/** The extract_links() call sets the chosen_disjuncts array */
static void compute_chosen_disjuncts(Sentence sent)
{
size_t in;
size_t N_linkages_alloced = sent->num_linkages_alloced;
Parse_info pi = sent->parse_info;
for (in=0; in < N_linkages_alloced; in++)
{
Linkage lkg = &sent->lnkages[in];
Linkage_info *lifo = &lkg->lifo;
if (lifo->discarded || lifo->N_violations) continue;
partial_init_linkage(lkg, pi->N_words);
extract_links(lkg, pi);
/* Because the empty words are used only in the parsing stage, they are
* removed here along with their links, so from now on we will not need to
* consider them. */
remove_empty_words(lkg);
}
}
/**
* This fills the linkage array with morphologically-acceptable
* linkages.
*/
static void process_linkages(Sentence sent, extractor_t* pex,
bool overflowed, Parse_Options opts)
{
if (0 == sent->num_linkages_found) return;
if (0 == sent->num_linkages_alloced) return; /* Avoid a later crash. */
/* Pick random linkages if we get more than what was asked for. */
bool pick_randomly = overflowed ||
(sent->num_linkages_found > (int) sent->num_linkages_alloced);
sent->num_valid_linkages = 0;
size_t N_invalid_morphism = 0;
int itry = 0;
size_t in = 0;
int maxtries;
/* In the case of overflow, which will happen for some long
* sentences, but is particularly common for the amy/ady random
* splitters, we want to find as many morpho-acceptable linkages
* as possible, but keep the CPU usage down, as these might be
* very rare. This is due to a bug/feature in the interaction
* between the word-graph and the parser: valid morph linkages
* can be one-in-a-thousand.. or worse. Search for them, but
* don't over-do it.
* Note: This problem has recently been alleviated by an
* alternatives-compatibility check in the fast matcher - see
* alt_connection_possible().
*/
#define MAX_TRIES 250000
if (pick_randomly)
{
/* Try picking many more linkages, but not more than possible. */
maxtries = MIN((int) sent->num_linkages_alloced + MAX_TRIES,
sent->num_linkages_found);
}
else
{
maxtries = sent->num_linkages_alloced;
}
bool need_init = true;
for (itry=0; itry<maxtries; itry++)
{
Linkage lkg = &sent->lnkages[in];
Linkage_info * lifo = &lkg->lifo;
/* Negative values tell extract-links to pick randomly; for
* reproducible-rand, the actual value is the rand seed. */
lifo->index = pick_randomly ? -(itry+1) : itry;
if (need_init)
{
partial_init_linkage(sent, lkg, sent->length);
need_init = false;
}
extract_links(pex, lkg);
compute_link_names(lkg, sent->string_set);
if (verbosity_level(+D_PL))
{
err_msg(lg_Debug, "chosen_disjuncts before:\n\\");
print_chosen_disjuncts_words(lkg, /*prt_opt*/true);
}
if (sane_linkage_morphism(sent, lkg, opts))
{
remove_empty_words(lkg);
if (verbosity_level(+D_PL))
{
err_msg(lg_Debug, "chosen_disjuncts after:\n\\");
print_chosen_disjuncts_words(lkg, /*prt_opt*/false);
}
need_init = true;
in++;
if (in >= sent->num_linkages_alloced) break;
}
else
{
N_invalid_morphism++;
lkg->num_links = 0;
lkg->num_words = sent->length;
// memset(lkg->link_array, 0, lkg->lasz * sizeof(Link));
memset(lkg->chosen_disjuncts, 0, sent->length * sizeof(Disjunct *));
}
}
/* The last one was alloced, but never actually used. Free it. */
if (!need_init) free_linkage(&sent->lnkages[in]);
sent->num_valid_linkages = in;
/* The remainder of the array is garbage; we never filled it in.
* So just pretend that it's shorter than it is */
sent->num_linkages_alloced = sent->num_valid_linkages;
lgdebug(D_PARSE, "Info: sane_morphism(): %zu of %d linkages had "
"invalid morphology construction\n", N_invalid_morphism,
itry + (itry != maxtries));
}