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source: git/external/fastjet/Voronoi.cc@ 45d8342

ImprovedOutputFile Timing dual_readout llp
Last change on this file since 45d8342 was 35cdc46, checked in by Pavel Demin <demin@…>, 10 years ago

upgrade FastJet to version 3.1.0-beta.1, upgrade Nsubjettiness to version 2.1.0, add SoftKiller version 1.0.0

  • Property mode set to 100644
File size: 32.9 KB
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[35cdc46]1//FJSTARTHEADER
2// $Id: Voronoi.cc 3433 2014-07-23 08:17:03Z salam $
[d7d2da3]3//
[35cdc46]4// Copyright (c) 2005-2014, Matteo Cacciari, Gavin P. Salam and Gregory Soyez
[d7d2da3]5//
6//----------------------------------------------------------------------
[35cdc46]7// This file is part of FastJet.
8//
9// FastJet is free software; you can redistribute it and/or modify
10// it under the terms of the GNU General Public License as published by
11// the Free Software Foundation; either version 2 of the License, or
12// (at your option) any later version.
13//
14// The algorithms that underlie FastJet have required considerable
15// development. They are described in the original FastJet paper,
16// hep-ph/0512210 and in the manual, arXiv:1111.6097. If you use
17// FastJet as part of work towards a scientific publication, please
18// quote the version you use and include a citation to the manual and
19// optionally also to hep-ph/0512210.
[d7d2da3]20//
[35cdc46]21// FastJet is distributed in the hope that it will be useful,
22// but WITHOUT ANY WARRANTY; without even the implied warranty of
23// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
24// GNU General Public License for more details.
[d7d2da3]25//
[35cdc46]26// You should have received a copy of the GNU General Public License
27// along with FastJet. If not, see <http://www.gnu.org/licenses/>.
[d7d2da3]28//----------------------------------------------------------------------
[35cdc46]29//FJENDHEADER
[d7d2da3]30
31
32/*
33 * The author of this software is Steven Fortune.
34 * Copyright (c) 1994 by AT&T Bell Laboratories.
35 * Permission to use, copy, modify, and distribute this software for any
36 * purpose without fee is hereby granted, provided that this entire notice
37 * is included in all copies of any software which is or includes a copy
38 * or modification of this software and in all copies of the supporting
39 * documentation for such software.
40 * THIS SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR IMPLIED
41 * WARRANTY. IN PARTICULAR, NEITHER THE AUTHORS NOR AT&T MAKE ANY
42 * REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE MERCHANTABILITY
43 * OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR PURPOSE.
44 */
45
46/*
47 * This code was originally written by Stephan Fortune in C code. I,
48 * Shane O'Sullivan, have since modified it, encapsulating it in a C++
49 * class and, fixing memory leaks and adding accessors to the Voronoi
50 * Edges. Permission to use, copy, modify, and distribute this
51 * software for any purpose without fee is hereby granted, provided
52 * that this entire notice is included in all copies of any software
53 * which is or includes a copy or modification of this software and in
54 * all copies of the supporting documentation for such software. THIS
55 * SOFTWARE IS BEING PROVIDED "AS IS", WITHOUT ANY EXPRESS OR IMPLIED
56 * WARRANTY. IN PARTICULAR, NEITHER THE AUTHORS NOR AT&T MAKE ANY
57 * REPRESENTATION OR WARRANTY OF ANY KIND CONCERNING THE
58 * MERCHANTABILITY OF THIS SOFTWARE OR ITS FITNESS FOR ANY PARTICULAR
59 * PURPOSE.
60 */
61
62/*
63 * This code, included in the FastJet distribution, was originally
64 * written by Stephan Fortune in C and adapted to C++ by Shane
65 * O'Sullivan under the terms reported above.
66 *
67 * Below are the list of changes implemented by the FastJet authors:
68 *
69 * 2011-11-14 Gregory Soyez <soyez@fastjet.fr>
70 *
71 * * removed 'plot' and 'triangulate' (were always 0)
72 * * removed unused plot functions (openpl, circle, range,
73 * out_bisector, out_ep, out_vertex, out_site, out_triple)
74 * * removed unused 'VPoint p' in 'intersect'
75 *
76 *
77 * 2011-07-22 Gregory Soyez <soyez@fastjet.fr>
78 *
79 * * replaced Point by VPoint (to avoid any potential conflict
80 * with an already existing class Point in FastJet
81 *
82 *
83 * 2011-06-28 Gregory Soyez <soyez@fastjet.fr>
