mirror of
https://gitlab.kitware.com/vtk/vtk-m
synced 2024-10-05 18:08:59 +00:00
1ec4e5d62c
Added features with reporting types with `UnknownArrayHandle`. First, added a method named `GetArrayTypeName` that returns a string containing the type of the contained array. There were already methods `GetValueType` and `GetStorageType`, but this provides a convenience to get the whole name in one go. Also improved the reporting when an `AsArrayHandle` call failed. Before, the thrown method just reported that the `UnknownArrayHandle` could not be converted to the given type. Now, it also reports the type actually held by the `UnknownArrayHandle` so the user can better understand why the conversion failed.
253 lines
11 KiB
C++
253 lines
11 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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#include <vtkm/cont/ArrayRangeComputeTemplate.h>
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#include <vtkm/TypeList.h>
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namespace vtkm
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{
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namespace cont
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{
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void ThrowArrayRangeComputeFailed()
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{
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throw vtkm::cont::ErrorExecution("Failed to run ArrayRangeComputation on any device.");
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}
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#define VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(T, Storage) \
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VTKM_CONT \
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vtkm::cont::ArrayHandle<vtkm::Range> ArrayRangeCompute( \
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const vtkm::cont::ArrayHandle<T, Storage>& input, vtkm::cont::DeviceAdapterId device) \
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{ \
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return detail::ArrayRangeComputeImpl(input, device); \
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} \
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struct SwallowSemicolon
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#define VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(T, N, Storage) \
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VTKM_CONT \
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vtkm::cont::ArrayHandle<vtkm::Range> ArrayRangeCompute( \
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const vtkm::cont::ArrayHandle<vtkm::Vec<T, N>, Storage>& input, \
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vtkm::cont::DeviceAdapterId device) \
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{ \
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return detail::ArrayRangeComputeImpl(input, device); \
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} \
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struct SwallowSemicolon
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#define VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_SCALAR_T(Storage) \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::Int8, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::UInt8, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::Int16, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::UInt16, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::Int32, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::UInt32, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::Int64, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::UInt64, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::Float32, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(vtkm::Float64, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(char, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(signed VTKM_UNUSED_INT_TYPE, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_T(unsigned VTKM_UNUSED_INT_TYPE, Storage)
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#define VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC(N, Storage) \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Int8, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::UInt8, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Int16, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::UInt16, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Int32, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::UInt32, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Int64, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::UInt64, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Float32, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Float64, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(char, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(signed VTKM_UNUSED_INT_TYPE, N, Storage); \
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(unsigned VTKM_UNUSED_INT_TYPE, N, Storage)
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_SCALAR_T(vtkm::cont::StorageTagBasic);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC(2, vtkm::cont::StorageTagBasic);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC(3, vtkm::cont::StorageTagBasic);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC(4, vtkm::cont::StorageTagBasic);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC(2, vtkm::cont::StorageTagSOA);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC(3, vtkm::cont::StorageTagSOA);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC(4, vtkm::cont::StorageTagSOA);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_SCALAR_T(vtkm::cont::StorageTagStride);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Float32, 3, vtkm::cont::StorageTagXGCCoordinates);
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VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC(vtkm::Float64, 3, vtkm::cont::StorageTagXGCCoordinates);
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#undef VTKM_ARRAY_RANGE_COMPUTE_IMPL_T
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#undef VTKM_ARRAY_RANGE_COMPUTE_IMPL_VEC
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#undef VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_SCALAR_T
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#undef VTKM_ARRAY_RANGE_COMPUTE_IMPL_ALL_VEC
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// Special implementation for regular point coordinates, which are easy
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// to determine.
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VTKM_CONT
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vtkm::cont::ArrayHandle<vtkm::Range> ArrayRangeCompute(
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const vtkm::cont::ArrayHandle<vtkm::Vec3f,
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vtkm::cont::ArrayHandleUniformPointCoordinates::StorageTag>& array,
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vtkm::cont::DeviceAdapterId)
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{
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vtkm::internal::ArrayPortalUniformPointCoordinates portal = array.ReadPortal();
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// In this portal we know that the min value is the first entry and the
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// max value is the last entry.
