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// Copyright 2020 The Dawn Authors
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "common/Assert.h"
#include "tests/unittests/validation/ValidationTest.h"
#include "utils/ComboRenderPipelineDescriptor.h"
#include "utils/TextureUtils.h"
#include "utils/WGPUHelpers.h"
class StorageTextureValidationTests : public ValidationTest {
protected:
void SetUp() override {
ValidationTest::SetUp();
mDefaultVSModule = utils::CreateShaderModule(device, R"(
[[stage(vertex)]] fn main() -> [[builtin(position)]] vec4<f32> {
return vec4<f32>(0.0, 0.0, 0.0, 1.0);
})");
mDefaultFSModule = utils::CreateShaderModule(device, R"(
[[stage(fragment)]] fn main() -> [[location(0)]] vec4<f32> {
return vec4<f32>(1.0, 0.0, 0.0, 1.0);
})");
}
static const char* GetFloatImageTypeDeclaration(wgpu::TextureViewDimension dimension) {
// TODO(bclayton): Support and test texture_storage_1d_array
switch (dimension) {
case wgpu::TextureViewDimension::e1D:
return "texture_storage_1d";
case wgpu::TextureViewDimension::e2D:
return "texture_storage_2d";
case wgpu::TextureViewDimension::e2DArray:
return "texture_storage_2d_array";
case wgpu::TextureViewDimension::e3D:
return "texture_storage_3d";
case wgpu::TextureViewDimension::Cube:
return "texture_storage_cube"; // Note: Doesn't exist in WGSL (yet)
case wgpu::TextureViewDimension::CubeArray:
return "texture_storage_cube_array"; // Note: Doesn't exist in WGSL (yet)
case wgpu::TextureViewDimension::Undefined:
default:
UNREACHABLE();
return "";
}
}
static std::string CreateComputeShaderWithStorageTexture(
wgpu::StorageTextureAccess storageTextureBindingType,
wgpu::TextureFormat textureFormat,
wgpu::TextureViewDimension textureViewDimension = wgpu::TextureViewDimension::e2D) {
return CreateComputeShaderWithStorageTexture(
storageTextureBindingType, utils::GetWGSLImageFormatQualifier(textureFormat),
GetFloatImageTypeDeclaration(textureViewDimension));
}
static std::string CreateComputeShaderWithStorageTexture(
wgpu::StorageTextureAccess storageTextureBindingType,
const char* imageFormatQualifier,
const char* imageTypeDeclaration = "texture_storage_2d") {
const char* access = "";
switch (storageTextureBindingType) {
case wgpu::StorageTextureAccess::WriteOnly:
access = "write";
break;
default:
UNREACHABLE();
break;
}
std::ostringstream ostream;
ostream << "[[group(0), binding(0)]] var image0 : " << imageTypeDeclaration << "<"
<< imageFormatQualifier << ", " << access
<< ">;\n"
"[[stage(compute), workgroup_size(1)]] fn main() {\n"
" ignore(textureDimensions(image0));\n"
"}\n";
return ostream.str();
}
wgpu::Texture CreateTexture(wgpu::TextureUsage usage,
wgpu::TextureFormat format,
uint32_t sampleCount = 1,
uint32_t arrayLayerCount = 1,
wgpu::TextureDimension dimension = wgpu::TextureDimension::e2D) {
wgpu::TextureDescriptor descriptor;
descriptor.dimension = dimension;
descriptor.size = {16, 16, arrayLayerCount};
descriptor.sampleCount = sampleCount;
descriptor.format = format;
descriptor.mipLevelCount = 1;
descriptor.usage = usage;
return device.CreateTexture(&descriptor);
}
wgpu::ShaderModule mDefaultVSModule;
wgpu::ShaderModule mDefaultFSModule;
const std::array<wgpu::StorageTextureAccess, 1> kSupportedStorageTextureAccess = {
wgpu::StorageTextureAccess::WriteOnly};
};
// Validate read-only storage textures can be declared in vertex and fragment shaders, while
// writeonly storage textures cannot be used in vertex shaders.
TEST_F(StorageTextureValidationTests, RenderPipeline) {
// Write-only storage textures cannot be declared in a vertex shader.
{
wgpu::ShaderModule vsModule = utils::CreateShaderModule(device, R"(
[[group(0), binding(0)]] var image0 : texture_storage_2d<rgba8unorm, write>;
[[stage(vertex)]]
fn main([[builtin(vertex_index)]] vertex_index : u32) -> [[builtin(position)]] vec4<f32> {
textureStore(image0, vec2<i32>(i32(vertex_index), 0), vec4<f32>(1.0, 0.0, 0.0, 1.0));
return vec4<f32>(0.0);
})");
utils::ComboRenderPipelineDescriptor descriptor;
descriptor.layout = nullptr;
descriptor.vertex.module = vsModule;
descriptor.cFragment.module = mDefaultFSModule;
ASSERT_DEVICE_ERROR(device.CreateRenderPipeline(&descriptor));
}
// Write-only storage textures can be declared in a fragment shader.
