src/dawn_native/EncodingContext.cpp - dawn - Git at Google

 // 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 "dawn_native/EncodingContext.h"

 #include "common/Assert.h"
 #include "dawn_native/CommandEncoder.h"
 #include "dawn_native/Commands.h"
 #include "dawn_native/Device.h"
 #include "dawn_native/ErrorData.h"
 #include "dawn_native/IndirectDrawValidationEncoder.h"
 #include "dawn_native/RenderBundleEncoder.h"

 namespace dawn_native {

     EncodingContext::EncodingContext(DeviceBase* device, const ApiObjectBase* initialEncoder)
         : mDevice(device), mTopLevelEncoder(initialEncoder), mCurrentEncoder(initialEncoder) {
     }

     EncodingContext::~EncodingContext() {
         Destroy();
     }

     void EncodingContext::Destroy() {
         if (mDestroyed) {
             return;
         }
         if (!mWereCommandsAcquired) {
             FreeCommands(GetIterator());
         }
         // If we weren't already finished, then we want to handle an error here so that any calls
         // to Finish after Destroy will return a meaningful error.
         if (!IsFinished()) {
             HandleError(DAWN_FORMAT_VALIDATION_ERROR("Destroyed encoder cannot be finished."));
         }
         mDestroyed = true;
         mCurrentEncoder = nullptr;
     }

     CommandIterator EncodingContext::AcquireCommands() {
         MoveToIterator();
         ASSERT(!mWereCommandsAcquired);
         mWereCommandsAcquired = true;
         return std::move(mIterator);
     }

     CommandIterator* EncodingContext::GetIterator() {
         MoveToIterator();
         ASSERT(!mWereCommandsAcquired);
         return &mIterator;
     }

     void EncodingContext::MoveToIterator() {
         CommitCommands(std::move(mPendingCommands));
         if (!mWasMovedToIterator) {
             mIterator.AcquireCommandBlocks(std::move(mAllocators));
             mWasMovedToIterator = true;
         }
     }

     void EncodingContext::HandleError(std::unique_ptr<ErrorData> error) {
         // Append in reverse so that the most recently set debug group is printed first, like a
         // call stack.
         for (auto iter = mDebugGroupLabels.rbegin(); iter != mDebugGroupLabels.rend(); ++iter) {
             error->AppendDebugGroup(*iter);
         }

         if (!IsFinished()) {
             // Encoding should only generate validation errors.
             ASSERT(error->GetType() == InternalErrorType::Validation);
             // If the encoding context is not finished, errors are deferred until
             // Finish() is called.
             if (mError == nullptr) {
                 mError = std::move(error);
             }
         } else {
             mDevice->HandleError(error->GetType(), error->GetFormattedMessage().c_str());
         }
     }

     void EncodingContext::WillBeginRenderPass() {
         ASSERT(mCurrentEncoder == mTopLevelEncoder);
         if (mDevice->IsValidationEnabled()) {
             // When validation is enabled, we are going to want to capture all commands encoded
             // between and including BeginRenderPassCmd and EndRenderPassCmd, and defer their
             // sequencing util after we have a chance to insert any necessary validation
             // commands. To support this we commit any current commands now, so that the
             // impending BeginRenderPassCmd starts in a fresh CommandAllocator.
             CommitCommands(std::move(mPendingCommands));
         }
     }

     void EncodingContext::EnterPass(const ApiObjectBase* passEncoder) {
         // Assert we're at the top level.
         ASSERT(mCurrentEncoder == mTopLevelEncoder);
         ASSERT(passEncoder != nullptr);

         mCurrentEncoder = passEncoder;
     }

     MaybeError EncodingContext::ExitRenderPass(const ApiObjectBase* passEncoder,
                                                RenderPassResourceUsageTracker usageTracker,
                                                CommandEncoder* commandEncoder,
                                                IndirectDrawMetadata indirectDrawMetadata) {
         ASSERT(mCurrentEncoder != mTopLevelEncoder);
         ASSERT(mCurrentEncoder == passEncoder);

