src/dawn/native/DawnNative.cpp - dawn - Git at Google

 // Copyright 2018 The Dawn & Tint Authors
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are met:
 //
 // 1. Redistributions of source code must retain the above copyright notice, this
 //    list of conditions and the following disclaimer.
 //
 // 2. Redistributions in binary form must reproduce the above copyright notice,
 //    this list of conditions and the following disclaimer in the documentation
 //    and/or other materials provided with the distribution.
 //
 // 3. Neither the name of the copyright holder nor the names of its
 //    contributors may be used to endorse or promote products derived from
 //    this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
 // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #include "dawn/native/DawnNative.h"

 #include <vector>

 #include "dawn/common/Log.h"
 #include "dawn/native/BindGroupLayout.h"
 #include "dawn/native/Buffer.h"
 #include "dawn/native/Device.h"
 #include "dawn/native/Instance.h"
 #include "dawn/native/Texture.h"
 #include "dawn/platform/DawnPlatform.h"
 #include "tint/tint.h"

 // Contains the entry-points into dawn_native

 namespace dawn::native {

 const char MemoryDump::kNameSize[] = "size";
 const char MemoryDump::kNameObjectCount[] = "object_count";
 const char MemoryDump::kUnitsBytes[] = "bytes";
 const char MemoryDump::kUnitsObjects[] = "objects";

 const DawnProcTable& GetProcsAutogen();

 const DawnProcTable& GetProcs() {
     return GetProcsAutogen();
 }

 std::vector<const char*> GetTogglesUsed(WGPUDevice device) {
     return FromAPI(device)->GetTogglesUsed();
 }

 // Adapter

 Adapter::Adapter() = default;

 Adapter::Adapter(AdapterBase* impl) : mImpl(impl) {
     if (mImpl != nullptr) {
         mImpl->AddRef();
     }
 }

 Adapter::~Adapter() {
     if (mImpl != nullptr) {
         mImpl->Release();
     }
     mImpl = nullptr;
 }

 Adapter::Adapter(const Adapter& other) : Adapter(other.mImpl) {}

 Adapter& Adapter::operator=(const Adapter& other) {
     if (this != &other) {
         if (mImpl) {
             mImpl->Release();
         }
         mImpl = other.mImpl;
         if (mImpl) {
             mImpl->AddRef();
         }
     }
     return *this;
 }

 void Adapter::GetProperties(wgpu::AdapterProperties* properties) const {
     GetProperties(reinterpret_cast<WGPUAdapterProperties*>(properties));
 }

 void Adapter::GetProperties(WGPUAdapterProperties* properties) const {
     mImpl->APIGetProperties(FromAPI(properties));
 }

 WGPUAdapter Adapter::Get() const {
     return ToAPI(mImpl);
 }

 std::vector<const char*> Adapter::GetSupportedFeatures() const {
     FeaturesSet supportedFeaturesSet = mImpl->GetSupportedFeatures();
     return supportedFeaturesSet.GetEnabledFeatureNames();
 }

 bool Adapter::GetLimits(WGPUSupportedLimits* limits) const {
     return mImpl->APIGetLimits(FromAPI(limits));
 }

 void Adapter::SetUseTieredLimits(bool useTieredLimits) {
     mImpl->SetUseTieredLimits(useTieredLimits);
 }

 bool Adapter::SupportsExternalImages() const {
     return mImpl->GetPhysicalDevice()->SupportsExternalImages();
 }

 Adapter::operator bool() const {
     return mImpl != nullptr;
 }

 WGPUDevice Adapter::CreateDevice(const wgpu::DeviceDescriptor* deviceDescriptor) {
     return CreateDevice(reinterpret_cast<const WGPUDeviceDescriptor*>(deviceDescriptor));
 }

 WGPUDevice Adapter::CreateDevice(const WGPUDeviceDescriptor* deviceDescriptor) {
     return ToAPI(mImpl->APICreateDevice(FromAPI(deviceDescriptor)));
 }

 void Adapter::RequestDevice(const wgpu::DeviceDescriptor* descriptor,
                             WGPURequestDeviceCallback callback,
                             void* userdata) {
     mImpl->APIRequestDevice(reinterpret_cast<const DeviceDescriptor*>(descriptor), callback,
                             userdata);
 }

 void Adapter::RequestDevice(const WGPUDeviceDescriptor* descriptor,
                             WGPURequestDeviceCallback callback,
                             void* userdata) {
     mImpl->APIRequestDevice(reinterpret_cast<const DeviceDescriptor*>(descriptor), callback,
                             userdata);
 }

 void Adapter::ResetInternalDeviceForTesting() {
     mImpl->GetPhysicalDevice()->ResetInternalDeviceForTesting();
 }

