nabo_private.h
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00001 /*
00002 
00003 Copyright (c) 2010--2011, Stephane Magnenat, ASL, ETHZ, Switzerland
00004 You can contact the author at <stephane at magnenat dot net>
00005 
00006 All rights reserved.
00007 
00008 Redistribution and use in source and binary forms, with or without
00009 modification, are permitted provided that the following conditions are met:
00010     * Redistributions of source code must retain the above copyright
00011       notice, this list of conditions and the following disclaimer.
00012     * Redistributions in binary form must reproduce the above copyright
00013       notice, this list of conditions and the following disclaimer in the
00014       documentation and/or other materials provided with the distribution.
00015     * Neither the name of the <organization> nor the
00016       names of its contributors may be used to endorse or promote products
00017       derived from this software without specific prior written permission.
00018 
00019 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
00020 ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
00021 WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
00022 DISCLAIMED. IN NO EVENT SHALL ETH-ASL BE LIABLE FOR ANY
00023 DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
00024 (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
00025 LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
00026 ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
00027 (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
00028 SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
00029 
00030 */
00031 
00032 #ifndef __NABO_PRIVATE_H
00033 #define __NABO_PRIVATE_H
00034 
00035 #include "nabo.h"
00036 
00037 #ifdef BOOST_STDINT
00038     #include <boost/cstdint.hpp>
00039     using boost::uint32_t;
00040 #else // BOOST_STDINT
00041     #include <stdint.h>
00042 #endif // BOOST_STDINT
00043 
00044 // OpenCL
00045 #ifdef HAVE_OPENCL
00046     #define __CL_ENABLE_EXCEPTIONS
00047     #include "CL/cl.hpp"
00048 #endif // HAVE_OPENCL
00049 
00050 // Unused macro, add support for your favorite compiler
00051 #if defined(__GNUC__)
00052     #define _UNUSED __attribute__ ((unused))
00053 #else
00054     #define _UNUSED
00055 #endif
00056 
00062 namespace Nabo
00063 {
00065 
00066     
00068     template<typename T, typename A, typename B>
00069     inline T dist2(const A& v0, const B& v1)
00070     {
00071         return (v0 - v1).squaredNorm();
00072     }
00073 
00075     template<typename T>
00076     struct BruteForceSearch: public NearestNeighbourSearch<T>
00077     {
00078         typedef typename NearestNeighbourSearch<T>::Vector Vector;
00079         typedef typename NearestNeighbourSearch<T>::Matrix Matrix;
00080         typedef typename NearestNeighbourSearch<T>::Index Index;
00081         typedef typename NearestNeighbourSearch<T>::IndexVector IndexVector;
00082         typedef typename NearestNeighbourSearch<T>::IndexMatrix IndexMatrix;
00083         
00084         using NearestNeighbourSearch<T>::dim;
00085         using NearestNeighbourSearch<T>::creationOptionFlags;
00086         using NearestNeighbourSearch<T>::checkSizesKnn;
00087         using NearestNeighbourSearch<T>::minBound;
00088         using NearestNeighbourSearch<T>::maxBound;
00089 
00091         BruteForceSearch(const Matrix& cloud, const Index dim, const unsigned creationOptionFlags);
00092         virtual unsigned long knn(const Matrix& query, IndexMatrix& indices, Matrix& dists2, const Index k, const T epsilon, const unsigned optionFlags, const T maxRadius) const;
00093         virtual unsigned long knn(const Matrix& query, IndexMatrix& indices, Matrix& dists2, const Vector& maxRadii, const Index k = 1, const T epsilon = 0, const unsigned optionFlags = 0) const;
00094     };
00095     
00097     template<typename T, typename Heap>
00098     struct KDTreeUnbalancedPtInLeavesImplicitBoundsStackOpt: public NearestNeighbourSearch<T>