         mCurrentEncoder = mTopLevelEncoder;

         if (mDevice->IsValidationEnabled()) {
             // With validation enabled, commands were committed just before BeginRenderPassCmd was
             // encoded by our RenderPassEncoder (see WillBeginRenderPass above). This means
             // mPendingCommands contains only the commands from BeginRenderPassCmd to
             // EndRenderPassCmd, inclusive. Now we swap out this allocator with a fresh one to give
             // the validation encoder a chance to insert its commands first.
             CommandAllocator renderCommands = std::move(mPendingCommands);
             DAWN_TRY(EncodeIndirectDrawValidationCommands(mDevice, commandEncoder, &usageTracker,
                                                           &indirectDrawMetadata));
             CommitCommands(std::move(mPendingCommands));
             CommitCommands(std::move(renderCommands));
         }

         mRenderPassUsages.push_back(usageTracker.AcquireResourceUsage());
         return {};
     }

     void EncodingContext::ExitComputePass(const ApiObjectBase* passEncoder,
                                           ComputePassResourceUsage usages) {
         ASSERT(mCurrentEncoder != mTopLevelEncoder);
         ASSERT(mCurrentEncoder == passEncoder);

         mCurrentEncoder = mTopLevelEncoder;
         mComputePassUsages.push_back(std::move(usages));
     }

     void EncodingContext::EnsurePassExited(const ApiObjectBase* passEncoder) {
         if (mCurrentEncoder != mTopLevelEncoder && mCurrentEncoder == passEncoder) {
             // The current pass encoder is being deleted. Implicitly end the pass with an error.
             mCurrentEncoder = mTopLevelEncoder;
             HandleError(DAWN_FORMAT_VALIDATION_ERROR(
                 "Command buffer recording ended before %s was ended.", passEncoder));
         }
     }

     const RenderPassUsages& EncodingContext::GetRenderPassUsages() const {
         ASSERT(!mWereRenderPassUsagesAcquired);
         return mRenderPassUsages;
     }

     RenderPassUsages EncodingContext::AcquireRenderPassUsages() {
         ASSERT(!mWereRenderPassUsagesAcquired);
         mWereRenderPassUsagesAcquired = true;
         return std::move(mRenderPassUsages);
     }

     const ComputePassUsages& EncodingContext::GetComputePassUsages() const {
         ASSERT(!mWereComputePassUsagesAcquired);
         return mComputePassUsages;
     }

     ComputePassUsages EncodingContext::AcquireComputePassUsages() {
         ASSERT(!mWereComputePassUsagesAcquired);
         mWereComputePassUsagesAcquired = true;
         return std::move(mComputePassUsages);
     }

     void EncodingContext::PushDebugGroupLabel(const char* groupLabel) {
         mDebugGroupLabels.emplace_back(groupLabel);
     }

     void EncodingContext::PopDebugGroupLabel() {
         mDebugGroupLabels.pop_back();
     }

     MaybeError EncodingContext::Finish() {
         DAWN_INVALID_IF(IsFinished(), "Command encoding already finished.");

         const ApiObjectBase* currentEncoder = mCurrentEncoder;
         const ApiObjectBase* topLevelEncoder = mTopLevelEncoder;

         // Even if finish validation fails, it is now invalid to call any encoding commands,
         // so we clear the encoders. Note: mTopLevelEncoder == nullptr is used as a flag for
         // if Finish() has been called.
         mCurrentEncoder = nullptr;
         mTopLevelEncoder = nullptr;
         CommitCommands(std::move(mPendingCommands));

         if (mError != nullptr) {
             return std::move(mError);
         }
         DAWN_INVALID_IF(currentEncoder != topLevelEncoder,
                         "Command buffer recording ended before %s was ended.", currentEncoder);
         return {};
     }

     void EncodingContext::CommitCommands(CommandAllocator allocator) {
         if (!allocator.IsEmpty()) {
             mAllocators.push_back(std::move(allocator));
         }
     }

     bool EncodingContext::IsFinished() const {
         return mTopLevelEncoder == nullptr;
     }

