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

 // 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/ComputePassEncoder.h"

 #include "dawn_native/Buffer.h"
 #include "dawn_native/CommandEncoder.h"
 #include "dawn_native/CommandValidation.h"
 #include "dawn_native/Commands.h"
 #include "dawn_native/ComputePipeline.h"
 #include "dawn_native/Device.h"
 #include "dawn_native/PassResourceUsageTracker.h"
 #include "dawn_native/QuerySet.h"

 namespace dawn_native {

     ComputePassEncoder::ComputePassEncoder(DeviceBase* device,
                                            CommandEncoder* commandEncoder,
                                            EncodingContext* encodingContext)
         : ProgrammablePassEncoder(device, encodingContext), mCommandEncoder(commandEncoder) {
     }

     ComputePassEncoder::ComputePassEncoder(DeviceBase* device,
                                            CommandEncoder* commandEncoder,
                                            EncodingContext* encodingContext,
                                            ErrorTag errorTag)
         : ProgrammablePassEncoder(device, encodingContext, errorTag),
           mCommandEncoder(commandEncoder) {
     }

     ComputePassEncoder* ComputePassEncoder::MakeError(DeviceBase* device,
                                                       CommandEncoder* commandEncoder,
                                                       EncodingContext* encodingContext) {
         return new ComputePassEncoder(device, commandEncoder, encodingContext, ObjectBase::kError);
     }

     void ComputePassEncoder::APIEndPass() {
         if (mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
                 if (IsValidationEnabled()) {
                     DAWN_TRY(ValidateProgrammableEncoderEnd());
                 }

                 allocator->Allocate<EndComputePassCmd>(Command::EndComputePass);

                 return {};
             })) {
             mEncodingContext->ExitPass(this, mUsageTracker.AcquireResourceUsage());
         }
     }

     void ComputePassEncoder::APIDispatch(uint32_t x, uint32_t y, uint32_t z) {
         mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
             if (IsValidationEnabled()) {
                 DAWN_TRY(mCommandBufferState.ValidateCanDispatch());
             }

             // Record the synchronization scope for Dispatch, which is just the current bindgroups.
             AddDispatchSyncScope();

             DispatchCmd* dispatch = allocator->Allocate<DispatchCmd>(Command::Dispatch);
             dispatch->x = x;
             dispatch->y = y;
             dispatch->z = z;

             return {};
         });
     }

     void ComputePassEncoder::APIDispatchIndirect(BufferBase* indirectBuffer,
                                                  uint64_t indirectOffset) {
         mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
             if (IsValidationEnabled()) {
                 DAWN_TRY(GetDevice()->ValidateObject(indirectBuffer));
                 DAWN_TRY(ValidateCanUseAs(indirectBuffer, wgpu::BufferUsage::Indirect));
                 DAWN_TRY(mCommandBufferState.ValidateCanDispatch());

                 // Indexed dispatches need a compute-shader based validation to check that the
                 // dispatch sizes aren't too big. Disallow them as unsafe until the validation is
                 // implemented.
                 if (GetDevice()->IsToggleEnabled(Toggle::DisallowUnsafeAPIs)) {
                     return DAWN_VALIDATION_ERROR(
                         "DispatchIndirect is disallowed because it doesn't validate that the "
                         "dispatch "
                         "size is valid yet.");
                 }

                 if (indirectOffset % 4 != 0) {
                     return DAWN_VALIDATION_ERROR("Indirect offset must be a multiple of 4");
                 }

                 if (indirectOffset >= indirectBuffer->GetSize() ||
                     indirectOffset + kDispatchIndirectSize > indirectBuffer->GetSize()) {
                     return DAWN_VALIDATION_ERROR("Indirect offset out of bounds");
                 }
             }

             // Record the synchronization scope for Dispatch, both the bindgroups and the indirect
             // buffer.
             SyncScopeUsageTracker scope;
             scope.BufferUsedAs(indirectBuffer, wgpu::BufferUsage::Indirect);
             mUsageTracker.AddReferencedBuffer(indirectBuffer);
             AddDispatchSyncScope(std::move(scope));

             DispatchIndirectCmd* dispatch =
                 allocator->Allocate<DispatchIndirectCmd>(Command::DispatchIndirect);
             dispatch->indirectBuffer = indirectBuffer;
             dispatch->indirectOffset = indirectOffset;

             return {};
         });
     }

     void ComputePassEncoder::APISetPipeline(ComputePipelineBase* pipeline) {
         mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
             if (IsValidationEnabled()) {
                 DAWN_TRY(GetDevice()->ValidateObject(pipeline));
             }

             mCommandBufferState.SetComputePipeline(pipeline);