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vtkm::Vec3f minimum = portal.Get(0);
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vtkm::Vec3f maximum = portal.Get(portal.GetNumberOfValues() - 1);
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vtkm::cont::ArrayHandle<vtkm::Range> rangeArray;
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rangeArray.Allocate(3);
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vtkm::cont::ArrayHandle<vtkm::Range>::WritePortalType outPortal = rangeArray.WritePortal();
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outPortal.Set(0, vtkm::Range(minimum[0], maximum[0]));
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outPortal.Set(1, vtkm::Range(minimum[1], maximum[1]));
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outPortal.Set(2, vtkm::Range(minimum[2], maximum[2]));
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return rangeArray;
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}
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vtkm::cont::ArrayHandle<vtkm::Range> ArrayRangeCompute(
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const vtkm::cont::ArrayHandle<vtkm::Id, vtkm::cont::StorageTagIndex>& input,
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vtkm::cont::DeviceAdapterId)
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{
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vtkm::cont::ArrayHandle<vtkm::Range> result;
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result.Allocate(1);
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result.WritePortal().Set(0, vtkm::Range(0, input.GetNumberOfValues() - 1));
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return result;
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}
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namespace
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{
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using AllScalars = vtkm::TypeListBaseC;
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template <typename vtkm::IdComponent N>
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struct VecTransform
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{
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template <typename T>
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using type = vtkm::Vec<T, N>;
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};
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template <vtkm::IdComponent N>
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using AllVecOfSize = vtkm::ListTransform<AllScalars, VecTransform<N>::template type>;
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using AllVec = vtkm::ListAppend<AllVecOfSize<2>, AllVecOfSize<3>, AllVecOfSize<4>>;
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using AllTypes = vtkm::ListAppend<AllScalars, AllVec>;
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struct ComputeRangeFunctor
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{
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// Used with UnknownArrayHandle::CastAndCallForTypes
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template <typename T, typename S>
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void operator()(const vtkm::cont::ArrayHandle<T, S>& array,
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vtkm::cont::DeviceAdapterId device,
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vtkm::cont::ArrayHandle<vtkm::Range>& ranges) const
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{
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ranges = vtkm::cont::ArrayRangeCompute(array, device);
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}
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// Used with vtkm::ListForEach to get components
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template <typename T>
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void operator()(T,
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const vtkm::cont::UnknownArrayHandle& array,
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vtkm::cont::DeviceAdapterId device,
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vtkm::cont::ArrayHandle<vtkm::Range>& ranges,
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bool& success) const
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{
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if (!success && array.IsBaseComponentType<T>())
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{
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vtkm::IdComponent numComponents = array.GetNumberOfComponentsFlat();
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ranges.Allocate(numComponents);
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auto rangePortal = ranges.WritePortal();
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for (vtkm::IdComponent componentI = 0; componentI < numComponents; ++componentI)
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{
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vtkm::cont::ArrayHandleStride<T> componentArray = array.ExtractComponent<T>(componentI);
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vtkm::cont::ArrayHandle<vtkm::Range> componentRange =
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vtkm::cont::ArrayRangeCompute(componentArray, device);
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rangePortal.Set(componentI, componentRange.ReadPortal().Get(0));
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}
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success = true;
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}
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}
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};
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template <typename TList, typename Storage>
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vtkm::cont::ArrayHandle<vtkm::Range> ComputeForStorage(const vtkm::cont::UnknownArrayHandle& array,
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vtkm::cont::DeviceAdapterId device)
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{
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vtkm::cont::ArrayHandle<vtkm::Range> ranges;
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array.CastAndCallForTypes<TList, vtkm::List<Storage>>(ComputeRangeFunctor{}, device, ranges);
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return ranges;
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}
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} // anonymous namespace
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vtkm::cont::ArrayHandle<vtkm::Range> ArrayRangeCompute(const vtkm::cont::UnknownArrayHandle& array,
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vtkm::cont::DeviceAdapterId device)
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{
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// First, try fast-paths of precompiled array types common(ish) in fields.
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try
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{
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if (array.IsStorageType<vtkm::cont::StorageTagBasic>())
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{
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return ComputeForStorage<AllTypes, vtkm::cont::StorageTagBasic>(array, device);
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}
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if (array.IsStorageType<vtkm::cont::StorageTagSOA>())
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{
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return ComputeForStorage<AllVec, vtkm::cont::StorageTagSOA>(array, device);
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}
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if (array.IsStorageType<vtkm::cont::StorageTagXGCCoordinates>())
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{
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return ComputeForStorage<vtkm::TypeListFieldVec3, vtkm::cont::StorageTagXGCCoordinates>(
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array, device);
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}
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if (array.IsStorageType<vtkm::cont::ArrayHandleUniformPointCoordinates::StorageTag>())
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{
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vtkm::cont::ArrayHandleUniformPointCoordinates uniformPoints;
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array.AsArrayHandle(uniformPoints);
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return vtkm::cont::ArrayRangeCompute(uniformPoints, device);
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}
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using CartesianProductStorage =
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vtkm::cont::StorageTagCartesianProduct<vtkm::cont::StorageTagBasic,
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vtkm::cont::StorageTagBasic,
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vtkm::cont::StorageTagBasic>;
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if (array.IsStorageType<CartesianProductStorage>())
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{
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return ComputeForStorage<vtkm::TypeListFieldVec3, CartesianProductStorage>(array, device);
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}
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if (array.IsStorageType<vtkm::cont::StorageTagConstant>())
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{
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return ComputeForStorage<AllTypes, vtkm::cont::StorageTagConstant>(array, device);
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}
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if (array.IsStorageType<vtkm::cont::StorageTagCounting>())
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{
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return ComputeForStorage<AllTypes, vtkm::cont::StorageTagCounting>(array, device);
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}
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if (array.IsStorageType<vtkm::cont::StorageTagIndex>())
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{
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return ArrayRangeCompute(array.AsArrayHandle<vtkm::cont::ArrayHandleIndex>(), device);
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}
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}
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catch (vtkm::cont::ErrorBadType&)
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{
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// If a cast/call failed, try falling back to a more general implementation.
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}
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vtkm::cont::ArrayHandle<vtkm::Range> ranges;
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bool success = false;
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vtkm::ListForEach(ComputeRangeFunctor{}, AllScalars{}, array, device, ranges, success);
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return ranges;
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}
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}
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} // namespace vtkm::cont
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