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// Copyright 2019 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 "tests/unittests/validation/ValidationTest.h"
#include "common/Constants.h"
#include "utils/ComboRenderBundleEncoderDescriptor.h"
#include "utils/ComboRenderPipelineDescriptor.h"
#include "utils/WGPUHelpers.h"
namespace {
class RenderBundleValidationTest : public ValidationTest {
protected:
void SetUp() override {
ValidationTest::SetUp();
vsModule = utils::CreateShaderModule(device, R"(
[[block]] struct S {
transform : mat2x2<f32>;
};
[[group(0), binding(0)]] var<uniform> uniforms : S;
[[stage(vertex)]] fn main([[location(0)]] pos : vec2<f32>) -> [[builtin(position)]] vec4<f32> {
return vec4<f32>();
})");
fsModule = utils::CreateShaderModule(device, R"(
[[block]] struct Uniforms {
color : vec4<f32>;
};
[[group(1), binding(0)]] var<uniform> uniforms : Uniforms;
[[block]] struct Storage {
dummy : array<f32>;
};
[[group(1), binding(1)]] var<storage> ssbo : [[access(read_write)]] Storage;
[[stage(fragment)]] fn main() {
})");
wgpu::BindGroupLayout bgls[] = {
utils::MakeBindGroupLayout(
device, {{0, wgpu::ShaderStage::Vertex, wgpu::BufferBindingType::Uniform}}),
utils::MakeBindGroupLayout(
device, {
{0, wgpu::ShaderStage::Fragment, wgpu::BufferBindingType::Uniform},
{1, wgpu::ShaderStage::Fragment, wgpu::BufferBindingType::Storage},
})};
wgpu::PipelineLayoutDescriptor pipelineLayoutDesc = {};
pipelineLayoutDesc.bindGroupLayoutCount = 2;
pipelineLayoutDesc.bindGroupLayouts = bgls;
pipelineLayout = device.CreatePipelineLayout(&pipelineLayoutDesc);
utils::ComboRenderPipelineDescriptor descriptor;
InitializeRenderPipelineDescriptor(&descriptor);
pipeline = device.CreateRenderPipeline(&descriptor);
float data[8];
wgpu::Buffer buffer = utils::CreateBufferFromData(device, data, 8 * sizeof(float),
wgpu::BufferUsage::Uniform);
constexpr static float kVertices[] = {-1.f, 1.f, 1.f, -1.f, -1.f, 1.f};
vertexBuffer = utils::CreateBufferFromData(device, kVertices, sizeof(kVertices),
wgpu::BufferUsage::Vertex);
// Dummy storage buffer.
wgpu::Buffer storageBuffer = utils::CreateBufferFromData(
device, kVertices, sizeof(kVertices), wgpu::BufferUsage::Storage);
// Vertex buffer with storage usage for testing read+write error usage.
vertexStorageBuffer =
utils::CreateBufferFromData(device, kVertices, sizeof(kVertices),
wgpu::BufferUsage::Vertex | wgpu::BufferUsage::Storage);
bg0 = utils::MakeBindGroup(device, bgls[0], {{0, buffer, 0, 8 * sizeof(float)}});
bg1 = utils::MakeBindGroup(
device, bgls[1],
{{0, buffer, 0, 4 * sizeof(float)}, {1, storageBuffer, 0, sizeof(kVertices)}});
bg1Vertex = utils::MakeBindGroup(device, bgls[1],
{{0, buffer, 0, 8 * sizeof(float)},
{1, vertexStorageBuffer, 0, sizeof(kVertices)}});
}
void InitializeRenderPipelineDescriptor(utils::ComboRenderPipelineDescriptor* descriptor) {
descriptor->layout = pipelineLayout;
descriptor->vertex.module = vsModule;
descriptor->cFragment.module = fsModule;
descriptor->vertex.bufferCount = 1;
descriptor->cBuffers[0].arrayStride = 2 * sizeof(float);
descriptor->cBuffers[0].attributeCount = 1;
descriptor->cAttributes[0].format = wgpu::VertexFormat::Float32x2;
descriptor->cAttributes[0].shaderLocation = 0;
}
wgpu::ShaderModule vsModule;
wgpu::ShaderModule fsModule;
wgpu::PipelineLayout pipelineLayout;
wgpu::RenderPipeline pipeline;
wgpu::Buffer vertexBuffer;
wgpu::Buffer vertexStorageBuffer;
wgpu::BindGroup bg0;
wgpu::BindGroup bg1;
wgpu::BindGroup bg1Vertex;
};
} // anonymous namespace
// Test creating and encoding an empty render bundle.