00099     {
00100         typedef typename NearestNeighbourSearch<T>::Vector Vector;
00101         typedef typename NearestNeighbourSearch<T>::Matrix Matrix;
00102         typedef typename NearestNeighbourSearch<T>::Index Index;
00103         typedef typename NearestNeighbourSearch<T>::IndexVector IndexVector;
00104         typedef typename NearestNeighbourSearch<T>::IndexMatrix IndexMatrix;
00105         
00106         using NearestNeighbourSearch<T>::dim;
00107         using NearestNeighbourSearch<T>::cloud;
00108         using NearestNeighbourSearch<T>::creationOptionFlags;
00109         using NearestNeighbourSearch<T>::minBound;
00110         using NearestNeighbourSearch<T>::maxBound;
00111         using NearestNeighbourSearch<T>::checkSizesKnn;
00112         
00113     protected:
00115         typedef std::vector<Index> BuildPoints;
00117         typedef typename BuildPoints::iterator BuildPointsIt;
00119         typedef typename BuildPoints::const_iterator BuildPointsCstIt;
00120         
00122         const unsigned bucketSize;
00123         
00125         const uint32_t dimBitCount;
00127         const uint32_t dimMask;
00128         
00130         inline uint32_t createDimChildBucketSize(const uint32_t dim, const uint32_t childIndex) const
00131         { return dim | (childIndex << dimBitCount); }
00133         inline uint32_t getDim(const uint32_t dimChildBucketSize) const
00134         { return dimChildBucketSize & dimMask; }
00136         inline uint32_t getChildBucketSize(const uint32_t dimChildBucketSize) const
00137         { return dimChildBucketSize >> dimBitCount; }
00138         
00139         struct BucketEntry;
00140         
00142         struct Node
00143         {
00144             uint32_t dimChildBucketSize; 
00145             union
00146             {
00147                 T cutVal; 
00148                 uint32_t bucketIndex; 
00149             };
00150             
00152             Node(const uint32_t dimChild, const T cutVal):
00153                 dimChildBucketSize(dimChild), cutVal(cutVal) {}
00155             Node(const uint32_t bucketSize, const uint32_t bucketIndex):
00156                 dimChildBucketSize(bucketSize), bucketIndex(bucketIndex) {}
00157         };
00159         typedef std::vector<Node> Nodes;
00160         
00162         struct BucketEntry
00163         {
00164             const T* pt; 
00165             Index index; 
00166             
00168 
00171             BucketEntry(const T* pt = 0, const Index index = 0): pt(pt), index(index) {}
00172         };
00173         
00175         typedef std::vector<BucketEntry> Buckets;
00176         
00178         Nodes nodes;
00179         
00181         Buckets buckets;
00182         
00184         std::pair<T,T> getBounds(const BuildPointsIt first, const BuildPointsIt last, const unsigned dim);
00186         unsigned buildNodes(const BuildPointsIt first, const BuildPointsIt last, const Vector minValues, const Vector maxValues);
00187         
00189 
00201         unsigned long onePointKnn(const Matrix& query, IndexMatrix& indices, Matrix& dists2, int i, Heap& heap, std::vector<T>& off, const T maxError, const T maxRadius2, const bool allowSelfMatch, const bool collectStatistics, const bool sortResults) const;
00202         
00204 
00212         template<bool allowSelfMatch, bool collectStatistics>
00213         unsigned long recurseKnn(const T* query, const unsigned n, T rd, Heap& heap, std::vector<T>& off, const T maxError, const T maxRadius2) const;
00214         
00215     public:
00217         KDTreeUnbalancedPtInLeavesImplicitBoundsStackOpt(const Matrix& cloud, const Index dim, const unsigned creationOptionFlags, const Parameters& additionalParameters);
00218         virtual unsigned long knn(const Matrix& query, IndexMatrix& indices, Matrix& dists2, const Index k, const T epsilon, const unsigned optionFlags, const T maxRadius) const;
