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subd.c
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#include <assert.h>
#include <stdlib.h>
#include "buf.h"
#include "mathx.h"
#include "mesh.h"
#include "util.h"
struct sd_vert {
vector p, newp;
int *es;
int *fs;
};
struct sd_face {
int *vs;
int fvert;
};
struct sd_edge {
int v0, v1;
int f0, f1;
int evert;
};
struct sd_mesh {
struct sd_vert *verts;
struct sd_face *faces;
struct sd_edge *edges;
};
#define sd_v(vi) (sd->verts[vi])
#define sd_f(fi) (sd->faces[fi])
#define sd_e(ei) (sd->edges[ei])
#define sd_vi(v) ((int)((v) - sd->verts))
#define sd_fi(f) ((int)((f) - sd->faces))
#define sd_ei(e) ((int)((e) - sd->edges))
static int sd_find_edge(struct sd_mesh *sd, int v0, int v1)
{
int *ei;
struct sd_vert *v;
v = &sd_v(v0);
buf_foreach(ei, v->es) {
struct sd_edge *e = &sd_e(*ei);
if ((e->v0 == v0 && e->v1 == v1) ||
(e->v0 == v1 && e->v1 == v0))
return *ei;
}
return -1;
}
static struct sd_vert *
sd_edge_other(struct sd_mesh *sd, struct sd_edge *e, struct sd_vert *v)
{
int vi;
vi = sd_vi(v);
assert(e->v0 == vi || e->v1 == vi);
return &sd_v(e->v0 == vi ? e->v1 : e->v0);
}
static void sd_update_links(struct sd_mesh *sd)
{
struct sd_vert *v;
struct sd_face *f;
buf_foreach(v, sd->verts) {
buf_resize(v->fs, 0);
buf_resize(v->es, 0);
}
buf_resize(sd->edges, 0);
buf_foreach(f, sd->faces) {
int j;
for (j = 0; j < buf_len(f->vs); j++) {
int v0, v1, ei;
v0 = f->vs[j];
v1 = f->vs[(j+1) % buf_len(f->vs)];
buf_push(sd_v(v0).fs, sd_fi(f));
ei = sd_find_edge(sd, v0, v1);
if (ei == -1) {
struct sd_edge edge;
edge.v0 = v0;
edge.v1 = v1;
edge.f0 = sd_fi(f);
edge.f1 = -1;
edge.evert = -1;
buf_push(sd->edges, edge);
ei = buf_len(sd->edges) - 1;
buf_push(sd_v(v0).es, ei);
buf_push(sd_v(v1).es, ei);
} else {
assert(sd_e(ei).f1 == -1);
sd_e(ei).f1 = sd_fi(f);
}
}
}
}
static struct sd_mesh *sd_init(const struct mesh *mesh)
{
int i, j, nr_verts, nr_faces;
const float *vbuf;
struct sd_vert *v;
struct sd_mesh *sd;
sd = malloc(sizeof(*sd));
sd->verts = NULL;
sd->faces = NULL;
sd->edges = NULL;
/* Create vertices */
nr_verts = mesh_vertex_buffer(mesh, &vbuf);
buf_resize(sd->verts, nr_verts);
buf_foreach(v, sd->verts) {
vec_copy(v->p, vbuf);
v->es = NULL;
v->fs = NULL;
vbuf += 3;
}
/* Create faces */
nr_faces = mesh_face_count(mesh);
buf_resize(sd->faces, nr_faces);
for (i = 0; i < nr_faces; i++) {
struct sd_face *f;
f = &sd_f(i);
f->vs = NULL;
f->fvert = -1;
nr_verts = mesh_face_vertex_count(mesh, i);
buf_reserve(f->vs, nr_verts);
for (j = 0; j < nr_verts; j++) {
int vidx, nidx;
mesh_face_vertex_index(mesh, i, j, &vidx, &nidx);
buf_push(f->vs, vidx);
}
}
/* Create edges */
sd_update_links(sd);
return sd;
}
static void sd_free(struct sd_mesh *sd)
{
struct sd_vert *v;
struct sd_face *f;
buf_foreach(v, sd->verts) {
buf_free(v->es);
buf_free(v->fs);
}
buf_free(sd->verts);
buf_foreach(f, sd->faces)
buf_free(f->vs);
buf_free(sd->faces);
buf_free(sd->edges);
free(sd);
}
static int sd_add_vert(struct sd_mesh *sd, vector p)
{
struct sd_vert v;
vec_copy(v.p, p);
v.es = NULL;
v.fs = NULL;
buf_push(sd->verts, v);
return buf_len(sd->verts) - 1;
}
static void sd_do_iteration(struct sd_mesh *sd, int first_iteration, int last_iteration)
{
int V, F, E, Vn, Fn, En;
