragment-shader-invocations".to_string())
{
pipeline_statistics_names.set(
wgpu_types::PipelineStatisticsTypes::FRAGMENT_SHADER_INVOCATIONS,
true,
);
}
if pipeline_statistics
.contains(&"compute-shader-invocations".to_string())
{
pipeline_statistics_names.set(
wgpu_types::PipelineStatisticsTypes::COMPUTE_SHADER_INVOCATIONS,
true,
);
}
};
wgpu_types::QueryType::PipelineStatistics(pipeline_statistics_names)
}
"occlusion" => return Err(not_supported()),
"timestamp" => wgpu_types::QueryType::Timestamp,
_ => unreachable!(),
},
count: args.count,
};
let (query_set, maybe_err) = gfx_select!(device => instance.device_create_query_set(
device,
&descriptor,
std::marker::PhantomData
));
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let rid = state.resource_table.add(WebGpuQuerySet(query_set));
Ok(WebGpuResult::rid_err(rid, maybe_err))
}