00219         virtual unsigned long knn(const Matrix& query, IndexMatrix& indices, Matrix& dists2, const Vector& maxRadii, const Index k = 1, const T epsilon = 0, const unsigned optionFlags = 0) const;
00220     };
00221     
00222     #ifdef HAVE_OPENCL
00223     
00225     template<typename T>
00226     struct OpenCLSearch: public NearestNeighbourSearch<T>
00227     {
00228         typedef typename NearestNeighbourSearch<T>::Vector Vector;
00229         typedef typename NearestNeighbourSearch<T>::Matrix Matrix;
00230         typedef typename NearestNeighbourSearch<T>::Index Index;
00231         typedef typename NearestNeighbourSearch<T>::IndexVector IndexVector;
00232         typedef typename NearestNeighbourSearch<T>::IndexMatrix IndexMatrix;
00233         
00234         using NearestNeighbourSearch<T>::dim;
00235         using NearestNeighbourSearch<T>::cloud;
00236         using NearestNeighbourSearch<T>::creationOptionFlags;
00237         using NearestNeighbourSearch<T>::checkSizesKnn;
00238         
00239     protected:
00240         const cl_device_type deviceType; 
00241         cl::Context& context; 
00242         mutable cl::Kernel knnKernel; 
00243         cl::CommandQueue queue; 
00244         cl::Buffer cloudCL; 
00245         
00247         OpenCLSearch(const Matrix& cloud, const Index dim, const unsigned creationOptionFlags, const cl_device_type deviceType);
00249 
00253         void initOpenCL(const char* clFileName, const char* kernelName, const std::string& additionalDefines = "");
00254     
00255     public:
00256         virtual unsigned long knn(const Matrix& query, IndexMatrix& indices, Matrix& dists2, const Index k, const T epsilon, const unsigned optionFlags, const T maxRadius) const;
00257     };
00258     
00260     template<typename T>
00261     struct BruteForceSearchOpenCL: public OpenCLSearch<T>
00262     {
00263         typedef typename NearestNeighbourSearch<T>::Vector Vector;
00264         typedef typename NearestNeighbourSearch<T>::Matrix Matrix;
00265         typedef typename NearestNeighbourSearch<T>::Index Index;
00266         
00267         using OpenCLSearch<T>::initOpenCL;
00268         
00270         BruteForceSearchOpenCL(const Matrix& cloud, const Index dim, const unsigned creationOptionFlags, const cl_device_type deviceType);
00271     };
00272     
00274     template<typename T>
00275     struct KDTreeBalancedPtInLeavesStackOpenCL: public OpenCLSearch<T>
00276     {
00277         typedef typename NearestNeighbourSearch<T>::Vector Vector;
00278         typedef typename NearestNeighbourSearch<T>::Matrix Matrix;
00279         typedef typename NearestNeighbourSearch<T>::Index Index;
00280         typedef typename NearestNeighbourSearch<T>::IndexVector IndexVector;
00281         typedef typename NearestNeighbourSearch<T>::IndexMatrix IndexMatrix;
00282         
00283         using NearestNeighbourSearch<T>::dim;
00284         using NearestNeighbourSearch<T>::cloud;
00285         using NearestNeighbourSearch<T>::creationOptionFlags;
00286         using NearestNeighbourSearch<T>::minBound;
00287         using NearestNeighbourSearch<T>::maxBound;
00288         
00289         using OpenCLSearch<T>::context;
00290         using OpenCLSearch<T>::knnKernel;
00291         
00292         using OpenCLSearch<T>::initOpenCL;
00293         
00294     protected:
00296         struct BuildPoint
00297         {
00298             Vector pos; 
00299             size_t index; 
00300 
00301             BuildPoint(const Vector& pos =  Vector(), const size_t index = 0): pos(pos), index(index) {}
00302         };
00304         typedef std::vector<BuildPoint> BuildPoints;
00306         typedef typename BuildPoints::iterator BuildPointsIt;
00308         typedef typename BuildPoints::const_iterator BuildPointsCstIt;
00309         
00311         struct CompareDim
00312         {
00313             size_t dim; 
00314 
00315             CompareDim(const size_t dim):dim(dim){}
00317             bool operator() (const BuildPoint& p0, const BuildPoint& p1) { return p0.pos(dim) < p1.pos(dim); }
00318         };
00319         