84 *
85 * * added support for situations with degenerate particles (we just
86 * discard the particles degenerate wiht an already existing
87 * one which is perfectly sufficient for our needs)
88 * * in 'VoronoiDiagramGenerator::intersect', improved the numerical
89 * precision in cases where the 2 parents are nearly degenerate
90 *
91 *
92 * 2011-06-14 Gregory Soyez <soyez@fastjet.fr>
93 *
94 * * fixed a potential overflow bug in VoronoiDiagramGenerator::PQbucket
95 *
96 *
97 * 2007-05-07 Gregory Soyez <soyez@fastjet.fr>
98 *
99 * * fied a few memory leaks
100 *
101 * * put the code in the fastjet namespace
102 *
103 * * replaced float by double
104 *
105 * * generateVoronoi() takes a vector of Point instead of 2
106 * pointers
107 *
108 * * added info about the parent sites to GraphEdge (and clip_line)
109 *
110 * * removed condition on minimal distance between sites
111 */
112
113#include <stdio.h>
114#include "fastjet/internal/Voronoi.hh"
115
116using namespace std;
117
118FASTJET_BEGIN_NAMESPACE
119
120LimitedWarning VoronoiDiagramGenerator::_warning_degeneracy;
121
122VoronoiDiagramGenerator::VoronoiDiagramGenerator(){
123 siteidx = 0;
124 sites = NULL;
125 parent_sites = NULL;
126
127 allMemoryList = new FreeNodeArrayList;
128 allMemoryList->memory = NULL;
129 allMemoryList->next = NULL;
130 currentMemoryBlock = allMemoryList;
131 allEdges = NULL;
132 iteratorEdges = 0;
133 minDistanceBetweenSites = 0;
134
135 ELhash = NULL;
136 PQhash = NULL;
137}
138
139VoronoiDiagramGenerator::~VoronoiDiagramGenerator(){
140 cleanup();
141 cleanupEdges();
142
143 if (allMemoryList != NULL)
144 delete allMemoryList;
145}
146
147
148
149bool VoronoiDiagramGenerator::generateVoronoi(vector<VPoint> *_parent_sites,
150 double minX, double maxX,
151 double minY, double maxY,
152 double minDist){
153 cleanup();
154 cleanupEdges();
155 int i;
156 double x, y;
157
158 minDistanceBetweenSites = minDist;
159
160 parent_sites = _parent_sites;
161
162 nsites = n_parent_sites = parent_sites->size();
163 debug = 1;
164 sorted = 0;
165 freeinit(&sfl, sizeof (Site));
166
167 //sites = (Site *) myalloc(nsites*sizeof( *sites));
168 sites = (Site *) myalloc(nsites*sizeof( Site));
169 //parent_sites = (Site *) myalloc(nsites*sizeof( Site));
170
171 if (sites == 0)
172 return false;
173
174 xmax = xmin = (*parent_sites)[0].x;
175 ymax = ymin = (*parent_sites)[0].y;
176
177 for(i=0;i<nsites;i++){
178 x = (*parent_sites)[i].x;
179 y = (*parent_sites)[i].y;
180 sites[i].coord.x = x;
181 sites[i].coord.y = y;
182 sites[i].sitenbr = i;
183 sites[i].refcnt = 0;
184
185 if (x<xmin)
186 xmin=x;
187 else if (x>xmax)
188 xmax=x;
189
190 if (y<ymin)
191 ymin=y;
192 else if (y>ymax)
193 ymax=y;
194 }
195
196 qsort(sites, nsites, sizeof (*sites), scomp);
197
198 // Gregory Soyez
199 //
200 // check if some of the particles are degenerate to avoid a crash.
201 //
202 // At the moment, we work under the assumption that they will be
203 // "clustered" later on, so we just keep the 1st one and discard the
204 // others
205 unsigned int offset=0;
206 for (int is=1;is<nsites;is++){
207 if (sites[is].coord.y==sites[is-1].coord.y && sites[is].coord.x==sites[is-1].coord.x){
208 offset++;
209 } else if (offset>0){
210 sites[is-offset] = sites[is];
211 }
212 }
213
214 if (offset>0){
215 nsites-=offset;
216 _warning_degeneracy.warn("VoronoiDiagramGenerator: two (or more) particles are degenerate in rapidity and azimuth, Voronoi cell assigned to the first of each set of degenerate particles.");
217 }
218
219 siteidx = 0;
220 geominit();
221 double temp = 0;
222 if(minX > maxX){
223 temp = minX;
224 minX = maxX;
225 maxX = temp;
226 }
227 if(minY > maxY){
228 temp = minY;
229 minY = maxY;
230 maxY = temp;
231 }
232 borderMinX = minX;
233 borderMinY = minY;
234 borderMaxX = maxX;
235 borderMaxY = maxY;
236
237 siteidx = 0;
238 voronoi();
239
240 return true;
241}
242
243bool VoronoiDiagramGenerator::ELinitialize(){
244 int i;
245 freeinit(&hfl, sizeof(Halfedge));
246 ELhashsize = 2 * sqrt_nsites;
247 //ELhash = (Halfedge **) myalloc ( sizeof *ELhash * ELhashsize);
248 ELhash = (Halfedge **) myalloc ( sizeof(Halfedge*)*ELhashsize);
249
250 if(ELhash == 0)
251 return false;
252
253 for(i=0; i<ELhashsize; i +=1) ELhash[i] = (Halfedge *)NULL;
254 ELleftend = HEcreate((Edge*) NULL, 0);
255 ELrightend = HEcreate((Edge*) NULL, 0);
