add the 'extras' and Bullet 2 tests, to make it easier to create a new intermediate release

1 files changed, 282 insertions, 0 deletions

diff --git a/Extras/HACD/hacdHACD.h b/Extras/HACD/hacdHACD.h
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+/* Copyright (c) 2011 Khaled Mamou (kmamou at gmail dot com)
+ All rights reserved.
+ 
+ 
+ Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
+ 
+ 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
+ 
+ 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
+ 
+ 3. The names of the contributors may not be used to endorse or promote products derived from this software without specific prior written permission.
+ 
+ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+#pragma once
+#ifndef HACD_HACD_H
+#define HACD_HACD_H
+#include "hacdVersion.h"
+#include "hacdVector.h"
+#include "hacdGraph.h"
+#include "hacdICHull.h"
+#include <set>
+#include <vector>
+#include <queue>
+#include <functional>
+
+namespace HACD
+{
+    const double                                    sc_pi = 3.14159265;
+	class HACD;
+
+	// just to be able to set the capcity of the container
+	
+	template<class _Ty, class _Container = std::vector<_Ty>, class _Pr = std::less<typename _Container::value_type> >
+	class reservable_priority_queue: public std::priority_queue<_Ty, _Container, _Pr> 
+	{
+        typedef typename std::priority_queue<_Ty, _Container, _Pr>::size_type size_type;
+	public:
+                                                    reservable_priority_queue(size_type capacity = 0) { reserve(capacity); };
+		void										reserve(size_type capacity) { this->c.reserve(capacity); } 
+        size_type									capacity() const { return this->c.capacity(); } 
+	};
+	
+	//! priority queque element
+    class GraphEdgePriorityQueue
+    {
+		public:
+			//! Constructor
+			//! @param name edge's id
+			//! @param priority edge's priority
+													GraphEdgePriorityQueue(long name, Real priority)
+													{
+														m_name = name;
+														m_priority = priority;
+													}
+			//! Destructor
+													~GraphEdgePriorityQueue(void){}
+		private:
+			long									m_name;						//!< edge name
+			Real                                    m_priority;					//!< priority
+		//! Operator < for GraphEdgePQ
+        friend bool                                 operator<(const GraphEdgePriorityQueue & lhs, const GraphEdgePriorityQueue & rhs);
+		//! Operator > for GraphEdgePQ
+        friend bool                                 operator>(const GraphEdgePriorityQueue & lhs, const GraphEdgePriorityQueue & rhs);
+		friend class HACD;
+    };
+    inline bool										operator<(const GraphEdgePriorityQueue & lhs, const GraphEdgePriorityQueue & rhs)
+													{
+														return lhs.m_priority<rhs.m_priority;
+													}
+    inline bool										operator>(const GraphEdgePriorityQueue & lhs, const GraphEdgePriorityQueue & rhs)
+													{
+														return lhs.m_priority>rhs.m_priority;
+													}
+    typedef bool (*CallBackFunction)(const char *, double, double, size_t);
+
+	//! Provides an implementation of the Hierarchical Approximate Convex Decomposition (HACD) technique described in "A Simple and Efficient Approach for 3D Mesh Approximate Convex Decomposition" Game Programming Gems 8 - Chapter 2.8, p.202. A short version of the chapter was published in ICIP09 and is available at ftp://ftp.elet.polimi.it/users/Stefano.Tubaro/ICIP_USB_Proceedings_v2/pdfs/0003501.pdf
+    class HACD
+	{            
+    public:
+
+		//! Gives the triangles partitionas an array of size m_nTriangles where the i-th element specifies the cluster to which belong the i-th triangle
+		//! @return triangles partition
+		const long * const							GetPartition() const { return m_partition;}
+        //! Sets the scale factor
+		//! @param scale scale factor
+		void										SetScaleFactor(double  scale) { m_scale = scale;}
+		//! Gives the scale factor
+		//! @return scale factor
+		const double								GetScaleFactor() const { return m_scale;}
+		//! Sets the call-back function
