126 |
|
return(sgn2 == sgn3); |
127 |
|
} |
128 |
|
|
129 |
< |
/* Test and set for edge */ |
129 |
> |
/* Test (and set) bitmap for edge */ |
130 |
|
static int |
131 |
|
check_edge(unsigned char *emap, int nedges, const MIGRATION *mig, int mark) |
132 |
|
{ |
260 |
|
if (rbf == NULL) |
261 |
|
goto memerr; |
262 |
|
memcpy(rbf, mig->rbfv[0], n); /* just duplicate */ |
263 |
+ |
rbf->next = NULL; rbf->ejl = NULL; |
264 |
|
return(rbf); |
265 |
|
} |
266 |
|
full_dist = acos(DOT(mig->rbfv[0]->invec, mig->rbfv[1]->invec)); |
270 |
|
if (rbf == NULL) |
271 |
|
goto memerr; |
272 |
|
memcpy(rbf, mig->rbfv[1], n); /* just duplicate */ |
273 |
+ |
rbf->next = NULL; rbf->ejl = NULL; |
274 |
|
return(rbf); |
275 |
|
} |
276 |
|
t /= full_dist; |
412 |
|
float mc = mtx_coef(miga[2],i,k); |
413 |
|
const RBFVAL *rbf2k; |
414 |
|
double rad2k; |
413 |
– |
FVECT vout; |
415 |
|
int pos[2]; |
416 |
|
if ((mb <= FTINY) & (mc <= FTINY)) |
417 |
|
continue; |
420 |
|
rad2k = R2ANG(rbf2k->crad); |
421 |
|
rbf->rbfa[n].crad = ANG2R(sqrt(srad2 + t*rad2k*rad2k)); |
422 |
|
ovec_from_pos(v2, rbf2k->gx, rbf2k->gy); |
423 |
< |
geodesic(vout, v1, v2, t, GEOD_REL); |
424 |
< |
pos_from_vec(pos, vout); |
423 |
> |
geodesic(v2, v1, v2, t, GEOD_REL); |
424 |
> |
pos_from_vec(pos, v2); |
425 |
|
rbf->rbfa[n].gx = pos[0]; |
426 |
|
rbf->rbfa[n].gy = pos[1]; |
427 |
|
++n; |