256 ELleftend->ELleft = (Halfedge*) NULL;
257 ELleftend->ELright = ELrightend;
258 ELrightend->ELleft = ELleftend;
259 ELrightend->ELright = (Halfedge*) NULL;
260 ELhash[0] = ELleftend;
261 ELhash[ELhashsize-1] = ELrightend;
262
263 return true;
264}
265
266
267Halfedge* VoronoiDiagramGenerator::HEcreate(Edge *e,int pm){
268 Halfedge *answer;
269 answer = (Halfedge*) getfree(&hfl);
270 answer->ELedge = e;
271 answer->ELpm = pm;
272 answer->PQnext = (Halfedge*) NULL;
273 answer->vertex = (Site*) NULL;
274 answer->ELrefcnt = 0;
275 return answer;
276}
277
278
279void VoronoiDiagramGenerator::ELinsert(Halfedge *lb, Halfedge *newHe)
280{
281 newHe->ELleft = lb;
282 newHe->ELright = lb->ELright;
283 (lb->ELright)->ELleft = newHe;
284 lb->ELright = newHe;
285}
286
287
288/* Get entry from hash table, pruning any deleted nodes */
289Halfedge* VoronoiDiagramGenerator::ELgethash(int b){
290 Halfedge *he;
291
292 if ((b<0) || (b>=ELhashsize))
293 return (Halfedge *) NULL;
294
295 he = ELhash[b];
296 if ((he==(Halfedge*) NULL) || (he->ELedge!=(Edge*) DELETED))
297 return he;
298
299 /* Hash table points to deleted half edge. Patch as necessary. */
300 ELhash[b] = (Halfedge*) NULL;
301 if ((he->ELrefcnt -= 1) == 0)
302 makefree((Freenode*)he, &hfl);
303 return (Halfedge*) NULL;
304}
305
306Halfedge * VoronoiDiagramGenerator::ELleftbnd(VPoint *p){
307 int i, bucket;
308 Halfedge *he;
309
310 /* Use hash table to get close to desired halfedge */
311 // use the hash function to find the place in the hash map that this
312 // HalfEdge should be
313 // Gregory Soyez: the original code was
314 //
315 // bucket = (int)((p->x - xmin)/deltax * ELhashsize);
316 // // make sure that the bucket position in within the range of the
317 // //hash array
318 // if (bucket<0) bucket =0;
319 // if (bucket>=ELhashsize) bucket = ELhashsize - 1;
320 //
321 // but this runs the risk of having a overflow which would
322 // cause bucket to be truncated at 0 instead of ELhashsize - 1
323 // (or vice-versa)
324 // We fix this by performing the test immediately on the double
325 // We put in a extra bit of margin to be sure the conversion does
326 // not play dirty tricks on us
327
328 //const double &px = p->x;
329 if (p->x < xmin){ bucket=0;}
330 else if (p->x >= xmax){ bucket = ELhashsize - 1;}
331 else{
332 bucket= (int)((p->x - xmin)/deltax * ELhashsize);
333 if (bucket>=ELhashsize) bucket = ELhashsize - 1; // the lower cut should be robust
334 }
335
336 he = ELgethash(bucket);
337
338 // if the HE isn't found, search backwards and forwards in the hash
339 // map for the first non-null entry
340 if (he == (Halfedge*) NULL){
341 for(i=1;1;i++){
342 if ((he=ELgethash(bucket-i)) != (Halfedge*) NULL)
343 break;
344 if ((he=ELgethash(bucket+i)) != (Halfedge*) NULL)
345 break;
346 };
347 totalsearch += i;
348 };
349 ntry += 1;
350 /* Now search linear list of halfedges for the correct one */
351 if ((he==ELleftend) || (he != ELrightend && right_of(he,p))){
352 do{
353 he = he->ELright;
354 } while (he!=ELrightend && right_of(he,p));
355 // keep going right on the list until either the end is reached,
356 // or you find the 1st edge which the point
357 he = he->ELleft; //isn't to the right of
358 } else
359 // if the point is to the left of the HalfEdge, then search left
360 // for the HE just to the left of the point
361 do{
362 he = he->ELleft;
363 } while ((he!=ELleftend )&& (!right_of(he,p)));
364
365 /* Update hash table and reference counts */
366 if ((bucket > 0) && (bucket <ELhashsize-1)){
367 if(ELhash[bucket] != (Halfedge *) NULL){
368 ELhash[bucket]->ELrefcnt -= 1;
369 }
370 ELhash[bucket] = he;
371 ELhash[bucket]->ELrefcnt += 1;
372 };
373
374 return he;
375}
376
377
378/* This delete routine can't reclaim node, since pointers from hash
379 table may be present. */
380void VoronoiDiagramGenerator::ELdelete(Halfedge *he){
381 (he->ELleft)->ELright = he->ELright;
382 (he->ELright)->ELleft = he->ELleft;
383 he->ELedge = (Edge*) DELETED;
384}
385
386
387Halfedge* VoronoiDiagramGenerator::ELright(Halfedge *he){
388 return he->ELright;
389}
390
391
392Halfedge* VoronoiDiagramGenerator::ELleft(Halfedge *he){
393 return he->ELleft;
394}
395
396
397Site * VoronoiDiagramGenerator::leftreg(Halfedge *he){
398 if (he->ELedge == (Edge*) NULL)
399 return(bottomsite);
400 return (he->ELpm == le)
401 ? he->ELedge->reg[le]
402 : he->ELedge->reg[re];