{
wgpu::ShaderModule fsModule = utils::CreateShaderModule(device, R"(
[[group(0), binding(0)]] var image0 : texture_storage_2d<rgba8unorm, write>;
[[stage(fragment)]] fn main([[builtin(position)]] position : vec4<f32>) {
textureStore(image0, vec2<i32>(position.xy), vec4<f32>(1.0, 0.0, 0.0, 1.0));
})");
utils::ComboRenderPipelineDescriptor descriptor;
descriptor.layout = nullptr;
descriptor.vertex.module = mDefaultVSModule;
descriptor.cFragment.module = fsModule;
descriptor.cTargets[0].writeMask = wgpu::ColorWriteMask::None;
device.CreateRenderPipeline(&descriptor);
}
}
// Validate both read-only and write-only storage textures can be declared in
// compute shaders.
TEST_F(StorageTextureValidationTests, ComputePipeline) {
// Write-only storage textures can be declared in a compute shader.
{
wgpu::ShaderModule csModule = utils::CreateShaderModule(device, R"(
[[group(0), binding(0)]] var image0 : texture_storage_2d<rgba8unorm, write>;
[[stage(compute), workgroup_size(1)]] fn main([[builtin(local_invocation_id)]] LocalInvocationID : vec3<u32>) {
textureStore(image0, vec2<i32>(LocalInvocationID.xy), vec4<f32>(0.0, 0.0, 0.0, 0.0));
})");
wgpu::ComputePipelineDescriptor descriptor;
descriptor.layout = nullptr;
descriptor.compute.module = csModule;
descriptor.compute.entryPoint = "main";
device.CreateComputePipeline(&descriptor);
}
}
// Validate read-write storage textures are not currently supported.
TEST_F(StorageTextureValidationTests, ReadWriteStorageTexture) {
// Read-write storage textures cannot be declared in a vertex shader by default.
{
ASSERT_DEVICE_ERROR(utils::CreateShaderModule(device, R"(
[[group(0), binding(0)]] var image0 : texture_storage_2d<rgba8unorm, read_write>;
[[stage(vertex)]] fn main() {
ignore(textureDimensions(image0));
})"));
}
// Read-write storage textures cannot be declared in a fragment shader by default.
{
ASSERT_DEVICE_ERROR(utils::CreateShaderModule(device, R"(
[[group(0), binding(0)]] var image0 : texture_storage_2d<rgba8unorm, read_write>;
[[stage(fragment)]] fn main() {
ignore(textureDimensions(image0));
})"));
}
// Read-write storage textures cannot be declared in a compute shader by default.
{
ASSERT_DEVICE_ERROR(utils::CreateShaderModule(device, R"(
[[group(0), binding(0)]] var image0 : texture_storage_2d<rgba8unorm, read_write>;
[[stage(compute), workgroup_size(1)]] fn main() {
ignore(textureDimensions(image0));
})"));
}
}
// Test that using read-only storage texture and write-only storage texture in
// BindGroupLayout is valid, while using read-write storage texture is not allowed now.
TEST_F(StorageTextureValidationTests, BindGroupLayoutWithStorageTextureBindingType) {
struct TestSpec {
wgpu::ShaderStage stage;
wgpu::StorageTextureAccess type;
bool valid;
};
constexpr std::array<TestSpec, 6> kTestSpecs = {
{{wgpu::ShaderStage::Vertex, wgpu::StorageTextureAccess::WriteOnly, false},
{wgpu::ShaderStage::Fragment, wgpu::StorageTextureAccess::WriteOnly, true},
{wgpu::ShaderStage::Compute, wgpu::StorageTextureAccess::WriteOnly, true}}};
for (const auto& testSpec : kTestSpecs) {
wgpu::BindGroupLayoutEntry entry = utils::BindingLayoutEntryInitializationHelper(
0, testSpec.stage, testSpec.type, wgpu::TextureFormat::R32Uint);
wgpu::BindGroupLayoutDescriptor descriptor;
descriptor.entryCount = 1;
descriptor.entries = &entry;
if (testSpec.valid) {
device.CreateBindGroupLayout(&descriptor);
} else {
ASSERT_DEVICE_ERROR(device.CreateBindGroupLayout(&descriptor));
}
}
}
// Validate it is an error to declare a read-only or write-only storage texture in shaders with any
// format that doesn't support TextureUsage::StorageBinding texture usages.