TEST_F(RenderBundleValidationTest, Empty) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
commandEncoder.Finish();
}
// Test that an empty error bundle encoder produces an error bundle.
// This is a regression test for error render bundle encoders containing no commands would
// produce non-error render bundles.
TEST_F(RenderBundleValidationTest, EmptyErrorEncoderProducesErrorBundle) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
// Having 0 attachments is invalid!
desc.colorFormatsCount = 0;
wgpu::RenderBundleEncoder renderBundleEncoder;
ASSERT_DEVICE_ERROR(renderBundleEncoder = device.CreateRenderBundleEncoder(&desc));
wgpu::RenderBundle renderBundle;
ASSERT_DEVICE_ERROR(renderBundle = renderBundleEncoder.Finish());
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Test executing zero render bundles.
TEST_F(RenderBundleValidationTest, ZeroBundles) {
DummyRenderPass renderPass(device);
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(0, nullptr);
pass.EndPass();
commandEncoder.Finish();
}
// Test successfully creating and encoding a render bundle into a command buffer.
TEST_F(RenderBundleValidationTest, SimpleSuccess) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1);
renderBundleEncoder.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder.Draw(3);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
commandEncoder.Finish();
}
// Test that render bundle debug groups must be well nested.
TEST_F(RenderBundleValidationTest, DebugGroups) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
// Test a single debug group works.
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.PushDebugGroup("group");
renderBundleEncoder.PopDebugGroup();
renderBundleEncoder.Finish();
}
// Test nested debug groups work.
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.PushDebugGroup("group");
renderBundleEncoder.PushDebugGroup("group2");
renderBundleEncoder.PopDebugGroup();
renderBundleEncoder.PopDebugGroup();
renderBundleEncoder.Finish();
}
// Test popping when no group is pushed is invalid.
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.PopDebugGroup();
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
// Test popping too many times is invalid.
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.PushDebugGroup("group");
renderBundleEncoder.PopDebugGroup();
renderBundleEncoder.PopDebugGroup();
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
// Test that a single debug group must be popped.
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.PushDebugGroup("group");
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
// Test that all debug groups must be popped.
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.PushDebugGroup("group");
renderBundleEncoder.PushDebugGroup("group2");
renderBundleEncoder.PopDebugGroup();
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
}
// Test render bundles do not inherit command buffer state
TEST_F(RenderBundleValidationTest, StateInheritance) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
// Render bundle does not inherit pipeline so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
pass.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1);
renderBundleEncoder.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder.Draw(3);
ASSERT_DEVICE_ERROR(wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish());
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle does not inherit bind groups so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder.Draw(3);
ASSERT_DEVICE_ERROR(wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish());
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle does not inherit pipeline and bind groups so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
pass.SetPipeline(pipeline);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
renderBundleEncoder.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder.Draw(3);
ASSERT_DEVICE_ERROR(wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish());
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle does not inherit buffers so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
pass.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1);
renderBundleEncoder.Draw(3);
ASSERT_DEVICE_ERROR(wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish());
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
}
// Test render bundles do not persist command buffer state
TEST_F(RenderBundleValidationTest, StatePersistence) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
// Render bundle does not persist pipeline so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetPipeline(pipeline);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
pass.ExecuteBundles(1, &renderBundle);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.SetVertexBuffer(0, vertexBuffer);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle does not persist bind groups so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
pass.ExecuteBundles(1, &renderBundle);
pass.SetPipeline(pipeline);
pass.SetVertexBuffer(0, vertexBuffer);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle does not persist pipeline and bind groups so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
pass.ExecuteBundles(1, &renderBundle);
pass.SetVertexBuffer(0, vertexBuffer);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle does not persist buffers so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetVertexBuffer(0, vertexBuffer);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
pass.ExecuteBundles(1, &renderBundle);
pass.SetPipeline(pipeline);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
}
// Test executing render bundles clears command buffer state
TEST_F(RenderBundleValidationTest, ClearsState) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
// Render bundle clears pipeline so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.SetPipeline(pipeline);
pass.ExecuteBundles(1, &renderBundle);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.SetVertexBuffer(0, vertexBuffer);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle clears bind groups so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.ExecuteBundles(1, &renderBundle);
pass.SetPipeline(pipeline);
pass.SetVertexBuffer(0, vertexBuffer);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle clears pipeline and bind groups so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.SetPipeline(pipeline);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.ExecuteBundles(1, &renderBundle);
pass.SetVertexBuffer(0, vertexBuffer);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Render bundle clears buffers so the draw is invalid.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.SetVertexBuffer(0, vertexBuffer);
pass.ExecuteBundles(1, &renderBundle);
pass.SetPipeline(pipeline);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Test executing 0 bundles still clears command buffer state.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.SetPipeline(pipeline);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.SetVertexBuffer(0, vertexBuffer);
pass.ExecuteBundles(0, nullptr);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
}
// Test creating and encoding multiple render bundles.
