forked from GitHub/gf-core
the content of ParseEngAbs3.probs is now merged with ParseEngAbs.probs. The later is now retrained. Once the grammar is compiled with the .probs file now it doesn't need anything more to do robust parsing. The robustness itself is controlled by the flags 'heuristic_search_factor', 'meta_prob' and 'meta_token_prob' in ParseEngAbs.gf
This commit is contained in:
kr.angelov
@@ -87,9 +87,7 @@ typedef struct {
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PgfCId name;
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PgfHypos* context;
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prob_t meta_prob;
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prob_t meta_token_prob;
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PgfMetaChildMap* meta_child_probs;
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prob_t prob;
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void* predicate;
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} PgfAbsCat;
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@@ -230,6 +228,7 @@ typedef GuSeq PgfCncFuns;
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struct PgfConcr {
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PgfCId name;
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PgfAbstr* abstr;
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PgfFlags* cflags;
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PgfPrintNames* printnames;
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GuMap* ccats;
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@@ -63,7 +63,10 @@ typedef struct {
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int prod_full_count;
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#endif
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PgfItem* free_item;
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prob_t beam_size;
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prob_t heuristic_factor;
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prob_t meta_prob;
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prob_t meta_token_prob;
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} PgfParsing;
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typedef enum { BIND_NONE, BIND_HARD, BIND_SOFT } BIND_TYPE;
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@@ -1389,12 +1392,14 @@ pgf_parsing_meta_predict(GuMapItor* fn, const void* key, void* value, GuExn* err
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{
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(void) (err);
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PgfAbsCat* abscat = (PgfAbsCat*) key;
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prob_t meta_prob = *((prob_t*) value);
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PgfAbsCat* abscat = *((PgfAbsCat**) value);
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PgfMetaPredictFn* clo = (PgfMetaPredictFn*) fn;
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PgfParsing* ps = clo->ps;
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PgfItem* meta_item = clo->meta_item;
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if (abscat->prob == INFINITY)
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return;
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PgfCncCat* cnccat =
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gu_map_get(ps->concr->cnccats, abscat->name, PgfCncCat*);
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if (cnccat == NULL)
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@@ -1412,7 +1417,7 @@ pgf_parsing_meta_predict(GuMapItor* fn, const void* key, void* value, GuExn* err
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PgfItem* item =
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pgf_item_copy(meta_item, ps);
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item->inside_prob +=
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ccat->viterbi_prob+meta_prob;
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ccat->viterbi_prob+abscat->prob;
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size_t nargs = gu_seq_length(meta_item->args);
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item->args = gu_new_seq(PgfPArg, nargs+1, ps->pool);
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@@ -1698,18 +1703,14 @@ pgf_parsing_item(PgfParsing* ps, PgfItem* item)
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}
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pgf_parsing_complete(ps, item, ep);
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} else {
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prob_t meta_token_prob =
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item->conts->ccat->cnccat->abscat->meta_token_prob;
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prob_t meta_token_prob =
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ps->meta_token_prob;
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if (meta_token_prob != INFINITY) {
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pgf_parsing_meta_scan(ps, item, meta_token_prob);
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}
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PgfCIdMap* meta_child_probs =
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item->conts->ccat->cnccat->abscat->meta_child_probs;
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if (meta_child_probs != NULL) {
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PgfMetaPredictFn clo = { { pgf_parsing_meta_predict }, ps, item };
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gu_map_iter(meta_child_probs, &clo.fn, NULL);
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}
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PgfMetaPredictFn clo = { { pgf_parsing_meta_predict }, ps, item };
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gu_map_iter(ps->concr->abstr->cats, &clo.fn, NULL);
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}
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} else {
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pgf_parsing_symbol(ps, item, item->curr_sym);
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@@ -1721,22 +1722,38 @@ pgf_parsing_item(PgfParsing* ps, PgfItem* item)
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}
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}
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static prob_t
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pgf_parsing_default_beam_size(PgfConcr* concr)
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static void
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pgf_parsing_set_default_factors(PgfParsing* ps, PgfAbstr* abstr)
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{
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PgfLiteral lit = gu_map_get(concr->cflags, "beam_size", PgfLiteral);
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PgfLiteral lit;
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if (gu_variant_is_null(lit))
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return 0;
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lit =
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gu_map_get(abstr->aflags, "heuristic_search_factor", PgfLiteral);
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if (!gu_variant_is_null(lit)) {
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GuVariantInfo pi = gu_variant_open(lit);
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gu_assert (pi.tag == PGF_LITERAL_FLT);
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ps->heuristic_factor = ((PgfLiteralFlt*) pi.data)->val;
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}
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GuVariantInfo pi = gu_variant_open(lit);
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gu_assert (pi.tag == PGF_LITERAL_FLT);
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return ((PgfLiteralFlt*) pi.data)->val;
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lit =
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gu_map_get(abstr->aflags, "meta_prob", PgfLiteral);
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if (!gu_variant_is_null(lit)) {