TEST_F(StorageTextureValidationTests, StorageTextureFormatInShaders) {
// Not include RGBA8UnormSrgb, BGRA8Unorm, BGRA8UnormSrgb because they are not related to any
// SPIR-V Image Formats.
constexpr std::array<wgpu::TextureFormat, 32> kWGPUTextureFormatSupportedAsSPIRVImageFormats = {
wgpu::TextureFormat::R32Uint, wgpu::TextureFormat::R32Sint,
wgpu::TextureFormat::R32Float, wgpu::TextureFormat::RGBA8Unorm,
wgpu::TextureFormat::RGBA8Snorm, wgpu::TextureFormat::RGBA8Uint,
wgpu::TextureFormat::RGBA8Sint, wgpu::TextureFormat::RG32Uint,
wgpu::TextureFormat::RG32Sint, wgpu::TextureFormat::RG32Float,
wgpu::TextureFormat::RGBA16Uint, wgpu::TextureFormat::RGBA16Sint,
wgpu::TextureFormat::RGBA16Float, wgpu::TextureFormat::RGBA32Uint,
wgpu::TextureFormat::RGBA32Sint, wgpu::TextureFormat::RGBA32Float,
wgpu::TextureFormat::R8Unorm, wgpu::TextureFormat::R8Snorm,
wgpu::TextureFormat::R8Uint, wgpu::TextureFormat::R8Sint,
wgpu::TextureFormat::R16Uint, wgpu::TextureFormat::R16Sint,
wgpu::TextureFormat::R16Float, wgpu::TextureFormat::RG8Unorm,
wgpu::TextureFormat::RG8Snorm, wgpu::TextureFormat::RG8Uint,
wgpu::TextureFormat::RG8Sint, wgpu::TextureFormat::RG16Uint,
wgpu::TextureFormat::RG16Sint, wgpu::TextureFormat::RG16Float,
wgpu::TextureFormat::RGB10A2Unorm, wgpu::TextureFormat::RG11B10Ufloat};
for (wgpu::StorageTextureAccess storageTextureBindingType : kSupportedStorageTextureAccess) {
for (wgpu::TextureFormat format : kWGPUTextureFormatSupportedAsSPIRVImageFormats) {
std::string computeShader =
CreateComputeShaderWithStorageTexture(storageTextureBindingType, format);
if (utils::TextureFormatSupportsStorageTexture(format)) {
utils::CreateShaderModule(device, computeShader.c_str());
} else {
ASSERT_DEVICE_ERROR(utils::CreateShaderModule(device, computeShader.c_str()));
}
}
}
}
// Verify that declaring a storage texture format that is not supported in WebGPU causes validation
// error.
TEST_F(StorageTextureValidationTests, UnsupportedWGSLStorageTextureFormat) {
constexpr std::array<wgpu::TextureFormat, 16> kUnsupportedTextureFormats = {
wgpu::TextureFormat::R8Unorm, wgpu::TextureFormat::R8Snorm,
wgpu::TextureFormat::R8Uint, wgpu::TextureFormat::R8Sint,
wgpu::TextureFormat::R16Uint, wgpu::TextureFormat::R16Sint,
wgpu::TextureFormat::R16Float, wgpu::TextureFormat::RG8Unorm,
wgpu::TextureFormat::RG8Snorm, wgpu::TextureFormat::RG8Uint,
wgpu::TextureFormat::RG8Sint, wgpu::TextureFormat::RG16Uint,
wgpu::TextureFormat::RG16Sint, wgpu::TextureFormat::RG16Float,
wgpu::TextureFormat::RGB10A2Unorm, wgpu::TextureFormat::RG11B10Ufloat,
};
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
for (wgpu::TextureFormat format : kUnsupportedTextureFormats) {
std::string computeShader = CreateComputeShaderWithStorageTexture(bindingType, format);
ASSERT_DEVICE_ERROR(utils::CreateShaderModule(device, computeShader.c_str()));
}
}
}
// Verify that declaring a storage texture dimension that isn't supported by
// WebGPU causes a compile failure. WebGPU doesn't support using cube map
// texture views and cube map array texture views as storage textures.
TEST_F(StorageTextureValidationTests, UnsupportedTextureViewDimensionInShader) {
constexpr std::array<wgpu::TextureViewDimension, 2> kUnsupportedTextureViewDimensions = {
wgpu::TextureViewDimension::Cube, wgpu::TextureViewDimension::CubeArray};
constexpr wgpu::TextureFormat kFormat = wgpu::TextureFormat::R32Float;
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
for (wgpu::TextureViewDimension dimension : kUnsupportedTextureViewDimensions) {
std::string computeShader =
CreateComputeShaderWithStorageTexture(bindingType, kFormat, dimension);
ASSERT_DEVICE_ERROR(utils::CreateShaderModule(device, computeShader.c_str()));
}
}
}
// Verify that declaring a texture view dimension that is not supported to be used as storage
// textures in WebGPU in bind group layout causes validation error. WebGPU doesn't support using
// cube map texture views and cube map array texture views as storage textures.
TEST_F(StorageTextureValidationTests, UnsupportedTextureViewDimensionInBindGroupLayout) {
constexpr std::array<wgpu::TextureViewDimension, 2> kUnsupportedTextureViewDimensions = {
wgpu::TextureViewDimension::Cube, wgpu::TextureViewDimension::CubeArray};
constexpr wgpu::TextureFormat kFormat = wgpu::TextureFormat::R32Float;
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
for (wgpu::TextureViewDimension dimension : kUnsupportedTextureViewDimensions) {
ASSERT_DEVICE_ERROR(utils::MakeBindGroupLayout(
device, {{0, wgpu::ShaderStage::Compute, bindingType, kFormat, dimension}}));
}
}
}
// Verify when we create and use a bind group layout with storage textures in the creation of
// render and compute pipeline, the binding type in the bind group layout must match the
// declaration in the shader.