403}
404
405Site * VoronoiDiagramGenerator::rightreg(Halfedge *he){
406 if (he->ELedge == (Edge*) NULL)
407 // if this halfedge has no edge, return the bottom site (whatever
408 // that is)
409 return bottomsite;
410
411 // if the ELpm field is zero, return the site 0 that this edge
412 // bisects, otherwise return site number 1
413 return (he->ELpm == le)
414 ? he->ELedge->reg[re]
415 : he->ELedge->reg[le];
416}
417
418void VoronoiDiagramGenerator::geominit(){
419 double sn;
420
421 freeinit(&efl, sizeof(Edge));
422 nvertices = 0;
423 nedges = 0;
424 sn = (double)nsites+4;
425 sqrt_nsites = (int)sqrt(sn);
426 deltay = ymax - ymin;
427 deltax = xmax - xmin;
428}
429
430
431Edge * VoronoiDiagramGenerator::bisect(Site *s1, Site *s2){
432 double dx,dy,adx,ady;
433 Edge *newedge;
434
435 newedge = (Edge*) getfree(&efl);
436
437 newedge->reg[0] = s1; //store the sites that this edge is bisecting
438 newedge->reg[1] = s2;
439 ref(s1);
440 ref(s2);
441
442 // to begin with, there are no endpoints on the bisector - it goes
443 // to infinity
444 newedge->ep[0] = (Site*) NULL;
445 newedge->ep[1] = (Site*) NULL;
446
447 // get the difference in x dist between the sites
448 dx = s2->coord.x - s1->coord.x;
449 dy = s2->coord.y - s1->coord.y;
450
451 // make sure that the difference is positive
452 adx = dx>0 ? dx : -dx;
453 ady = dy>0 ? dy : -dy;
454
455 // get the slope of the line
456 newedge->c = (double)(s1->coord.x * dx + s1->coord.y * dy
457 + (dx*dx + dy*dy)*0.5);
458
459 if (adx>ady){
460 //set formula of line, with x fixed to 1
461 newedge->a = 1.0; newedge->b = dy/dx; newedge->c /= dx;
462 } else {
463 //set formula of line, with y fixed to 1
464 newedge->b = 1.0; newedge->a = dx/dy; newedge->c /= dy;
465 }
466
467 newedge->edgenbr = nedges;
468 nedges++;
469
470 return newedge;
471}
472
473
474// create a new site where the HalfEdges el1 and el2 intersect - note
475// that the VPoint in the argument list is not used, don't know why
476// it's there
477//
478// Gregory Soyez: removed the uinused point p
479Site* VoronoiDiagramGenerator::intersect(Halfedge *el1, Halfedge *el2
480 /*, VPoint *p*/){
481 Edge *e1,*e2, *e;
482 Halfedge *el;
483 double d, xint, yint;
484 int right_of_site;
485 Site *v;
486
487 e1 = el1->ELedge;
488 e2 = el2->ELedge;
489 if ((e1==(Edge*)NULL) || (e2==(Edge*)NULL))
490 return ((Site*) NULL);
491
492 // if the two edges bisect the same parent, return null
493 if (e1->reg[1] == e2->reg[1])
494 return (Site*) NULL;
495
496 // Gregory Soyez:
497 //
498 // if the 2 parents are too close, the intersection is going to be
499 // computed from the "long edges" of the triangle which could causes
500 // large rounding errors. In this case, use the bisector of the 2
501 // parents to find the interaction point
502 //
503 // The following replaces
504 // d = e1->a * e2->b - e1->b * e2->a;
505 // if (-1.0e-10<d && d<1.0e-10)
506 // return (Site*) NULL;
507 //
508 // xint = (e1->c*e2->b - e2->c*e1->b)/d;
509 // yint = (e2->c*e1->a - e1->c*e2->a)/d;
510
511 double dx = e2->reg[1]->coord.x - e1->reg[1]->coord.x;
512 double dy = e2->reg[1]->coord.y - e1->reg[1]->coord.y;
513 double dxref = e1->reg[1]->coord.x - e1->reg[0]->coord.x;
514 double dyref = e1->reg[1]->coord.y - e1->reg[0]->coord.y;
515
516 if (dx*dx + dy*dy < 1e-14*(dxref*dxref+dyref*dyref)){
517 // make sure that the difference is positive
518 double adx = dx>0 ? dx : -dx;
519 double ady = dy>0 ? dy : -dy;
520
521 // get the slope of the line
522 double a,b;
523 double c = (double)(e1->reg[1]->coord.x * dx + e1->reg[1]->coord.y * dy
524 + (dx*dx + dy*dy)*0.5);
525
526 if (adx>ady){
527 a = 1.0; b = dy/dx; c /= dx;
528 } else {
529 b = 1.0; a = dx/dy; c /= dy;
530 }
531
532 d = e1->a * b - e1->b * a;
533 if (-1.0e-10<d && d<1.0e-10) {
534 return (Site*) NULL;
535 }
536
537 xint = (e1->c*b - c*e1->b)/d;
538 yint = (c*e1->a - e1->c*a)/d;
539
540 } else {
541 d = e1->a * e2->b - e1->b * e2->a;
542 if (-1.0e-10<d && d<1.0e-10) {
543 return (Site*) NULL;
544 }
545
546 xint = (e1->c*e2->b - e2->c*e1->b)/d;
547 yint = (e2->c*e1->a - e1->c*e2->a)/d;
548 }
549 // end of Gregory Soyez's modifications
550
551 volatile double local_y1 = e1->reg[1]->coord.y;
552 volatile double local_y2 = e2->reg[1]->coord.y;
553
554 if( (local_y1 < local_y2) ||
555 ((local_y1 == local_y2) &&
556 (e1->reg[1]->coord.x < e2->reg[1]->coord.x)) ){
