/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // Delaunay.h // $Id: Delaunay.h,v 1.9 2011/06/17 13:35:48 mbansal Exp $ #ifndef DELAUNAY_H #define DELAUNAY_H #include <stdio.h> #include <math.h> #include "CSite.h" #include "EdgePointerUtil.h" #ifndef TRUE #define TRUE 1==1 #define FALSE 0==1 #endif //****************************************************************************** // Reference for Quad-edge data structure: // // Leonidas Guibas and Jorge Stolfi, "Primitives for the manipulation of general // subdivisions and the computations of Voronoi diagrams", // ACM Transactions on Graphics 4, 74-123 (1985). // //****************************************************************************** // // Common data structures // typedef short SitePointer; typedef short TrianglePointer; class CDelaunay { private: CSite *sa; EdgePointer oneBndryEdge; EdgePointer *next; SitePointer *org; struct EDGE_INFO *ei; SitePointer *sp; SEdgeVector *ev; SitePointer sp1; EdgePointer nextEdge; EdgePointer availEdge; private: void build(int lo, int hi, EdgePointer *le, EdgePointer *re, int rows); void buildTriangulation(int size); EdgePointer allocEdge(); void freeEdge(EdgePointer e); EdgePointer makeEdge(SitePointer origin, SitePointer destination); void deleteEdge(EdgePointer e); void splice(EdgePointer, EdgePointer); EdgePointer consolidateEdges(); void deleteAllEdges(); void spsortx(SitePointer *, int, int); void spsorty(SitePointer *, int, int); int cmpev(int i, int j); int xcmpsp(int i, int j); int ycmpsp(int i, int j); void swapsp(int i, int j); void swapev(int i, int j); void copysp(int i, int j); void copyev(int i, int j); void rcssort(int lowelt, int highelt, int temp, int (CDelaunay::*comparison)(int,int), void (CDelaunay::*swap)(int,int), void (CDelaunay::*copy)(int,int)); void doMerge(EdgePointer *ldo, EdgePointer ldi, EdgePointer rdi, EdgePointer *rdo); EdgePointer connectLeft(EdgePointer a, EdgePointer b); EdgePointer connectRight(EdgePointer a, EdgePointer b); int ccw(SitePointer a, SitePointer b, SitePointer c); int incircle(SitePointer a, SitePointer b, SitePointer c, SitePointer d); int constructList(EdgePointer e, int width, int height); public: CDelaunay(); ~CDelaunay(); CSite *allocMemory(int nsite); void freeMemory(); int triangulate(SEdgeVector **edge, int nsite, int width, int height); void linkNeighbors(SEdgeVector *edge, int nedge, int nsite); }; #define onext(a) next[a] #define oprev(a) rot(onext(rot(a))) #define lnext(a) rot(onext(rotinv(a))) #define lprev(a) sym(onext(a)) #define rnext(a) rotinv(onext(rot(a))) #define rprev(a) onext(sym(a)) #define dnext(a) sym(onext(sym(a))) #define dprev(a) rotinv(onext(rotinv(a))) #define orig(a) org[a] #define dest(a) orig(sym(a)) #define left(a) orig(rotinv(a)) #define right(a) orig(rot(a)) #endif