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// Copyright 2017 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 "dawn/native/metal/ShaderModuleMTL.h"
#include "dawn/native/BindGroupLayout.h"
#include "dawn/native/CacheRequest.h"
#include "dawn/native/Serializable.h"
#include "dawn/native/TintUtils.h"
#include "dawn/native/metal/DeviceMTL.h"
#include "dawn/native/metal/PipelineLayoutMTL.h"
#include "dawn/native/metal/RenderPipelineMTL.h"
#include "dawn/native/stream/BlobSource.h"
#include "dawn/native/stream/ByteVectorSink.h"
#include "dawn/platform/DawnPlatform.h"
#include "dawn/platform/tracing/TraceEvent.h"
#include <tint/tint.h>
#include <sstream>
namespace dawn::native::metal {
namespace {
using OptionalVertexPullingTransformConfig = std::optional<tint::transform::VertexPulling::Config>;
#define MSL_COMPILATION_REQUEST_MEMBERS(X) \
X(SingleShaderStage, stage) \
X(const tint::Program*, inputProgram) \
X(tint::transform::BindingRemapper::BindingPoints, bindingPoints) \
X(tint::transform::MultiplanarExternalTexture::BindingsMap, externalTextureBindings) \
X(OptionalVertexPullingTransformConfig, vertexPullingTransformConfig) \
X(std::optional<tint::transform::SubstituteOverride::Config>, substituteOverrideConfig) \
X(LimitsForCompilationRequest, limits) \
X(std::string, entryPointName) \
X(uint32_t, sampleMask) \
X(bool, emitVertexPointSize) \
X(bool, isRobustnessEnabled) \
X(bool, disableSymbolRenaming) \
X(bool, disableWorkgroupInit) \
X(CacheKey::UnsafeUnkeyedValue<dawn::platform::Platform*>, tracePlatform)
DAWN_MAKE_CACHE_REQUEST(MslCompilationRequest, MSL_COMPILATION_REQUEST_MEMBERS);
#undef MSL_COMPILATION_REQUEST_MEMBERS
using WorkgroupAllocations = std::vector<uint32_t>;
#define MSL_COMPILATION_MEMBERS(X) \
X(std::string, msl) \
X(std::string, remappedEntryPointName) \
X(bool, needsStorageBufferLength) \
X(bool, hasInvariantAttribute) \
X(WorkgroupAllocations, workgroupAllocations) \
X(Extent3D, localWorkgroupSize)
DAWN_SERIALIZABLE(struct, MslCompilation, MSL_COMPILATION_MEMBERS){};
#undef MSL_COMPILATION_MEMBERS
} // namespace
} // namespace dawn::native::metal
namespace dawn::native::metal {
// static
ResultOrError<Ref<ShaderModule>> ShaderModule::Create(
Device* device,
const ShaderModuleDescriptor* descriptor,
ShaderModuleParseResult* parseResult,
OwnedCompilationMessages* compilationMessages) {
Ref<ShaderModule> module = AcquireRef(new ShaderModule(device, descriptor));
DAWN_TRY(module->Initialize(parseResult, compilationMessages));
return module;
}
ShaderModule::ShaderModule(Device* device, const ShaderModuleDescriptor* descriptor)
: ShaderModuleBase(device, descriptor) {}
ShaderModule::~ShaderModule() = default;
MaybeError ShaderModule::Initialize(ShaderModuleParseResult* parseResult,
OwnedCompilationMessages* compilationMessages) {
ScopedTintICEHandler scopedICEHandler(GetDevice());
return InitializeBase(parseResult, compilationMessages);
}
namespace {
ResultOrError<CacheResult<MslCompilation>> TranslateToMSL(
DeviceBase* device,
const ProgrammableStage& programmableStage,
SingleShaderStage stage,
const PipelineLayout* layout,
ShaderModule::MetalFunctionData* out,
uint32_t sampleMask,
const RenderPipeline* renderPipeline) {
ScopedTintICEHandler scopedICEHandler(device);
std::ostringstream errorStream;
errorStream << "Tint MSL failure:" << std::endl;
// Remap BindingNumber to BindingIndex in WGSL shader