 // DawnInstanceDescriptor

 DawnInstanceDescriptor::DawnInstanceDescriptor() {
     sType = wgpu::SType::DawnInstanceDescriptor;
 }

 bool DawnInstanceDescriptor::operator==(const DawnInstanceDescriptor& rhs) const {
     return (nextInChain == rhs.nextInChain) &&
            std::tie(additionalRuntimeSearchPathsCount, additionalRuntimeSearchPaths, platform,
                     backendValidationLevel, beginCaptureOnStartup, enableAdapterBlocklist) ==
                std::tie(rhs.additionalRuntimeSearchPathsCount, rhs.additionalRuntimeSearchPaths,
                         rhs.platform, rhs.backendValidationLevel, rhs.beginCaptureOnStartup,
                         rhs.enableAdapterBlocklist);
 }

 // Instance

 Instance::Instance(const WGPUInstanceDescriptor* desc)
     : mImpl(APICreateInstance(reinterpret_cast<const InstanceDescriptor*>(desc))) {
     tint::Initialize();
 }

 Instance::~Instance() {
     if (mImpl != nullptr) {
         mImpl->APIRelease();
         mImpl = nullptr;
     }
 }

 std::vector<Adapter> Instance::EnumerateAdapters(const WGPURequestAdapterOptions* options) const {
     // Adapters are owned by mImpl so it is safe to return non RAII pointers to them
     std::vector<Adapter> adapters;
     for (const Ref<AdapterBase>& adapter : mImpl->EnumerateAdapters(FromAPI(options))) {
         adapters.push_back(Adapter(adapter.Get()));
     }
     return adapters;
 }

 std::vector<Adapter> Instance::EnumerateAdapters(const wgpu::RequestAdapterOptions* options) const {
     return EnumerateAdapters(reinterpret_cast<const WGPURequestAdapterOptions*>(options));
 }

 const ToggleInfo* Instance::GetToggleInfo(const char* toggleName) {
     return mImpl->GetToggleInfo(toggleName);
 }

 void Instance::EnableBackendValidation(bool enableBackendValidation) {
     if (enableBackendValidation) {
         mImpl->SetBackendValidationLevel(BackendValidationLevel::Full);
     }
 }

 void Instance::SetBackendValidationLevel(BackendValidationLevel level) {
     mImpl->SetBackendValidationLevel(level);
 }

 void Instance::EnableBeginCaptureOnStartup(bool beginCaptureOnStartup) {
     mImpl->EnableBeginCaptureOnStartup(beginCaptureOnStartup);
 }

 void Instance::EnableAdapterBlocklist(bool enable) {
     mImpl->EnableAdapterBlocklist(enable);
 }

 uint64_t Instance::GetDeviceCountForTesting() const {
     return mImpl->GetDeviceCountForTesting();
 }

 WGPUInstance Instance::Get() const {
     return ToAPI(mImpl);
 }

 void Instance::DisconnectDawnPlatform() {
     mImpl->DisconnectDawnPlatform();
 }

 size_t GetLazyClearCountForTesting(WGPUDevice device) {
     return FromAPI(device)->GetLazyClearCountForTesting();
 }

 size_t GetDeprecationWarningCountForTesting(WGPUDevice device) {
     return FromAPI(device)->GetDeprecationWarningCountForTesting();
 }

 size_t GetPhysicalDeviceCountForTesting(WGPUInstance instance) {
     return FromAPI(instance)->GetPhysicalDeviceCountForTesting();
 }

 bool IsTextureSubresourceInitialized(WGPUTexture texture,
                                      uint32_t baseMipLevel,
                                      uint32_t levelCount,
                                      uint32_t baseArrayLayer,
                                      uint32_t layerCount,
                                      WGPUTextureAspect cAspect) {
     TextureBase* textureBase = FromAPI(texture);
     if (textureBase->IsError()) {
         return false;
     }

