dawn-cmake/src/dawn/native/DawnNative.cpp

// Copyright 2018 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/DawnNative.h"

#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"

// Contains the entry-points into dawn_native

namespace dawn::native {

    namespace {
        struct ComboDeprecatedDawnDeviceDescriptor : DeviceDescriptor {
            explicit ComboDeprecatedDawnDeviceDescriptor(
                const DawnDeviceDescriptor* deviceDescriptor) {
                dawn::WarningLog() << "DawnDeviceDescriptor is deprecated. Please use "
                                      "WGPUDeviceDescriptor instead.";

                DeviceDescriptor* desc = this;

                if (deviceDescriptor != nullptr) {
                    desc->nextInChain = &mTogglesDesc;
                    mTogglesDesc.forceEnabledToggles = deviceDescriptor->forceEnabledToggles.data();
                    mTogglesDesc.forceEnabledTogglesCount =
                        deviceDescriptor->forceEnabledToggles.size();
                    mTogglesDesc.forceDisabledToggles =
                        deviceDescriptor->forceDisabledToggles.data();
                    mTogglesDesc.forceDisabledTogglesCount =
                        deviceDescriptor->forceDisabledToggles.size();

                    desc->requiredLimits =
                        reinterpret_cast<const RequiredLimits*>(deviceDescriptor->requiredLimits);

                    FeaturesInfo featuresInfo;
                    for (const char* featureStr : deviceDescriptor->requiredFeatures) {
                        mRequiredFeatures.push_back(featuresInfo.FeatureNameToAPIEnum(featureStr));
                    }
                    desc->requiredFeatures = mRequiredFeatures.data();
                    desc->requiredFeaturesCount = mRequiredFeatures.size();
                }
            }

            DawnTogglesDeviceDescriptor mTogglesDesc = {};
            std::vector<wgpu::FeatureName> mRequiredFeatures = {};
        };
    }  // namespace

    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->Reference();
        }
    }

    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->Reference();
            }
        }
        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();
    }

    WGPUDeviceProperties Adapter::GetAdapterProperties() const {
        return mImpl->GetAdapterProperties();
    }

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

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

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

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

    WGPUDevice Adapter::CreateDevice(const DawnDeviceDescriptor* deviceDescriptor) {
        ComboDeprecatedDawnDeviceDescriptor desc(deviceDescriptor);
        return ToAPI(mImpl->APICreateDevice(&desc));
    }

    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 DawnDeviceDescriptor* descriptor,
                                WGPURequestDeviceCallback callback,
                                void* userdata) {
        ComboDeprecatedDawnDeviceDescriptor desc(descriptor);
        mImpl->APIRequestDevice(&desc, callback, userdata);
    }

    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->ResetInternalDeviceForTesting();
    }

    // AdapterDiscoverOptionsBase

    AdapterDiscoveryOptionsBase::AdapterDiscoveryOptionsBase(WGPUBackendType type)
        : backendType(type) {
    }

    // Instance

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

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

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

    bool Instance::DiscoverAdapters(const AdapterDiscoveryOptionsBase* options) {
        return mImpl->DiscoverAdapters(options);
    }

    std::vector<Adapter> Instance::GetAdapters() 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->GetAdapters()) {
            adapters.push_back(Adapter(adapter.Get()));
        }
        return adapters;
    }

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

    const FeatureInfo* Instance::GetFeatureInfo(WGPUFeatureName feature) {
        return mImpl->GetFeatureInfo(static_cast<wgpu::FeatureName>(feature));
    }

    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::SetPlatform(dawn::platform::Platform* platform) {
        mImpl->SetPlatform(platform);
    }

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

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

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

    bool IsTextureSubresourceInitialized(WGPUTexture texture,
                                         uint32_t baseMipLevel,
                                         uint32_t levelCount,
                                         uint32_t baseArrayLayer,
                                         uint32_t layerCount,
                                         WGPUTextureAspect cAspect) {
        TextureBase* textureBase = FromAPI(texture);

        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();
    }

    // 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;
    }

    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();
    }

    bool BindGroupLayoutBindingsEqualForTesting(WGPUBindGroupLayout a, WGPUBindGroupLayout b) {
        bool excludePipelineCompatibiltyToken = true;
        return FromAPI(a)->IsLayoutEqual(FromAPI(b), excludePipelineCompatibiltyToken);
    }

}  // namespace dawn::native