using BindingRemapper = tint::transform::BindingRemapper;
using BindingPoint = tint::transform::BindingPoint;
BindingRemapper::BindingPoints bindingPoints;
for (BindGroupIndex group : IterateBitSet(layout->GetBindGroupLayoutsMask())) {
const BindGroupLayoutBase::BindingMap& bindingMap =
layout->GetBindGroupLayout(group)->GetBindingMap();
for (const auto [bindingNumber, bindingIndex] : bindingMap) {
const BindingInfo& bindingInfo =
layout->GetBindGroupLayout(group)->GetBindingInfo(bindingIndex);
if (!(bindingInfo.visibility & StageBit(stage))) {
continue;
}
uint32_t shaderIndex = layout->GetBindingIndexInfo(stage)[group][bindingIndex];
BindingPoint srcBindingPoint{static_cast<uint32_t>(group),
static_cast<uint32_t>(bindingNumber)};
BindingPoint dstBindingPoint{0, shaderIndex};
if (srcBindingPoint != dstBindingPoint) {
bindingPoints.emplace(srcBindingPoint, dstBindingPoint);
}
}
}
auto externalTextureBindings = BuildExternalTextureTransformBindings(layout);
std::optional<tint::transform::VertexPulling::Config> vertexPullingTransformConfig;
if (stage == SingleShaderStage::Vertex &&
device->IsToggleEnabled(Toggle::MetalEnableVertexPulling)) {
vertexPullingTransformConfig = BuildVertexPullingTransformConfig(
*renderPipeline, programmableStage.entryPoint.c_str(), kPullingBufferBindingSet);
for (VertexBufferSlot slot : IterateBitSet(renderPipeline->GetVertexBufferSlotsUsed())) {
uint32_t metalIndex = renderPipeline->GetMtlVertexBufferIndex(slot);
// Tell Tint to map (kPullingBufferBindingSet, slot) to this MSL buffer index.
BindingPoint srcBindingPoint{static_cast<uint32_t>(kPullingBufferBindingSet),
static_cast<uint8_t>(slot)};
BindingPoint dstBindingPoint{0, metalIndex};
if (srcBindingPoint != dstBindingPoint) {
bindingPoints.emplace(srcBindingPoint, dstBindingPoint);
}
}
}
std::optional<tint::transform::SubstituteOverride::Config> substituteOverrideConfig;
if (!programmableStage.metadata->overrides.empty()) {
substituteOverrideConfig = BuildSubstituteOverridesTransformConfig(programmableStage);
}
MslCompilationRequest req = {};
req.stage = stage;
req.inputProgram = programmableStage.module->GetTintProgram();
req.bindingPoints = std::move(bindingPoints);
req.externalTextureBindings = std::move(externalTextureBindings);
req.vertexPullingTransformConfig = std::move(vertexPullingTransformConfig);
req.substituteOverrideConfig = std::move(substituteOverrideConfig);
req.entryPointName = programmableStage.entryPoint.c_str();
req.sampleMask = sampleMask;
req.emitVertexPointSize =
stage == SingleShaderStage::Vertex &&
renderPipeline->GetPrimitiveTopology() == wgpu::PrimitiveTopology::PointList;
req.isRobustnessEnabled = device->IsRobustnessEnabled();
req.disableSymbolRenaming = device->IsToggleEnabled(Toggle::DisableSymbolRenaming);
req.tracePlatform = UnsafeUnkeyedValue(device->GetPlatform());
const CombinedLimits& limits = device->GetLimits();
req.limits = LimitsForCompilationRequest::Create(limits.v1);
CacheResult<MslCompilation> mslCompilation;
DAWN_TRY_LOAD_OR_RUN(
mslCompilation, device, std::move(req), MslCompilation::FromBlob,
[](MslCompilationRequest r) -> ResultOrError<MslCompilation> {
tint::transform::Manager transformManager;
tint::transform::DataMap transformInputs;
// We only remap bindings for the target entry point, so we need to strip all other
// entry points to avoid generating invalid bindings for them.