     Aspect aspect =
         ConvertAspect(textureBase->GetFormat(), static_cast<wgpu::TextureAspect>(cAspect));
     SubresourceRange range(aspect, {baseArrayLayer, layerCount}, {baseMipLevel, levelCount});
     return textureBase->IsSubresourceContentInitialized(range);
 }

 std::vector<const char*> GetProcMapNamesForTestingInternal();

 std::vector<const char*> GetProcMapNamesForTesting() {
     return GetProcMapNamesForTestingInternal();
 }

 DAWN_NATIVE_EXPORT bool DeviceTick(WGPUDevice device) {
     return FromAPI(device)->APITick();
 }

 DAWN_NATIVE_EXPORT bool InstanceProcessEvents(WGPUInstance instance) {
     return FromAPI(instance)->ProcessEvents();
 }

 // ExternalImageDescriptor

 ExternalImageDescriptor::ExternalImageDescriptor(ExternalImageType type) : mType(type) {}

 ExternalImageType ExternalImageDescriptor::GetType() const {
     return mType;
 }

 // ExternalImageExportInfo

 ExternalImageExportInfo::ExternalImageExportInfo(ExternalImageType type) : mType(type) {}

 ExternalImageType ExternalImageExportInfo::GetType() const {
     return mType;
 }

 bool CheckIsErrorForTesting(void* objectHandle) {
     return reinterpret_cast<ErrorMonad*>(objectHandle)->IsError();
 }

 const char* GetObjectLabelForTesting(void* objectHandle) {
     ApiObjectBase* object = reinterpret_cast<ApiObjectBase*>(objectHandle);
     return object->GetLabel().c_str();
 }

 uint64_t GetAllocatedSizeForTesting(WGPUBuffer buffer) {
     return FromAPI(buffer)->GetAllocatedSize();
 }

 std::vector<const ToggleInfo*> AllToggleInfos() {
     return TogglesInfo::AllToggleInfos();
 }

 const FeatureInfo* GetFeatureInfo(wgpu::FeatureName feature) {
     Feature f = FromAPI(feature);
     if (f == Feature::InvalidEnum) {
         return nullptr;
     }
     return &kFeatureNameAndInfoList[FromAPI(feature)];
 }

 void DumpMemoryStatistics(WGPUDevice device, MemoryDump* dump) {
     FromAPI(device)->DumpMemoryStatistics(dump);
 }

 }  // namespace dawn::native
	// Copyright 2018 The Dawn & Tint Authors
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are met:
	//
	// 1. Redistributions of source code must retain the above copyright notice, this
	// list of conditions and the following disclaimer.
	//
	// 2. Redistributions in binary form must reproduce the above copyright notice,
	// this list of conditions and the following disclaimer in the documentation
	// and/or other materials provided with the distribution.
	//
	// 3. Neither the name of the copyright holder nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
	// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
	// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
	// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
	// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#include "dawn/native/DawnNative.h"

	#include <vector>

	#include "dawn/common/Log.h"
	#include "dawn/native/BindGroupLayout.h"
	#include "dawn/native/Buffer.h"
	#include "dawn/native/Device.h"
	#include "dawn/native/Instance.h"
	#include "dawn/native/Texture.h"
	#include "dawn/platform/DawnPlatform.h"
	#include "tint/tint.h"

	// Contains the entry-points into dawn_native

	namespace dawn::native {

	const char MemoryDump::kNameSize[] = "size";
	const char MemoryDump::kNameObjectCount[] = "object_count";
	const char MemoryDump::kUnitsBytes[] = "bytes";
	const char MemoryDump::kUnitsObjects[] = "objects";

	const DawnProcTable& GetProcsAutogen();

	const DawnProcTable& GetProcs() {
	return GetProcsAutogen();
	}

	std::vector<const char*> GetTogglesUsed(WGPUDevice device) {
	return FromAPI(device)->GetTogglesUsed();
	}

	// Adapter

	Adapter::Adapter() = default;

	Adapter::Adapter(AdapterBase* impl) : mImpl(impl) {
	if (mImpl != nullptr) {
	mImpl->AddRef();
	}
	}

	Adapter::~Adapter() {
	if (mImpl != nullptr) {
	mImpl->Release();
	}
	mImpl = nullptr;
	}

