Java Code Examples for edu.stanford.nlp.semgraph.SemanticGraph#getOutEdgesSorted()
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edu.stanford.nlp.semgraph.SemanticGraph#getOutEdgesSorted() .
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Example 1
Source File: Simplifier.java From tint with GNU General Public License v3.0 | 6 votes |
protected static void addChildren(HashMultimap<Integer, Integer> children, Set<Integer> stack, IndexedWord current, SemanticGraph semanticGraph, Set<IndexedWord> used) { List<SemanticGraphEdge> edges = semanticGraph.getOutEdgesSorted(current); used.add(current); int index = current.index(); for (Integer integer : stack) { children.put(integer, index); } Set<Integer> newStack = new HashSet<>(stack); newStack.add(index); for (SemanticGraphEdge edge : edges) { IndexedWord target = edge.getTarget(); // String relation = edge.getRelation().toString(); // if (relation.equals("punct")) { // continue; // } if (!used.contains(target)) { addChildren(children, newStack, target, semanticGraph, used); } } }
Example 2
Source File: DpUtils.java From ambiverse-nlu with Apache License 2.0 | 6 votes |
private static void subgraph(SemanticGraph graph, IndexedWord root, Collection<IndexedWord> excludeVertexes, Collection<GrammaticalRelation> excludeRelations, Collection<GrammaticalRelation> excludeRelationsTop, Collection<SemanticGraphEdge> edgesToRemove, Set<SemanticGraphEdge> exploredEdges) { List<SemanticGraphEdge> edges = graph.getOutEdgesSorted(root); for (SemanticGraphEdge e : edges) { if(exploredEdges.contains(e)) { continue; } IndexedWord child = e.getDependent(); exploredEdges.add(e); if (excludeVertexes.contains(child) || excludeRelations.contains(e.getRelation()) || excludeRelationsTop.contains(e.getRelation()) || containsRelationOrDescendant(excludeRelations, e.getRelation()) || containsRelationOrDescendant(excludeRelationsTop, e.getRelation())) { edgesToRemove.add(graph.getEdge(root, child)); } else { subgraph(graph, child, excludeVertexes, excludeRelations, Collections.<GrammaticalRelation>emptySet(), edgesToRemove, exploredEdges); } } }
Example 3
Source File: ClauseDetector.java From ambiverse-nlu with Apache License 2.0 | 6 votes |
/** Creates a clause from a parataxis relation * @param root Head of the parataxis relation * @param parroot Dependent of the parataxis relation * @param roots List of clause roots*/ private static void addParataxisClause(ClausIE clausIE, IndexedWord root, IndexedWord parroot, List<IndexedWord> roots, SemanticGraph semanticGraph) { Constituent verb = new IndexedConstituent(semanticGraph, parroot, Type.VERB); List<SemanticGraphEdge> outedges = semanticGraph.getOutEdgesSorted(parroot); SemanticGraphEdge subject = DpUtils.findFirstOfRelationOrDescendent(outedges, EnglishGrammaticalRelations.SUBJECT); if (subject != null) { Constituent subjectConst = new IndexedConstituent(semanticGraph, subject.getDependent(), Type.SUBJECT); Constituent object = new IndexedConstituent(semanticGraph, root, Type.DOBJ); ((IndexedConstituent) object).excludedVertexes.add(parroot); Clause clause = new Clause(semanticGraph); clause.setSubject(0); clause.setVerb(1); clause.getDobjects().add(2); clause.getConstituents().add(subjectConst); clause.getConstituents().add(verb); clause.getConstituents().add(object); clause.setType(Clause.Type.SVO); clausIE.clauses.add(clause); roots.add(null); } }
Example 4
Source File: ReverbPropositionGeneration.java From ambiverse-nlu with Apache License 2.0 | 6 votes |
private IndexedWord getNewRoot(Map<Integer, IndexedWord> included, IndexedConstituent ic, Set<IndexedWord> heads, IndexedWord start, SemanticGraph semanticGraph) { List<SemanticGraphEdge> outEdges = semanticGraph.getOutEdgesSorted(start); IndexedWord nHead; for(SemanticGraphEdge edge: outEdges) { if(heads.contains(edge.getDependent())) { continue; } if(included.values().contains(edge.getDependent()) || ic.excludedVertexes.contains(edge.getDependent())) { if((nHead = getNewRoot(included, ic, heads, edge.getDependent(), semanticGraph)) == null) { continue; } else { return nHead; } } else if(!included.values().contains(edge.getDependent()) && edge.getDependent().get(CoreAnnotations.PartOfSpeechAnnotation.class).startsWith("N")) { return edge.getDependent(); } } return null; }
Example 5
Source File: DpUtils.java From minie with GNU General Public License v3.0 | 5 votes |