TEST_F(StorageTextureValidationTests, BindGroupLayoutEntryTypeMatchesShaderDeclaration) {
constexpr wgpu::TextureFormat kStorageTextureFormat = wgpu::TextureFormat::R32Float;
std::initializer_list<utils::BindingLayoutEntryInitializationHelper> kSupportedBindingTypes = {
{0, wgpu::ShaderStage::Compute, wgpu::BufferBindingType::Uniform},
{0, wgpu::ShaderStage::Compute, wgpu::BufferBindingType::Storage},
{0, wgpu::ShaderStage::Compute, wgpu::BufferBindingType::ReadOnlyStorage},
{0, wgpu::ShaderStage::Compute, wgpu::SamplerBindingType::Filtering},
{0, wgpu::ShaderStage::Compute, wgpu::TextureSampleType::Float},
{0, wgpu::ShaderStage::Compute, wgpu::StorageTextureAccess::WriteOnly,
kStorageTextureFormat}};
for (wgpu::StorageTextureAccess bindingTypeInShader : kSupportedStorageTextureAccess) {
// Create the compute shader with the given binding type.
std::string computeShader =
CreateComputeShaderWithStorageTexture(bindingTypeInShader, kStorageTextureFormat);
wgpu::ShaderModule csModule = utils::CreateShaderModule(device, computeShader.c_str());
// Set common fields of compute pipeline descriptor.
wgpu::ComputePipelineDescriptor defaultComputePipelineDescriptor;
defaultComputePipelineDescriptor.compute.module = csModule;
defaultComputePipelineDescriptor.compute.entryPoint = "main";
for (utils::BindingLayoutEntryInitializationHelper bindingLayoutEntry :
kSupportedBindingTypes) {
wgpu::ComputePipelineDescriptor computePipelineDescriptor =
defaultComputePipelineDescriptor;
// Create bind group layout with different binding types.
wgpu::BindGroupLayout bindGroupLayout =
utils::MakeBindGroupLayout(device, {bindingLayoutEntry});
computePipelineDescriptor.layout =
utils::MakeBasicPipelineLayout(device, &bindGroupLayout);
// The binding type in the bind group layout must the same as the related image object
// declared in shader.
if (bindingLayoutEntry.storageTexture.access == bindingTypeInShader) {
device.CreateComputePipeline(&computePipelineDescriptor);
} else {
ASSERT_DEVICE_ERROR(device.CreateComputePipeline(&computePipelineDescriptor));
}
}
}
}
// Verify it is invalid not to set a valid texture format in a bind group layout when the binding
// type is read-only or write-only storage texture.
TEST_F(StorageTextureValidationTests, UndefinedStorageTextureFormatInBindGroupLayout) {
wgpu::BindGroupLayoutEntry errorBindGroupLayoutEntry;
errorBindGroupLayoutEntry.binding = 0;
errorBindGroupLayoutEntry.visibility = wgpu::ShaderStage::Compute;
errorBindGroupLayoutEntry.storageTexture.format = wgpu::TextureFormat::Undefined;
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
errorBindGroupLayoutEntry.storageTexture.access = bindingType;
ASSERT_DEVICE_ERROR(utils::MakeBindGroupLayout(device, {errorBindGroupLayoutEntry}));
}
}
// Verify it is invalid to create a bind group layout with storage textures and an unsupported
// storage texture format.
TEST_F(StorageTextureValidationTests, StorageTextureFormatInBindGroupLayout) {
wgpu::BindGroupLayoutEntry defaultBindGroupLayoutEntry;
defaultBindGroupLayoutEntry.binding = 0;
defaultBindGroupLayoutEntry.visibility = wgpu::ShaderStage::Compute;
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
for (wgpu::TextureFormat textureFormat : utils::kAllTextureFormats) {
wgpu::BindGroupLayoutEntry bindGroupLayoutBinding = defaultBindGroupLayoutEntry;
bindGroupLayoutBinding.storageTexture.access = bindingType;
bindGroupLayoutBinding.storageTexture.format = textureFormat;
if (utils::TextureFormatSupportsStorageTexture(textureFormat)) {
utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding});
} else {
ASSERT_DEVICE_ERROR(utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding}));
}
}
}
}
// Verify the storage texture format in the bind group layout must match the declaration in shader.
