334 lines
12 KiB
C++
334 lines
12 KiB
C++
//============================================================================
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// Copyright (c) Kitware, Inc.
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// All rights reserved.
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// See LICENSE.txt for details.
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//
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// This software is distributed WITHOUT ANY WARRANTY; without even
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// the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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// PURPOSE. See the above copyright notice for more information.
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//============================================================================
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#ifndef vtk_m_worklet_Dispatcher_Streaming_MapField_h
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#define vtk_m_worklet_Dispatcher_Streaming_MapField_h
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#include <vtkm/cont/ArrayHandleStreaming.h>
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#include <vtkm/cont/DeviceAdapter.h>
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#include <vtkm/worklet/WorkletMapField.h>
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#include <vtkm/worklet/internal/DispatcherBase.h>
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namespace vtkm
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{
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namespace worklet
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{
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namespace detail
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{
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struct DispatcherStreamingTryExecuteFunctor
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{
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template <typename Device, typename DispatcherBaseType, typename Invocation, typename RangeType>
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VTKM_CONT bool operator()(Device device,
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const DispatcherBaseType* self,
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Invocation& invocation,
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const RangeType& dimensions,
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const RangeType& globalIndexOffset)
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{
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self->InvokeTransportParameters(
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invocation, dimensions, globalIndexOffset, self->Scatter.GetOutputRange(dimensions), device);
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return true;
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}
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};
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template <typename ControlInterface>
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struct DispatcherStreamingMapFieldTransformFunctor
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{
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vtkm::Id BlockIndex;
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vtkm::Id BlockSize;
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vtkm::Id CurBlockSize;
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vtkm::Id FullSize;
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VTKM_CONT
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DispatcherStreamingMapFieldTransformFunctor(vtkm::Id blockIndex,
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vtkm::Id blockSize,
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vtkm::Id curBlockSize,
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vtkm::Id fullSize)
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: BlockIndex(blockIndex)
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, BlockSize(blockSize)
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, CurBlockSize(curBlockSize)
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, FullSize(fullSize)
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{
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}
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template <typename ParameterType, bool IsArrayHandle>
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struct DetermineReturnType;
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template <typename ArrayHandleType>
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struct DetermineReturnType<ArrayHandleType, true>
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{
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using type = vtkm::cont::ArrayHandleStreaming<ArrayHandleType>;
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};
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template <typename NotArrayHandleType>
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struct DetermineReturnType<NotArrayHandleType, false>
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{
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using type = NotArrayHandleType;
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};
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template <typename ParameterType, vtkm::IdComponent Index>
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struct ReturnType
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{
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using type = typename DetermineReturnType<
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ParameterType,
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vtkm::cont::internal::ArrayHandleCheck<ParameterType>::type::value>::type;
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};
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template <typename ParameterType, bool IsArrayHandle>
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struct TransformImpl;
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template <typename ArrayHandleType>
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struct TransformImpl<ArrayHandleType, true>
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{
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VTKM_CONT
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vtkm::cont::ArrayHandleStreaming<ArrayHandleType> operator()(const ArrayHandleType& array,
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vtkm::Id blockIndex,
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vtkm::Id blockSize,
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vtkm::Id curBlockSize,
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vtkm::Id fullSize) const
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{
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vtkm::cont::ArrayHandleStreaming<ArrayHandleType> result =
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vtkm::cont::ArrayHandleStreaming<ArrayHandleType>(
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array, blockIndex, blockSize, curBlockSize);
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if (blockIndex == 0)
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result.AllocateFullArray(fullSize);
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return result;
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}
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};
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template <typename NotArrayHandleType>
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struct TransformImpl<NotArrayHandleType, false>
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{
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VTKM_CONT
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NotArrayHandleType operator()(const NotArrayHandleType& notArray) const { return notArray; }
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};
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template <typename ParameterType, vtkm::IdComponent Index>
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VTKM_CONT typename ReturnType<ParameterType, Index>::type operator()(