00321         struct Node
00322         {
00323             int dim; 
00324             T cutVal; 
00325 
00326             Node(const int dim = -1, const T cutVal = 0):dim(dim), cutVal(cutVal) {}
00327         };
00329         typedef std::vector<Node> Nodes;
00330         
00331         Nodes nodes; 
00332         cl::Buffer nodesCL; 
00333         
00334         
00335         inline size_t childLeft(size_t pos) const { return 2*pos + 1; } 
00336         inline size_t childRight(size_t pos) const { return 2*pos + 2; } 
00337         inline size_t parent(size_t pos) const { return (pos-1)/2; } 
00338         size_t getTreeDepth(size_t size) const; 
00339         size_t getTreeSize(size_t size) const; 
00340         
00342         void buildNodes(const BuildPointsIt first, const BuildPointsIt last, const size_t pos, const Vector minValues, const Vector maxValues);
00343         
00344     public:
00346         KDTreeBalancedPtInLeavesStackOpenCL(const Matrix& cloud, const Index dim, const unsigned creationOptionFlags, const cl_device_type deviceType);
00347     };
00348     
00350     template<typename T>
00351     struct KDTreeBalancedPtInNodesStackOpenCL: public OpenCLSearch<T>
00352     {
00353         typedef typename NearestNeighbourSearch<T>::Vector Vector;
00354         typedef typename NearestNeighbourSearch<T>::Matrix Matrix;
00355         typedef typename NearestNeighbourSearch<T>::Index Index;
00356         typedef typename NearestNeighbourSearch<T>::IndexVector IndexVector;
00357         typedef typename NearestNeighbourSearch<T>::IndexMatrix IndexMatrix;
00358         
00359         using NearestNeighbourSearch<T>::dim;
00360         using NearestNeighbourSearch<T>::cloud;
00361         using NearestNeighbourSearch<T>::creationOptionFlags;
00362         using NearestNeighbourSearch<T>::minBound;
00363         using NearestNeighbourSearch<T>::maxBound;
00364         
00365         using OpenCLSearch<T>::context;
00366         using OpenCLSearch<T>::knnKernel;
00367         
00368         using OpenCLSearch<T>::initOpenCL;
00369         
00370     protected:
00372         typedef Index BuildPoint;
00374         typedef std::vector<BuildPoint> BuildPoints;
00376         typedef typename BuildPoints::iterator BuildPointsIt;
00378         typedef typename BuildPoints::const_iterator BuildPointsCstIt;
00379         
00381         struct CompareDim
00382         {
00383             const Matrix& cloud; 
00384             size_t dim; 
00385 
00386             CompareDim(const Matrix& cloud, const size_t dim): cloud(cloud), dim(dim){}
00388             bool operator() (const BuildPoint& p0, const BuildPoint& p1) { return cloud.coeff(dim, p0) < cloud.coeff(dim, p1); }
00389         };
00390         
00392         struct Node
00393         {
00394             int dim; 
00395             Index index; 
00396 
00397             Node(const int dim = -2, const Index index = 0):dim(dim), index(index) {}
00398         };
00400         typedef std::vector<Node> Nodes;
00401         
00402         Nodes nodes; 
00403         cl::Buffer nodesCL;  
00404         
00405         
00406         inline size_t childLeft(size_t pos) const { return 2*pos + 1; } 
00407         inline size_t childRight(size_t pos) const { return 2*pos + 2; } 
00408         inline size_t parent(size_t pos) const { return (pos-1)/2; } 
00409         size_t getTreeDepth(size_t size) const; 
00410         size_t getTreeSize(size_t size) const; 
00411         
00413         void buildNodes(const BuildPointsIt first, const BuildPointsIt last, const size_t pos, const Vector minValues, const Vector maxValues);
00414         
00415     public:
00417         KDTreeBalancedPtInNodesStackOpenCL(const Matrix& cloud, const Index dim, const unsigned creationOptionFlags, const cl_device_type deviceType);
00418     };
00419     
00420     #endif // HAVE_OPENCL
00421     
00423 }
00424 
00425 #endif // __NABO_H


libnabo
Author(s): Stéphane Magnenat
autogenerated on Mon Oct 6 2014 10:27:28