557 el = el1;
558 e = e1;
559 } else {
560 el = el2;
561 e = e2;
562 }
563
564 right_of_site = xint >= e->reg[1]->coord.x;
565 if ((right_of_site && el->ELpm == le) || (!right_of_site && el->ELpm == re))
566 return (Site*) NULL;
567
568 // create a new site at the point of intersection - this is a new
569 // vector event waiting to happen
570 v = (Site*) getfree(&sfl);
571 v->refcnt = 0;
572 v->coord.x = xint;
573 v->coord.y = yint;
574 return v;
575}
576
577//HERE
578
579/* returns 1 if p is to right of halfedge e */
580int VoronoiDiagramGenerator::right_of(Halfedge *el,VPoint *p)
581{
582 Edge *e;
583 Site *topsite;
584 int right_of_site, above, fast;
585 double dxp, dyp, dxs, t1, t2, t3, yl;
586
587 e = el->ELedge;
588 topsite = e->reg[1];
589 right_of_site = p->x > topsite->coord.x;
590 if(right_of_site && el->ELpm == le) return(1);
591 if(!right_of_site && el->ELpm == re) return (0);
592
593 if (e->a == 1.0)
594 { dyp = p->y - topsite->coord.y;
595 dxp = p->x - topsite->coord.x;
596 fast = 0;
597 if ((!right_of_site & (e->b<0.0)) | (right_of_site & (e->b>=0.0)) )
598 { above = dyp>= e->b*dxp;
599 fast = above;
600 }
601 else
602 { above = p->x + p->y*e->b > e-> c;
603 if(e->b<0.0) above = !above;
604 if (!above) fast = 1;
605 };
606 if (!fast)
607 { dxs = topsite->coord.x - (e->reg[0])->coord.x;
608 above = e->b * (dxp*dxp - dyp*dyp) <
609 dxs*dyp*(1.0+2.0*dxp/dxs + e->b*e->b);
610 if(e->b<0.0) above = !above;
611 };
612 }
613 else /*e->b==1.0 */
614 { yl = e->c - e->a*p->x;
615 t1 = p->y - yl;
616 t2 = p->x - topsite->coord.x;
617 t3 = yl - topsite->coord.y;
618 above = t1*t1 > t2*t2 + t3*t3;
619 };
620 return (el->ELpm==le ? above : !above);
621}
622
623
624void VoronoiDiagramGenerator::endpoint(Edge *e,int lr,Site * s)
625{
626 e->ep[lr] = s;
627 ref(s);
628 if(e->ep[re-lr]== (Site *) NULL)
629 return;
630
631 clip_line(e);
632
633 deref(e->reg[le]);
634 deref(e->reg[re]);
635 makefree((Freenode*)e, &efl);
636}
637
638
639double VoronoiDiagramGenerator::dist(Site *s,Site *t)
640{
641 double dx,dy;
642 dx = s->coord.x - t->coord.x;
643 dy = s->coord.y - t->coord.y;
644 return (double)(sqrt(dx*dx + dy*dy));
645}
646
647
648void VoronoiDiagramGenerator::makevertex(Site *v)
649{
650 v->sitenbr = nvertices;
651 nvertices += 1;
652 //GS unused plot: out_vertex(v);
653}
654
655
656void VoronoiDiagramGenerator::deref(Site *v)
657{
658 v->refcnt -= 1;
659 if (v->refcnt == 0 )
660 makefree((Freenode*)v, &sfl);
661}
662
663void VoronoiDiagramGenerator::ref(Site *v)
664{
665 v->refcnt += 1;
666}
667
668//push the HalfEdge into the ordered linked list of vertices
669void VoronoiDiagramGenerator::PQinsert(Halfedge *he,Site * v, double offset)
670{
671 Halfedge *last, *next;
672
673 he->vertex = v;
674 ref(v);
675 he->ystar = (double)(v->coord.y + offset);
676 last = &PQhash[PQbucket(he)];
677 while ((next = last->PQnext) != (Halfedge *) NULL &&
678 (he->ystar > next->ystar ||
679 (he->ystar == next->ystar && v->coord.x > next->vertex->coord.x)))
680 {
681 last = next;
682 };
683 he->PQnext = last->PQnext;
684 last->PQnext = he;
685 PQcount += 1;
686}
687
688//remove the HalfEdge from the list of vertices
689void VoronoiDiagramGenerator::PQdelete(Halfedge *he)
690{
691 Halfedge *last;
692
693 if(he->vertex != (Site *) NULL)
694 {
695 last = &PQhash[PQbucket(he)];
696 while (last->PQnext != he)
697 last = last->PQnext;
698
699 last->PQnext = he->PQnext;
700 PQcount -= 1;
701 deref(he->vertex);
702 he->vertex = (Site *) NULL;
703 };
704}
705
706int VoronoiDiagramGenerator::PQbucket(Halfedge *he)
707{
708 // Gregory Soyez: the original code was
709 //
710 // bucket = (int)((he->ystar - ymin)/deltay * PQhashsize);
711 // if (bucket<0) bucket = 0;
712 // if (bucket>=PQhashsize) bucket = PQhashsize-1 ;
713 // if (bucket < PQmin) PQmin = bucket;
714 // return(bucket);
715 //
716 // but this runs the risk of having a overflow which would
717 // cause bucket to be truncated at 0 instead of PQhashsize-1
718 // (or vice-versa)
719 // We fix this by performing the test immediately on the double
720 // We put in a extra bit of margin to be sure the conversion does
721 // not play dirty tricks on us
722
723 int bucket;
724
725 double hey = he->ystar;
726 if (hey < ymin){ bucket = 0;}
727 else if (hey >= ymax){ bucket = PQhashsize-1;}
728 else {
729 bucket = (int)((hey - ymin)/deltay * PQhashsize);