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const ParameterType& invokeData,
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vtkm::internal::IndexTag<Index>) const
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{
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return TransformImpl<ParameterType,
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vtkm::cont::internal::ArrayHandleCheck<ParameterType>::type::value>()(
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invokeData, this->BlockIndex, this->BlockSize, this->CurBlockSize, this->FullSize);
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}
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};
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template <typename ControlInterface>
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struct DispatcherStreamingMapFieldTransferFunctor
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{
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VTKM_CONT
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DispatcherStreamingMapFieldTransferFunctor() {}
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template <typename ParameterType, vtkm::IdComponent Index>
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struct ReturnType
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{
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using type = ParameterType;
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};
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template <typename ParameterType, bool IsArrayHandle>
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struct TransformImpl;
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template <typename ArrayHandleType>
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struct TransformImpl<ArrayHandleType, true>
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{
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VTKM_CONT
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ArrayHandleType operator()(const ArrayHandleType& array) const
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{
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array.SyncControlArray();
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return array;
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}
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};
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template <typename NotArrayHandleType>
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struct TransformImpl<NotArrayHandleType, false>
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{
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VTKM_CONT
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NotArrayHandleType operator()(const NotArrayHandleType& notArray) const { return notArray; }
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};
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template <typename ParameterType, vtkm::IdComponent Index>
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VTKM_CONT typename ReturnType<ParameterType, Index>::type operator()(
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const ParameterType& invokeData,
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vtkm::internal::IndexTag<Index>) const
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{
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return TransformImpl<ParameterType,
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vtkm::cont::internal::ArrayHandleCheck<ParameterType>::type::value>()(
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invokeData);
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}
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};
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}
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/// \brief Dispatcher for worklets that inherit from \c WorkletMapField.
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///
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template <typename WorkletType>
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class DispatcherStreamingMapField
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: public vtkm::worklet::internal::DispatcherBase<DispatcherStreamingMapField<WorkletType>,
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WorkletType,
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vtkm::worklet::WorkletMapField>
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{
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using Superclass =
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vtkm::worklet::internal::DispatcherBase<DispatcherStreamingMapField<WorkletType>,
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WorkletType,
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vtkm::worklet::WorkletMapField>;
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using ScatterType = typename Superclass::ScatterType;
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using MaskType = typename WorkletType::MaskType;
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public:
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template <typename... T>
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VTKM_CONT DispatcherStreamingMapField(T&&... args)
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: Superclass(std::forward<T>(args)...)
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, NumberOfBlocks(1)
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{
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}
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VTKM_CONT
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void SetNumberOfBlocks(vtkm::Id numberOfBlocks) { NumberOfBlocks = numberOfBlocks; }
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friend struct detail::DispatcherStreamingTryExecuteFunctor;
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template <typename Invocation>
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VTKM_CONT void BasicInvoke(Invocation& invocation,
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vtkm::Id numInstances,
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vtkm::Id globalIndexOffset) const
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{
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bool success = vtkm::cont::TryExecuteOnDevice(this->GetDevice(),
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detail::DispatcherStreamingTryExecuteFunctor(),
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this,
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invocation,
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numInstances,
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globalIndexOffset);
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if (!success)
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{
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throw vtkm::cont::ErrorExecution("Failed to execute worklet on any device.");
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}
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}
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template <typename Invocation>
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VTKM_CONT void DoInvoke(Invocation& invocation) const
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{
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// This is the type for the input domain
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using InputDomainType = typename Invocation::InputDomainType;
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// We can pull the input domain parameter (the data specifying the input
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// domain) from the invocation object.
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const InputDomainType& inputDomain = invocation.GetInputDomain();
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// For a DispatcherStreamingMapField, the inputDomain must be an ArrayHandle (or
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// an VariantArrayHandle that gets cast to one). The size of the domain
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// (number of threads/worklet instances) is equal to the size of the
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// array.
