mirror of
https://github.com/PixarAnimationStudios/OpenSubdiv
synced 2024-12-12 03:50:09 +00:00
484c2746d1
- individual basis functions now purely normalized with no PatchParam - two new higher level functions deal with patch type and PatchParam - updated Far::PatchTable and Osd evaluators that used old methods
608 lines
22 KiB
C++
608 lines
22 KiB
C++
//
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// Copyright 2013 Pixar
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//
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// Licensed under the Apache License, Version 2.0 (the "Apache License")
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// with the following modification; you may not use this file except in
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// compliance with the Apache License and the following modification to it:
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// Section 6. Trademarks. is deleted and replaced with:
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//
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// 6. Trademarks. This License does not grant permission to use the trade
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// names, trademarks, service marks, or product names of the Licensor
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// and its affiliates, except as required to comply with Section 4(c) of
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// the License and to reproduce the content of the NOTICE file.
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//
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// You may obtain a copy of the Apache License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the Apache License with the above modification is
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// distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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// KIND, either express or implied. See the Apache License for the specific
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// language governing permissions and limitations under the Apache License.
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//
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#include "../osd/cpuKernel.h"
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#include "../osd/tbbKernel.h"
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#include "../osd/types.h"
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#include "../osd/bufferDescriptor.h"
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#include "../far/patchBasis.h"
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#include <cassert>
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#include <cstdlib>
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#include <tbb/parallel_for.h>
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namespace OpenSubdiv {
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namespace OPENSUBDIV_VERSION {
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namespace Osd {
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#define grain_size 200
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template <class T> T *
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elementAtIndex(T * src, int index, BufferDescriptor const &desc) {
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return src + index * desc.stride;
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}
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static inline void
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clear(float *dst, BufferDescriptor const &desc) {
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assert(dst);
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memset(dst, 0, desc.length*sizeof(float));
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}
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static inline void
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addWithWeight(float *dst, const float *src, int srcIndex, float weight,
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BufferDescriptor const &desc) {
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assert(src && dst);
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src = elementAtIndex(src, srcIndex, desc);
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for (int k = 0; k < desc.length; ++k) {
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dst[k] += src[k] * weight;
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}
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}
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static inline void
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copy(float *dst, int dstIndex, const float *src,
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BufferDescriptor const &desc) {
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assert(src && dst);
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dst = elementAtIndex(dst, dstIndex, desc);
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memcpy(dst, src, desc.length*sizeof(float));
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}
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class TBBStencilKernel {
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BufferDescriptor _srcDesc;
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BufferDescriptor _dstDesc;
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float const * _vertexSrc;
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float * _vertexDst;
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int const * _sizes;
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int const * _offsets,
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* _indices;
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float const * _weights;
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public:
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TBBStencilKernel(float const *src, BufferDescriptor srcDesc,
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float *dst, BufferDescriptor dstDesc,
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int const * sizes, int const * offsets,
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int const * indices, float const * weights) :
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_srcDesc(srcDesc),
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_dstDesc(dstDesc),
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_vertexSrc(src),
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_vertexDst(dst),
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_sizes(sizes),
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_offsets(offsets),
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_indices(indices),
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_weights(weights) { }
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TBBStencilKernel(TBBStencilKernel const & other) {
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_srcDesc = other._srcDesc;
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_dstDesc = other._dstDesc;
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_sizes = other._sizes;
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_offsets = other._offsets;
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_indices = other._indices;
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_weights = other._weights;