730 if (bucket>=PQhashsize) bucket = PQhashsize-1 ;
731 }
732
733 if (bucket < PQmin) PQmin = bucket;
734 return(bucket);
735}
736
737
738
739int VoronoiDiagramGenerator::PQempty()
740{
741 return(PQcount==0);
742}
743
744
745VPoint VoronoiDiagramGenerator::PQ_min()
746{
747 VPoint answer;
748
749 while(PQhash[PQmin].PQnext == (Halfedge *)NULL) {PQmin += 1;};
750 answer.x = PQhash[PQmin].PQnext->vertex->coord.x;
751 answer.y = PQhash[PQmin].PQnext->ystar;
752 return (answer);
753}
754
755Halfedge * VoronoiDiagramGenerator::PQextractmin()
756{
757 Halfedge *curr;
758
759 curr = PQhash[PQmin].PQnext;
760 PQhash[PQmin].PQnext = curr->PQnext;
761 PQcount -= 1;
762 return(curr);
763}
764
765
766bool VoronoiDiagramGenerator::PQinitialize()
767{
768 int i;
769
770 PQcount = 0;
771 PQmin = 0;
772 PQhashsize = 4 * sqrt_nsites;
773 //PQhash = (Halfedge *) myalloc(PQhashsize * sizeof *PQhash);
774 PQhash = (Halfedge *) myalloc(PQhashsize * sizeof(Halfedge));
775
776 if(PQhash == 0)
777 return false;
778
779 for(i=0; i<PQhashsize; i+=1) PQhash[i].PQnext = (Halfedge *)NULL;
780
781 return true;
782}
783
784
785void VoronoiDiagramGenerator::freeinit(Freelist *fl,int size)
786{
787 fl->head = (Freenode *) NULL;
788 fl->nodesize = size;
789}
790
791char * VoronoiDiagramGenerator::getfree(Freelist *fl)
792{
793 int i;
794 Freenode *t;
795
796 if(fl->head == (Freenode *) NULL)
797 {
798 t = (Freenode *) myalloc(sqrt_nsites * fl->nodesize);
799
800 if(t == 0)
801 return 0;
802
803 currentMemoryBlock->next = new FreeNodeArrayList;
804 currentMemoryBlock = currentMemoryBlock->next;
805 currentMemoryBlock->memory = t;
806 currentMemoryBlock->next = 0;
807
808 for(i=0; i<sqrt_nsites; i+=1)
809 makefree((Freenode *)((char *)t+i*fl->nodesize), fl);
810 };
811 t = fl->head;
812 fl->head = (fl->head)->nextfree;
813 return((char *)t);
814}
815
816
817
818void VoronoiDiagramGenerator::makefree(Freenode *curr,Freelist *fl)
819{
820 curr->nextfree = fl->head;
821 fl->head = curr;
822}
823
824void VoronoiDiagramGenerator::cleanup()
825{
826 if(sites != NULL){
827 free(sites);
828 sites = 0;
829 }
830
831 FreeNodeArrayList* current=NULL, *prev=NULL;
832
833 current = prev = allMemoryList;
834
835 while(current->next!=NULL){
836 prev = current;
837 current = current->next;
838 free(prev->memory);
839 delete prev;
840 prev = NULL;
841 }
842
843 if(current!=NULL){
844 if (current->memory!=NULL){
845 free(current->memory);
846 }
847 delete current;
848 }
849
850 allMemoryList = new FreeNodeArrayList;
851 allMemoryList->next = NULL;
852 allMemoryList->memory = NULL;
853 currentMemoryBlock = allMemoryList;
854
855 if (ELhash!=NULL)
856 free(ELhash);
857
858 if (PQhash!=NULL)
859 free(PQhash);
860}
861
862void VoronoiDiagramGenerator::cleanupEdges()
863{
864 GraphEdge* geCurrent = NULL, *gePrev = NULL;
865 geCurrent = gePrev = allEdges;
866
867 while(geCurrent!=NULL){
868 gePrev = geCurrent;
869 geCurrent = geCurrent->next;
870 delete gePrev;
871 }
872
873 allEdges = 0;
874
875}
876
877void VoronoiDiagramGenerator::pushGraphEdge(double x1, double y1, double x2, double y2,
878 Site *s1, Site *s2)
879{
880 GraphEdge* newEdge = new GraphEdge;
881 newEdge->next = allEdges;
882 allEdges = newEdge;
883 newEdge->x1 = x1;
884 newEdge->y1 = y1;
885 newEdge->x2 = x2;
886 newEdge->y2 = y2;
887
888 newEdge->point1 = s1->sitenbr;
889 newEdge->point2 = s2->sitenbr;
890}
891
892
893char * VoronoiDiagramGenerator::myalloc(unsigned n)
894{
895 char *t=0;
896 t=(char*)malloc(n);
897 total_alloc += n;
898 return(t);
899}
900
901
902// unused plot functions
903//
904// /* for those who don't have Cherry's plot */
905// /* #include <plot.h> */
906// void VoronoiDiagramGenerator::openpl(){}
907// void VoronoiDiagramGenerator::circle(double x, double y, double radius){}
908// void VoronoiDiagramGenerator::range(double minX, double minY, double maxX, double maxY){}
909//
910//
911//
912// void VoronoiDiagramGenerator::out_bisector(Edge *e)
913// {
914//
915//
916// }
917//
918//
919// void VoronoiDiagramGenerator::out_ep(Edge *e)
920// {
921//
922//
923// }
924//
925// void VoronoiDiagramGenerator::out_vertex(Site *v)
926// {
927//
928// }
929//
930//
931// void VoronoiDiagramGenerator::out_site(Site *s)
932// {
933// // Gregory Soyez:
934// // plot was always 0 so the expression below was always false
935// // and even if it was not, 'circle' does nothing!