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vtkm::Id fullSize = internal::scheduling_range(inputDomain);
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vtkm::Id blockSize = fullSize / NumberOfBlocks;
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if (fullSize % NumberOfBlocks != 0)
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blockSize += 1;
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using TransformFunctorType =
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detail::DispatcherStreamingMapFieldTransformFunctor<typename Invocation::ControlInterface>;
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using TransferFunctorType =
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detail::DispatcherStreamingMapFieldTransferFunctor<typename Invocation::ControlInterface>;
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for (vtkm::Id block = 0; block < NumberOfBlocks; block++)
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{
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// Account for domain sizes not evenly divisable by the number of blocks
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vtkm::Id numberOfInstances = blockSize;
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if (block == NumberOfBlocks - 1)
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numberOfInstances = fullSize - blockSize * block;
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vtkm::Id globalIndexOffset = blockSize * block;
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using ParameterInterfaceType = typename Invocation::ParameterInterface;
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using ReportedType =
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typename ParameterInterfaceType::template StaticTransformType<TransformFunctorType>::type;
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ReportedType newParams = invocation.Parameters.StaticTransformCont(
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TransformFunctorType(block, blockSize, numberOfInstances, fullSize));
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using ChangedType = typename Invocation::template ChangeParametersType<ReportedType>::type;
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ChangedType changedParams = invocation.ChangeParameters(newParams);
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this->BasicInvoke(changedParams, numberOfInstances, globalIndexOffset);
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// Loop over parameters again to sync results for this block into control array
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using ParameterInterfaceType2 = typename ChangedType::ParameterInterface;
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ParameterInterfaceType2& parameters2 = changedParams.Parameters;
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parameters2.StaticTransformCont(TransferFunctorType());
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}
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}
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private:
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template <typename Invocation,
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typename InputRangeType,
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typename OutputRangeType,
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typename DeviceAdapter>
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VTKM_CONT void InvokeTransportParameters(Invocation& invocation,
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const InputRangeType& inputRange,
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const InputRangeType& globalIndexOffset,
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const OutputRangeType& outputRange,
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DeviceAdapter device) const
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{
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using ParameterInterfaceType = typename Invocation::ParameterInterface;
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ParameterInterfaceType& parameters = invocation.Parameters;
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using TransportFunctorType = vtkm::worklet::internal::detail::DispatcherBaseTransportFunctor<
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typename Invocation::ControlInterface,
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typename Invocation::InputDomainType,
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DeviceAdapter>;
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using ExecObjectParameters =
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typename ParameterInterfaceType::template StaticTransformType<TransportFunctorType>::type;
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ExecObjectParameters execObjectParameters = parameters.StaticTransformCont(
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TransportFunctorType(invocation.GetInputDomain(), inputRange, outputRange));
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// Get the arrays used for scattering input to output.
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typename ScatterType::OutputToInputMapType outputToInputMap =
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this->Scatter.GetOutputToInputMap(inputRange);
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typename ScatterType::VisitArrayType visitArray = this->Scatter.GetVisitArray(inputRange);
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// Get the arrays used for masking output elements.
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typename MaskType::ThreadToOutputMapType threadToOutputMap =
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this->Mask.GetThreadToOutputMap(inputRange);
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// Replace the parameters in the invocation with the execution object and
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// pass to next step of Invoke. Also add the scatter information.
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this->InvokeSchedule(invocation.ChangeParameters(execObjectParameters)
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.ChangeOutputToInputMap(outputToInputMap.PrepareForInput(device))
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.ChangeVisitArray(visitArray.PrepareForInput(device))
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.ChangeThreadToOutputMap(threadToOutputMap.PrepareForInput(device)),
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outputRange,
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globalIndexOffset,
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device);
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}
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template <typename Invocation, typename RangeType, typename DeviceAdapter>
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VTKM_CONT void InvokeSchedule(const Invocation& invocation,
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RangeType range,
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RangeType globalIndexOffset,
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DeviceAdapter) const
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{
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using Algorithm = vtkm::cont::DeviceAdapterAlgorithm<DeviceAdapter>;
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using TaskTypes = typename vtkm::cont::DeviceTaskTypes<DeviceAdapter>;
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// The TaskType class handles the magic of fetching values
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// for each instance and calling the worklet's function.
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// The TaskType will evaluate to one of the following classes:
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//
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// vtkm::exec::internal::TaskSingular
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// vtkm::exec::internal::TaskTiling1D
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// vtkm::exec::internal::TaskTiling3D
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auto task = TaskTypes::MakeTask(this->Worklet, invocation, range, globalIndexOffset);
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Algorithm::ScheduleTask(task, range);
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}
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vtkm::Id NumberOfBlocks;
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};
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}
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} // namespace vtkm::worklet
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#endif //vtk_m_worklet_Dispatcher_Streaming_MapField_h
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