transformManager.Add<tint::transform::SingleEntryPoint>();
transformInputs.Add<tint::transform::SingleEntryPoint::Config>(r.entryPointName);
if (!r.externalTextureBindings.empty()) {
transformManager.Add<tint::transform::MultiplanarExternalTexture>();
transformInputs.Add<tint::transform::MultiplanarExternalTexture::NewBindingPoints>(
std::move(r.externalTextureBindings));
}
if (r.vertexPullingTransformConfig) {
transformManager.Add<tint::transform::VertexPulling>();
transformInputs.Add<tint::transform::VertexPulling::Config>(
std::move(r.vertexPullingTransformConfig).value());
}
if (r.substituteOverrideConfig) {
// This needs to run after SingleEntryPoint transform which removes unused overrides
// for current entry point.
transformManager.Add<tint::transform::SubstituteOverride>();
transformInputs.Add<tint::transform::SubstituteOverride::Config>(
std::move(r.substituteOverrideConfig).value());
}
if (r.isRobustnessEnabled) {
transformManager.Add<tint::transform::Robustness>();
}
transformManager.Add<BindingRemapper>();
transformInputs.Add<BindingRemapper::Remappings>(std::move(r.bindingPoints),
BindingRemapper::AccessControls{},
/* mayCollide */ true);
transformManager.Add<tint::transform::Renamer>();
if (r.disableSymbolRenaming) {
// We still need to rename MSL reserved keywords
transformInputs.Add<tint::transform::Renamer::Config>(
tint::transform::Renamer::Target::kMslKeywords);
}
tint::Program program;
tint::transform::DataMap transformOutputs;
{
TRACE_EVENT0(r.tracePlatform.UnsafeGetValue(), General, "RunTransforms");
DAWN_TRY_ASSIGN(program,
RunTransforms(&transformManager, r.inputProgram, transformInputs,
&transformOutputs, nullptr));
}
std::string remappedEntryPointName;
if (auto* data = transformOutputs.Get<tint::transform::Renamer::Data>()) {
auto it = data->remappings.find(r.entryPointName);
if (it != data->remappings.end()) {
remappedEntryPointName = it->second;
} else {
DAWN_INVALID_IF(!r.disableSymbolRenaming,
"Could not find remapped name for entry point.");
remappedEntryPointName = r.entryPointName;
}
} else {
return DAWN_VALIDATION_ERROR("Transform output missing renamer data.");
}
Extent3D localSize{0, 0, 0};
if (r.stage == SingleShaderStage::Compute) {
// Validate workgroup size after program runs transforms.
DAWN_TRY_ASSIGN(localSize, ValidateComputeStageWorkgroupSize(
program, remappedEntryPointName.data(), r.limits));
}
tint::writer::msl::Options options;
options.buffer_size_ubo_index = kBufferLengthBufferSlot;
options.fixed_sample_mask = r.sampleMask;
options.disable_workgroup_init = r.disableWorkgroupInit;
options.emit_vertex_point_size = r.emitVertexPointSize;
TRACE_EVENT0(r.tracePlatform.UnsafeGetValue(), General, "tint::writer::msl::Generate");
auto result = tint::writer::msl::Generate(&program, options);
DAWN_INVALID_IF(!result.success, "An error occured while generating MSL: %s.",
result.error);
// Metal uses Clang to compile the shader as C++14. Disable everything in the -Wall
// category. -Wunused-variable in particular comes up a lot in generated code, and some
// (old?) Metal drivers accidentally treat it as a MTLLibraryErrorCompileError instead
// of a warning.