936// //
937// // if(!triangulate & plot & !debug)
938// // circle (s->coord.x, s->coord.y, cradius);
939//
940// }
941//
942//
943// void VoronoiDiagramGenerator::out_triple(Site *s1, Site *s2,Site * s3)
944// {
945//
946// }
947
948
949
950void VoronoiDiagramGenerator::plotinit()
951{
952 double dx,dy,d;
953
954 dy = ymax - ymin;
955 dx = xmax - xmin;
956 d = (double)(( dx > dy ? dx : dy) * 1.1);
957 pxmin = (double)(xmin - (d-dx)/2.0);
958 pxmax = (double)(xmax + (d-dx)/2.0);
959 pymin = (double)(ymin - (d-dy)/2.0);
960 pymax = (double)(ymax + (d-dy)/2.0);
961 cradius = (double)((pxmax - pxmin)/350.0);
962 //GS unused: openpl();
963 //GS unused: range(pxmin, pymin, pxmax, pymax);
964}
965
966
967void VoronoiDiagramGenerator::clip_line(Edge *e)
968{
969 Site *s1, *s2;
970 double x1=0,x2=0,y1=0,y2=0; //, temp = 0;
971
972 x1 = e->reg[0]->coord.x;
973 x2 = e->reg[1]->coord.x;
974 y1 = e->reg[0]->coord.y;
975 y2 = e->reg[1]->coord.y;
976
977 //if the distance between the two points this line was created from is less than
978 //the square root of 2, then ignore it
979 //TODO improve/remove
980 //if(sqrt(((x2 - x1) * (x2 - x1)) + ((y2 - y1) * (y2 - y1))) < minDistanceBetweenSites)
981 // {
982 // return;
983 // }
984 pxmin = borderMinX;
985 pxmax = borderMaxX;
986 pymin = borderMinY;
987 pymax = borderMaxY;
988
989 if(e->a == 1.0 && e ->b >= 0.0)
990 {
991 s1 = e->ep[1];
992 s2 = e->ep[0];
993 }
994 else
995 {
996 s1 = e->ep[0];
997 s2 = e->ep[1];
998 };
999
1000 if(e->a == 1.0)
1001 {
1002 y1 = pymin;
1003 if (s1!=(Site *)NULL && s1->coord.y > pymin)
1004 {
1005 y1 = s1->coord.y;
1006 }
1007 if(y1>pymax)
1008 {
1009 // printf("\nClipped (1) y1 = %f to %f",y1,pymax);
1010 y1 = pymax;
1011 //return;
1012 }
1013 x1 = e->c - e->b * y1;
1014 y2 = pymax;
1015 if (s2!=(Site *)NULL && s2->coord.y < pymax)
1016 y2 = s2->coord.y;
1017
1018 if(y2<pymin)
1019 {
1020 //printf("\nClipped (2) y2 = %f to %f",y2,pymin);
1021 y2 = pymin;
1022 //return;
1023 }
1024 x2 = (e->c) - (e->b) * y2;
1025 if (((x1> pxmax) & (x2>pxmax)) | ((x1<pxmin)&(x2<pxmin)))
1026 {
1027 //printf("\nClipLine jumping out(3), x1 = %f, pxmin = %f, pxmax = %f",x1,pxmin,pxmax);
1028 return;
1029 }
1030 if(x1> pxmax)
1031 { x1 = pxmax; y1 = (e->c - x1)/e->b;};
1032 if(x1<pxmin)
1033 { x1 = pxmin; y1 = (e->c - x1)/e->b;};
1034 if(x2>pxmax)
1035 { x2 = pxmax; y2 = (e->c - x2)/e->b;};
1036 if(x2<pxmin)
1037 { x2 = pxmin; y2 = (e->c - x2)/e->b;};
1038 }
1039 else
1040 {
1041 x1 = pxmin;
1042 if (s1!=(Site *)NULL && s1->coord.x > pxmin)
1043 x1 = s1->coord.x;
1044 if(x1>pxmax)
1045 {
1046 //printf("\nClipped (3) x1 = %f to %f",x1,pxmin);
1047 //return;
1048 x1 = pxmax;
1049 }
1050 y1 = e->c - e->a * x1;
1051 x2 = pxmax;
1052 if (s2!=(Site *)NULL && s2->coord.x < pxmax)
1053 x2 = s2->coord.x;
1054 if(x2<pxmin)
1055 {
1056 //printf("\nClipped (4) x2 = %f to %f",x2,pxmin);
1057 //return;
1058 x2 = pxmin;
1059 }
1060 y2 = e->c - e->a * x2;
1061 if (((y1> pymax) & (y2>pymax)) | ((y1<pymin)&(y2<pymin)))
1062 {
1063 //printf("\nClipLine jumping out(6), y1 = %f, pymin = %f, pymax = %f",y2,pymin,pymax);
1064 return;
1065 }
1066 if(y1> pymax)
1067 { y1 = pymax; x1 = (e->c - y1)/e->a;};
1068 if(y1<pymin)
1069 { y1 = pymin; x1 = (e->c - y1)/e->a;};
1070 if(y2>pymax)
1071 { y2 = pymax; x2 = (e->c - y2)/e->a;};
1072 if(y2<pymin)
1073 { y2 = pymin; x2 = (e->c - y2)/e->a;};
1074 };
1075
1076 //printf("\nPushing line (%f,%f,%f,%f)",x1,y1,x2,y2);
1077 //fprintf(stdout, "Line with vertices (%f,%f) and (%f,%f)\n",
1078 // e->reg[0]->coord.x, e->reg[1]->coord.x, e->reg[0]->coord.y, e->reg[1]->coord.y);
1079 pushGraphEdge(x1,y1,x2,y2,e->reg[0],e->reg[1]);
1080}
1081
1082
1083/* implicit parameters: nsites, sqrt_nsites, xmin, xmax, ymin, ymax,
1084 deltax, deltay (can all be estimates).
