diff options
Diffstat (limited to 'build_files/build_environment/patches/nanovdb.diff')
-rw-r--r-- | build_files/build_environment/patches/nanovdb.diff | 374 |
1 files changed, 0 insertions, 374 deletions
diff --git a/build_files/build_environment/patches/nanovdb.diff b/build_files/build_environment/patches/nanovdb.diff deleted file mode 100644 index fd833e61336..00000000000 --- a/build_files/build_environment/patches/nanovdb.diff +++ /dev/null @@ -1,374 +0,0 @@ -Index: nanovdb/nanovdb/NanoVDB.h -=================================================================== ---- a/nanovdb/nanovdb/NanoVDB.h (revision 62751) -+++ b/nanovdb/nanovdb/NanoVDB.h (working copy) -@@ -152,8 +152,8 @@ - - #endif // __CUDACC_RTC__ - --#ifdef __CUDACC__ --// Only define __hostdev__ when using NVIDIA CUDA compiler -+#if defined(__CUDACC__) || defined(__HIP__) -+// Only define __hostdev__ when using NVIDIA CUDA or HIP compiler - #define __hostdev__ __host__ __device__ - #else - #define __hostdev__ -@@ -461,7 +461,7 @@ - /// Maximum floating-point values - template<typename T> - struct Maximum; --#ifdef __CUDA_ARCH__ -+#if defined(__CUDA_ARCH__) || defined(__HIP__) - template<> - struct Maximum<int> - { -@@ -1006,10 +1006,10 @@ - using Vec3i = Vec3<int>; - - /// @brief Return a single precision floating-point vector of this coordinate --Vec3f Coord::asVec3s() const { return Vec3f(float(mVec[0]), float(mVec[1]), float(mVec[2])); } -+inline __hostdev__ Vec3f Coord::asVec3s() const { return Vec3f(float(mVec[0]), float(mVec[1]), float(mVec[2])); } - - /// @brief Return a double precision floating-point vector of this coordinate --Vec3d Coord::asVec3d() const { return Vec3d(double(mVec[0]), double(mVec[1]), double(mVec[2])); } -+inline __hostdev__ Vec3d Coord::asVec3d() const { return Vec3d(double(mVec[0]), double(mVec[1]), double(mVec[2])); } - - // ----------------------------> Vec4 <-------------------------------------- - -@@ -1820,7 +1820,7 @@ - }; // Map - - template<typename Mat4T> --void Map::set(const Mat4T& mat, const Mat4T& invMat, double taper) -+__hostdev__ void Map::set(const Mat4T& mat, const Mat4T& invMat, double taper) - { - float * mf = mMatF, *vf = mVecF; - float* mif = mInvMatF; -@@ -2170,7 +2170,7 @@ - }; // Class Grid - - template<typename TreeT> --int Grid<TreeT>::findBlindDataForSemantic(GridBlindDataSemantic semantic) const -+__hostdev__ int Grid<TreeT>::findBlindDataForSemantic(GridBlindDataSemantic semantic) const - { - for (uint32_t i = 0, n = blindDataCount(); i < n; ++i) - if (blindMetaData(i).mSemantic == semantic) -@@ -2328,7 +2328,7 @@ - }; // Tree class - - template<typename RootT> --void Tree<RootT>::extrema(ValueType& min, ValueType& max) const -+__hostdev__ void Tree<RootT>::extrema(ValueType& min, ValueType& max) const - { - min = this->root().valueMin(); - max = this->root().valueMax(); -@@ -2336,7 +2336,7 @@ - - template<typename RootT> - template<typename NodeT> --const NodeT* Tree<RootT>::getNode(uint32_t i) const -+__hostdev__ const NodeT* Tree<RootT>::getNode(uint32_t i) const - { - static_assert(is_same<TreeNodeT<NodeT::LEVEL>, NodeT>::value, "Tree::getNode: unvalid node type"); - NANOVDB_ASSERT(i < DataType::mCount[NodeT::LEVEL]); -@@ -2345,7 +2345,7 @@ - - template<typename RootT> - template<int LEVEL> --const typename TreeNode<Tree<RootT>, LEVEL>::type* Tree<RootT>::getNode(uint32_t i) const -+__hostdev__ const typename TreeNode<Tree<RootT>, LEVEL>::type* Tree<RootT>::getNode(uint32_t i) const - { - NANOVDB_ASSERT(i < DataType::mCount[LEVEL]); - return reinterpret_cast<const TreeNodeT<LEVEL>*>(reinterpret_cast<const uint8_t*>(this) + DataType::mBytes[LEVEL]) + i; -@@ -2353,7 +2353,7 @@ - - template<typename