*/
/*
* ./output-64 <dense-64.cfm 0.1 50 >t.stl
+ * ./output-125 <best-125.cfm >t.stl 0.1 50
* meshlab t.stl
*/
/*
static void compute_outvertices(void) {
int v0,k,side,ab,x,y;
- FOR_VERTEX(v0) {
+ FOR_VERTEX(v0, INNER) {
for (ab=0; ab<2; ab++) {
int v1= EDGE_END2(v0, ab?5:0);
int v2= EDGE_END2(v0, ab?0:1);
K Ok(ovAB[v0][ab][1], centroid[k] - normal[k]);
}
}
- FOR_VERTEX(v0) {
+ FOR_VERTEX(v0, INNER) {
int vw= EDGE_END2(v0,3);
int vnw= EDGE_END2(v0,2);
int vsw= EDGE_END2(v0,4);
K Ok(ovC[v0][side], in[v0][k] + adjust[k]);
}
}
- FOR_RIM_VERTEX(y,x,v0) {
+ FOR_RIM_VERTEX(y,x,v0, INNER) {
double rim[D3], inner[D3], radius_cos[D3], radius_sin[D3];
int vback, vfwd, around;
sin(angle) * radius_sin[k]);
}
}
- FOR_RIM_VERTEX(y,x,v0) {
+ FOR_RIM_VERTEX(y,x,v0, INNER) {
int vfwd= EDGE_END2(v0,0);
assert(vfwd >= 0);
int aroung;
static void outfacets(void) {
int v0,e,side,aroung;
- FOR_VERTEX(v0) {
+ FOR_VERTEX(v0, INNER) {
OutVertex *defs=0, *defs1=0;
int rimy=-1;
int_map *defs1aroundmap= 0;
static void transform_outvertex_array(int n, OutVertex ovX[n]) {
int i, k;
- for (i=0; i<n; i++)
+ for (i=0; i<n; i++) {
+ ovX[i].p[0] *= -1;
+ ovX[i].p[1] *= -1;
K ovX[i].p[k] *= scale;
+ }
/*
* double min[D3]= thick;
* if (ovX[i].p[k] < min)
errno= 0; r= fread(&in,sizeof(in),1,stdin);
if (r!=1) diee("fread");
+ mgraph_prepare();
blank_outvertices();
compute_outvertices();
transform_outvertices();