TEST_F(RenderBundleValidationTest, MultipleBundles) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
wgpu::RenderBundle renderBundles[2] = {};
wgpu::RenderBundleEncoder renderBundleEncoder0 = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder0.SetPipeline(pipeline);
renderBundleEncoder0.SetBindGroup(0, bg0);
renderBundleEncoder0.SetBindGroup(1, bg1);
renderBundleEncoder0.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder0.Draw(3);
renderBundles[0] = renderBundleEncoder0.Finish();
wgpu::RenderBundleEncoder renderBundleEncoder1 = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder1.SetPipeline(pipeline);
renderBundleEncoder1.SetBindGroup(0, bg0);
renderBundleEncoder1.SetBindGroup(1, bg1);
renderBundleEncoder1.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder1.Draw(3);
renderBundles[1] = renderBundleEncoder1.Finish();
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(2, renderBundles);
pass.EndPass();
commandEncoder.Finish();
}
// Test that is is valid to execute a render bundle more than once.
TEST_F(RenderBundleValidationTest, ExecuteMultipleTimes) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1);
renderBundleEncoder.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder.Draw(3);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.ExecuteBundles(1, &renderBundle);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
commandEncoder.Finish();
}
// Test that it is an error to call Finish() on a render bundle encoder twice.
TEST_F(RenderBundleValidationTest, FinishTwice) {
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Uint;
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.Finish();
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
// Test that it is invalid to create a render bundle with no texture formats
TEST_F(RenderBundleValidationTest, RequiresAtLeastOneTextureFormat) {
// Test failure case.
{
utils::ComboRenderBundleEncoderDescriptor desc = {};
ASSERT_DEVICE_ERROR(device.CreateRenderBundleEncoder(&desc));
}
// Test success with one color format.
{
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Uint;
device.CreateRenderBundleEncoder(&desc);
}
// Test success with a depth stencil format.
{
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.depthStencilFormat = wgpu::TextureFormat::Depth24PlusStencil8;
device.CreateRenderBundleEncoder(&desc);
}
}
// Test that render bundle color formats cannot be set to undefined.
TEST_F(RenderBundleValidationTest, ColorFormatUndefined) {
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = wgpu::TextureFormat::Undefined;
ASSERT_DEVICE_ERROR(device.CreateRenderBundleEncoder(&desc));
}
// Test that the render bundle depth stencil format cannot be set to undefined.
TEST_F(RenderBundleValidationTest, DepthStencilFormatUndefined) {
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.depthStencilFormat = wgpu::TextureFormat::Undefined;
ASSERT_DEVICE_ERROR(device.CreateRenderBundleEncoder(&desc));
}
// Test that resource usages are validated inside render bundles.
TEST_F(RenderBundleValidationTest, UsageTracking) {
DummyRenderPass renderPass(device);
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = renderPass.attachmentFormat;
wgpu::RenderBundle renderBundle0;
wgpu::RenderBundle renderBundle1;
// First base case is successful. |bg1Vertex| does not reference |vertexBuffer|.