struct sd_face *faces = NULL;
struct sd_vert *v;
struct sd_face *f;
struct sd_edge *e;
int *vi, *fi, *ei;
/* V' = V + F + E
* F' = Sum_i=0^F(f_i), (F' = 4F, when quad-mesh)
* E' = 2E + F'
*/
V = buf_len(sd->verts);
F = buf_len(sd->faces);
E = buf_len(sd->edges);
Vn = V + F + E;
if (first_iteration) {
Fn = 0;
buf_foreach(f, sd->faces)
Fn += buf_len(f->vs);
} else {
/* After the first iteration all faces are quads */
Fn = 4 * F;
}
En = 2 * E + Fn;
/* 1. Update vertices */
buf_reserve(sd->verts, Vn);
/* Create face vertices */
buf_foreach(f, sd->faces) {
vector p;
vec_zero(p);
buf_foreach(vi, f->vs)
vec_add(p, p, sd_v(*vi).p);
vec_mul(p, 1.0f / buf_len(f->vs), p);
f->fvert = sd_add_vert(sd, p);
}
/* Create edge vertices */
buf_foreach(e, sd->edges) {
vector p;
assert(e->f1 != -1);
vec_zero(p);
vec_add(p, p, sd_v(e->v0).p);
vec_add(p, p, sd_v(e->v1).p);
vec_add(p, p, sd_v(sd_f(e->f0).fvert).p);
vec_add(p, p, sd_v(sd_f(e->f1).fvert).p);
vec_mul(p, 0.25f, p);
e->evert = sd_add_vert(sd, p);
}
/* Move old vertices */
buf_foreach(v, sd->verts) {
int n;
vector p;
if (sd_vi(v) >= V)
break;
assert(buf_len(v->fs) == buf_len(v->es));
n = buf_len(v->fs);
vec_copy(v->newp, v->p);
vec_mul(v->newp, (float) (n - 2) / n, v->newp);
vec_zero(p);
buf_foreach(fi, v->fs)
vec_add(p, p, sd_v(sd_f(*fi).fvert).p);
vec_mad(v->newp, 1.0f / (n * n), p);
vec_zero(p);
buf_foreach(ei, v->es)
vec_add(p, p, sd_edge_other(sd, &sd_e(*ei), v)->p);
vec_mad(v->newp, 1.0f / (n * n), p);
}
buf_foreach(v, sd->verts) {
if (sd_vi(v) >= V)
break;
vec_copy(v->p, v->newp);
}
/* 2. Create new faces */
buf_reserve(faces, Fn);
buf_foreach(f, sd->faces) {
int j;
for (j = 0; j < buf_len(f->vs); j++) {
int v0, v, v1;
struct sd_edge *e0, *e1;
struct sd_face new_face;
v0 = f->vs[(j - 1 + buf_len(f->vs)) % buf_len(f->vs)];
v = f->vs[j];
v1 = f->vs[(j + 1) % buf_len(f->vs)];
e0 = &sd_e(sd_find_edge(sd, v0, v));
e1 = &sd_e(sd_find_edge(sd, v, v1));
new_face.vs = NULL;
buf_reserve(new_face.vs, 4);
buf_push(new_face.vs, e0->evert);
buf_push(new_face.vs, v);
buf_push(new_face.vs, e1->evert);
buf_push(new_face.vs, f->fvert);
new_face.fvert = -1;
buf_push(faces, new_face);
}
}
SWAP(struct sd_face *, sd->faces, faces);
buf_free(faces);
/* 3. Update edges */
if (!last_iteration) { /* Skip on last iteration */
buf_reserve(sd->edges, En);
sd_update_links(sd);
}
}
static struct mesh *sd_convert(struct sd_mesh *sd)
{
struct mesh *mesh;
struct sd_vert *v;
struct sd_face *f;
int *vi;
mesh = mesh_create();
buf_foreach(v, sd->verts)
mesh_add_vertex(mesh, v->p);
buf_foreach(f, sd->faces) {
mesh_begin_face(mesh);
buf_foreach(vi, f->vs)
mesh_add_index(mesh, *vi, -1);
mesh_end_face(mesh);
}
mesh_compute_normals(mesh);
return mesh;
}
struct mesh *subdivide(const struct mesh *mesh, int iterations)
{
int i;
struct sd_mesh *sd;
struct mesh *ret;
sd = sd_init(mesh);
for (i = 0; i < iterations; i++) {
sd_do_iteration(sd, i == 0, i + 1 == iterations);
}
ret = sd_convert(sd);
sd_free(sd);
return ret;
}
void subdivide_levels(const struct mesh *mesh,
struct mesh **levels, int nr_levels)
{
int i;
struct sd_mesh *sd;
sd = sd_init(mesh);
for (i = 0; i < nr_levels; i++) {
sd_do_iteration(sd, i == 0, i + 1 == nr_levels);
levels[i] = sd_convert(sd);
}
sd_free(sd);
}