	Adapter::Adapter(const Adapter& other) : Adapter(other.mImpl) {}

	Adapter& Adapter::operator=(const Adapter& other) {
	if (this != &other) {
	if (mImpl) {
	mImpl->Release();
	}
	mImpl = other.mImpl;
	if (mImpl) {
	mImpl->AddRef();
	}
	}
	return *this;
	}

	void Adapter::GetProperties(wgpu::AdapterProperties* properties) const {
	GetProperties(reinterpret_cast<WGPUAdapterProperties*>(properties));
	}

	void Adapter::GetProperties(WGPUAdapterProperties* properties) const {
	mImpl->APIGetProperties(FromAPI(properties));
	}

	WGPUAdapter Adapter::Get() const {
	return ToAPI(mImpl);
	}

	std::vector<const char*> Adapter::GetSupportedFeatures() const {
	FeaturesSet supportedFeaturesSet = mImpl->GetSupportedFeatures();
	return supportedFeaturesSet.GetEnabledFeatureNames();
	}

	bool Adapter::GetLimits(WGPUSupportedLimits* limits) const {
	return mImpl->APIGetLimits(FromAPI(limits));
	}

	void Adapter::SetUseTieredLimits(bool useTieredLimits) {
	mImpl->SetUseTieredLimits(useTieredLimits);
	}

	bool Adapter::SupportsExternalImages() const {
	return mImpl->GetPhysicalDevice()->SupportsExternalImages();
	}

	Adapter::operator bool() const {
	return mImpl != nullptr;
	}

	WGPUDevice Adapter::CreateDevice(const wgpu::DeviceDescriptor* deviceDescriptor) {
	return CreateDevice(reinterpret_cast<const WGPUDeviceDescriptor*>(deviceDescriptor));
	}

	WGPUDevice Adapter::CreateDevice(const WGPUDeviceDescriptor* deviceDescriptor) {
	return ToAPI(mImpl->APICreateDevice(FromAPI(deviceDescriptor)));
	}

	void Adapter::RequestDevice(const wgpu::DeviceDescriptor* descriptor,
	WGPURequestDeviceCallback callback,
	void* userdata) {
	mImpl->APIRequestDevice(reinterpret_cast<const DeviceDescriptor*>(descriptor), callback,
	userdata);
	}

	void Adapter::RequestDevice(const WGPUDeviceDescriptor* descriptor,
	WGPURequestDeviceCallback callback,
	void* userdata) {
	mImpl->APIRequestDevice(reinterpret_cast<const DeviceDescriptor*>(descriptor), callback,
	userdata);
	}

	void Adapter::ResetInternalDeviceForTesting() {
	mImpl->GetPhysicalDevice()->ResetInternalDeviceForTesting();
	}

	// DawnInstanceDescriptor

	DawnInstanceDescriptor::DawnInstanceDescriptor() {
	sType = wgpu::SType::DawnInstanceDescriptor;
	}

	bool DawnInstanceDescriptor::operator==(const DawnInstanceDescriptor& rhs) const {
	return (nextInChain == rhs.nextInChain) &&
	std::tie(additionalRuntimeSearchPathsCount, additionalRuntimeSearchPaths, platform,
	backendValidationLevel, beginCaptureOnStartup, enableAdapterBlocklist) ==
	std::tie(rhs.additionalRuntimeSearchPathsCount, rhs.additionalRuntimeSearchPaths,
	rhs.platform, rhs.backendValidationLevel, rhs.beginCaptureOnStartup,
	rhs.enableAdapterBlocklist);
	}

	// Instance

	Instance::Instance(const WGPUInstanceDescriptor* desc)
	: mImpl(APICreateInstance(reinterpret_cast<const InstanceDescriptor*>(desc))) {
	tint::Initialize();
	}

	Instance::~Instance() {
	if (mImpl != nullptr) {
	mImpl->APIRelease();
	mImpl = nullptr;
	}
	}

	std::vector<Adapter> Instance::EnumerateAdapters(const WGPURequestAdapterOptions* options) const {
	// Adapters are owned by mImpl so it is safe to return non RAII pointers to them
	std::vector<Adapter> adapters;
	for (const Ref<AdapterBase>& adapter : mImpl->EnumerateAdapters(FromAPI(options))) {
	adapters.push_back(Adapter(adapter.Get()));
	}
	return adapters;
	}

	std::vector<Adapter> Instance::EnumerateAdapters(const wgpu::RequestAdapterOptions* options) const {
	return EnumerateAdapters(reinterpret_cast<const WGPURequestAdapterOptions*>(options));
	}