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GuVariantInfo pi = gu_variant_open(lit);
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gu_assert (pi.tag == PGF_LITERAL_FLT);
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ps->meta_prob = - log(((PgfLiteralFlt*) pi.data)->val);
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}
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lit =
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gu_map_get(abstr->aflags, "meta_token_prob", PgfLiteral);
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if (!gu_variant_is_null(lit)) {
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GuVariantInfo pi = gu_variant_open(lit);
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gu_assert (pi.tag == PGF_LITERAL_FLT);
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ps->meta_token_prob = - log(((PgfLiteralFlt*) pi.data)->val);
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}
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}
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static PgfParsing*
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pgf_new_parsing(PgfConcr* concr,
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GuString sentence, double heuristics,
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pgf_new_parsing(PgfConcr* concr, GuString sentence,
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GuPool* pool, GuPool* out_pool)
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{
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PgfParsing* ps = gu_new(PgfParsing, pool);
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@@ -1756,7 +1773,11 @@ pgf_new_parsing(PgfConcr* concr,
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ps->prod_full_count = 0;
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#endif
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ps->free_item = NULL;
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ps->beam_size = heuristics;
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ps->heuristic_factor = 0;
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ps->meta_prob = INFINITY;
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ps->meta_token_prob = INFINITY;
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pgf_parsing_set_default_factors(ps, concr->abstr);
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PgfExprMeta *expr_meta =
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gu_new_variant(PGF_EXPR_META,
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@@ -2107,7 +2128,7 @@ pgf_parse_result_is_new(PgfExprState* st)
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// TODO: s/CId/Cat, add the cid to Cat, make Cat the key to CncCat
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static PgfParsing*
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pgf_parsing_init(PgfConcr* concr, PgfCId cat, size_t lin_idx,
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GuString sentence, double heuristics,
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GuString sentence, double heuristic_factor,
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GuExn* err,
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GuPool* pool, GuPool* out_pool)
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{
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@@ -2121,12 +2142,13 @@ pgf_parsing_init(PgfConcr* concr, PgfCId cat, size_t lin_idx,
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gu_assert(lin_idx < cnccat->n_lins);
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if (heuristics < 0) {
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heuristics = pgf_parsing_default_beam_size(concr);
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PgfParsing* ps =
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pgf_new_parsing(concr, sentence, pool, out_pool);
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if (heuristic_factor >= 0) {
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ps->heuristic_factor = heuristic_factor;
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}
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PgfParsing* ps =
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pgf_new_parsing(concr, sentence, heuristics, pool, out_pool);
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PgfParseState* state =
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pgf_new_parse_state(ps, 0, BIND_SOFT);
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@@ -2156,11 +2178,13 @@ pgf_parsing_init(PgfConcr* concr, PgfCId cat, size_t lin_idx,
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gu_buf_heap_push(state->agenda, pgf_item_prob_order, &item);
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}
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PgfItem *item =
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pgf_new_item(ps, conts, ps->meta_prod);
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item->inside_prob =
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ccat->cnccat->abscat->meta_prob;
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gu_buf_heap_push(state->agenda, pgf_item_prob_order, &item);
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if (ps->meta_prob != INFINITY) {
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PgfItem *item =
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pgf_new_item(ps, conts, ps->meta_prod);
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item->inside_prob =
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ps->meta_prob;
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gu_buf_heap_push(state->agenda, pgf_item_prob_order, &item);
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}
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}
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}
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@@ -2200,7 +2224,7 @@ pgf_parsing_proceed(PgfParsing* ps)
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prob_t state_delta =
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(st->viterbi_prob-(st->next ? st->next->viterbi_prob : 0))*
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ps->beam_size;
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ps->heuristic_factor;
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delta_prob += state_delta;
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st = st->next;
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}
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@@ -35,63 +35,6 @@ pgf_read(const char* fpath,
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return pgf;
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}
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void
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pgf_load_meta_child_probs(PgfPGF* pgf, const char* fpath,
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GuPool* pool, GuExn* err)
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{
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FILE *fp = fopen(fpath, "r");
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if (!fp) {
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gu_raise_errno(err);
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return;
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}
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GuPool* tmp_pool = gu_new_pool();
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for (;;) {
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char cat1[21];
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char cat2[21];
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prob_t prob;
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if (fscanf(fp, "%20s\t%20s\t%f", cat1, cat2, &prob) < 3)
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break;
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prob = - log(prob);
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PgfAbsCat* abscat1 =
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gu_map_get(pgf->abstract.cats, cat1, PgfAbsCat*);
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if (abscat1 == NULL) {
