119 |
|
if (pid < 0) { |
120 |
|
fprintf(stderr, "%s: cannot fork subprocess\n", |
121 |
|
progname); |
122 |
+ |
await_children(nchild); |
123 |
|
exit(1); |
124 |
|
} |
125 |
|
++nchild; /* subprocess started */ |
272 |
|
return(best.amt); |
273 |
|
} |
274 |
|
|
274 |
– |
#ifdef DEBUG |
275 |
– |
static char * |
276 |
– |
thetaphi(const FVECT v) |
277 |
– |
{ |
278 |
– |
static char buf[128]; |
279 |
– |
double theta, phi; |
280 |
– |
|
281 |
– |
theta = 180./M_PI*acos(v[2]); |
282 |
– |
phi = 180./M_PI*atan2(v[1],v[0]); |
283 |
– |
sprintf(buf, "(%.0f,%.0f)", theta, phi); |
284 |
– |
|
285 |
– |
return(buf); |
286 |
– |
} |
287 |
– |
#endif |
288 |
– |
|
275 |
|
/* Compute and insert migration along directed edge (may fork child) */ |
276 |
|
static MIGRATION * |
277 |
|
create_migration(RBFNODE *from_rbf, RBFNODE *to_rbf) |
281 |
|
MIGRATION *newmig; |
282 |
|
double *src_rem, *dst_rem; |
283 |
|
double total_rem = 1., move_amt; |
284 |
< |
int i; |
284 |
> |
int i, j; |
285 |
|
/* check if exists already */ |
286 |
|
for (newmig = from_rbf->ejl; newmig != NULL; |
287 |
|
newmig = nextedge(from_rbf,newmig)) |
300 |
|
exit(1); |
301 |
|
} |
302 |
|
#ifdef DEBUG |
303 |
< |
fprintf(stderr, "Building path from (theta,phi) %s ", |
304 |
< |
thetaphi(from_rbf->invec)); |
305 |
< |
fprintf(stderr, "to %s with %d x %d matrix\n", |
306 |
< |
thetaphi(to_rbf->invec), |
303 |
> |
fprintf(stderr, "Building path from (theta,phi) (%.0f,%.0f) ", |
304 |
> |
get_theta180(from_rbf->invec), |
305 |
> |
get_phi360(from_rbf->invec)); |
306 |
> |
fprintf(stderr, "to (%.0f,%.0f) with %d x %d matrix\n", |
307 |
> |
get_theta180(to_rbf->invec), |
308 |
> |
get_phi360(to_rbf->invec), |
309 |
|
from_rbf->nrbf, to_rbf->nrbf); |
310 |
|
#endif |
311 |
|
/* starting quantities */ |
312 |
|
memset(newmig->mtx, 0, sizeof(float)*from_rbf->nrbf*to_rbf->nrbf); |
313 |
|
for (i = from_rbf->nrbf; i--; ) |
314 |
|
src_rem[i] = rbf_volume(&from_rbf->rbfa[i]) / from_rbf->vtotal; |
315 |
< |
for (i = to_rbf->nrbf; i--; ) |
316 |
< |
dst_rem[i] = rbf_volume(&to_rbf->rbfa[i]) / to_rbf->vtotal; |
315 |
> |
for (j = to_rbf->nrbf; j--; ) |
316 |
> |
dst_rem[j] = rbf_volume(&to_rbf->rbfa[j]) / to_rbf->vtotal; |
317 |
> |
|
318 |
|
do { /* move a bit at a time */ |
319 |
|
move_amt = migration_step(newmig, src_rem, dst_rem, &pmtx); |
320 |
|
total_rem -= move_amt; |
332 |
– |
#ifdef DEBUG |
333 |
– |
if (!nchild) |
334 |
– |
fprintf(stderr, "\r%.9f remaining...", total_rem); |
335 |
– |
#endif |
321 |
|
} while ((total_rem > end_thresh) & (move_amt > 0)); |
322 |
< |
#ifdef DEBUG |
338 |
< |
if (!nchild) fputs("done.\n", stderr); |
339 |
< |
else fprintf(stderr, "finished with %.9f remaining\n", total_rem); |
340 |
< |
#endif |
322 |
> |
|
323 |
|
for (i = from_rbf->nrbf; i--; ) { /* normalize final matrix */ |
324 |
< |
float nf = rbf_volume(&from_rbf->rbfa[i]); |
343 |
< |
int j; |
324 |
> |
double nf = rbf_volume(&from_rbf->rbfa[i]); |
325 |
|
if (nf <= FTINY) continue; |
326 |
|
nf = from_rbf->vtotal / nf; |
327 |
|
for (j = to_rbf->nrbf; j--; ) |
328 |
< |
mtx_coef(newmig,i,j) *= nf; |
328 |
> |
mtx_coef(newmig,i,j) *= nf; /* row now sums to 1.0 */ |
329 |
|
} |
330 |
|
end_subprocess(); /* exit here if subprocess */ |
331 |
|
free_routes(&pmtx); /* free working arrays */ |