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VoronoiGenerator.cpp @ 126

Revision 126, 7.1 KB checked in by barsi, 19 years ago (diff)
Added a folder remotely

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1	#include "dxstdafx.h"
2	#include ".\voronoigenerator.h"
3	#include <map>
4	//#include <gl/gl.h>
5	//#include <gl/glut.h>
6
7
8	VoronoiGenerator::VoronoiGenerator(void)
9	{
10	}
11
12	VoronoiGenerator::~VoronoiGenerator(void)
13	{
14	}
15
16	void VoronoiGenerator::addDir(const Vector& d)
17	{
18	if(dirs.size()<3)
19	{
20	dirs.push_back(d);
21	return;
22	}
23	if(dirs.size() == 3)
24	{
25	dirs.push_back(d);
26	if(
27	((dirs[0] - dirs[1]) &&
28	(dirs[0] - dirs[2]))
29	*
30	dirs[3]
31	> 0.0
32	)
33	{
34	tris.push_back(Tri(this, 0, 1, 2));
35	tris.push_back(Tri(this, 0, 3, 1));
36	tris.push_back(Tri(this, 2, 1, 3));
37	tris.push_back(Tri(this, 0, 2, 3));
38	}
39	else
40	{
41	tris.push_back(Tri(this, 0, 2, 1));
42	tris.push_back(Tri(this, 0, 1, 3));
43	tris.push_back(Tri(this, 0, 3, 2));
44	tris.push_back(Tri(this, 1, 2, 3));
45	}
46	return;
47	}
48	dirs.push_back(d);
49	std::multimap<int, int> edges;
50	int stest;
51
52	std::vector<Tri>::iterator a = tris.begin();
53	std::vector<Tri>::iterator end = tris.end();
54	while(a != end)
55	{
56	if(a->violates(d))
57	{
58	bool needsab = true, needsbc = true, needsca = true;
59	std::multimap<int, int>::iterator fnd = edges.find(a->bi);
60	while(fnd != edges.end() && fnd->first == a->bi)
61	{
62	if(fnd->second == a->ai)
63	{
64	edges.erase(fnd);
65	needsab = false;
66	break;
67	}
68	fnd++;
69	}
70	fnd = edges.find(a->ci);
71	while(fnd != edges.end() && fnd->first == a->ci)
72	{
73	if(fnd->second == a->bi)
74	{
75	edges.erase(fnd);
76	needsbc = false;
77	break;
78	}
79	fnd++;
80	}
81	fnd = edges.find(a->ai);
82	while(fnd != edges.end() && fnd->first == a->ai)
83	{
84	if(fnd->second == a->ci)
85	{
86	edges.erase(fnd);
87	needsca = false;
88	break;
89	}
90	fnd++;
91	}
92
93	if(needsab)
94	edges.insert(std::pair<int, int>(a->ai, a->bi));
95	if(needsbc)
96	edges.insert(std::pair<int, int>(a->bi, a->ci));
97	if(needsca)
98	edges.insert(std::pair<int, int>(a->ci, a->ai));
99	a = tris.erase(a);
100	end = tris.end();
101	}
102	else
103	a++;
104	}
105	std::multimap<int, int>::iterator l = edges.begin();
106	std::multimap<int, int>::iterator lend = edges.end();
107	int lastindex = dirs.size() - 1;
108	stest = edges.size();
109	while(l != lend)
110	{
111	tris.push_back(Tri(this, lastindex, l->first, l->second));
112	l++;
113	}
114	}
115
116	VoronoiGenerator::Tri::Tri(VoronoiGenerator* omesh, int ai, int bi, int ci)
117	{
118	mesh = omesh;
119	this->ai = ai;
120	this->bi = bi;
121	this->ci = ci;
122	n = (mesh->dirs[ai] - mesh->dirs[bi]) &&
123	(mesh->dirs[ai] - mesh->dirs[ci]);
124	n.normalize();
125	r = n * mesh->dirs[ai];
126	}
127
128	void VoronoiGenerator::Tri::refresh()
129	{
130	n = (mesh->dirs[ai] - mesh->dirs[bi]) &&
131	(mesh->dirs[ai] - mesh->dirs[ci]);
132	n.normalize();
133	r = n * mesh->dirs[ai];
134	}
135
136	bool VoronoiGenerator::Tri::violates(const Vector& p)
137	{
138	return (p * n) > r;
139	}
140
141	bool VoronoiGenerator::Tri::contains(const Vector& p)
142	{
143	if((p * n) < r)
144	return false;
145	Vector da = mesh->dirs[ai];
146	Vector db = mesh->dirs[bi];
147	Vector dc = mesh->dirs[ci];
148	Vector cross = da && db;
149	if(p * cross < 0.0)
150	return false;
151	cross = db && dc;
152	if(p * cross < 0.0)
153	return false;
154	cross = dc && da;
155	if(p * cross < 0.0)
156	return false;
157	return true;
158	}
159
160
161	void VoronoiGenerator::glDrawDelaunay(std::vector<Vector>& powers)
162	{
163	/*
164	glBegin(GL_TRIANGLES);
165	std::vector<Tri>::iterator a = tris.begin();
166	std::vector<Tri>::iterator end = tris.end();
167	while(a != end)
168	{
169	glColor3d(powers[a->ai].r / 1000.0, powers[a->ai].g / 1000.0, powers[a->ai].b / 1000.0);
170	glVertex3d(dirs[a->ai].x, dirs[a->ai].y, dirs[a->ai].z);