result.msl = R"(
#ifdef __clang__
#pragma clang diagnostic ignored "-Wall"
#endif
)" + result.msl;
auto workgroupAllocations =
std::move(result.workgroup_allocations[remappedEntryPointName]);
return MslCompilation{{
std::move(result.msl),
std::move(remappedEntryPointName),
result.needs_storage_buffer_sizes,
result.has_invariant_attribute,
std::move(workgroupAllocations),
localSize,
}};
});
if (device->IsToggleEnabled(Toggle::DumpShaders)) {
std::ostringstream dumpedMsg;
dumpedMsg << "/* Dumped generated MSL */" << std::endl << mslCompilation->msl;
device->EmitLog(WGPULoggingType_Info, dumpedMsg.str().c_str());
}
return mslCompilation;
}
} // namespace
MaybeError ShaderModule::CreateFunction(SingleShaderStage stage,
const ProgrammableStage& programmableStage,
const PipelineLayout* layout,
ShaderModule::MetalFunctionData* out,
uint32_t sampleMask,
const RenderPipeline* renderPipeline) {
TRACE_EVENT0(GetDevice()->GetPlatform(), General, "ShaderModuleMTL::CreateFunction");
ASSERT(!IsError());
ASSERT(out);
const char* entryPointName = programmableStage.entryPoint.c_str();
// Vertex stages must specify a renderPipeline
if (stage == SingleShaderStage::Vertex) {
ASSERT(renderPipeline != nullptr);
}
CacheResult<MslCompilation> mslCompilation;
DAWN_TRY_ASSIGN(mslCompilation, TranslateToMSL(GetDevice(), programmableStage, stage, layout,
out, sampleMask, renderPipeline));
out->needsStorageBufferLength = mslCompilation->needsStorageBufferLength;
out->workgroupAllocations = std::move(mslCompilation->workgroupAllocations);
out->localWorkgroupSize = MTLSizeMake(mslCompilation->localWorkgroupSize.width,
mslCompilation->localWorkgroupSize.height,
mslCompilation->localWorkgroupSize.depthOrArrayLayers);
NSRef<NSString> mslSource =
AcquireNSRef([[NSString alloc] initWithUTF8String:mslCompilation->msl.c_str()]);
NSRef<MTLCompileOptions> compileOptions = AcquireNSRef([[MTLCompileOptions alloc] init]);
if (mslCompilation->hasInvariantAttribute) {
if (@available(macOS 11.0, iOS 13.0, *)) {
(*compileOptions).preserveInvariance = true;
}
}
auto mtlDevice = ToBackend(GetDevice())->GetMTLDevice();
NSError* error = nullptr;
NSPRef<id<MTLLibrary>> library;
{
TRACE_EVENT0(GetDevice()->GetPlatform(), General, "MTLDevice::newLibraryWithSource");
library = AcquireNSPRef([mtlDevice newLibraryWithSource:mslSource.Get()
options:compileOptions.Get()
error:&error]);
}
if (error != nullptr) {
DAWN_INVALID_IF(error.code != MTLLibraryErrorCompileWarning,
"Unable to create library object: %s.",
[error.localizedDescription UTF8String]);
}
ASSERT(library != nil);
NSRef<NSString> name = AcquireNSRef(
[[NSString alloc] initWithUTF8String:mslCompilation->remappedEntryPointName.c_str()]);
{
TRACE_EVENT0(GetDevice()->GetPlatform(), General, "MTLLibrary::newFunctionWithName");
out->function = AcquireNSPRef([*library newFunctionWithName:name.Get()]);
}
if (BlobCache* cache = GetDevice()->GetBlobCache()) {
cache->EnsureStored(mslCompilation);
}
if (GetDevice()->IsToggleEnabled(Toggle::MetalEnableVertexPulling) &&
GetEntryPoint(entryPointName).usedVertexInputs.any()) {
out->needsStorageBufferLength = true;
}
return {};
}
} // namespace dawn::native::metal