 }  // namespace dawn_native
	// 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 "dawn_native/EncodingContext.h"

	#include "common/Assert.h"
	#include "dawn_native/CommandEncoder.h"
	#include "dawn_native/Commands.h"
	#include "dawn_native/Device.h"
	#include "dawn_native/ErrorData.h"
	#include "dawn_native/IndirectDrawValidationEncoder.h"
	#include "dawn_native/RenderBundleEncoder.h"

	namespace dawn_native {

	EncodingContext::EncodingContext(DeviceBase* device, const ApiObjectBase* initialEncoder)
	: mDevice(device), mTopLevelEncoder(initialEncoder), mCurrentEncoder(initialEncoder) {
	}

	EncodingContext::~EncodingContext() {
	Destroy();
	}

	void EncodingContext::Destroy() {
	if (mDestroyed) {
	return;
	}
	if (!mWereCommandsAcquired) {
	FreeCommands(GetIterator());
	}
	// If we weren't already finished, then we want to handle an error here so that any calls
	// to Finish after Destroy will return a meaningful error.
	if (!IsFinished()) {
	HandleError(DAWN_FORMAT_VALIDATION_ERROR("Destroyed encoder cannot be finished."));
	}
	mDestroyed = true;
	mCurrentEncoder = nullptr;
	}

	CommandIterator EncodingContext::AcquireCommands() {
	MoveToIterator();
	ASSERT(!mWereCommandsAcquired);
	mWereCommandsAcquired = true;
	return std::move(mIterator);
	}

	CommandIterator* EncodingContext::GetIterator() {
	MoveToIterator();
	ASSERT(!mWereCommandsAcquired);
	return &mIterator;
	}

	void EncodingContext::MoveToIterator() {
	CommitCommands(std::move(mPendingCommands));
	if (!mWasMovedToIterator) {
	mIterator.AcquireCommandBlocks(std::move(mAllocators));
	mWasMovedToIterator = true;
	}
	}

	void EncodingContext::HandleError(std::unique_ptr<ErrorData> error) {
	// Append in reverse so that the most recently set debug group is printed first, like a
	// call stack.
	for (auto iter = mDebugGroupLabels.rbegin(); iter != mDebugGroupLabels.rend(); ++iter) {
	error->AppendDebugGroup(*iter);
	}

	if (!IsFinished()) {
	// Encoding should only generate validation errors.
	ASSERT(error->GetType() == InternalErrorType::Validation);
	// If the encoding context is not finished, errors are deferred until
	// Finish() is called.
	if (mError == nullptr) {
	mError = std::move(error);
	}
	} else {
	mDevice->HandleError(error->GetType(), error->GetFormattedMessage().c_str());
	}
	}

	void EncodingContext::WillBeginRenderPass() {
	ASSERT(mCurrentEncoder == mTopLevelEncoder);
	if (mDevice->IsValidationEnabled()) {
	// When validation is enabled, we are going to want to capture all commands encoded
	// between and including BeginRenderPassCmd and EndRenderPassCmd, and defer their
	// sequencing util after we have a chance to insert any necessary validation
	// commands. To support this we commit any current commands now, so that the
	// impending BeginRenderPassCmd starts in a fresh CommandAllocator.
	CommitCommands(std::move(mPendingCommands));
	}
	}

	void EncodingContext::EnterPass(const ApiObjectBase* passEncoder) {
	// Assert we're at the top level.
	ASSERT(mCurrentEncoder == mTopLevelEncoder);
	ASSERT(passEncoder != nullptr);

	mCurrentEncoder = passEncoder;
	}

	MaybeError EncodingContext::ExitRenderPass(const ApiObjectBase* passEncoder,
	RenderPassResourceUsageTracker usageTracker,
	CommandEncoder* commandEncoder,
	IndirectDrawMetadata indirectDrawMetadata) {
	ASSERT(mCurrentEncoder != mTopLevelEncoder);
	ASSERT(mCurrentEncoder == passEncoder);

	mCurrentEncoder = mTopLevelEncoder;

