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author | Jaron Kent-Dobias <jaron@kent-dobias.com> | 2017-02-10 12:18:11 -0500 |
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committer | Jaron Kent-Dobias <jaron@kent-dobias.com> | 2017-02-10 12:18:11 -0500 |
commit | 901b9f16494f37890be17ef4bb66e6efc6873340 (patch) | |
tree | 03e5f1769cbdb89eb1b4c45c16dc7d867184efaf /src/fortune | |
parent | 1e1fdfc2e3892667bccaf317a01defd8832041c7 (diff) | |
download | fuse_networks-901b9f16494f37890be17ef4bb66e6efc6873340.tar.gz fuse_networks-901b9f16494f37890be17ef4bb66e6efc6873340.tar.bz2 fuse_networks-901b9f16494f37890be17ef4bb66e6efc6873340.zip |
changed code to rely on jst
Diffstat (limited to 'src/fortune')
-rw-r--r-- | src/fortune/defs.h | 134 | ||||
-rw-r--r-- | src/fortune/edgelist.c | 136 | ||||
-rw-r--r-- | src/fortune/geometry.c | 184 | ||||
-rw-r--r-- | src/fortune/heap.c | 94 | ||||
-rw-r--r-- | src/fortune/main.c | 287 | ||||
-rw-r--r-- | src/fortune/memory.c | 44 | ||||
-rw-r--r-- | src/fortune/output.c | 46 | ||||
-rw-r--r-- | src/fortune/voronoi.c | 103 |
8 files changed, 0 insertions, 1028 deletions
diff --git a/src/fortune/defs.h b/src/fortune/defs.h deleted file mode 100644 index 9f1b1db..0000000 --- a/src/fortune/defs.h +++ /dev/null @@ -1,134 +0,0 @@ -#ifndef NULL -#define NULL 0 -#endif -#define DELETED -2 -#include <stdlib.h> -#include <limits.h> -#include <stdbool.h> - -extern int triangulate, sorted, plot, debug; - -struct Freenode { - struct Freenode *nextfree; -}; -struct Freelist { - struct Freenode *head; - int nodesize; -}; -char *getfree(); -char *myalloc(); - -extern double xmin, xmax, ymin, ymax, deltax, deltay; - -struct Point { - double x, y; -}; - -/* structure used both for sites and for vertices */ -struct Site { - struct Point coord; - int sitenbr; - int refcnt; -}; - -extern struct Site *sites; -extern int nsites; -extern int siteidx; -extern int sqrt_nsites; -extern int nvertices; -extern struct Freelist sfl; -extern struct Site *bottomsite; - -void **alloclist; -int allocnum; - -struct Edge { - double a, b, c; - struct Site *ep[2]; - struct Site *reg[2]; - int edgenbr; -}; -#define le 0 -#define re 1 -extern int nedges; -extern struct Freelist efl; - -int has_endpoint(), right_of(); -struct Site *intersect(); -double dist(); -struct Point PQ_min(); -struct Halfedge *PQextractmin(); -struct Edge *bisect(); - -struct Halfedge { - struct Halfedge *ELleft, *ELright; - struct Edge *ELedge; - int ELrefcnt; - char ELpm; - struct Site *vertex; - double ystar; - struct Halfedge *PQnext; -}; - -extern struct Freelist hfl; -extern struct Halfedge *ELleftend, *ELrightend; -extern int ELhashsize; -extern struct Halfedge **ELhash; -struct Halfedge *HEcreate(), *ELleft(), *ELright(), *ELleftbnd(); -struct Site *leftreg(), *rightreg(); - -extern int PQhashsize; -extern struct Halfedge *PQhash; -extern struct Halfedge *PQfind(); -extern int PQcount; -extern int PQmin; -int PQempty(); - -extern double *site_list; -extern double *vert_list; -extern double *line_list; -extern unsigned int *edge_list; -extern unsigned int *dual_list; - -extern int vert_count; -extern int edge_count; -extern int line_count; -extern int dual_count; -extern int site_count; - -void makefree(struct Freenode *curr, struct Freelist *fl); -void voronoi(int triangulate, struct Site *(*nextsite)()); -char *getfree(struct Freelist *fl); -char *myalloc(unsigned n); -void freeinit(struct Freelist *fl, int size); -void ELinitialize(); -struct Halfedge *HEcreate(struct Edge *e, int pm); -void ELinsert(struct Halfedge *lb, struct Halfedge *new); -struct Halfedge *ELgethash(int b); -struct Halfedge *ELleftbnd(struct Point *p); -void ELdelete(struct Halfedge *he); -struct Halfedge *ELright(struct Halfedge *he); -struct Halfedge *ELleft(struct Halfedge *he); -struct Site *leftreg(struct Halfedge *he); -struct Site *rightreg(struct Halfedge *he); -void geominit(); -struct Edge *bisect(struct Site *s1, struct Site *s2); -struct Site *intersect(struct Halfedge *el1, struct Halfedge *el2); -int right_of(struct Halfedge *el, struct Point *p); -void endpoint(struct Edge *e, int lr, struct Site *s); -double dist(struct Site *s, struct Site *t); -void makevertex(struct Site *v); -void deref(struct Site *v); -void ref(struct Site *v); -void PQinsert(struct Halfedge *he, struct Site *v, double offset); -void PQdelete(struct Halfedge *he); -int PQbucket(struct Halfedge *he); -int PQempty(); -struct Point PQ_min(); -struct Halfedge *PQextractmin(); -void PQinitialize(); -void out_bisector(struct Edge *e); -void out_ep(struct Edge *e); -void out_vertex(struct Site *v); -void out_site(struct Site *s); -void out_triple(struct Site *s1, struct Site *s2, struct Site *s3); diff --git a/src/fortune/edgelist.c b/src/fortune/edgelist.c deleted file mode 100644 index dfd85a7..0000000 --- a/src/fortune/edgelist.c +++ /dev/null @@ -1,136 +0,0 @@ -# -#include "defs.h" -int nedges; -struct Freelist efl; -struct Freelist hfl; -struct Halfedge *ELleftend, *ELrightend; -int ELhashsize; -struct Halfedge **ELhash; - -int ntry, totalsearch; - -void ELinitialize() { - int i; - freeinit(&hfl, sizeof **ELhash); - ELhashsize = 2 * sqrt_nsites; - ELhash = (struct Halfedge **)myalloc(sizeof *ELhash * ELhashsize); - for (i = 0; i < ELhashsize; i += 1) - ELhash[i] = (struct Halfedge *)NULL; - ELleftend = HEcreate((struct Edge *)NULL, 0); - ELrightend = HEcreate((struct Edge *)NULL, 0); - ELleftend->ELleft = (struct Halfedge *)NULL; - ELleftend->ELright = ELrightend; - ELrightend->ELleft = ELleftend; - ELrightend->ELright = (struct Halfedge *)NULL; - ELhash[0] = ELleftend; - ELhash[ELhashsize - 1] = ELrightend; -} - -struct Halfedge *HEcreate(e, pm) struct Edge *e; -int pm; -{ - struct Halfedge *answer; - answer = (struct Halfedge *)getfree(&hfl); - answer->ELedge = e; - answer->ELpm = pm; - answer->PQnext = (struct Halfedge *)NULL; - answer->vertex = (struct Site *)NULL; - answer->ELrefcnt = 0; - return (answer); -} - -void ELinsert(struct Halfedge *lb, struct Halfedge *new) { - new->ELleft = lb; - new->ELright = lb->ELright; - (lb->ELright)->ELleft = new; - lb->ELright = new; -} - -/* Get entry from hash table, pruning any deleted nodes */ -struct Halfedge *ELgethash(b) int b; -{ - struct Halfedge *he; - - if (b < 0 || b >= ELhashsize) - return ((struct Halfedge *)NULL); - he = ELhash[b]; - if (he == (struct Halfedge *)NULL || he->ELedge != (struct Edge *)DELETED) - return (he); - - /* Hash table points to deleted half edge. Patch as necessary. */ - ELhash[b] = (struct Halfedge *)NULL; - if ((he->ELrefcnt -= 1) == 0) - makefree((struct Freenode *)he, &hfl); - return ((struct Halfedge *)NULL); -} - -struct Halfedge *ELleftbnd(p) struct Point *p; -{ - int i, bucket; - struct Halfedge *he; - - /* Use hash table to get close to desired halfedge */ - bucket = (p->x - xmin) / deltax * ELhashsize; - if (bucket < 0) - bucket = 0; - if (bucket >= ELhashsize) - bucket = ELhashsize - 1; - he = ELgethash(bucket); - if (he == (struct Halfedge *)NULL) { - for (i = 1; 1; i += 1) { - if ((he = ELgethash(bucket - i)) != (struct Halfedge *)NULL) - break; - if ((he = ELgethash(bucket + i)) != (struct Halfedge *)NULL) - break; - }; - totalsearch += i; - }; - ntry += 1; - /* Now