171	glColor3d(powers[a->bi].r / 1000.0, powers[a->bi].g / 1000.0, powers[a->bi].b / 1000.0);
172	glVertex3d(dirs[a->bi].x, dirs[a->bi].y, dirs[a->bi].z);
173	glColor3d(powers[a->ci].r / 1000.0, powers[a->ci].g / 1000.0, powers[a->ci].b / 1000.0);
174	glVertex3d(dirs[a->ci].x, dirs[a->ci].y, dirs[a->ci].z);
175	a++;
176	}
177	glEnd();
178	*/
179	}
180
181	struct D3DVERTEX{
182	D3DXVECTOR3 pos;
183	D3DXVECTOR3 normal;
184	D3DXVECTOR2 tex0;
185	D3DXVECTOR2 tex1;
186	D3DXVECTOR3 tex2;
187	};
188
189	void VoronoiGenerator::d3dDrawDelaunay(LPDIRECT3DDEVICE9 device)
190	{
191	std::vector<Tri>::iterator a = tris.begin();
192	std::vector<Tri>::iterator end = tris.end();
193	while(a != end)
194	{
195	D3DVERTEX tr[3];
196	tr[0].pos=D3DXVECTOR3(dirs[a->ai].x, dirs[a->ai].y, dirs[a->ai].z);
197	tr[1].pos=D3DXVECTOR3(dirs[a->bi].x, dirs[a->bi].y, dirs[a->bi].z);
198	tr[2].pos=D3DXVECTOR3(dirs[a->ci].x, dirs[a->ci].y, dirs[a->ci].z);
199
200	device->DrawPrimitiveUP(D3DPT_TRIANGLELIST, 1, tr, sizeof(D3DVERTEX));
201	a++;
202	}
203
204
205	}
206
207	void VoronoiGenerator::relaxLloyd()
208	{
209	double* voroAreas = new double[dirs.size()];
210	std::vector<Vector> relaxedDirs;
211	relaxedDirs.insert(relaxedDirs.begin(), dirs.size(), Vector::RGBBLACK);
212	/* for(int r=0; r<dirs.size(); r++)
213	{
214	voroAreas[r] = 0.0;
215	}*/
216
217	std::vector<Tri>::iterator a = tris.begin();
218	std::vector<Tri>::iterator end = tris.end();
219	while(a != end)
220	{
221	Vector la = (dirs[a->bi] - dirs[a->ai]);
222	Vector lb = (dirs[a->ci] - dirs[a->ai]);
223	double lcos = la * lb;
224	if(lcos >= 1.0)
225	lcos = 1.0;
226	double triArea =
227	sqrt(la.norm2() * la.norm2() * (1.0 - lcos * lcos)) / 4.0;
228	// double lsin = sqrt(1.0 - lcos * lcos);
229	// relaxedDirs[a->ai] += a->n * lsin;
230	// relaxedDirs[a->bi] += a->n * lsin;
231	// relaxedDirs[a->ci] += a->n * lsin;
232	relaxedDirs[a->ai] += (dirs[a->ai] * 4.0 + dirs[a->bi] + dirs[a->ci]) * 0.166666666666 * triArea;
233	relaxedDirs[a->bi] += (dirs[a->ai] + dirs[a->bi] * 4.0 + dirs[a->ci]) * 0.166666666666 * triArea;
234	relaxedDirs[a->ci] += (dirs[a->ai] + dirs[a->bi] + dirs[a->ci] * 4.0) * 0.166666666666 * triArea;
235	// voroAreas[a->ai] += triArea;
236	// voroAreas[a->bi] += triArea;
237	// voroAreas[a->ci] += triArea;
238	a++;
239	}
240	std::vector<Vector>::iterator d = relaxedDirs.begin();
241	std::vector<Vector>::iterator dend = relaxedDirs.end();
242	int idx = 0;
243	while(d != dend)
244	{
245	/* if(voroAreas[idx] == 0.0)
246	{
247	char mess[200];
248	sprintf(mess, "HEY: %d", idx);
249	AfxMessageBox(mess);
250	voroAreas[idx] = 1.0;
251	}
252	(d) = 1.0 / voroAreas[idx];*/
253	d->normalize();
254	d++;
255	idx++;
256	}
257	dirs = relaxedDirs;
258	delete voroAreas;
259	std::vector<Tri>::iterator rfa = tris.begin();
260	std::vector<Tri>::iterator rfend = tris.end();
261	while(rfa != rfend)
262	{
263	rfa->refresh();
264	rfa++;
265	}
266	}
267
268	int VoronoiGenerator::lastNearestTriIndex = 0;
269
270	int VoronoiGenerator::getNearestDirIndex(const Vector& pd)
271	{
272	std::vector<Tri>::iterator a = tris.begin() + lastNearestTriIndex;
273	std::vector<Tri>::iterator end = tris.end();
274	std::vector<Tri>::iterator finitor = end;
275	if(lastNearestTriIndex)
276	finitor = tris.begin() + (lastNearestTriIndex - 1);
277	while(a != finitor)
278	{
279	if(a == end)
280	{
281	a = tris.begin();
282	if(a == finitor)
283	break;
284	}
285	if(a->contains(pd))
286	{
287	lastNearestTriIndex = a - tris.begin();
288	double adist = dirs[a->ai] * pd;
289	double bdist = dirs[a->bi] * pd;
290	double cdist = dirs[a->ci] * pd;
291	if(adist > bdist && adist > cdist)
292	return a->ai;
293	if(bdist > adist && bdist > cdist)
294	return a->bi;
295	if(cdist > adist && cdist > bdist)
296	return a->ci;
297	}
298	a++;
299	}
300	return 0;
301	}

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source: trunk/BUTE/Ogre/PreComputingRuns/VoronoiGenerator.cpp @ 126

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