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1Vertex);
renderBundleEncoder.SetVertexBuffer(0, vertexBuffer);
renderBundleEncoder.Draw(3);
renderBundle0 = renderBundleEncoder.Finish();
}
// Second base case is successful. |bg1| does not reference |vertexStorageBuffer|
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1);
renderBundleEncoder.SetVertexBuffer(0, vertexStorageBuffer);
renderBundleEncoder.Draw(3);
renderBundle1 = renderBundleEncoder.Finish();
}
// Test that a render bundle which sets a buffer as both vertex and storage is invalid.
// |bg1Vertex| references |vertexStorageBuffer|
{
wgpu::RenderBundleEncoder renderBundleEncoder = device.CreateRenderBundleEncoder(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.SetBindGroup(0, bg0);
renderBundleEncoder.SetBindGroup(1, bg1Vertex);
renderBundleEncoder.SetVertexBuffer(0, vertexStorageBuffer);
renderBundleEncoder.Draw(3);
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
// When both render bundles are in the same pass, |vertexStorageBuffer| is used
// as both read and write usage. This is invalid.
// renderBundle0 uses |vertexStorageBuffer| as a storage buffer.
// renderBundle1 uses |vertexStorageBuffer| as a vertex buffer.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle0);
pass.ExecuteBundles(1, &renderBundle1);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// |vertexStorageBuffer| is used as both read and write usage. This is invalid.
// The render pass uses |vertexStorageBuffer| as a storage buffer.
// renderBundle1 uses |vertexStorageBuffer| as a vertex buffer.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.SetPipeline(pipeline);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1Vertex);
pass.SetVertexBuffer(0, vertexBuffer);
pass.Draw(3);
pass.ExecuteBundles(1, &renderBundle1);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// |vertexStorageBuffer| is used as both read and write usage. This is invalid.
// renderBundle0 uses |vertexStorageBuffer| as a storage buffer.
// The render pass uses |vertexStorageBuffer| as a vertex buffer.
{
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle0);
pass.SetPipeline(pipeline);
pass.SetBindGroup(0, bg0);
pass.SetBindGroup(1, bg1);
pass.SetVertexBuffer(0, vertexStorageBuffer);
pass.Draw(3);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
}
// Test that encoding SetPipline with an incompatible color format produces an error.
TEST_F(RenderBundleValidationTest, PipelineColorFormatMismatch) {
utils::ComboRenderBundleEncoderDescriptor renderBundleDesc = {};
renderBundleDesc.colorFormatsCount = 3;
renderBundleDesc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Unorm;
renderBundleDesc.cColorFormats[1] = wgpu::TextureFormat::RG16Float;
renderBundleDesc.cColorFormats[2] = wgpu::TextureFormat::R16Sint;
auto SetupRenderPipelineDescForTest = [this](utils::ComboRenderPipelineDescriptor* desc) {
InitializeRenderPipelineDescriptor(desc);
desc->cFragment.targetCount = 3;
desc->cTargets[0].format = wgpu::TextureFormat::RGBA8Unorm;
desc->cTargets[1].format = wgpu::TextureFormat::RG16Float;
desc->cTargets[2].format = wgpu::TextureFormat::R16Sint;
};
// Test the success case.
{
utils::ComboRenderPipelineDescriptor desc;
SetupRenderPipelineDescForTest(&desc);
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.Finish();
}
// Test the failure case for mismatched format types.
{
utils::ComboRenderPipelineDescriptor desc;
SetupRenderPipelineDescForTest(&desc);
desc.cTargets[1].format = wgpu::TextureFormat::RGBA8Unorm;
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&desc);
renderBundleEncoder.SetPipeline(pipeline);
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
// Test the failure case for missing format
{
utils::ComboRenderPipelineDescriptor desc;
SetupRenderPipelineDescForTest(&desc);
desc.cFragment.targetCount = 2;
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&desc);
renderBundleEncoder.SetPipeline(pipeline);
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
}
// Test that encoding SetPipline with an incompatible depth stencil format produces an error.