+		//! @param callBack pointer to the call-back function
+		void										SetCallBack(CallBackFunction  callBack) { m_callBack = callBack;}
+		//! Gives the call-back function
+		//! @return pointer to the call-back function
+		const CallBackFunction                      GetCallBack() const { return m_callBack;}
+        
+        //! Specifies whether faces points should be added when computing the concavity
+		//! @param addFacesPoints true = faces points should be added
+		void										SetAddFacesPoints(bool  addFacesPoints) { m_addFacesPoints = addFacesPoints;}
+		//! Specifies wheter faces points should be added when computing the concavity
+		//! @return true = faces points should be added
+		const bool									GetAddFacesPoints() const { return m_addFacesPoints;}
+        //! Specifies whether extra points should be added when computing the concavity
+		//! @param addExteraDistPoints true = extra points should be added
+		void										SetAddExtraDistPoints(bool  addExtraDistPoints) { m_addExtraDistPoints = addExtraDistPoints;}
+		//! Specifies wheter extra points should be added when computing the concavity
+		//! @return true = extra points should be added
+		const bool									GetAddExtraDistPoints() const { return m_addExtraDistPoints;}
+        //! Specifies whether extra points should be added when computing the concavity
+		//! @param addExteraDistPoints true = extra points should be added
+		void										SetAddNeighboursDistPoints(bool  addNeighboursDistPoints) { m_addNeighboursDistPoints = addNeighboursDistPoints;}
+		//! Specifies wheter extra points should be added when computing the concavity
+		//! @return true = extra points should be added
+		const bool									GetAddNeighboursDistPoints() const { return m_addNeighboursDistPoints;}
+        //! Sets the points of the input mesh (Remark: the input points will be scaled and shifted. Use DenormalizeData() to invert those operations)
+		//! @param points pointer to the input points
+		void										SetPoints(Vec3<Real>  * points) { m_points = points;}
+		//! Gives the points of the input mesh (Remark: the input points will be scaled and shifted. Use DenormalizeData() to invert those operations)
+		//! @return pointer to the input points 
+		const Vec3<Real> *                          GetPoints() const { return m_points;}
+		//! Sets the triangles of the input mesh.
+		//! @param triangles points pointer to the input points
+		void										SetTriangles(Vec3<long>  * triangles) { m_triangles = triangles;}
+		//! Gives the triangles in the input mesh 
+		//! @return pointer to the input triangles 
+		const Vec3<long>   *			            GetTriangles() const { return m_triangles;}
+		//! Sets the number of points in the input mesh.
+		//! @param nPoints number of points the input mesh
+		void										SetNPoints(size_t nPoints) { m_nPoints = nPoints;}
+		//! Gives the number of points in the input mesh.
+		//! @return number of points the input mesh
+		const size_t								GetNPoints() const { return m_nPoints;}
+		//! Sets the number of triangles in the input mesh.
+		//! @param nTriangles number of triangles in the input mesh
+		void										SetNTriangles(size_t nTriangles) { m_nTriangles = nTriangles;}
+		//! Gives the number of triangles in the input mesh.
+		//! @return number of triangles the input mesh
+		const size_t								GetNTriangles() const { return m_nTriangles;}
+		//! Sets the minimum number of clusters to be generated.
+		//! @param nClusters minimum number of clusters
+		void										SetNClusters(size_t nClusters) { m_nMinClusters = nClusters;}
+		//! Gives the number of generated clusters.
+		//! @return number of generated clusters
+		const size_t								GetNClusters() const { return m_nClusters;}
+		//! Sets the maximum allowed concavity.
+		//! @param concavity maximum concavity
+		void										SetConcavity(double concavity) { m_concavity = concavity;}
+		//! Gives the maximum allowed concavity.
+		//! @return maximum concavity
+		double                                      GetConcavity() const { return m_concavity;}
+		//! Sets the maximum allowed distance to get CCs connected.