RootT> - template<typename NodeT> --NodeT* Tree<RootT>::getNode(uint32_t i) -+__hostdev__ NodeT* Tree<RootT>::getNode(uint32_t i) - { - static_assert(is_same<TreeNodeT<NodeT::LEVEL>, NodeT>::value, "Tree::getNode: invalid node type"); - NANOVDB_ASSERT(i < DataType::mCount[NodeT::LEVEL]); -@@ -2362,7 +2362,7 @@ - - template<typename RootT> - template<int LEVEL> --typename TreeNode<Tree<RootT>, LEVEL>::type* Tree<RootT>::getNode(uint32_t i) -+__hostdev__ typename TreeNode<Tree<RootT>, LEVEL>::type* Tree<RootT>::getNode(uint32_t i) - { - NANOVDB_ASSERT(i < DataType::mCount[LEVEL]); - return reinterpret_cast<TreeNodeT<LEVEL>*>(reinterpret_cast<uint8_t*>(this) + DataType::mBytes[LEVEL]) + i; -@@ -2370,7 +2370,7 @@ - - template<typename RootT> - template<typename NodeT> --uint32_t Tree<RootT>::getNodeID(const NodeT& node) const -+__hostdev__ uint32_t Tree<RootT>::getNodeID(const NodeT& node) const - { - static_assert(is_same<TreeNodeT<NodeT::LEVEL>, NodeT>::value, "Tree::getNodeID: invalid node type"); - const NodeT* first = reinterpret_cast<const NodeT*>(reinterpret_cast<const uint8_t*>(this) + DataType::mBytes[NodeT::LEVEL]); -@@ -2380,7 +2380,7 @@ - - template<typename RootT> - template<typename NodeT> --uint32_t Tree<RootT>::getLinearOffset(const NodeT& node) const -+__hostdev__ uint32_t Tree<RootT>::getLinearOffset(const NodeT& node) const - { - return this->getNodeID(node) + DataType::mPFSum[NodeT::LEVEL]; - } -@@ -3366,7 +3366,7 @@ - }; // LeafNode class - - template<typename ValueT, typename CoordT, template<uint32_t> class MaskT, uint32_t LOG2DIM> --inline void LeafNode<ValueT, CoordT, MaskT, LOG2DIM>::updateBBox() -+inline __hostdev__ void LeafNode<ValueT, CoordT, MaskT, LOG2DIM>::updateBBox() - { - static_assert(LOG2DIM == 3, "LeafNode::updateBBox: only supports LOGDIM = 3!"); - if (!this->isActive()) return; -Index: nanovdb/nanovdb/util/SampleFromVoxels.h -=================================================================== ---- a/nanovdb/nanovdb/util/SampleFromVoxels.h (revision 62751) -+++ b/nanovdb/nanovdb/util/SampleFromVoxels.h (working copy) -@@ -22,7 +22,7 @@ - #define NANOVDB_SAMPLE_FROM_VOXELS_H_HAS_BEEN_INCLUDED - - // Only define __hostdev__ when compiling as NVIDIA CUDA --#ifdef __CUDACC__ -+#if defined(__CUDACC__) || defined(__HIP__) - #define __hostdev__ __host__ __device__ - #else - #include <cmath> // for floor -@@ -136,7 +136,7 @@ - - template<typename TreeOrAccT> - template<typename Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 0, true>::operator()(const Vec3T& xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 0, true>::operator()(const Vec3T& xyz) const - { - const CoordT ijk = Round<CoordT>(xyz); - if (ijk != mPos) { -@@ -147,7 +147,7 @@ - } - - template<typename TreeOrAccT> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 0, true>::operator()(const CoordT& ijk) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 0, true>::operator()(const CoordT& ijk) const - { - if (ijk != mPos) { - mPos = ijk; -@@ -158,7 +158,7 @@ - - template<typename TreeOrAccT> - template<typename Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 0, false>::operator()(const Vec3T& xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 0, false>::operator()(const Vec3T& xyz) const - { - return mAcc.getValue(Round<CoordT>(xyz)); - } -@@ -195,7 +195,7 @@ - }; // TrilinearSamplerBase - - template<typename TreeOrAccT> --void TrilinearSampler<TreeOrAccT>::stencil(CoordT& ijk, ValueT (&v)[2][2][2]) const -+__hostdev__ void TrilinearSampler<TreeOrAccT>::stencil(CoordT& ijk, ValueT (&v)[2][2][2]) const - { - v[0][0][0] = mAcc.getValue(ijk); // i, j, k - -@@ -224,7 +224,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType TrilinearSampler<TreeOrAccT>::sample(const Vec3T<RealT> &uvw, const ValueT (&v)[2][2][2]) -+__hostdev__ typename TreeOrAccT::ValueType TrilinearSampler<TreeOrAccT>::sample(const Vec3T<RealT> &uvw, const ValueT (&v)[2][2][2]) - { - #if 0 - auto lerp = [](ValueT a, ValueT b, ValueT w){ return fma(w, b-a, a); };// = w*(b-a) + a -@@ -239,7 +239,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --Vec3T<typename TreeOrAccT::ValueType> TrilinearSampler<TreeOrAccT>::gradient(const Vec3T<RealT> &uvw, const ValueT (&v)[2][2][2]) -+__hostdev__ Vec3T<typename TreeOrAccT::ValueType> TrilinearSampler<TreeOrAccT>::gradient(const Vec3T<RealT> &uvw, const ValueT (&v)[2][2][2]) - { - static_assert(std::is_floating_point<ValueT>::value, "TrilinearSampler::gradient requires a floating-point type"); - #if 0 -@@ -270,7 +270,7 @@ - } - - template<typename TreeOrAccT> --bool TrilinearSampler<TreeOrAccT>::zeroCrossing(const ValueT (&v)[2][2][2]) -+__hostdev__ bool TrilinearSampler<TreeOrAccT>::zeroCrossing(const ValueT (&v)[2][2][2]) - { - static_assert(std::is_floating_point<ValueT>::value, "TrilinearSampler::zeroCrossing requires a floating-point type"); - const bool less = v[0][0][0] < ValueT(0); -@@ -363,7 +363,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, true>::operator()(Vec3T<RealT> xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, true>::operator()(Vec3T<RealT> xyz) const - { - this->cache(xyz); - return BaseT::sample(xyz, mVal); -@@ -370,7 +370,7 @@ - } - - template<typename TreeOrAccT> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, true>::operator()(const CoordT &ijk) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, true>::operator()(const CoordT &ijk) const - { - return ijk == mPos ? mVal[0][0][0] : BaseT::mAcc.getValue(ijk); - } -@@ -377,7 +377,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --Vec3T<typename TreeOrAccT::ValueType> SampleFromVoxels<TreeOrAccT, 1, true>::gradient(Vec3T<RealT> xyz) const -+__hostdev__ Vec3T<typename TreeOrAccT::ValueType> SampleFromVoxels<TreeOrAccT, 1, true>::gradient(Vec3T<RealT> xyz) const - { - this->cache(xyz); - return BaseT::gradient(xyz, mVal); -@@ -393,7 +393,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --void SampleFromVoxels<TreeOrAccT, 1, true>::cache(Vec3T<RealT>& xyz) const -+__hostdev__ void SampleFromVoxels<TreeOrAccT, 1, true>::cache(Vec3T<RealT>& xyz) const - { - CoordT ijk = Floor<CoordT>(xyz); - if (ijk != mPos) { -@@ -406,7 +406,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, false>::operator()(Vec3T<RealT> xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, false>::operator()(Vec3T<RealT> xyz) const - { - ValueT val[2][2][2]; - CoordT ijk = Floor<CoordT>(xyz); -@@ -418,7 +418,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, false>::operator()(Vec3T<RealT> xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 1, false>::operator()(Vec3T<RealT> xyz) const - { - auto lerp = [](ValueT a, ValueT b, RealT w) { return a + ValueT(w) * (b - a); }; - -@@ -463,7 +463,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --inline Vec3T<typename TreeOrAccT::ValueType> SampleFromVoxels<TreeOrAccT, 1, false>::gradient(Vec3T<RealT> xyz) const -+inline __hostdev__ Vec3T<typename TreeOrAccT::ValueType> SampleFromVoxels<TreeOrAccT, 1, false>::gradient(Vec3T<RealT> xyz) const - { - ValueT val[2][2][2]; - CoordT ijk = Floor<CoordT>(xyz); -@@ -473,7 +473,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --bool SampleFromVoxels<TreeOrAccT, 1, false>::zeroCrossing(Vec3T<RealT> xyz) const -+__hostdev__ bool SampleFromVoxels<TreeOrAccT, 1, false>::zeroCrossing(Vec3T<RealT> xyz) const - { - ValueT val[2][2][2]; - CoordT ijk = Floor<CoordT>(xyz); -@@ -510,7 +510,7 @@ - }; // TriquadraticSamplerBase - - template<typename TreeOrAccT> --void TriquadraticSampler<TreeOrAccT>::stencil(const CoordT &ijk, ValueT (&v)[3][3][3]) const -+__hostdev__ void TriquadraticSampler<TreeOrAccT>::stencil(const CoordT &ijk, ValueT (&v)[3][3][3]) const - { - CoordT p(ijk[0] - 1, 0, 0); - for (int dx = 0; dx < 3; ++dx, ++p[0]) { -@@ -526,7 +526,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType TriquadraticSampler<TreeOrAccT>::sample(const Vec3T<RealT> &uvw, const ValueT (&v)[3][3][3]) -+__hostdev__ typename TreeOrAccT::ValueType TriquadraticSampler<TreeOrAccT>::sample(const Vec3T<RealT> &uvw, const ValueT (&v)[3][3][3]) - { - auto kernel = [](const ValueT* value, double weight)->ValueT { - return weight * (weight * (0.5f * (value[0] + value[2]) - value[1]) + -@@ -545,7 +545,7 @@ - } - - template<typename TreeOrAccT> --bool TriquadraticSampler<TreeOrAccT>::zeroCrossing(const ValueT (&v)[3][3][3]) -+__hostdev__ bool TriquadraticSampler<TreeOrAccT>::zeroCrossing(const ValueT (&v)[3][3][3]) - { - static_assert(std::is_floating_point<ValueT>::value, "TrilinearSampler::zeroCrossing requires a floating-point type"); - const bool less = v[0][0][0] < ValueT(0); -@@ -624,7 +624,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 2, true>::operator()(Vec3T<RealT> xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 2, true>::operator()(Vec3T<RealT> xyz) const - { - this->cache(xyz); - return BaseT::sample(xyz, mVal); -@@ -631,7 +631,7 @@ - } - - template<typename TreeOrAccT> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 2, true>::operator()(const CoordT &ijk) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 2, true>::operator()(const CoordT &ijk) const - { - return ijk == mPos ? mVal[1][1][1] : BaseT::mAcc.getValue(ijk); - } -@@ -646,7 +646,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --void SampleFromVoxels<TreeOrAccT, 2, true>::cache(Vec3T<RealT>& xyz) const -+__hostdev__ void SampleFromVoxels<TreeOrAccT, 2, true>::cache(Vec3T<RealT>& xyz) const - { - CoordT ijk = Floor<CoordT>(xyz); - if (ijk != mPos) { -@@ -657,7 +657,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 2, false>::operator()(Vec3T<RealT> xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 2, false>::operator()(Vec3T<RealT> xyz) const - { - ValueT val[3][3][3]; - CoordT ijk = Floor<CoordT>(xyz); -@@ -667,7 +667,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --bool SampleFromVoxels<TreeOrAccT, 2, false>::zeroCrossing(Vec3T<RealT> xyz) const -+__hostdev__ bool SampleFromVoxels<TreeOrAccT, 2, false>::zeroCrossing(Vec3T<RealT> xyz) const - { - ValueT val[3][3][3]; - CoordT ijk = Floor<CoordT>(xyz); -@@ -710,7 +710,7 @@ - }; // TricubicSampler - - template<typename TreeOrAccT> --void TricubicSampler<TreeOrAccT>::stencil(const CoordT& ijk, ValueT (&C)[64]) const -+__hostdev__ void TricubicSampler<TreeOrAccT>::stencil(const CoordT& ijk, ValueT (&C)[64]) const - { - auto fetch = [&](int i, int j, int k) -> ValueT& { return C[((i + 1) << 4) + ((j + 1) << 2) + k + 1]; }; - -@@ -929,7 +929,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 3, true>::operator()(Vec3T<RealT> xyz) const -+__hostdev__ typename TreeOrAccT::ValueType SampleFromVoxels<TreeOrAccT, 3, true>::operator()(Vec3T<RealT> xyz) const - { - this->cache(xyz); - return BaseT::sample(xyz, mC); -@@ -937,7 +937,7 @@ - - template<typename TreeOrAccT> - template<typename RealT, template<typename...> class Vec3T> --void SampleFromVoxels<TreeOrAccT, 3, true>::cache(Vec3T<RealT>& xyz) const -+__hostdev__ void SampleFromVoxels<TreeOrAccT, 3, true>::cache(Vec3T<RealT>& xyz) const - { - CoordT ijk = Floor<CoordT>(xyz); - if (ijk != mPos) { |