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_vertexSrc = other._vertexSrc;
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_vertexDst = other._vertexDst;
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}
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void operator() (tbb::blocked_range<int> const &r) const {
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#define USE_SIMD
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#ifdef USE_SIMD
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if (_srcDesc.length==4 && _srcDesc.stride==4 && _dstDesc.stride==4) {
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// SIMD fast path for aligned primvar data (4 floats)
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int offset = _offsets[r.begin()];
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ComputeStencilKernel<4>(_vertexSrc, _vertexDst,
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_sizes, _indices+offset, _weights+offset, r.begin(), r.end());
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} else if (_srcDesc.length==8 && _srcDesc.stride==4 && _dstDesc.stride==4) {
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// SIMD fast path for aligned primvar data (8 floats)
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int offset = _offsets[r.begin()];
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ComputeStencilKernel<8>(_vertexSrc, _vertexDst,
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_sizes, _indices+offset, _weights+offset, r.begin(), r.end());
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} else {
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#else
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{
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#endif
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int const * sizes = _sizes;
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int const * indices = _indices;
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float const * weights = _weights;
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if (r.begin()>0) {
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sizes += r.begin();
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indices += _offsets[r.begin()];
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weights += _offsets[r.begin()];
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}
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// Slow path for non-aligned data
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float * result = (float*)alloca(_srcDesc.length * sizeof(float));
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for (int i=r.begin(); i<r.end(); ++i, ++sizes) {
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clear(result, _dstDesc);
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for (int j=0; j<*sizes; ++j) {
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addWithWeight(result, _vertexSrc, *indices++, *weights++, _srcDesc);
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}
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copy(_vertexDst, i, result, _dstDesc);
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}
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}
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}
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};
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void
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TbbEvalStencils(float const * src, BufferDescriptor const &srcDesc,
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float * dst, BufferDescriptor const &dstDesc,
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int const * sizes,
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int const * offsets,
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int const * indices,
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float const * weights,
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int start, int end) {
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src += srcDesc.offset;
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dst += dstDesc.offset;
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TBBStencilKernel kernel(src, srcDesc, dst, dstDesc,
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sizes, offsets, indices, weights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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void
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TbbEvalStencils(float const * src, BufferDescriptor const &srcDesc,
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float * dst, BufferDescriptor const &dstDesc,
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float * du, BufferDescriptor const &duDesc,
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float * dv, BufferDescriptor const &dvDesc,
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int const * sizes,
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int const * offsets,
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int const * indices,
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float const * weights,
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float const * duWeights,
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float const * dvWeights,
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int start, int end) {
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if (src) src += srcDesc.offset;
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if (dst) dst += dstDesc.offset;
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if (du) du += duDesc.offset;
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if (dv) dv += dvDesc.offset;
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// PERFORMANCE: need to combine 3 launches together
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if (dst) {
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TBBStencilKernel kernel(src, srcDesc, dst, dstDesc,
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sizes, offsets, indices, weights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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if (du) {
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TBBStencilKernel kernel(src, srcDesc, du, duDesc,
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sizes, offsets, indices, duWeights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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if (dv) {
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TBBStencilKernel kernel(src, srcDesc, dv, dvDesc,
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sizes, offsets, indices, dvWeights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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}
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void
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TbbEvalStencils(float const * src, BufferDescriptor const &srcDesc,
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float * dst, BufferDescriptor const &dstDesc,
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float * du, BufferDescriptor const &duDesc,
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float * dv, BufferDescriptor const &dvDesc,
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float * duu, BufferDescriptor const &duuDesc,
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float * duv, BufferDescriptor const &duvDesc,