	const ToggleInfo* Instance::GetToggleInfo(const char* toggleName) {
	return mImpl->GetToggleInfo(toggleName);
	}

	void Instance::EnableBackendValidation(bool enableBackendValidation) {
	if (enableBackendValidation) {
	mImpl->SetBackendValidationLevel(BackendValidationLevel::Full);
	}
	}

	void Instance::SetBackendValidationLevel(BackendValidationLevel level) {
	mImpl->SetBackendValidationLevel(level);
	}

	void Instance::EnableBeginCaptureOnStartup(bool beginCaptureOnStartup) {
	mImpl->EnableBeginCaptureOnStartup(beginCaptureOnStartup);
	}

	void Instance::EnableAdapterBlocklist(bool enable) {
	mImpl->EnableAdapterBlocklist(enable);
	}

	uint64_t Instance::GetDeviceCountForTesting() const {
	return mImpl->GetDeviceCountForTesting();
	}

	WGPUInstance Instance::Get() const {
	return ToAPI(mImpl);
	}

	void Instance::DisconnectDawnPlatform() {
	mImpl->DisconnectDawnPlatform();
	}

	size_t GetLazyClearCountForTesting(WGPUDevice device) {
	return FromAPI(device)->GetLazyClearCountForTesting();
	}

	size_t GetDeprecationWarningCountForTesting(WGPUDevice device) {
	return FromAPI(device)->GetDeprecationWarningCountForTesting();
	}

	size_t GetPhysicalDeviceCountForTesting(WGPUInstance instance) {
	return FromAPI(instance)->GetPhysicalDeviceCountForTesting();
	}

	bool IsTextureSubresourceInitialized(WGPUTexture texture,
	uint32_t baseMipLevel,
	uint32_t levelCount,
	uint32_t baseArrayLayer,
	uint32_t layerCount,
	WGPUTextureAspect cAspect) {
	TextureBase* textureBase = FromAPI(texture);
	if (textureBase->IsError()) {
	return false;
	}

	Aspect aspect =
	ConvertAspect(textureBase->GetFormat(), static_cast<wgpu::TextureAspect>(cAspect));
	SubresourceRange range(aspect, {baseArrayLayer, layerCount}, {baseMipLevel, levelCount});
	return textureBase->IsSubresourceContentInitialized(range);
	}

	std::vector<const char*> GetProcMapNamesForTestingInternal();

	std::vector<const char*> GetProcMapNamesForTesting() {
	return GetProcMapNamesForTestingInternal();
	}

	DAWN_NATIVE_EXPORT bool DeviceTick(WGPUDevice device) {
	return FromAPI(device)->APITick();
	}

	DAWN_NATIVE_EXPORT bool InstanceProcessEvents(WGPUInstance instance) {
	return FromAPI(instance)->ProcessEvents();
	}

	// ExternalImageDescriptor

	ExternalImageDescriptor::ExternalImageDescriptor(ExternalImageType type) : mType(type) {}

	ExternalImageType ExternalImageDescriptor::GetType() const {
	return mType;
	}

	// ExternalImageExportInfo

	ExternalImageExportInfo::ExternalImageExportInfo(ExternalImageType type) : mType(type) {}

	ExternalImageType ExternalImageExportInfo::GetType() const {
	return mType;
	}

	bool CheckIsErrorForTesting(void* objectHandle) {
	return reinterpret_cast<ErrorMonad*>(objectHandle)->IsError();
	}

	const char* GetObjectLabelForTesting(void* objectHandle) {
	ApiObjectBase* object = reinterpret_cast<ApiObjectBase*>(objectHandle);
	return object->GetLabel().c_str();
	}

	uint64_t GetAllocatedSizeForTesting(WGPUBuffer buffer) {
	return FromAPI(buffer)->GetAllocatedSize();
	}

	std::vector<const ToggleInfo*> AllToggleInfos() {
	return TogglesInfo::AllToggleInfos();
	}

	const FeatureInfo* GetFeatureInfo(wgpu::FeatureName feature) {
	Feature f = FromAPI(feature);
	if (f == Feature::InvalidEnum) {
	return nullptr;
	}
	return &kFeatureNameAndInfoList[FromAPI(feature)];
	}

	void DumpMemoryStatistics(WGPUDevice device, MemoryDump* dump) {
	FromAPI(device)->DumpMemoryStatistics(dump);
	}

	} // namespace dawn::native