TEST_F(StorageTextureValidationTests, BindGroupLayoutStorageTextureFormatMatchesShaderDeclaration) {
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
for (wgpu::TextureFormat storageTextureFormatInShader : utils::kAllTextureFormats) {
if (!utils::TextureFormatSupportsStorageTexture(storageTextureFormatInShader)) {
continue;
}
// Create the compute shader module with the given binding type and storage texture
// format.
std::string computeShader =
CreateComputeShaderWithStorageTexture(bindingType, storageTextureFormatInShader);
wgpu::ShaderModule csModule = utils::CreateShaderModule(device, computeShader.c_str());
// Set common fields of compute pipeline descriptor.
wgpu::ComputePipelineDescriptor defaultComputePipelineDescriptor;
defaultComputePipelineDescriptor.compute.module = csModule;
defaultComputePipelineDescriptor.compute.entryPoint = "main";
// Set common fileds of bind group layout binding.
utils::BindingLayoutEntryInitializationHelper defaultBindGroupLayoutEntry = {
0, wgpu::ShaderStage::Compute, bindingType, utils::kAllTextureFormats[0]};
for (wgpu::TextureFormat storageTextureFormatInBindGroupLayout :
utils::kAllTextureFormats) {
if (!utils::TextureFormatSupportsStorageTexture(
storageTextureFormatInBindGroupLayout)) {
continue;
}
// Create the bind group layout with the given storage texture format.
wgpu::BindGroupLayoutEntry bindGroupLayoutBinding = defaultBindGroupLayoutEntry;
bindGroupLayoutBinding.storageTexture.format =
storageTextureFormatInBindGroupLayout;
wgpu::BindGroupLayout bindGroupLayout =
utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding});
// Create the compute pipeline with the bind group layout.
wgpu::ComputePipelineDescriptor computePipelineDescriptor =
defaultComputePipelineDescriptor;
computePipelineDescriptor.layout =
utils::MakeBasicPipelineLayout(device, &bindGroupLayout);
// The storage texture format in the bind group layout must be the same as the one
// declared in the shader.
if (storageTextureFormatInShader == storageTextureFormatInBindGroupLayout) {
device.CreateComputePipeline(&computePipelineDescriptor);
} else {
ASSERT_DEVICE_ERROR(device.CreateComputePipeline(&computePipelineDescriptor));
}
}
}
}
}
// Verify the dimension of the bind group layout with storage textures must match the one declared
// in shader.
TEST_F(StorageTextureValidationTests, BindGroupLayoutViewDimensionMatchesShaderDeclaration) {
constexpr std::array<wgpu::TextureViewDimension, 4> kSupportedDimensions = {
wgpu::TextureViewDimension::e1D, wgpu::TextureViewDimension::e2D,
wgpu::TextureViewDimension::e2DArray, wgpu::TextureViewDimension::e3D};
constexpr wgpu::TextureFormat kStorageTextureFormat = wgpu::TextureFormat::R32Float;
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
for (wgpu::TextureViewDimension dimensionInShader : kSupportedDimensions) {
// Create the compute shader with the given texture view dimension.
std::string computeShader = CreateComputeShaderWithStorageTexture(
bindingType, kStorageTextureFormat, dimensionInShader);
wgpu::ShaderModule csModule = utils::CreateShaderModule(device, computeShader.c_str());
// Set common fields of compute pipeline descriptor.
wgpu::ComputePipelineDescriptor defaultComputePipelineDescriptor;
defaultComputePipelineDescriptor.compute.module = csModule;
defaultComputePipelineDescriptor.compute.entryPoint = "main";
// Set common fields of bind group layout binding.
utils::BindingLayoutEntryInitializationHelper defaultBindGroupLayoutEntry = {
0, wgpu::ShaderStage::Compute, bindingType, kStorageTextureFormat};
for (wgpu::TextureViewDimension dimensionInBindGroupLayout : kSupportedDimensions) {
// Create the bind group layout with the given texture view dimension.
wgpu::BindGroupLayoutEntry bindGroupLayoutBinding = defaultBindGroupLayoutEntry;
bindGroupLayoutBinding.storageTexture.viewDimension = dimensionInBindGroupLayout;
wgpu::BindGroupLayout bindGroupLayout =
utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding});
// Create the compute pipeline with the bind group layout.
wgpu::ComputePipelineDescriptor computePipelineDescriptor =
defaultComputePipelineDescriptor;
computePipelineDescriptor.layout =
utils::MakeBasicPipelineLayout(device, &bindGroupLayout);
// The texture dimension in the bind group layout must be the same as the one
// declared in the shader.
if (dimensionInShader == dimensionInBindGroupLayout) {
device.CreateComputePipeline(&computePipelineDescriptor);
} else {
ASSERT_DEVICE_ERROR(device.CreateComputePipeline(&computePipelineDescriptor));
}
}
}
}
}
// Verify that only a texture view can be used as a read-only or write-only storage texture in a
// bind group.
TEST_F(StorageTextureValidationTests, StorageTextureBindingTypeInBindGroup) {
constexpr wgpu::TextureFormat kStorageTextureFormat = wgpu::TextureFormat::R32Float;
for (wgpu::StorageTextureAccess storageBindingType : kSupportedStorageTextureAccess) {
// Create a bind group layout.
wgpu::BindGroupLayoutEntry bindGroupLayoutBinding;
bindGroupLayoutBinding.binding = 0;
bindGroupLayoutBinding.visibility = wgpu::ShaderStage::Compute;
bindGroupLayoutBinding.storageTexture.access = storageBindingType;
bindGroupLayoutBinding.storageTexture.format = kStorageTextureFormat;
wgpu::BindGroupLayout bindGroupLayout =
utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding});
// Buffers are not allowed to be used as storage textures in a bind group.
