// given EntriesItem private void getWithEntriesItem( Word w, MorphItem mi, String stem, String pred, String targetPred, String targetRel, EntriesItem item, MacroAdder macAdder, Map<String, Double> supertags, Set<String> supertagsFound, SignHash result) { // ensure apropos if (targetPred != null && !targetPred.equals(pred)) return; if (targetRel != null && !targetRel.equals(item.getIndexRel()) && !targetRel.equals(item.getCoartRel())) return; if (!item.getActive().booleanValue()) return; if (mi.excluded(item)) return; try { // copy and add macros Category cat = item.getCat().copy(); macAdder.addMacros(cat); // replace DEFAULT_VAL with pred, after first // unifying type of associated nom var(s) with sem class unifySemClass(cat, mi.getWord().getSemClass()); REPLACEMENT = pred; cat.deepMap(defaultReplacer); // check supertag // TODO: think about earlier checks for efficiency, for grammars where macros and preds don't // matter // Double lexprob = null; // nb: skipping lex log probs, don't seem to be helpful if (supertags != null) { // skip if not found String stag = cat.getSupertag(); if (!supertags.containsKey(stag)) return; // otherwise update found supertags supertagsFound.add(stag); // get lex prob // lexprob = supertags.get(stag); } // propagate types of nom vars propagateTypes(cat); // handle distrib attrs and inherits-from propagateDistributiveAttrs(cat); expandInheritsFrom(cat); // merge stem, pos, sem class from morph item, plus supertag from cat Word word = Word.createFullWord(w, mi.getWord(), cat.getSupertag()); // set origin and lexprob Sign sign = new Sign(word, cat); sign.setOrigin(); // if (lexprob != null) { // sign.addData(new SupertaggerAdapter.LexLogProb((float) Math.log10(lexprob))); // } // return sign result.insert(sign); } catch (RuntimeException exc) { System.err.println( "Warning: ignoring entry: " + item.getName() + " of family: " + item.getFamilyName() + " for stem: " + stem + " b/c: " + exc.toString()); } }