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GuExnData* exn = gu_raise(err, PgfExn);
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exn->data = "Unknown category name";
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goto close;
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}
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if (strcmp(cat2, "*") == 0) {
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abscat1->meta_prob = prob;
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} else if (strcmp(cat2, "_") == 0) {
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abscat1->meta_token_prob = prob;
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} else {
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PgfAbsCat* abscat2 = gu_map_get(pgf->abstract.cats, cat2, PgfAbsCat*);
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if (abscat2 == NULL) {
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gu_raise(err, PgfExn);
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GuExnData* exn = gu_raise(err, PgfExn);
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exn->data = "Unknown category name";
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goto close;
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}
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if (abscat1->meta_child_probs == NULL) {
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abscat1->meta_child_probs =
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gu_map_type_new(PgfMetaChildMap, pool);
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}
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gu_map_put(abscat1->meta_child_probs, abscat2, prob_t, prob);
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}
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}
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close:
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gu_pool_free(tmp_pool);
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fclose(fp);
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}
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GuString
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pgf_abstract_name(PgfPGF* pgf)
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{
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@@ -80,11 +80,6 @@ pgf_read(const char* fpath,
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*
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*/
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void
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pgf_load_meta_child_probs(PgfPGF*, const char* fpath,
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GuPool* pool, GuExn* err);
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GuString
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pgf_abstract_name(PgfPGF*);
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@@ -48,7 +48,7 @@ pgf_print_cat(GuMapItor* fn, const void* key, void* value,
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ctxt = next;
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}
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gu_printf(out, err, " ; -- %f\n",cat->meta_prob);
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gu_printf(out, err, " ; -- %f\n", cat->prob);
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}
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void
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@@ -516,10 +516,6 @@ pgf_read_abscat(PgfReader* rdr, PgfAbstr* abstr, PgfCIdMap* abscats)
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gu_return_on_exn(rdr->err, NULL);
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}
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abscat->meta_prob = INFINITY;
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abscat->meta_token_prob = INFINITY;
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abscat->meta_child_probs = NULL;
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GuBuf* functions = gu_new_buf(PgfAbsFun*, rdr->tmp_pool);
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size_t n_functions = pgf_read_len(rdr);
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@@ -538,6 +534,8 @@ pgf_read_abscat(PgfReader* rdr, PgfAbstr* abstr, PgfCIdMap* abscats)
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gu_buf_push(functions, PgfAbsFun*, absfun);
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}
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abscat->prob = - log(gu_in_f64be(rdr->in, rdr->err));
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pgf_jit_predicate(rdr->jit_state, abscats, abscat, functions);
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return abscat;
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@@ -1155,6 +1153,8 @@ pgf_read_concrete(PgfReader* rdr, PgfAbstr* abstr, PgfAbsFun* abs_lin_fun)
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pgf_read_cid(rdr, rdr->opool);
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gu_return_on_exn(rdr->err, NULL);
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concr->abstr = abstr;
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concr->cflags =
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pgf_read_flags(rdr);
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gu_return_on_exn(rdr->err, NULL);
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@@ -53,18 +53,17 @@ int main(int argc, char* argv[]) {
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// Create the pool that is used to allocate everything
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GuPool* pool = gu_new_pool();
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int status = EXIT_SUCCESS;
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if (argc < 5 || argc > 6) {
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fprintf(stderr, "usage: %s pgf cat from-lang to-lang [probs-file]\n", argv[0]);
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if (argc < 5) {
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fprintf(stderr, "usage: %s pgf cat from-lang to-lang\n", argv[0]);
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status = EXIT_FAILURE;
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goto fail;
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}
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char* filename = argv[1];
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GuString filename = argv[1];
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GuString cat = argv[2];
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GuString from_lang = argv[3];
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GuString to_lang = argv[4];
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// Create an exception frame that catches all errors.
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GuExn* err = gu_new_exn(NULL, gu_kind(type), pool);
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@@ -78,16 +77,6 @@ int main(int argc, char* argv[]) {
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goto fail;
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}
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if (argc == 6) {
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char* meta_probs_filename = argv[5];
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pgf_load_meta_child_probs(pgf, meta_probs_filename, pool, err);
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if (!gu_ok(err)) {
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fprintf(stderr, "Loading meta child probs failed\n");
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status = EXIT_FAILURE;
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goto fail;
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}
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}
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// Look up the source and destination concrete categories
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PgfConcr* from_concr = pgf_get_language(pgf, from_lang);
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PgfConcr* to_concr = pgf_get_language(pgf, to_lang);
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Block a user