{
wgpu::BufferDescriptor descriptor;
descriptor.size = 1024;
descriptor.usage = wgpu::BufferUsage::Uniform;
wgpu::Buffer buffer = device.CreateBuffer(&descriptor);
ASSERT_DEVICE_ERROR(utils::MakeBindGroup(device, bindGroupLayout, {{0, buffer}}));
}
// Samplers are not allowed to be used as storage textures in a bind group.
{
wgpu::Sampler sampler = device.CreateSampler();
ASSERT_DEVICE_ERROR(utils::MakeBindGroup(device, bindGroupLayout, {{0, sampler}}));
}
// Texture views are allowed to be used as storage textures in a bind group.
{
wgpu::TextureView textureView =
CreateTexture(wgpu::TextureUsage::StorageBinding, kStorageTextureFormat)
.CreateView();
utils::MakeBindGroup(device, bindGroupLayout, {{0, textureView}});
}
}
}
// Verify that a texture used as read-only or write-only storage texture in a bind group must be
// created with the texture usage wgpu::TextureUsage::StorageBinding.
TEST_F(StorageTextureValidationTests, StorageTextureUsageInBindGroup) {
constexpr wgpu::TextureFormat kStorageTextureFormat = wgpu::TextureFormat::R32Float;
constexpr std::array<wgpu::TextureUsage, 6> kTextureUsages = {
wgpu::TextureUsage::CopySrc, wgpu::TextureUsage::CopyDst,
wgpu::TextureUsage::TextureBinding, wgpu::TextureUsage::StorageBinding,
wgpu::TextureUsage::RenderAttachment, wgpu::TextureUsage::Present};
for (wgpu::StorageTextureAccess storageBindingType : kSupportedStorageTextureAccess) {
// Create a bind group layout.
wgpu::BindGroupLayoutEntry bindGroupLayoutBinding;
bindGroupLayoutBinding.binding = 0;
bindGroupLayoutBinding.visibility = wgpu::ShaderStage::Compute;
bindGroupLayoutBinding.storageTexture.access = storageBindingType;
bindGroupLayoutBinding.storageTexture.format = wgpu::TextureFormat::R32Float;
wgpu::BindGroupLayout bindGroupLayout =
utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding});
for (wgpu::TextureUsage usage : kTextureUsages) {
// Create texture views with different texture usages
wgpu::TextureView textureView =
CreateTexture(usage, kStorageTextureFormat).CreateView();
// Verify that the texture used as storage texture must be created with the texture
// usage wgpu::TextureUsage::StorageBinding.
if (usage & wgpu::TextureUsage::StorageBinding) {
utils::MakeBindGroup(device, bindGroupLayout, {{0, textureView}});
} else {
ASSERT_DEVICE_ERROR(
utils::MakeBindGroup(device, bindGroupLayout, {{0, textureView}}));
}
}
}
}
// Verify that the format of a texture used as read-only or write-only storage texture in a bind
// group must match the corresponding bind group binding.
TEST_F(StorageTextureValidationTests, StorageTextureFormatInBindGroup) {
for (wgpu::StorageTextureAccess storageBindingType : kSupportedStorageTextureAccess) {
wgpu::BindGroupLayoutEntry defaultBindGroupLayoutEntry;
defaultBindGroupLayoutEntry.binding = 0;
defaultBindGroupLayoutEntry.visibility = wgpu::ShaderStage::Compute;
defaultBindGroupLayoutEntry.storageTexture.access = storageBindingType;
for (wgpu::TextureFormat formatInBindGroupLayout : utils::kAllTextureFormats) {
if (!utils::TextureFormatSupportsStorageTexture(formatInBindGroupLayout)) {
continue;
}
// Create a bind group layout with given storage texture format.
wgpu::BindGroupLayoutEntry bindGroupLayoutBinding = defaultBindGroupLayoutEntry;
bindGroupLayoutBinding.storageTexture.format = formatInBindGroupLayout;
wgpu::BindGroupLayout bindGroupLayout =
utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding});
for (wgpu::TextureFormat textureViewFormat : utils::kAllTextureFormats) {
if (!utils::TextureFormatSupportsStorageTexture(textureViewFormat)) {
continue;
}
// Create texture views with different texture formats.
wgpu::TextureView storageTextureView =
CreateTexture(wgpu::TextureUsage::StorageBinding, textureViewFormat)
.CreateView();
// Verify that the format of the texture view used as storage texture in a bind
// group must match the storage texture format declaration in the bind group layout.
if (textureViewFormat == formatInBindGroupLayout) {
utils::MakeBindGroup(device, bindGroupLayout, {{0, storageTextureView}});
} else {
ASSERT_DEVICE_ERROR(
utils::MakeBindGroup(device, bindGroupLayout, {{0, storageTextureView}}));
}
}
}
}
}
// Verify that the dimension of a texture view used as read-only or write-only storage texture in a
// bind group must match the corresponding bind group binding.