TEST_F(RenderBundleValidationTest, PipelineDepthStencilFormatMismatch) {
utils::ComboRenderBundleEncoderDescriptor renderBundleDesc = {};
renderBundleDesc.colorFormatsCount = 1;
renderBundleDesc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Unorm;
renderBundleDesc.depthStencilFormat = wgpu::TextureFormat::Depth24PlusStencil8;
auto SetupRenderPipelineDescForTest = [this](utils::ComboRenderPipelineDescriptor* desc) {
InitializeRenderPipelineDescriptor(desc);
desc->cFragment.targetCount = 1;
desc->cTargets[0].format = wgpu::TextureFormat::RGBA8Unorm;
};
// Test the success case.
{
utils::ComboRenderPipelineDescriptor desc;
SetupRenderPipelineDescForTest(&desc);
desc.EnableDepthStencil(wgpu::TextureFormat::Depth24PlusStencil8);
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&desc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.Finish();
}
// Test the failure case for mismatched format.
{
utils::ComboRenderPipelineDescriptor desc;
SetupRenderPipelineDescForTest(&desc);
desc.EnableDepthStencil(wgpu::TextureFormat::Depth24Plus);
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&desc);
renderBundleEncoder.SetPipeline(pipeline);
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
// Test the failure case for missing format.
{
utils::ComboRenderPipelineDescriptor desc;
SetupRenderPipelineDescForTest(&desc);
desc.depthStencil = nullptr;
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&desc);
renderBundleEncoder.SetPipeline(pipeline);
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
}
// Test that encoding SetPipline with an incompatible sample count produces an error.
TEST_F(RenderBundleValidationTest, PipelineSampleCountMismatch) {
utils::ComboRenderBundleEncoderDescriptor renderBundleDesc = {};
renderBundleDesc.colorFormatsCount = 1;
renderBundleDesc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Unorm;
renderBundleDesc.sampleCount = 4;
utils::ComboRenderPipelineDescriptor renderPipelineDesc;
InitializeRenderPipelineDescriptor(&renderPipelineDesc);
renderPipelineDesc.cFragment.targetCount = 1;
renderPipelineDesc.cTargets[0].format = wgpu::TextureFormat::RGBA8Unorm;
renderPipelineDesc.multisample.count = 4;
// Test the success case.
{
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&renderPipelineDesc);
renderBundleEncoder.SetPipeline(pipeline);
renderBundleEncoder.Finish();
}
// Test the failure case.
{
renderPipelineDesc.multisample.count = 1;
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderPipeline pipeline = device.CreateRenderPipeline(&renderPipelineDesc);
renderBundleEncoder.SetPipeline(pipeline);
ASSERT_DEVICE_ERROR(renderBundleEncoder.Finish());
}
}
// Test that encoding ExecuteBundles with an incompatible color format produces an error.
TEST_F(RenderBundleValidationTest, RenderPassColorFormatMismatch) {
utils::ComboRenderBundleEncoderDescriptor renderBundleDesc = {};
renderBundleDesc.colorFormatsCount = 3;
renderBundleDesc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Unorm;
renderBundleDesc.cColorFormats[1] = wgpu::TextureFormat::RG16Float;
renderBundleDesc.cColorFormats[2] = wgpu::TextureFormat::R16Sint;
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
wgpu::TextureDescriptor textureDesc = {};
textureDesc.usage = wgpu::TextureUsage::RenderAttachment;
textureDesc.size = wgpu::Extent3D({400, 400, 1});
textureDesc.format = wgpu::TextureFormat::RGBA8Unorm;
wgpu::Texture tex0 = device.CreateTexture(&textureDesc);
textureDesc.format = wgpu::TextureFormat::RG16Float;
wgpu::Texture tex1 = device.CreateTexture(&textureDesc);
textureDesc.format = wgpu::TextureFormat::R16Sint;
wgpu::Texture tex2 = device.CreateTexture(&textureDesc);
// Test the success case
{
utils::ComboRenderPassDescriptor renderPass({
tex0.CreateView(),
tex1.CreateView(),
tex2.CreateView(),
});
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
commandEncoder.Finish();
}
// Test the failure case for mismatched format
{
utils::ComboRenderPassDescriptor renderPass({
tex0.CreateView(),
tex1.CreateView(),
tex0.CreateView(),
});
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Test the failure case for missing format
{
utils::ComboRenderPassDescriptor renderPass({
tex0.CreateView(),
tex1.CreateView(),
});
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
}
// Test that encoding ExecuteBundles with an incompatible depth stencil format produces an
// error.