1085 Performance suffers if they are wrong; better to make nsites,
1086 deltax, and deltay too big than too small. (?) */
1087
1088bool VoronoiDiagramGenerator::voronoi()
1089{
1090 Site *newsite, *bot, *top, *temp, *p;
1091 Site *v;
1092 VPoint newintstar;
1093 int pm;
1094 Halfedge *lbnd, *rbnd, *llbnd, *rrbnd, *bisector;
1095 Edge *e;
1096
1097 PQinitialize();
1098 bottomsite = nextone();
1099 //GS unused plot: out_site(bottomsite);
1100 bool retval = ELinitialize();
1101
1102 if(!retval)
1103 return false;
1104
1105 newsite = nextone();
1106 while(1)
1107 {
1108
1109 if(!PQempty())
1110 newintstar = PQ_min();
1111
1112 //if the lowest site has a smaller y value than the lowest vector intersection, process the site
1113 //otherwise process the vector intersection
1114 if (newsite != (Site *)NULL && (PQempty() || newsite->coord.y < newintstar.y
1115 || (newsite->coord.y == newintstar.y && newsite->coord.x < newintstar.x)))
1116 {/* new site is smallest - this is a site event*/
1117 //GS unused plot: out_site(newsite); //output the site
1118 lbnd = ELleftbnd(&(newsite->coord)); //get the first HalfEdge to the LEFT of the new site
1119 rbnd = ELright(lbnd); //get the first HalfEdge to the RIGHT of the new site
1120 bot = rightreg(lbnd); //if this halfedge has no edge, , bot = bottom site (whatever that is)
1121 e = bisect(bot, newsite); //create a new edge that bisects
1122 bisector = HEcreate(e, le); //create a new HalfEdge, setting its ELpm field to 0
1123 ELinsert(lbnd, bisector); //insert this new bisector edge between the left and right vectors in a linked list
1124
1125 if ((p = intersect(lbnd, bisector)) != (Site *) NULL) //if the new bisector intersects with the left edge, remove the left edge's vertex, and put in the new one
1126 {
1127 PQdelete(lbnd);
1128 PQinsert(lbnd, p, dist(p,newsite));
1129 };
1130 lbnd = bisector;
1131 bisector = HEcreate(e, re); //create a new HalfEdge, setting its ELpm field to 1
1132 ELinsert(lbnd, bisector); //insert the new HE to the right of the original bisector earlier in the IF stmt
1133
1134 if ((p = intersect(bisector, rbnd)) != (Site *) NULL) //if this new bisector intersects with the
1135 {
1136 PQinsert(bisector, p, dist(p,newsite)); //push the HE into the ordered linked list of vertices
1137 };
1138 newsite = nextone();
1139 }
1140 else if (!PQempty()) /* intersection is smallest - this is a vector event */
1141 {
1142 lbnd = PQextractmin(); //pop the HalfEdge with the lowest vector off the ordered list of vectors
1143 llbnd = ELleft(lbnd); //get the HalfEdge to the left of the above HE
1144 rbnd = ELright(lbnd); //get the HalfEdge to the right of the above HE
1145 rrbnd = ELright(rbnd); //get the HalfEdge to the right of the HE to the right of the lowest HE
1146 bot = leftreg(lbnd); //get the Site to the left of the left HE which it bisects
1147 top = rightreg(rbnd); //get the Site to the right of the right HE which it bisects
1148
1149 //GS unused plot: out_triple(bot, top, rightreg(lbnd)); //output the triple of sites, stating that a circle goes through them
1150
1151 v = lbnd->vertex; //get the vertex that caused this event
1152 makevertex(v); //set the vertex number - couldn't do this earlier since we didn't know when it would be processed
1153 endpoint(lbnd->ELedge,lbnd->ELpm,v); //set the endpoint of the left HalfEdge to be this vector
1154 endpoint(rbnd->ELedge,rbnd->ELpm,v); //set the endpoint of the right HalfEdge to be this vector
1155 ELdelete(lbnd); //mark the lowest HE for deletion - can't delete yet because there might be pointers to it in Hash Map
1156 PQdelete(rbnd); //remove all vertex events to do with the right HE
1157 ELdelete(rbnd); //mark the right HE for deletion - can't delete yet because there might be pointers to it in Hash Map
1158 pm = le; //set the pm variable to zero
1159
1160 if (bot->coord.y > top->coord.y) //if the site to the left of the event is higher than the Site
1161 { //to the right of it, then swap them and set the 'pm' variable to 1
1162 temp = bot;
1163 bot = top;
1164 top = temp;
1165 pm = re;
1166 }
1167 e = bisect(bot, top); //create an Edge (or line) that is between the two Sites. This creates
1168 //the formula of the line, and assigns a line number to it
1169 bisector = HEcreate(e, pm); //create a HE from the Edge 'e', and make it point to that edge with its ELedge field
1170 ELinsert(llbnd, bisector); //insert the new bisector to the right of the left HE
1171 endpoint(e, re-pm, v); //set one endpoint to the new edge to be the vector point 'v'.
1172 //If the site to the left of this bisector is higher than the right
1173 //Site, then this endpoint is put in position 0; otherwise in pos 1
1174 deref(v); //delete the vector 'v'
1175
1176 //if left HE and the new bisector don't intersect, then delete the left HE, and reinsert it
1177 if((p = intersect(llbnd, bisector)) != (Site *) NULL)
1178 {
1179 PQdelete(llbnd);
1180 PQinsert(llbnd, p, dist(p,bot));
1181 };
1182
1183 //if right HE and the new bisector don't intersect, then reinsert it
1184 if ((p = intersect(bisector, rrbnd)) != (Site *) NULL)
1185 {
1186 PQinsert(bisector, p, dist(p,bot));
1187 };
1188 }
1189 else break;
1190 };
1191
1192
1193
1194
1195 for(lbnd=ELright(ELleftend); lbnd != ELrightend; lbnd=ELright(lbnd))
1196 {
1197 e = lbnd->ELedge;
1198
1199 clip_line(e);
1200 };
1201
1202 //cleanup();
1203
1204 return true;
1205
1206}
1207
1208
1209int scomp(const void *p1,const void *p2)
1210{
1211 VPoint *s1 = (VPoint*)p1, *s2=(VPoint*)p2;
1212 if(s1->y < s2->y) return(-1);
1213 if(s1->y > s2->y) return(1);
1214 if(s1->x < s2->x) return(-1);
1215 if(s1->x > s2->x) return(1);
1216 return(0);
1217}
1218
1219/* return a single in-storage site */
1220Site * VoronoiDiagramGenerator::nextone()
1221{
1222 Site *s;
1223 if(siteidx < nsites)
1224 {
1225 s = &sites[siteidx];
1226 siteidx += 1;
1227 return(s);
1228 }
1229 else
1230 return( (Site *)NULL);
1231}
1232
1233FASTJET_END_NAMESPACE
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