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float * dvv, BufferDescriptor const &dvvDesc,
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int const * sizes,
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int const * offsets,
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int const * indices,
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float const * weights,
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float const * duWeights,
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float const * dvWeights,
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float const * duuWeights,
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float const * duvWeights,
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float const * dvvWeights,
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int start, int end) {
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if (src) src += srcDesc.offset;
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if (dst) dst += dstDesc.offset;
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if (du) du += duDesc.offset;
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if (dv) dv += dvDesc.offset;
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if (duu) duu += duuDesc.offset;
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if (duv) duv += duvDesc.offset;
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if (dvv) dvv += dvvDesc.offset;
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// PERFORMANCE: need to combine 3 launches together
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if (dst) {
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TBBStencilKernel kernel(src, srcDesc, dst, dstDesc,
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sizes, offsets, indices, weights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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if (du) {
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TBBStencilKernel kernel(src, srcDesc, du, duDesc,
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sizes, offsets, indices, duWeights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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if (dv) {
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TBBStencilKernel kernel(src, srcDesc, dv, dvDesc,
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sizes, offsets, indices, dvWeights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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if (duu) {
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TBBStencilKernel kernel(src, srcDesc, duu, duuDesc,
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sizes, offsets, indices, duuWeights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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if (duv) {
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TBBStencilKernel kernel(src, srcDesc, duv, duvDesc,
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sizes, offsets, indices, duvWeights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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if (dvv) {
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TBBStencilKernel kernel(src, srcDesc, dvv, dvvDesc,
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sizes, offsets, indices, dvvWeights);
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tbb::blocked_range<int> range(start, end, grain_size);
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tbb::parallel_for(range, kernel);
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}
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}
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// ---------------------------------------------------------------------------
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template <typename T>
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struct BufferAdapter {
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BufferAdapter(T *p, int length, int stride) :
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_p(p), _length(length), _stride(stride) { }
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void Clear() {
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for (int i = 0; i < _length; ++i) _p[i] = 0;
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}
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void AddWithWeight(T const *src, float w) {
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if (_p) {
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for (int i = 0; i < _length; ++i) {
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_p[i] += src[i] * w;
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}
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}
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}
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const T *operator[] (int index) const {
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return _p + _stride * index;
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}
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BufferAdapter<T> & operator ++() {
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if (_p) {
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_p += _stride;
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}
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return *this;
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}
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T *_p;
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int _length;
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int _stride;
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};
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class TbbEvalPatchesKernel {
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BufferDescriptor _srcDesc;
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BufferDescriptor _dstDesc;
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BufferDescriptor _dstDuDesc;
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BufferDescriptor _dstDvDesc;
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BufferDescriptor _dstDuuDesc;
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BufferDescriptor _dstDuvDesc;
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BufferDescriptor _dstDvvDesc;
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float const * _src;
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float * _dst;
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float * _dstDu;
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float * _dstDv;
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float * _dstDuu;
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float * _dstDuv;
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float * _dstDvv;
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int _numPatchCoords;
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const PatchCoord *_patchCoords;
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const PatchArray *_patchArrayBuffer;
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const int *_patchIndexBuffer;
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const PatchParam *_patchParamBuffer;
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public:
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TbbEvalPatchesKernel(float const *src, BufferDescriptor srcDesc,