TEST_F(RenderBundleValidationTest, RenderPassDepthStencilFormatMismatch) {
utils::ComboRenderBundleEncoderDescriptor renderBundleDesc = {};
renderBundleDesc.colorFormatsCount = 1;
renderBundleDesc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Unorm;
renderBundleDesc.depthStencilFormat = wgpu::TextureFormat::Depth24Plus;
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
wgpu::TextureDescriptor textureDesc = {};
textureDesc.usage = wgpu::TextureUsage::RenderAttachment;
textureDesc.size = wgpu::Extent3D({400, 400, 1});
textureDesc.format = wgpu::TextureFormat::RGBA8Unorm;
wgpu::Texture tex0 = device.CreateTexture(&textureDesc);
textureDesc.format = wgpu::TextureFormat::Depth24Plus;
wgpu::Texture tex1 = device.CreateTexture(&textureDesc);
textureDesc.format = wgpu::TextureFormat::Depth32Float;
wgpu::Texture tex2 = device.CreateTexture(&textureDesc);
// Test the success case
{
utils::ComboRenderPassDescriptor renderPass({tex0.CreateView()}, tex1.CreateView());
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
commandEncoder.Finish();
}
// Test the failure case for mismatched format
{
utils::ComboRenderPassDescriptor renderPass({tex0.CreateView()}, tex2.CreateView());
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
// Test the failure case for missing format
{
utils::ComboRenderPassDescriptor renderPass({tex0.CreateView()});
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
}
// Test that encoding ExecuteBundles with an incompatible sample count produces an error.
TEST_F(RenderBundleValidationTest, RenderPassSampleCountMismatch) {
utils::ComboRenderBundleEncoderDescriptor renderBundleDesc = {};
renderBundleDesc.colorFormatsCount = 1;
renderBundleDesc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Unorm;
wgpu::RenderBundleEncoder renderBundleEncoder =
device.CreateRenderBundleEncoder(&renderBundleDesc);
wgpu::RenderBundle renderBundle = renderBundleEncoder.Finish();
wgpu::TextureDescriptor textureDesc = {};
textureDesc.usage = wgpu::TextureUsage::RenderAttachment;
textureDesc.size = wgpu::Extent3D({400, 400, 1});
textureDesc.format = wgpu::TextureFormat::RGBA8Unorm;
wgpu::Texture tex0 = device.CreateTexture(&textureDesc);
textureDesc.sampleCount = 4;
wgpu::Texture tex1 = device.CreateTexture(&textureDesc);
// Test the success case
{
utils::ComboRenderPassDescriptor renderPass({tex0.CreateView()});
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
commandEncoder.Finish();
}
// Test the failure case
{
utils::ComboRenderPassDescriptor renderPass({tex1.CreateView()});
wgpu::CommandEncoder commandEncoder = device.CreateCommandEncoder();
wgpu::RenderPassEncoder pass = commandEncoder.BeginRenderPass(&renderPass);
pass.ExecuteBundles(1, &renderBundle);
pass.EndPass();
ASSERT_DEVICE_ERROR(commandEncoder.Finish());
}
}
// Test that color attachment texture formats must be color renderable and
// depth stencil texture formats must be depth/stencil.
TEST_F(RenderBundleValidationTest, TextureFormats) {
// Test that color formats are validated as color.
{
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = wgpu::TextureFormat::Depth24PlusStencil8;
ASSERT_DEVICE_ERROR(device.CreateRenderBundleEncoder(&desc));
}
// Test that color formats are validated as renderable.
{
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.colorFormatsCount = 1;
desc.cColorFormats[0] = wgpu::TextureFormat::RGBA8Snorm;
ASSERT_DEVICE_ERROR(device.CreateRenderBundleEncoder(&desc));
}
// Test that depth/stencil formats are validated as depth/stencil.
{
utils::ComboRenderBundleEncoderDescriptor desc = {};
desc.depthStencilFormat = wgpu::TextureFormat::RGBA8Unorm;
ASSERT_DEVICE_ERROR(device.CreateRenderBundleEncoder(&desc));
}
// Don't test non-renerable depth/stencil formats because we don't have any.
}