TEST_F(StorageTextureValidationTests, StorageTextureViewDimensionInBindGroup) {
constexpr wgpu::TextureFormat kStorageTextureFormat = wgpu::TextureFormat::R32Float;
constexpr uint32_t kDepthOrArrayLayers = 6u;
// TODO(crbug.com/dawn/814): test the use of 1D texture view dimensions when they are
// supported in Dawn.
constexpr std::array<wgpu::TextureViewDimension, 3> kSupportedDimensions = {
wgpu::TextureViewDimension::e2D, wgpu::TextureViewDimension::e2DArray,
wgpu::TextureViewDimension::e3D};
wgpu::TextureViewDescriptor kDefaultTextureViewDescriptor;
kDefaultTextureViewDescriptor.format = kStorageTextureFormat;
kDefaultTextureViewDescriptor.baseMipLevel = 0;
kDefaultTextureViewDescriptor.mipLevelCount = 1;
kDefaultTextureViewDescriptor.baseArrayLayer = 0;
kDefaultTextureViewDescriptor.arrayLayerCount = 1u;
for (wgpu::StorageTextureAccess storageBindingType : kSupportedStorageTextureAccess) {
wgpu::BindGroupLayoutEntry defaultBindGroupLayoutEntry;
defaultBindGroupLayoutEntry.binding = 0;
defaultBindGroupLayoutEntry.visibility = wgpu::ShaderStage::Compute;
defaultBindGroupLayoutEntry.storageTexture.access = storageBindingType;
defaultBindGroupLayoutEntry.storageTexture.format = kStorageTextureFormat;
for (wgpu::TextureViewDimension dimensionInBindGroupLayout : kSupportedDimensions) {
// Create a bind group layout with given texture view dimension.
wgpu::BindGroupLayoutEntry bindGroupLayoutBinding = defaultBindGroupLayoutEntry;
bindGroupLayoutBinding.storageTexture.viewDimension = dimensionInBindGroupLayout;
wgpu::BindGroupLayout bindGroupLayout =
utils::MakeBindGroupLayout(device, {bindGroupLayoutBinding});
for (wgpu::TextureViewDimension dimensionOfTextureView : kSupportedDimensions) {
// Create a texture view with given texture view dimension.
wgpu::Texture texture =
CreateTexture(wgpu::TextureUsage::StorageBinding, kStorageTextureFormat, 1,
kDepthOrArrayLayers,
utils::ViewDimensionToTextureDimension(dimensionOfTextureView));
wgpu::TextureViewDescriptor textureViewDescriptor = kDefaultTextureViewDescriptor;
textureViewDescriptor.dimension = dimensionOfTextureView;
wgpu::TextureView storageTextureView = texture.CreateView(&textureViewDescriptor);
// Verify that the dimension of the texture view used as storage texture in a bind
// group must match the texture view dimension declaration in the bind group layout.
if (dimensionInBindGroupLayout == dimensionOfTextureView) {
utils::MakeBindGroup(device, bindGroupLayout, {{0, storageTextureView}});
} else {
ASSERT_DEVICE_ERROR(
utils::MakeBindGroup(device, bindGroupLayout, {{0, storageTextureView}}));
}
}
}
}
}
// Verify multisampled storage textures cannot be supported now.
TEST_F(StorageTextureValidationTests, MultisampledStorageTexture) {
for (wgpu::StorageTextureAccess bindingType : kSupportedStorageTextureAccess) {
std::string computeShader =
CreateComputeShaderWithStorageTexture(bindingType, "", "image2DMS");
ASSERT_DEVICE_ERROR(utils::CreateShaderModule(device, computeShader.c_str()));
}
}
// Verify it is valid to use a texture as either read-only storage texture or write-only storage
// texture in a render pass.
TEST_F(StorageTextureValidationTests, StorageTextureInRenderPass) {
constexpr wgpu::TextureFormat kFormat = wgpu::TextureFormat::RGBA8Unorm;
wgpu::Texture storageTexture = CreateTexture(wgpu::TextureUsage::StorageBinding, kFormat);
wgpu::Texture outputAttachment = CreateTexture(wgpu::TextureUsage::RenderAttachment, kFormat);
utils::ComboRenderPassDescriptor renderPassDescriptor({outputAttachment.CreateView()});
for (wgpu::StorageTextureAccess storageTextureType : kSupportedStorageTextureAccess) {
// Create a bind group that contains a storage texture.
wgpu::BindGroupLayout bindGroupLayout = utils::MakeBindGroupLayout(
device, {{0, wgpu::ShaderStage::Fragment, storageTextureType, kFormat}});
wgpu::BindGroup bindGroupWithStorageTexture =
utils::MakeBindGroup(device, bindGroupLayout, {{0, storageTexture.CreateView()}});
// It is valid to use a texture as read-only or write-only storage texture in the render
// pass.
wgpu::CommandEncoder encoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder renderPassEncoder = encoder.BeginRenderPass(&renderPassDescriptor);
renderPassEncoder.SetBindGroup(0, bindGroupWithStorageTexture);
renderPassEncoder.EndPass();
encoder.Finish();
}
}
// Verify it is valid to use a a texture as both read-only storage texture and sampled texture in
// one render pass, while it is invalid to use a texture as both write-only storage texture and
// sampled texture in one render pass.