	if (mDevice->IsValidationEnabled()) {
	// With validation enabled, commands were committed just before BeginRenderPassCmd was
	// encoded by our RenderPassEncoder (see WillBeginRenderPass above). This means
	// mPendingCommands contains only the commands from BeginRenderPassCmd to
	// EndRenderPassCmd, inclusive. Now we swap out this allocator with a fresh one to give
	// the validation encoder a chance to insert its commands first.
	CommandAllocator renderCommands = std::move(mPendingCommands);
	DAWN_TRY(EncodeIndirectDrawValidationCommands(mDevice, commandEncoder, &usageTracker,
	&indirectDrawMetadata));
	CommitCommands(std::move(mPendingCommands));
	CommitCommands(std::move(renderCommands));
	}

	mRenderPassUsages.push_back(usageTracker.AcquireResourceUsage());
	return {};
	}

	void EncodingContext::ExitComputePass(const ApiObjectBase* passEncoder,
	ComputePassResourceUsage usages) {
	ASSERT(mCurrentEncoder != mTopLevelEncoder);
	ASSERT(mCurrentEncoder == passEncoder);

	mCurrentEncoder = mTopLevelEncoder;
	mComputePassUsages.push_back(std::move(usages));
	}

	void EncodingContext::EnsurePassExited(const ApiObjectBase* passEncoder) {
	if (mCurrentEncoder != mTopLevelEncoder && mCurrentEncoder == passEncoder) {
	// The current pass encoder is being deleted. Implicitly end the pass with an error.
	mCurrentEncoder = mTopLevelEncoder;
	HandleError(DAWN_FORMAT_VALIDATION_ERROR(
	"Command buffer recording ended before %s was ended.", passEncoder));
	}
	}

	const RenderPassUsages& EncodingContext::GetRenderPassUsages() const {
	ASSERT(!mWereRenderPassUsagesAcquired);
	return mRenderPassUsages;
	}

	RenderPassUsages EncodingContext::AcquireRenderPassUsages() {
	ASSERT(!mWereRenderPassUsagesAcquired);
	mWereRenderPassUsagesAcquired = true;
	return std::move(mRenderPassUsages);
	}

	const ComputePassUsages& EncodingContext::GetComputePassUsages() const {
	ASSERT(!mWereComputePassUsagesAcquired);
	return mComputePassUsages;
	}

	ComputePassUsages EncodingContext::AcquireComputePassUsages() {
	ASSERT(!mWereComputePassUsagesAcquired);
	mWereComputePassUsagesAcquired = true;
	return std::move(mComputePassUsages);
	}

	void EncodingContext::PushDebugGroupLabel(const char* groupLabel) {
	mDebugGroupLabels.emplace_back(groupLabel);
	}

	void EncodingContext::PopDebugGroupLabel() {
	mDebugGroupLabels.pop_back();
	}

	MaybeError EncodingContext::Finish() {
	DAWN_INVALID_IF(IsFinished(), "Command encoding already finished.");

	const ApiObjectBase* currentEncoder = mCurrentEncoder;
	const ApiObjectBase* topLevelEncoder = mTopLevelEncoder;

	// Even if finish validation fails, it is now invalid to call any encoding commands,
	// so we clear the encoders. Note: mTopLevelEncoder == nullptr is used as a flag for
	// if Finish() has been called.
	mCurrentEncoder = nullptr;
	mTopLevelEncoder = nullptr;
	CommitCommands(std::move(mPendingCommands));

	if (mError != nullptr) {
	return std::move(mError);
	}
	DAWN_INVALID_IF(currentEncoder != topLevelEncoder,
	"Command buffer recording ended before %s was ended.", currentEncoder);
	return {};
	}

	void EncodingContext::CommitCommands(CommandAllocator allocator) {
	if (!allocator.IsEmpty()) {
	mAllocators.push_back(std::move(allocator));
	}
	}

	bool EncodingContext::IsFinished() const {
	return mTopLevelEncoder == nullptr;
	}

	} // namespace dawn_native