search linear list of halfedges for the corect one */ - if (he == ELleftend || (he != ELrightend && right_of(he, p))) { - do { - he = he->ELright; - } while (he != ELrightend && right_of(he, p)); - he = he->ELleft; - } else - do { - he = he->ELleft; - } while (he != ELleftend && !right_of(he, p)); - - /* Update hash table and reference counts */ - if (bucket > 0 && bucket < ELhashsize - 1) { - if (ELhash[bucket] != (struct Halfedge *)NULL) - ELhash[bucket]->ELrefcnt -= 1; - ELhash[bucket] = he; - ELhash[bucket]->ELrefcnt += 1; - }; - return (he); -} - -/* This delete routine can't reclaim node, since pointers from hash - table may be present. */ -void ELdelete(struct Halfedge *he) { - (he->ELleft)->ELright = he->ELright; - (he->ELright)->ELleft = he->ELleft; - he->ELedge = (struct Edge *)DELETED; -} - -struct Halfedge *ELright(he) struct Halfedge *he; -{ return (he->ELright); } - -struct Halfedge *ELleft(he) struct Halfedge *he; -{ return (he->ELleft); } - -struct Site *leftreg(he) struct Halfedge *he; -{ - if (he->ELedge == (struct Edge *)NULL) - return (bottomsite); - return (he->ELpm == le ? he->ELedge->reg[le] : he->ELedge->reg[re]); -} - -struct Site *rightreg(he) struct Halfedge *he; -{ - if (he->ELedge == (struct Edge *)NULL) - return (bottomsite); - return (he->ELpm == le ? he->ELedge->reg[re] : he->ELedge->reg[le]); -} diff --git a/src/fortune/geometry.c b/src/fortune/geometry.c deleted file mode 100644 index 131cacf..0000000 --- a/src/fortune/geometry.c +++ /dev/null @@ -1,184 +0,0 @@ -# -#include "defs.h" -#include <math.h> - -void geominit() { - struct Edge e; - double sn; - - freeinit(&efl, sizeof e); - nvertices = 0; - nedges = 0; - sn = nsites + 4; - sqrt_nsites = sqrt(sn); - deltay = ymax - ymin; - deltax = xmax - xmin; -} - -struct Edge *bisect(s1, s2) struct Site *s1, *s2; -{ - double dx, dy, adx, ady; - struct Edge *newedge; - - newedge = (struct Edge *)getfree(&efl); - - newedge->reg[0] = s1; - newedge->reg[1] = s2; - ref(s1); - ref(s2); - newedge->ep[0] = (struct Site *)NULL; - newedge->ep[1] = (struct Site *)NULL; - - dx = s2->coord.x - s1->coord.x; - dy = s2->coord.y - s1->coord.y; - adx = dx > 0 ? dx : -dx; - ady = dy > 0 ? dy : -dy; - newedge->c = s1->coord.x * dx + s1->coord.y * dy + (dx * dx + dy * dy) * 0.5; - if (adx > ady) { - newedge->a = 1.0; - newedge->b = dy / dx; - newedge->c /= dx; - } else { - newedge->b = 1.0; - newedge->a = dx / dy; - newedge->c /= dy; - }; - - newedge->edgenbr = nedges; - out_bisector(newedge); - nedges += 1; - return (newedge); -} - -struct Site *intersect(el1, el2) struct Halfedge *el1, *el2; -{ - struct Edge *e1, *e2, *e; - struct Halfedge *el; - double d, xint, yint; - int right_of_site; - struct Site *v; - - e1 = el1->ELedge; - e2 = el2->ELedge; - if (e1 == (struct Edge *)NULL || e2 == (struct Edge *)NULL) - return ((struct Site *)NULL); - if (e1->reg[1] == e2->reg[1]) - return ((struct Site *)NULL); - - d = e1->a * e2->b - e1->b * e2->a; - /* printf("intersect: d=%g\n", d); */ - if (-1.0e-20 < d && d < 1.0e-20) { - return ((struct Site *)NULL); - }; - - xint = (e1->c * e2->b - e2->c * e1->b) / d; - yint = (e2->c * e1->a - e1->c * e2->a) / d; - - if ((e1->reg[1]->coord.y < e2->reg[1]->coord.y) || - (e1->reg[1]->coord.y == e2->reg[1]->coord.y && - e1->reg[1]->coord.x < e2->reg[1]->coord.x)) { - el = el1; - e = e1; - } else { - el = el2; - e = e2; - }; - right_of_site = xint >= e->reg[1]->coord.x; - if ((right_of_site && el->ELpm == le) || (!right_of_site && el->ELpm == re)) - return ((struct Site *)NULL); - - v = (struct Site *)getfree(&sfl); - v->refcnt = 0; - v->coord.x = xint; - v->coord.y = yint; - return (v); -} - -/* returns 1 if p is to right of halfedge e */ -int right_of(el, p) struct Halfedge *el; -struct Point *p; -{ - struct Edge *e; - struct Site *topsite; - int right_of_site, above, fast; - double dxp, dyp, dxs, t1, t2, t3, yl; - - e = el->ELedge; - topsite = e->reg[1]; - right_of_site = p->x > topsite->coord.x; - if (right_of_site && el->ELpm == le) - return (1); - if (!right_of_site && el->ELpm == re) - return (0); - - if (e->a == 1.0) { - dyp = p->y - topsite->coord.y; - dxp = p->x - topsite->coord.x; - fast = 0; - if ((!right_of_site && e->b < 0.0) | (right_of_site && e->b >= 0.0)) { - above = dyp >= e->b * dxp; - fast = above; - } else { - above = p->x + p->y * e->b > e->c; - if (e->b < 0.0) - above = !above; - if (!above) - fast = 1; - }; - if (!fast) { - dxs = topsite->coord.x - (e->reg[0])->coord.x; - above = e->b * (dxp * dxp - dyp * dyp) < - dxs * dyp * (1.0 + 2.0 * dxp / dxs + e->b * e->b); - if (e->b < 0.0) - above = !above; - }; - } else /*e->b==1.0 */ - { - yl = e->c - e->a * p->x; - t1 = p->y - yl; - t2 = p->x - topsite->coord.x; - t3 = yl - topsite->coord.y; - above = t1 * t1 > t2 * t2 + t3 * t3; - }; - return (el->ELpm == le ? above : !above); -} - -void endpoint(e, lr, s) struct Edge *e; -int lr; -struct Site *s; -{ - e->ep[lr] = s; - ref(s); - if (e->ep[re - lr] == (struct Site *)NULL) { - } else { - out_ep(e); - deref(e->reg[le]); - deref(e->reg[re]); - makefree((struct Freenode *)e, &efl); - } -} - -double dist(s, t) struct Site *s, *t; -{ - double dx, dy; - dx = s->coord.x - t->coord.x; - dy = s->coord.y - t->coord.y; - return (sqrt(dx * dx + dy * dy)); -} - -void makevertex(v) struct Site *v; -{ - v->sitenbr = nvertices; - nvertices += 1; - out_vertex(v); -} - -void deref(v) struct Site *v; -{ - v->refcnt -= 1; - if (v->refcnt == 0) - makefree((struct Freenode *)v, &sfl); -} - -void ref(v) struct Site *v; -{ v->refcnt += 1; } diff --git a/src/fortune/heap.c b/src/fortune/heap.c deleted file mode 100644 index 2ebbd58..0000000 --- a/src/fortune/heap.c +++ /dev/null @@ -1,94 +0,0 @@ -# -#include "defs.h" -int PQhashsize; -struct Halfedge *PQhash; -struct Halfedge *PQfind(); -int PQcount; -int PQmin; -int PQempty(); - -void PQinsert(he, v, offset) struct Halfedge *he; -struct Site *v; -double offset; -{ - struct Halfedge *last, *next; - he->vertex = v; - ref(v); - he->ystar = v->coord.y + offset; - last = &PQhash[PQbucket(he)]; - while ((next = last->PQnext) != (struct Halfedge *)NULL && - (he->ystar > next->ystar || - (he->ystar == next->ystar && v->coord.x > next->vertex->coord.x))) { - last = next; - }; - he->PQnext = last->PQnext; - last->PQnext = he; - PQcount += 1; -} - -void PQdelete(he) struct Halfedge *he; -{ - struct Halfedge *last; - - if (he->vertex != (struct Site *)NULL) { - last = &PQhash[PQbucket(he)]; - while (last->PQnext != he) - last = last->PQnext; - last->PQnext = he->PQnext; - PQcount -= 1; - deref(he->vertex); - he->vertex = (struct Site *)NULL; - }; -} - -int PQbucket(he) struct Halfedge *he; -{ - int bucket; - - if (he->ystar < ymin) - bucket = 0; - else if (he->ystar >= ymax) - bucket = PQhashsize - 1; - else - bucket = (he->ystar - ymin) / deltay * PQhashsize; - if (bucket < 0) - bucket = 0; - if (bucket >= PQhashsize) - bucket = PQhashsize - 1; - if (bucket < PQmin) - PQmin = bucket; - return (bucket); -} - -int PQempty() { return (PQcount == 0); } - -struct Point PQ_min() { - struct Point answer; - - while (PQhash[PQmin].PQnext == (struct Halfedge *)NULL) { - PQmin += 1; - }; - answer.x = PQhash[PQmin].PQnext->vertex->coord.x; - answer.y = PQhash[PQmin].PQnext->ystar; - return (answer); -} - -struct Halfedge *PQextractmin() { - struct Halfedge *curr; - curr = PQhash[PQmin].PQnext; - PQhash[PQmin].PQnext = curr->PQnext; - PQcount -= 1; - return (curr); -} - -void PQinitialize() { - int i; -// struct Point *s; - - PQcount = 0; - PQmin = 0; - PQhashsize = 4 * sqrt_nsites; - PQhash = (struct Halfedge *)myalloc(PQhashsize * sizeof *PQhash); - for (i = 0; i < PQhashsize; i += 1) - PQhash[i].PQnext = (struct Halfedge *)NULL; -} diff --git a/src/fortune/main.c b/src/fortune/main.c deleted file mode 100644 index b6b4476..0000000 --- a/src/fortune/main.c +++ /dev/null @@ -1,287 +0,0 @@ -# -#include <stdio.h> -#include <stdint.h> -#include "defs.h" -#include <math.h> -struct Site *nextone(); - -int triangulate, sorted, plot, debug; -double xmin, xmax, ymin, ymax, deltax, deltay; -int vert_count, edge_count, line_count, dual_count, site_count; -double *site_list, *vert_list, *line_list; -unsigned int *edge_list, *dual_list; - -/* sort sites on y, then x, coord */ -int scomp(s1, s2) struct Point *s1, *s2; -{ - if (s1->y < s2->y) - return (-1); - if (s1->y > s2->y) - return (1); - if (s1->x < s2->x) - return (-1); - if (s1->x > s2->x) - return (1); - return (0); -} - -/* read all sites, sort, and compute xmin, xmax, ymin, ymax */ -void readsites(double *lattice) { - - sites = (struct Site *)myalloc(nsites * sizeof *sites); - for (unsigned int j = 0; j < nsites; j++) { - sites[j].coord.x = lattice[2 * j]; - sites[j].coord.y = lattice[2 * j + 1]; - sites[j].sitenbr = j; - sites[j].refcnt = 0; - } - qsort(sites, nsites, sizeof(struct Site), scomp); - xmin = sites[0].coord.x; - xmax = sites[0].coord.x; - for (unsigned int i = 1; i < nsites; i += 1) { - if (sites[i].coord.x < xmin) - xmin = sites[i].coord.x; - if (sites[i].coord.x > xmax) - xmax = sites[i].coord.x; - }; - ymin = sites[0].coord.y; - ymax = sites[nsites - 1].coord.y; -} - -unsigned int delete_duplicates(unsigned int ne, unsigned int *etv) { - unsigned int ndup = 0; - bool *duplicates = (bool *)calloc(ne, sizeof(bool)); - for (unsigned int i = 0; i < ne; i++) { - unsigned int v1 = etv[2 * i]; - unsigned int v2 = etv[2 * i + 1]; - for (unsigned int j = 0; j < i; j++) { - unsigned int w1 = etv[2 * j]; - unsigned int w2 = etv[2 * j + 1]; - if (w1 == v1 && w2 == v2) { - duplicates[j] = true; - ndup++; - break; - } - } - } - unsigned int newsize = (int)ne - (int)ndup; - unsigned int count = 0; - for (unsigned int i = 0; i < ne; i++) { - if (!duplicates[i]) { - etv[2 * count] = etv[2 * i]; - etv[2 * count + 1] = etv[2 * i + 1]; - count++; - } - } - free(duplicates); - return newsize; -} - -intptr_t *run_voronoi(unsigned int num, double *lattice, bool periodic, double xmin, double xmax, double ymin, double ymax) -{ - struct Site *(*next)(); - - sorted = 0; - triangulate = 0; - plot = 0; - debug = 0; - - alloclist = (void **)malloc(9 * num * sizeof(void *)); - allocnum = 0; - - freeinit(&sfl, sizeof *sites); - - unsigned int eff_num = num; - double *eff_lattice = lattice; - - if (periodic) { - eff_num = 9 * num; - eff_lattice = (double *)malloc(2 * eff_num * sizeof(double)); - - for (unsigned int i = 0; i < num; i++) { - // original sites - our baby boys - eff_lattice[2*i] = lattice[2*i]; - eff_lattice[2*i+1] = lattice[2*i+1]; - - // sites to the right - eff_lattice[2*(num+i)+1] = lattice[2*i+1] - xmin + xmax; - eff_lattice[2*(num+i)] = lattice[2*i]; - - // sites to the left - eff_lattice[2*(2*num+i)+1] = lattice[2*i+1] - xmax + xmin; - eff_lattice[2*(2*num+i)] = lattice[2*i]; - - // sites to the top - eff_lattice[2*(3*num+i)+1] = lattice[2*i+1]; - eff_lattice[2*(3*num+i)] = lattice[2*i] - ymin + ymax; - - // sites to the bottom - eff_lattice[2*(4*num+i)+1] = lattice[2*i+1]; - eff_lattice[2*(4*num+i)] = lattice[2*i] - ymax + ymin; - - // sites to the upper right - eff_lattice[2*(5*num+i)+1] = lattice[2*i+1] - xmin + xmax; - eff_lattice[2*(5*num+i)] = lattice[2*i] - ymin + ymax; - - // sites to the upper left - eff_lattice[2*(6*num+i)+1] = lattice[2*i+1] - xmax + xmin; - eff_lattice[2*(6*num+i)] = lattice[2*i] - ymin + ymax; - - // sites to the lower left - eff_lattice[2*(7*num+i)+1] = lattice[2*i+1] - xmax + xmin; - eff_lattice[2*(7*num+i)] = lattice[2*i] + ymin - ymax; - - // sites to the lower right - eff_lattice[2*(8*num+i)+1] = lattice[2*i+1] + xmax - xmin; - eff_lattice[2*(8*num+i)] = lattice[2*i] + ymin - ymax; - } - } - - nsites = eff_num; - readsites(eff_lattice); - if (periodic) free(eff_lattice); - next = nextone; - - siteidx = 0; - geominit(); - - site_list = malloc(2 * nsites * sizeof(double)); - vert_list = NULL; - line_list = NULL; - edge_list = NULL; - dual_list = NULL; - site_count = 0; - vert_count = 0; - edge_count = 0; - line_count = 0; - dual_count = 0; - - voronoi(triangulate, next); - - unsigned int real_vert_count = vert_count; - unsigned int real_edge_count = edge_count; - double *real_vert_list = vert_list; - unsigned int *real_edge_list = edge_list; - unsigned int *real_dual_list = dual_list; - - if (periodic) { - real_vert_count = 0; - real_edge_count = 0; - real_vert_list = (double *)malloc(2 * vert_count * sizeof(double)); - real_edge_list = (unsigned int *)malloc(2 * edge_count * sizeof(unsigned int)); - real_dual_list = (unsigned int *)malloc(3 * dual_count * sizeof(unsigned int)); - unsigned int *triangle_analyzed = (unsigned int *)malloc(4 * dual_count * sizeof(unsigned int)); - unsigned int q = 0; - int *new_vert_ind = (int *)malloc(vert_count * sizeof(int)); - - for (unsigned int i = 0; i < vert_count; i++) { - unsigned int t1, t2, t3; - t1 = dual_list[3*i]; t2 = dual_list[3*i+1]; t3 = dual_list[3*i+2]; - if (t1 >= num && t2 >= num && t3 >= num) { - new_vert_ind[i] = -1; - } - else if (t1 < num && t2 < num && t3 < num) { - real_vert_list[2*real_vert_count] = vert_list[2*i]; - real_vert_list[2*real_vert_count+1] = vert_list[2*i+1]; - real_dual_list[3*real_vert_count] = t1; - real_dual_list[3*real_vert_count+1] = t2; - real_dual_list[3*real_vert_count+2] = t3; - new_vert_ind[i] = real_vert_count; - real_vert_count++; - } - else { - unsigned int tt1, tt2, tt3; - tt1 = t1 % num; tt2 = t2 % num; tt3 = t3 % num; - unsigned int s1, s2, s3; - s1 = tt1 < tt2 ? (tt1 < tt3 ? tt1 : tt3) : (tt2 < tt3 ? tt2 : tt3); - s3 = tt1 > tt2 ? (tt1 > tt3 ? tt1 : tt3) : (tt2 > tt3 ? tt2 : tt3); - s2 = tt1 < tt2 ? (tt1 > tt3 ? tt1 : (tt2 < tt3 ? tt2 : tt3)) : (tt1 < tt3 ? tt1 : (tt2 < tt3 ? tt3: tt2)); - - bool matched = false; - unsigned int ass_vert; - - for (unsigned int j = 0; j < q; j++) { - if (s1 == triangle_analyzed[4*j] && s2 == triangle_analyzed[4*j+1] && s3 == triangle_analyzed[4*j+2]) { - matched = true; - ass_vert = triangle_analyzed[4*j+3]; - break; - } - } - - if (matched) { - new_vert_ind[i] = ass_vert; - } else { - triangle_analyzed[4*q] = s1; - triangle_analyzed[4*q+1] = s2; - triangle_analyzed[4*q+2] = s3; - triangle_analyzed[4*q+3] = real_vert_count; - q++; - real_vert_list[2*real_vert_count+1] = fmod(2*xmax+vert_list[2*i+1], xmax); - real_vert_list[2*real_vert_count] = fmod(2*ymax+vert_list[2*i], ymax); - real_dual_list[3*real_vert_count] = t1 % num; - real_dual_list[3*real_vert_count+1] = t2 % num; - real_dual_list[3*real_vert_count+2] = t3 % num; - new_vert_ind[i] = real_vert_count; - real_vert_count++; - } - } - } - for (unsigned int i = 0; i < edge_count; i++) { - unsigned int v1, v2; - v1 = edge_list[2 * i]; - v2 = edge_list[2 * i+1]; - if (v1 != UINT_MAX && v2 != UINT_MAX) { - if (new_vert_ind[v1] >= 0 && new_vert_ind[v2] >=0) { - unsigned int nv1 = new_vert_ind[v1]; - unsigned int nv2 = new_vert_ind[v2]; - real_edge_list[2*real_edge_count] = nv1 < nv2 ? nv1 : nv2; - real_edge_list[2*real_edge_count+1] = nv1 < nv2 ? nv2 : nv1; - real_edge_count++; - } - } - } - unsigned int new_edge_count = delete_duplicates(real_edge_count, real_edge_list); - real_edge_count = new_edge_count; - free(triangle_analyzed); - free(new_vert_ind); - free(dual_list); - free(edge_list); - free(vert_list); - } - - - intptr_t *output = (intptr_t *)malloc(6 * sizeof(intptr_t)); - output[0] = (intptr_t)malloc(4 * sizeof(unsigned int)); - ((unsigned int *)output[0])[0] = real_vert_count; - ((unsigned int *)output[0])[1] = real_edge_count; - ((unsigned int *)output[0])[2] = line_count; - ((unsigned int *)output[0])[3] = real_vert_count; - output[1] = (intptr_t)site_list; - output[2] = (intptr_t)real_vert_list; - output[3] = (intptr_t)real_edge_list; - output[4] = (intptr_t)line_list; - output[5] = (intptr_t)real_dual_list; - - free(ELhash); - free(PQhash); - free(sites); - for (unsigned int i = 0; i < allocnum; i++) { - free(alloclist[i]); - } - free(alloclist); - - return output; -} - -/* return a single in-storage site */ -struct Site *nextone() { - for (; siteidx < nsites; siteidx += 1) { - if (siteidx == 0 || sites[siteidx].coord.x != sites[siteidx - 1].coord.x || - sites[siteidx].coord.y != sites[siteidx - 1].coord.y) { - siteidx += 1; - return (&sites[siteidx - 1]); - }; - }; - return ((struct Site *)NULL); -} - diff --git a/src/fortune/memory.c b/src/fortune/memory.c deleted file mode 100644 index 3d62a92..0000000 --- a/src/fortune/memory.c +++ /dev/null @@ -1,44 +0,0 @@ -# -#include "defs.h" -#include <stdio.h> - -void freeinit(struct Freelist *fl, int size) { - fl->head = (struct Freenode *)NULL; - fl->nodesize = size; -} - -char *getfree(fl) struct Freelist *fl; -{ - int i; - struct Freenode *t; - if (fl->head == (struct Freenode *)NULL) { - t = (struct Freenode *)myalloc(sqrt_nsites * fl->nodesize); - alloclist[allocnum] = (void *)t; - allocnum++; - for (i = 0; i < sqrt_nsites; i += 1) - makefree((struct Freenode *)((char *)t + i * fl->nodesize), fl); - }; - t = fl->head; - fl->head = (fl->head)->nextfree; - return ((char *)t); -} - -void makefree(curr, fl) struct Freenode *curr;struct Freelist *fl; -{ - curr->nextfree = fl->head; - fl->head = curr; -} - -int total_alloc; -char *myalloc(n) unsigned n; -{ - char *t; - if ((t = malloc(n)) == (char *)0) { - fprintf(stderr, - "Insufficient memory processing site %d (%d bytes in use)\n", - siteidx, total_alloc); - exit(1); - }; - total_alloc += n; - return (t); -} diff --git a/src/fortune/output.c b/src/fortune/output.c deleted file mode 100644 index d496feb..0000000 --- a/src/fortune/output.c +++ /dev/null @@ -1,46 +0,0 @@ -# -#include "defs.h" -#include <stdio.h> -double pxmin, pxmax, pymin, pymax, cradius; - -void out_bisector(e) struct Edge *e; -{ - if (line_count % nsites == 0) line_list = realloc(line_list, 3 * (nsites + line_count) * sizeof(double)); - line_list[3*line_count] = e->a; - line_list[3*line_count+1] = e->b; - line_list[3*line_count+2] = e->c; - line_count++; -} - -void out_ep(e) struct Edge *e; -{ - if (edge_count % nsites == 0) edge_list = realloc(edge_list, 2 * (nsites + edge_count) * sizeof(unsigned int)); - edge_list[2 * edge_count] = (e->ep[le] != (struct Site *)NULL ? e->ep[le]->sitenbr : UINT_MAX); - edge_list[2 * edge_count + 1] = (e->ep[re] != (struct Site *)NULL ? e->ep[re]->sitenbr : UINT_MAX); - edge_count++; -} - -void out_vertex(v) struct Site *v; -{ - if (vert_count % nsites == 0) vert_list = realloc(vert_list, 2 * (nsites + vert_count) * sizeof(double)); - vert_list[2 * vert_count] = v->coord.x; - vert_list[2 * vert_count + 1] = v->coord.y; - vert_count++; -} - -void out_site(s) struct Site *s; -{ - site_list[2 * site_count] = s->coord.x; - site_list[2 * site_count + 1] = s->coord.y; - site_count++; -} - -void out_triple(s1, s2, s3) struct Site *s1, *s2, *s3; -{ - if (dual_count % nsites == 0) dual_list = realloc(dual_list, 3 * (nsites + dual_count) * sizeof(unsigned int)); - dual_list[dual_count * 3] = s1->sitenbr; - dual_list[dual_count * 3 + 1] = s2->sitenbr; - dual_list[dual_count * 3 + 2] = s3->sitenbr; - dual_count++; -} - diff --git a/src/fortune/voronoi.c b/src/fortune/voronoi.c deleted file mode 100644 index dc9945f..0000000 --- a/src/fortune/voronoi.c +++ /dev/null @@ -1,103 +0,0 @@ -# -#include "defs.h" - -struct Site *sites; -int nsites; -int siteidx; -int sqrt_nsites; -int nvertices; -struct Freelist sfl; -struct Site *bottomsite; - -/* implicit parameters: nsites, sqrt_nsites, xmin, xmax, ymin, ymax, - deltax, deltay (can all be estimates). - Performance suffers if they are wrong; better to make nsites, - deltax, and deltay too big than too small. (?) */ - -void voronoi(triangulate, nextsite) int triangulate; -struct Site *(*nextsite)(); -{ - struct Site *newsite, *bot, *top, *temp, *p; - struct Site *v; - struct Point newintstar; - int pm; - struct Halfedge *lbnd, *rbnd, *llbnd, *rrbnd, *bisector; - struct Edge *e; - - PQinitialize(); - bottomsite = (*nextsite)(); - out_site(bottomsite); - ELinitialize(); - - newsite = (*nextsite)(); - while (1) { - if (!PQempty()) - newintstar = PQ_min(); - - if (newsite != (struct Site *)NULL && - (PQempty() || newsite->coord.y < newintstar.y || - (newsite->coord.y == newintstar.y && - newsite->coord.x < newintstar.x))) {/* new site is smallest */ - out_site(newsite); - lbnd = ELleftbnd(&(newsite->coord)); - rbnd = ELright(lbnd); - bot = rightreg(lbnd); - e = bisect(bot, newsite); - bisector = HEcreate(e, le); - ELinsert(lbnd, bisector); - if ((p = intersect(lbnd, bisector)) != (struct Site *)NULL) { - PQdelete(lbnd); - PQinsert(lbnd, p, dist(p, newsite)); - }; - lbnd = bisector; - bisector = HEcreate(e, re); - ELinsert(lbnd, bisector); - if ((p = intersect(bisector, rbnd)) != (struct Site *)NULL) { - PQinsert(bisector, p, dist(p, newsite)); - }; - newsite = (*nextsite)(); - } else if (!PQempty()) - /* intersection is smallest */ - { - lbnd = PQextractmin(); - llbnd = ELleft(lbnd); - rbnd = ELright(lbnd); - rrbnd = ELright(rbnd); - bot = leftreg(lbnd); - top = rightreg(rbnd); - out_triple(bot, top, rightreg(lbnd)); - v = lbnd->vertex; - makevertex(v); - endpoint(lbnd->ELedge, lbnd->ELpm, v); - endpoint(rbnd->ELedge, rbnd->ELpm, v); - ELdelete(lbnd); - PQdelete(rbnd); - ELdelete(rbnd); - pm = le; - if (bot->coord.y > top->coord.y) { - temp = bot; - bot = top; - top = temp; - pm = re; - } - e = bisect(bot, top); - bisector = HEcreate(e, pm); - ELinsert(llbnd, bisector); - endpoint(e, re - pm, v); - deref(v); - if ((p = intersect(llbnd, bisector)) != (struct Site *)NULL) { - PQdelete(llbnd); - PQinsert(llbnd, p, dist(p, bot)); - }; - if ((p = intersect(bisector, rrbnd)) != (struct Site *)NULL) { - PQinsert(bisector, p, dist(p, bot)); - }; - } else - break; - }; - - for (lbnd = ELright(ELleftend); lbnd != ELrightend; lbnd = ELright(lbnd)) { - e = lbnd->ELedge; - out_ep(e); - }; -} |