TEST_F(StorageTextureValidationTests, StorageTextureAndSampledTextureInOneRenderPass) {
constexpr wgpu::TextureFormat kFormat = wgpu::TextureFormat::RGBA8Unorm;
wgpu::Texture storageTexture = CreateTexture(
wgpu::TextureUsage::StorageBinding | wgpu::TextureUsage::TextureBinding, kFormat);
wgpu::Texture outputAttachment = CreateTexture(wgpu::TextureUsage::RenderAttachment, kFormat);
utils::ComboRenderPassDescriptor renderPassDescriptor({outputAttachment.CreateView()});
// Create a bind group that contains a storage texture and a sampled texture.
for (wgpu::StorageTextureAccess storageTextureType : kSupportedStorageTextureAccess) {
// Create a bind group that binds the same texture as both storage texture and sampled
// texture.
wgpu::BindGroupLayout bindGroupLayout = utils::MakeBindGroupLayout(
device, {{0, wgpu::ShaderStage::Fragment, storageTextureType, kFormat},
{1, wgpu::ShaderStage::Fragment, wgpu::TextureSampleType::Float}});
wgpu::BindGroup bindGroup = utils::MakeBindGroup(
device, bindGroupLayout,
{{0, storageTexture.CreateView()}, {1, storageTexture.CreateView()}});
// It is valid to use a a texture as both read-only storage texture and sampled texture in
// one render pass, while it is invalid to use a texture as both write-only storage
// texture an sampled texture in one render pass.
wgpu::CommandEncoder encoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder renderPassEncoder = encoder.BeginRenderPass(&renderPassDescriptor);
renderPassEncoder.SetBindGroup(0, bindGroup);
renderPassEncoder.EndPass();
switch (storageTextureType) {
case wgpu::StorageTextureAccess::WriteOnly:
ASSERT_DEVICE_ERROR(encoder.Finish());
break;
default:
UNREACHABLE();
break;
}
}
}
// Verify it is invalid to use a a texture as both storage texture (either read-only or write-only)
// and render attachment in one render pass.
TEST_F(StorageTextureValidationTests, StorageTextureAndRenderAttachmentInOneRenderPass) {
constexpr wgpu::TextureFormat kFormat = wgpu::TextureFormat::RGBA8Unorm;
wgpu::Texture storageTexture = CreateTexture(
wgpu::TextureUsage::StorageBinding | wgpu::TextureUsage::RenderAttachment, kFormat);
utils::ComboRenderPassDescriptor renderPassDescriptor({storageTexture.CreateView()});
for (wgpu::StorageTextureAccess storageTextureType : kSupportedStorageTextureAccess) {
// Create a bind group that contains a storage texture.
wgpu::BindGroupLayout bindGroupLayout = utils::MakeBindGroupLayout(
device, {{0, wgpu::ShaderStage::Fragment, storageTextureType, kFormat}});
wgpu::BindGroup bindGroupWithStorageTexture =
utils::MakeBindGroup(device, bindGroupLayout, {{0, storageTexture.CreateView()}});
// It is invalid to use a texture as both storage texture and render attachment in one
// render pass.
wgpu::CommandEncoder encoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder renderPassEncoder = encoder.BeginRenderPass(&renderPassDescriptor);
renderPassEncoder.SetBindGroup(0, bindGroupWithStorageTexture);
renderPassEncoder.EndPass();
ASSERT_DEVICE_ERROR(encoder.Finish());
}
}
// Verify it is valid to use a texture as both storage texture (read-only or write-only) and
// sampled texture in one compute pass.
TEST_F(StorageTextureValidationTests, StorageTextureAndSampledTextureInOneComputePass) {
constexpr wgpu::TextureFormat kFormat = wgpu::TextureFormat::RGBA8Unorm;
wgpu::Texture storageTexture = CreateTexture(
wgpu::TextureUsage::StorageBinding | wgpu::TextureUsage::TextureBinding, kFormat);
for (wgpu::StorageTextureAccess storageTextureType : kSupportedStorageTextureAccess) {
// Create a bind group that binds the same texture as both storage texture and sampled
// texture.
wgpu::BindGroupLayout bindGroupLayout = utils::MakeBindGroupLayout(
device, {{0, wgpu::ShaderStage::Compute, storageTextureType, kFormat},
{1, wgpu::ShaderStage::Compute, wgpu::TextureSampleType::Float}});
wgpu::BindGroup bindGroup = utils::MakeBindGroup(
device, bindGroupLayout,
{{0, storageTexture.CreateView()}, {1, storageTexture.CreateView()}});
// It is valid to use a a texture as both storage texture (read-only or write-only) and
// sampled texture in one compute pass.
wgpu::CommandEncoder encoder = device.CreateCommandEncoder();
wgpu::ComputePassEncoder computePassEncoder = encoder.BeginComputePass();
computePassEncoder.SetBindGroup(0, bindGroup);
computePassEncoder.EndPass();
encoder.Finish();
}
}