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float *dst, BufferDescriptor dstDesc,
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float *dstDu, BufferDescriptor dstDuDesc,
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float *dstDv, BufferDescriptor dstDvDesc,
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float *dstDuu, BufferDescriptor dstDuuDesc,
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float *dstDuv, BufferDescriptor dstDuvDesc,
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float *dstDvv, BufferDescriptor dstDvvDesc,
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int numPatchCoords,
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const PatchCoord *patchCoords,
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const PatchArray *patchArrayBuffer,
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const int *patchIndexBuffer,
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const PatchParam *patchParamBuffer) :
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_srcDesc(srcDesc), _dstDesc(dstDesc),
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_dstDuDesc(dstDuDesc), _dstDvDesc(dstDvDesc),
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_dstDuuDesc(dstDuuDesc), _dstDuvDesc(dstDuvDesc), _dstDvvDesc(dstDvvDesc),
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_src(src), _dst(dst),
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_dstDu(dstDu), _dstDv(dstDv),
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_dstDuu(dstDuu), _dstDuv(dstDuv), _dstDvv(dstDvv),
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_numPatchCoords(numPatchCoords),
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_patchCoords(patchCoords),
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_patchArrayBuffer(patchArrayBuffer),
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_patchIndexBuffer(patchIndexBuffer),
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_patchParamBuffer(patchParamBuffer) {
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}
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void operator() (tbb::blocked_range<int> const &r) const {
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if (_dstDu == NULL && _dstDv == NULL) {
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compute(r);
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} else if (_dstDuu == NULL && _dstDuv == NULL && _dstDvv == NULL) {
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computeWith1stDerivative(r);
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} else {
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computeWith2ndDerivative(r);
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}
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}
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void compute(tbb::blocked_range<int> const &r) const {
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float wP[20], wDu[20], wDv[20];
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BufferAdapter<const float> srcT(_src + _srcDesc.offset,
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_srcDesc.length,
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_srcDesc.stride);
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BufferAdapter<float> dstT(_dst + _dstDesc.offset
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+ r.begin() * _dstDesc.stride,
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_dstDesc.length,
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_dstDesc.stride);
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for (int i = r.begin(); i < r.end(); ++i) {
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PatchCoord const &coord = _patchCoords[i];
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PatchArray const &array = _patchArrayBuffer[coord.handle.arrayIndex];
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Far::PatchParam const & param =
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_patchParamBuffer[coord.handle.patchIndex];
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int patchType = param.IsRegular()
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? Far::PatchDescriptor::REGULAR
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: array.GetPatchType();
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int numControlVertices = Far::internal::EvaluatePatchBasis(patchType,
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param, coord.s, coord.t, wP, wDu, wDv);
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int indexStride = Far::PatchDescriptor(array.GetPatchType()).GetNumControlVertices();
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int indexBase = array.GetIndexBase() + indexStride *
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(coord.handle.patchIndex - array.GetPrimitiveIdBase());
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const int *cvs = &_patchIndexBuffer[indexBase];
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dstT.Clear();
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for (int j = 0; j < numControlVertices; ++j) {
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dstT.AddWithWeight(srcT[cvs[j]], wP[j]);
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}
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++dstT;
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}
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}
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void computeWith1stDerivative(tbb::blocked_range<int> const &r) const {
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float wP[20], wDu[20], wDv[20];
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BufferAdapter<const float> srcT(_src + _srcDesc.offset,
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_srcDesc.length,
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_srcDesc.stride);
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BufferAdapter<float> dstT(_dst + _dstDesc.offset
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+ r.begin() * _dstDesc.stride,
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_dstDesc.length,
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_dstDesc.stride);
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BufferAdapter<float> dstDuT(_dstDu + _dstDuDesc.offset
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+ r.begin() * _dstDuDesc.stride,
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_dstDuDesc.length,
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_dstDuDesc.stride);
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BufferAdapter<float> dstDvT(_dstDv + _dstDvDesc.offset
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+ r.begin() * _dstDvDesc.stride,
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_dstDvDesc.length,
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_dstDvDesc.stride);
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for (int i = r.begin(); i < r.end(); ++i) {
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PatchCoord const &coord = _patchCoords[i];
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PatchArray const &array = _patchArrayBuffer[coord.handle.arrayIndex];
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Far::PatchParam const & param =
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_patchParamBuffer[coord.handle.patchIndex];