             SetComputePipelineCmd* cmd =
                 allocator->Allocate<SetComputePipelineCmd>(Command::SetComputePipeline);
             cmd->pipeline = pipeline;

             return {};
         });
     }

     void ComputePassEncoder::APISetBindGroup(uint32_t groupIndexIn,
                                              BindGroupBase* group,
                                              uint32_t dynamicOffsetCount,
                                              const uint32_t* dynamicOffsets) {
         mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
             BindGroupIndex groupIndex(groupIndexIn);

             if (IsValidationEnabled()) {
                 DAWN_TRY(
                     ValidateSetBindGroup(groupIndex, group, dynamicOffsetCount, dynamicOffsets));
             }

             mUsageTracker.AddResourcesReferencedByBindGroup(group);

             RecordSetBindGroup(allocator, groupIndex, group, dynamicOffsetCount, dynamicOffsets);
             mCommandBufferState.SetBindGroup(groupIndex, group);

             return {};
         });
     }

     void ComputePassEncoder::APIWriteTimestamp(QuerySetBase* querySet, uint32_t queryIndex) {
         mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
             if (IsValidationEnabled()) {
                 DAWN_TRY(GetDevice()->ValidateObject(querySet));
                 DAWN_TRY(ValidateTimestampQuery(querySet, queryIndex));
             }

             mCommandEncoder->TrackQueryAvailability(querySet, queryIndex);

             WriteTimestampCmd* cmd =
                 allocator->Allocate<WriteTimestampCmd>(Command::WriteTimestamp);
             cmd->querySet = querySet;
             cmd->queryIndex = queryIndex;

             return {};
         });
     }

     void ComputePassEncoder::AddDispatchSyncScope(SyncScopeUsageTracker scope) {
         PipelineLayoutBase* layout = mCommandBufferState.GetPipelineLayout();
         for (BindGroupIndex i : IterateBitSet(layout->GetBindGroupLayoutsMask())) {
             scope.AddBindGroup(mCommandBufferState.GetBindGroup(i));
         }
         mUsageTracker.AddDispatch(scope.AcquireSyncScopeUsage());
     }

 }  // namespace dawn_native
	// 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/ComputePassEncoder.h"

	#include "dawn_native/Buffer.h"
	#include "dawn_native/CommandEncoder.h"
	#include "dawn_native/CommandValidation.h"
	#include "dawn_native/Commands.h"
	#include "dawn_native/ComputePipeline.h"
	#include "dawn_native/Device.h"
	#include "dawn_native/PassResourceUsageTracker.h"
	#include "dawn_native/QuerySet.h"

	namespace dawn_native {

	ComputePassEncoder::ComputePassEncoder(DeviceBase* device,
	CommandEncoder* commandEncoder,
	EncodingContext* encodingContext)
	: ProgrammablePassEncoder(device, encodingContext), mCommandEncoder(commandEncoder) {
	}

	ComputePassEncoder::ComputePassEncoder(DeviceBase* device,
	CommandEncoder* commandEncoder,
	EncodingContext* encodingContext,
	ErrorTag errorTag)
	: ProgrammablePassEncoder(device, encodingContext, errorTag),
	mCommandEncoder(commandEncoder) {
	}

	ComputePassEncoder* ComputePassEncoder::MakeError(DeviceBase* device,
	CommandEncoder* commandEncoder,
	EncodingContext* encodingContext) {
	return new ComputePassEncoder(device, commandEncoder, encodingContext, ObjectBase::kError);
	}

	void ComputePassEncoder::APIEndPass() {
	if (mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(ValidateProgrammableEncoderEnd());
	}

	allocator->Allocate<EndComputePassCmd>(Command::EndComputePass);

	return {};
	})) {
	mEncodingContext->ExitPass(this, mUsageTracker.AcquireResourceUsage());
	}
	}

	void ComputePassEncoder::APIDispatch(uint32_t x, uint32_t y, uint32_t z) {
	mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(mCommandBufferState.ValidateCanDispatch());
	}

	// Record the synchronization scope for Dispatch, which is just the current bindgroups.
	AddDispatchSyncScope();