+		//! @param concavity maximum distance to get CCs connected
+		void										SetConnectDist(double ccConnectDist) { m_ccConnectDist = ccConnectDist;}
+		//! Gives the maximum allowed distance to get CCs connected.
+		//! @return maximum distance to get CCs connected
+		double                                      GetConnectDist() const { return m_ccConnectDist;}        
+        //! Sets the volume weight.
+		//! @param beta volume weight
+        void										SetVolumeWeight(double beta) { m_beta = beta;}
+		//! Gives the volume weight.
+		//! @return volume weight
+        double                                      GetVolumeWeight() const { return m_beta;}	
+		//! Sets the compacity weight (i.e. parameter alpha in ftp://ftp.elet.polimi.it/users/Stefano.Tubaro/ICIP_USB_Proceedings_v2/pdfs/0003501.pdf).
+		//! @param alpha compacity weight
+        void										SetCompacityWeight(double alpha) { m_alpha = alpha;}
+		//! Gives the compacity weight (i.e. parameter alpha in ftp://ftp.elet.polimi.it/users/Stefano.Tubaro/ICIP_USB_Proceedings_v2/pdfs/0003501.pdf).
+		//! @return compacity weight
+        double                                      GetCompacityWeight() const { return m_alpha;}	
+		//! Sets the maximum number of vertices for each generated convex-hull.
+		//! @param nVerticesPerCH maximum # vertices per CH
+        void										SetNVerticesPerCH(size_t nVerticesPerCH) { m_nVerticesPerCH = nVerticesPerCH;}
+		//! Gives the maximum number of vertices for each generated convex-hull.
+		//! @return maximum # vertices per CH
+		const size_t								GetNVerticesPerCH() const { return m_nVerticesPerCH;}
+		//! Gives the number of vertices for the cluster number numCH.
+		//! @return number of vertices
+		size_t                                      GetNPointsCH(size_t numCH) const;
+		//! Gives the number of triangles for the cluster number numCH.
+		//! @param numCH cluster's number
+		//! @return number of triangles
+        size_t                                      GetNTrianglesCH(size_t numCH) const;
+		//! Gives the vertices and the triangles of the cluster number numCH.
+		//! @param numCH cluster's number
+		//! @param points pointer to the vector of points to be filled
+		//! @param triangles pointer to the vector of triangles to be filled
+		//! @return true if sucess
+        bool                                        GetCH(size_t numCH, Vec3<Real> * const points, Vec3<long> * const triangles);     
+		//! Computes the HACD decomposition.
+		//! @param fullCH specifies whether to generate convex-hulls with a full or limited (i.e. < m_nVerticesPerCH) number of vertices
+        //! @param exportDistPoints specifies wheter distance points should ne exported or not (used only for debugging).
+		//! @return true if sucess
+        bool										Compute(bool fullCH=false, bool exportDistPoints=false);
+		//! Saves the generated convex-hulls in a VRML 2.0 file.
+		//! @param fileName the output file name
+		//! @param uniColor specifies whether the different convex-hulls should have the same color or not
+        //! @param numCluster specifies the cluster to be saved, if numCluster < 0 export all clusters
+        //! @return true if sucess
+		bool										Save(const char * fileName, bool uniColor, long numCluster=-1) const;
+		//! Shifts and scales to the data to have all the coordinates between 0.0 and 1000.0.
+		void										NormalizeData();
+		//! Inverse the operations applied by NormalizeData().
+		void										DenormalizeData();
+        //! Constructor.
+													HACD(void);
+		//! Destructor.
+													~HACD(void);
+
+	private:
+		//! Gives the edge index.
+		//! @param a first vertex id
+		//! @param b second vertex id
+		//! @return edge's index
+		static unsigned long long					GetEdgeIndex(unsigned long long a, unsigned long long b) 
+													{ 
+														if (a > b) return (a << 32) + b;
+														else	   return (b << 32) + a;
+													}
+		//! Computes the concavity of a cluster.