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int patchType = param.IsRegular()
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? Far::PatchDescriptor::REGULAR
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: array.GetPatchType();
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int numControlVertices = Far::internal::EvaluatePatchBasis(patchType,
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param, coord.s, coord.t, wP, wDu, wDv);
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int indexStride = Far::PatchDescriptor(array.GetPatchType()).GetNumControlVertices();
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int indexBase = array.GetIndexBase() + indexStride *
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(coord.handle.patchIndex - array.GetPrimitiveIdBase());
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const int *cvs = &_patchIndexBuffer[indexBase];
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dstT.Clear();
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dstDuT.Clear();
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dstDvT.Clear();
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for (int j = 0; j < numControlVertices; ++j) {
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dstT.AddWithWeight(srcT[cvs[j]], wP[j]);
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dstDuT.AddWithWeight(srcT[cvs[j]], wDu[j]);
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dstDvT.AddWithWeight(srcT[cvs[j]], wDv[j]);
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}
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++dstT;
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++dstDuT;
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++dstDvT;
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}
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}
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void computeWith2ndDerivative(tbb::blocked_range<int> const &r) const {
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float wP[20], wDu[20], wDv[20], wDuu[20], wDuv[20], wDvv[20];
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BufferAdapter<const float> srcT(_src + _srcDesc.offset,
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_srcDesc.length,
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_srcDesc.stride);
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BufferAdapter<float> dstT(_dst + _dstDesc.offset
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+ r.begin() * _dstDesc.stride,
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_dstDesc.length,
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_dstDesc.stride);
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BufferAdapter<float> dstDuT(_dstDu + _dstDuDesc.offset
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+ r.begin() * _dstDuDesc.stride,
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_dstDuDesc.length,
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_dstDuDesc.stride);
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BufferAdapter<float> dstDvT(_dstDv + _dstDvDesc.offset
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+ r.begin() * _dstDvDesc.stride,
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_dstDvDesc.length,
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_dstDvDesc.stride);
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BufferAdapter<float> dstDuuT(_dstDuu + _dstDuuDesc.offset
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+ r.begin() * _dstDuuDesc.stride,
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_dstDuuDesc.length,
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_dstDuuDesc.stride);
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BufferAdapter<float> dstDuvT(_dstDuv + _dstDuvDesc.offset
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+ r.begin() * _dstDuvDesc.stride,
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_dstDuvDesc.length,
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_dstDuvDesc.stride);
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BufferAdapter<float> dstDvvT(_dstDvv + _dstDvvDesc.offset
|
|
+ r.begin() * _dstDvvDesc.stride,
|
|
_dstDvvDesc.length,
|
|
_dstDvvDesc.stride);
|
|
|
|
for (int i = r.begin(); i < r.end(); ++i) {
|
|
PatchCoord const &coord = _patchCoords[i];
|
|
PatchArray const &array = _patchArrayBuffer[coord.handle.arrayIndex];
|
|
|
|
Far::PatchParam const & param =
|
|
_patchParamBuffer[coord.handle.patchIndex];
|
|
int patchType = param.IsRegular()
|
|
? Far::PatchDescriptor::REGULAR
|
|
: array.GetPatchType();
|
|
|
|
int numControlVertices = Far::internal::EvaluatePatchBasis(patchType,
|
|
param, coord.s, coord.t, wP, wDu, wDv, wDuu, wDuv, wDvv);
|
|
|
|
int indexStride = Far::PatchDescriptor(array.GetPatchType()).GetNumControlVertices();
|
|
int indexBase = array.GetIndexBase() + indexStride *
|
|
(coord.handle.patchIndex - array.GetPrimitiveIdBase());
|
|
|
|
const int *cvs = &_patchIndexBuffer[indexBase];
|
|
|
|
dstT.Clear();
|
|
dstDuT.Clear();
|
|
dstDvT.Clear();
|
|
dstDuuT.Clear();
|
|
dstDuvT.Clear();
|
|
dstDvvT.Clear();
|
|
for (int j = 0; j < numControlVertices; ++j) {
|
|
dstT.AddWithWeight(srcT[cvs[j]], wP[j]);
|
|
dstDuT.AddWithWeight(srcT[cvs[j]], wDu[j]);
|
|
dstDvT.AddWithWeight(srcT[cvs[j]], wDv[j]);
|
|
dstDuuT.AddWithWeight(srcT[cvs[j]], wDuu[j]);
|
|
dstDuvT.AddWithWeight(srcT[cvs[j]], wDuv[j]);
|
|
dstDvvT.AddWithWeight(srcT[cvs[j]], wDvv[j]);
|
|
}
|
|
++dstT;
|
|
++dstDuT;
|
|
++dstDvT;
|
|
++dstDuuT;
|
|
++dstDuvT;
|
|
++dstDvvT;
|
|
}
|
|
}
|
|
};
|
|
|
|
|
|
void
|
|
TbbEvalPatches(float const *src, BufferDescriptor const &srcDesc,
|
|
float *dst, BufferDescriptor const &dstDesc,
|
|
float *dstDu, BufferDescriptor const &dstDuDesc,
|
|
float *dstDv, BufferDescriptor const &dstDvDesc,
|
|
int numPatchCoords,
|
|
const PatchCoord *patchCoords,
|
|
const PatchArray *patchArrayBuffer,
|
|
const int *patchIndexBuffer,
|
|
const PatchParam *patchParamBuffer) {
|
|
|
|
TbbEvalPatchesKernel kernel(src, srcDesc, dst, dstDesc,
|
|
dstDu, dstDuDesc, dstDv, dstDvDesc,
|
|
NULL, BufferDescriptor(),
|
|
NULL, BufferDescriptor(),
|
|
NULL, BufferDescriptor(),
|
|
numPatchCoords, patchCoords,
|
|
patchArrayBuffer,
|
|
patchIndexBuffer,
|
|
patchParamBuffer);
|
|
|
|
tbb::blocked_range<int> range(0, numPatchCoords, grain_size);
|
|
tbb::parallel_for(range, kernel);
|
|
|
|
}
|
|
|
|
|
|
void
|
|
TbbEvalPatches(float const *src, BufferDescriptor const &srcDesc,
|
|
float *dst, BufferDescriptor const &dstDesc,
|
|
float *dstDu, BufferDescriptor const &dstDuDesc,
|
|
float *dstDv, BufferDescriptor const &dstDvDesc,
|
|
float *dstDuu, BufferDescriptor const &dstDuuDesc,
|
|
float *dstDuv, BufferDescriptor const &dstDuvDesc,
|
|
float *dstDvv, BufferDescriptor const &dstDvvDesc,
|
|
int numPatchCoords,
|
|
const PatchCoord *patchCoords,
|
|
const PatchArray *patchArrayBuffer,
|
|
const int *patchIndexBuffer,
|
|
const PatchParam *patchParamBuffer) {
|
|
|
|
TbbEvalPatchesKernel kernel(src, srcDesc, dst, dstDesc,
|
|
dstDu, dstDuDesc, dstDv, dstDvDesc,
|
|
dstDuu, dstDuuDesc,
|
|
dstDuv, dstDuvDesc,
|
|
dstDvv, dstDvvDesc,
|
|
numPatchCoords, patchCoords,
|
|
patchArrayBuffer,
|
|
patchIndexBuffer,
|
|
patchParamBuffer);
|
|
|
|
tbb::blocked_range<int> range(0, numPatchCoords, grain_size);
|
|
tbb::parallel_for(range, kernel);
|
|
|
|
}
|
|
|
|
|
|
} // end namespace Osd
|
|
|
|
} // end namespace OPENSUBDIV_VERSION
|
|
} // end namespace OpenSubdiv
|