	DispatchCmd* dispatch = allocator->Allocate<DispatchCmd>(Command::Dispatch);
	dispatch->x = x;
	dispatch->y = y;
	dispatch->z = z;

	return {};
	});
	}

	void ComputePassEncoder::APIDispatchIndirect(BufferBase* indirectBuffer,
	uint64_t indirectOffset) {
	mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(indirectBuffer));
	DAWN_TRY(ValidateCanUseAs(indirectBuffer, wgpu::BufferUsage::Indirect));
	DAWN_TRY(mCommandBufferState.ValidateCanDispatch());

	// Indexed dispatches need a compute-shader based validation to check that the
	// dispatch sizes aren't too big. Disallow them as unsafe until the validation is
	// implemented.
	if (GetDevice()->IsToggleEnabled(Toggle::DisallowUnsafeAPIs)) {
	return DAWN_VALIDATION_ERROR(
	"DispatchIndirect is disallowed because it doesn't validate that the "
	"dispatch "
	"size is valid yet.");
	}

	if (indirectOffset % 4 != 0) {
	return DAWN_VALIDATION_ERROR("Indirect offset must be a multiple of 4");
	}

	if (indirectOffset >= indirectBuffer->GetSize() \|\|
	indirectOffset + kDispatchIndirectSize > indirectBuffer->GetSize()) {
	return DAWN_VALIDATION_ERROR("Indirect offset out of bounds");
	}
	}

	// Record the synchronization scope for Dispatch, both the bindgroups and the indirect
	// buffer.
	SyncScopeUsageTracker scope;
	scope.BufferUsedAs(indirectBuffer, wgpu::BufferUsage::Indirect);
	mUsageTracker.AddReferencedBuffer(indirectBuffer);
	AddDispatchSyncScope(std::move(scope));

	DispatchIndirectCmd* dispatch =
	allocator->Allocate<DispatchIndirectCmd>(Command::DispatchIndirect);
	dispatch->indirectBuffer = indirectBuffer;
	dispatch->indirectOffset = indirectOffset;

	return {};
	});
	}

	void ComputePassEncoder::APISetPipeline(ComputePipelineBase* pipeline) {
	mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(pipeline));
	}

	mCommandBufferState.SetComputePipeline(pipeline);

	SetComputePipelineCmd* cmd =
	allocator->Allocate<SetComputePipelineCmd>(Command::SetComputePipeline);
	cmd->pipeline = pipeline;

	return {};
	});
	}

	void ComputePassEncoder::APISetBindGroup(uint32_t groupIndexIn,
	BindGroupBase* group,
	uint32_t dynamicOffsetCount,
	const uint32_t* dynamicOffsets) {
	mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
	BindGroupIndex groupIndex(groupIndexIn);

	if (IsValidationEnabled()) {
	DAWN_TRY(
	ValidateSetBindGroup(groupIndex, group, dynamicOffsetCount, dynamicOffsets));
	}

	mUsageTracker.AddResourcesReferencedByBindGroup(group);

	RecordSetBindGroup(allocator, groupIndex, group, dynamicOffsetCount, dynamicOffsets);
	mCommandBufferState.SetBindGroup(groupIndex, group);

	return {};
	});
	}

	void ComputePassEncoder::APIWriteTimestamp(QuerySetBase* querySet, uint32_t queryIndex) {
	mEncodingContext->TryEncode(this, [&](CommandAllocator* allocator) -> MaybeError {
	if (IsValidationEnabled()) {
	DAWN_TRY(GetDevice()->ValidateObject(querySet));
	DAWN_TRY(ValidateTimestampQuery(querySet, queryIndex));
	}

	mCommandEncoder->TrackQueryAvailability(querySet, queryIndex);

	WriteTimestampCmd* cmd =
	allocator->Allocate<WriteTimestampCmd>(Command::WriteTimestamp);
	cmd->querySet = querySet;
	cmd->queryIndex = queryIndex;

	return {};
	});
	}

	void ComputePassEncoder::AddDispatchSyncScope(SyncScopeUsageTracker scope) {
	PipelineLayoutBase* layout = mCommandBufferState.GetPipelineLayout();
	for (BindGroupIndex i : IterateBitSet(layout->GetBindGroupLayoutsMask())) {
	scope.AddBindGroup(mCommandBufferState.GetBindGroup(i));
	}
	mUsageTracker.AddDispatch(scope.AcquireSyncScopeUsage());
	}

	} // namespace dawn_native