+		//! @param ch the cluster's convex-hull
+		//! @param distPoints the cluster's points 
+		//! @return cluster's concavity
+		double										Concavity(ICHull & ch, std::map<long, DPoint> & distPoints);
+		//! Computes the perimeter of a cluster.
+		//! @param triIndices the cluster's triangles
+		//! @param distPoints the cluster's points 
+		//! @return cluster's perimeter
+        double										ComputePerimeter(const std::vector<long> & triIndices) const;
+		//! Creates the Graph by associating to each mesh triangle a vertex in the graph and to each couple of adjacent triangles an edge in the graph.
+        void										CreateGraph();	
+		//! Initializes the graph costs and computes the vertices normals
+        void										InitializeDualGraph();
+		//! Computes the cost of an edge
+		//! @param e edge's id
+        void                                        ComputeEdgeCost(size_t e);
+		//! Initializes the priority queue
+		//! @param fast specifies whether fast mode is used
+		//! @return true if success
+        bool                                        InitializePriorityQueue();
+        //! Cleans the intersection between convex-hulls
+        void                                        CleanClusters();
+        //! Computes convex-hulls from partition information
+        //! @param fullCH specifies whether to generate convex-hulls with a full or limited (i.e. < m_nVerticesPerCH) number of vertices
+		void										ComputeConvexHulls(bool fullCH);
+		//! Simplifies the graph
+		//! @param fast specifies whether fast mode is used
+		void										Simplify();
+
+	private:
+		double										m_scale;					//>! scale factor used for NormalizeData() and DenormalizeData()
+        Vec3<long> *								m_triangles;				//>! pointer the triangles array
+        Vec3<Real> *                                m_points;					//>! pointer the points array
+        Vec3<Real> *                                m_facePoints;               //>! pointer to the faces points array
+        Vec3<Real> *                                m_faceNormals;              //>! pointer to the faces normals array
+        Vec3<Real> *                                m_normals;					//>! pointer the normals array
+        size_t										m_nTriangles;				//>! number of triangles in the original mesh
+        size_t										m_nPoints;					//>! number of vertices in the original mesh
+        size_t										m_nClusters;				//>! number of clusters
+        size_t										m_nMinClusters;				//>! minimum number of clusters
+        double										m_ccConnectDist;			//>! maximum allowed distance to connect CCs
+        double										m_concavity;				//>! maximum concavity
+		double										m_alpha;					//>! compacity weigth
+        double                                      m_beta;                     //>! volume weigth
+        double										m_diag;						//>! length of the BB diagonal
+		Vec3<Real>                                  m_barycenter;				//>! barycenter of the mesh
+        std::vector< long >                         m_cVertices;				//>! array of vertices each belonging to a different cluster
+        ICHull *                                    m_convexHulls;				//>! convex-hulls associated with the final HACD clusters
+		Graph										m_graph;					//>! simplification graph
+        size_t                                      m_nVerticesPerCH;			//>! maximum number of vertices per convex-hull
+		reservable_priority_queue<GraphEdgePriorityQueue, 
+            std::vector<GraphEdgePriorityQueue>,
+			std::greater<std::vector<GraphEdgePriorityQueue>::value_type> > m_pqueue;		//!> priority queue
+													HACD(const HACD & rhs);
+		CallBackFunction							m_callBack;					//>! call-back function
+		long *										m_partition;				//>! array of size m_nTriangles where the i-th element specifies the cluster to which belong the i-th triangle
+        bool                                        m_addFacesPoints;           //>! specifies whether to add faces points or not
+        bool                                        m_addExtraDistPoints;       //>! specifies whether to add extra points for concave shapes or not
+		bool										m_addNeighboursDistPoints;  //>! specifies whether to add extra points from adjacent clusters or not
+
+	};
+}
+#endif