/** Finds the first occurrence of a grammatical relation or its descendants for a relative pronoun */ public static SemanticGraphEdge findDescendantRelativeRelation(SemanticGraph semanticGraph, IndexedWord root, GrammaticalRelation rel) { List<SemanticGraphEdge> outedges = semanticGraph.getOutEdgesSorted(root); for (SemanticGraphEdge e : outedges) { if (e.getDependent().tag().charAt(0) == 'W' && rel.isAncestor(e.getRelation())) { return e; } else return findDescendantRelativeRelation(semanticGraph, e.getDependent(), rel); } return null; }
Example 6
Source File: Simplifier.java From tint with GNU General Public License v3.0 | 5 votes |
public static void getChildrenRecursive(SemanticGraph semanticGraph, IndexedWord node, LinkedHashSet<IndexedWord> list, int iter) throws Exception { if (iter > MAX_ITER) { throw new Exception("Too many iterations"); } List<SemanticGraphEdge> outEdgesSorted = semanticGraph.getOutEdgesSorted(node); for (SemanticGraphEdge semanticGraphEdge : outEdgesSorted) { IndexedWord child = semanticGraphEdge.getDependent(); list.add(child); getChildrenRecursive(semanticGraph, child, list, iter + 1); } }
Example 7
Source File: Simplifier.java From tint with GNU General Public License v3.0 | 5 votes |
public static Set<IndexedWord> getChildren(SemanticGraph semanticGraph, IndexedWord node) { Set<IndexedWord> ret = new HashSet<>(); List<SemanticGraphEdge> outEdgesSorted = semanticGraph.getOutEdgesSorted(node); for (SemanticGraphEdge semanticGraphEdge : outEdgesSorted) { ret.add(semanticGraphEdge.getDependent()); } return ret; }
Example 8
Source File: ReplaceSubordinateRule.java From tint with GNU General Public License v3.0 | 5 votes |
static TreeSet<String> getPersons(SemanticGraph semanticGraph, IndexedWord word, CoreMap sentence) { Stack<IndexedWord> wordsToCheck = new Stack<>(); wordsToCheck.add(word); int index = word.index(); while (!wordsToCheck.isEmpty()) { IndexedWord thisWord = wordsToCheck.pop(); List<SemanticGraphEdge> outEdgesSorted = semanticGraph.getOutEdgesSorted(thisWord); for (SemanticGraphEdge semanticGraphEdge : outEdgesSorted) { IndexedWord dependent = semanticGraphEdge.getDependent(); String pos = dependent.get(CoreAnnotations.PartOfSpeechAnnotation.class); if (pos.equals("VA")) { index = Math.min(index, dependent.index()); wordsToCheck.push(dependent); } } } CoreLabel token = sentence.get(CoreAnnotations.TokensAnnotation.class).get(index - 1); String morpho = token.get(DigiMorphAnnotations.MorphoAnnotation.class); String[] parts = morpho.split("\\s+"); TreeSet<String> persons = new TreeSet<>(); for (int i = 1; i < parts.length; i++) { String[] vParts = parts[i].split("\\+"); if (!vParts[1].equals("v")) { continue; } persons.add(vParts[5] + "+" + vParts[6]); } return persons; }
Example 9
Source File: ClauseDetector.java From minie with GNU General Public License v3.0 | 5 votes |
/** Creates a constituent for the relative clause implied by rel * @param semanticGraph The semantic graph * @param root The root of the constituent * @param type The type of the constituent */ private static IndexedConstituent createRelConstituent(SemanticGraph semanticGraph, IndexedWord root, Type type) { List<SemanticGraphEdge> outrcmod = semanticGraph.getOutEdgesSorted(root); SemanticGraphEdge rccop = DpUtils.findFirstOfRelation(outrcmod, EnglishGrammaticalRelations.COPULA); if (rccop != null) { Set<IndexedWord> excludercmod = DpUtils.exclude(semanticGraph, EXCLUDE_RELATIONS_COMPLEMENT, root); return new IndexedConstituent(semanticGraph, root, Collections.<IndexedWord> emptySet(), excludercmod, type); } else return new IndexedConstituent(semanticGraph, root, type); }
Example 10
Source File: DpUtils.java From minie with GNU General Public License v3.0 | 5 votes |
/** Disconnects independent clauses by removing the edge representing the coordinating conjunction */ public static void disconectClauses(SemanticGraph graph, Constituent constituent) { List<SemanticGraphEdge> outedges = graph.getOutEdgesSorted(((IndexedConstituent) constituent).getRoot()); for (int i = 0; i < outedges.size(); i++) { SemanticGraphEdge e = outedges.get(i); if (DpUtils.isAnyConj(e)) { IndexedWord child = e.getDependent(); List<SemanticGraphEdge> outNewRoot = graph.getOutEdgesSorted(child); SemanticGraphEdge sub = DpUtils.findFirstOfRelationOrDescendent(outNewRoot, EnglishGrammaticalRelations.SUBJECT); if (sub != null) graph.removeEdge(e); } } }
Example 11
Source File: DpUtils.java From minie with GNU General Public License v3.0 | 5 votes |
/** Implementation for * {@link #removeEdges(SemanticGraph, IndexedWord, Collection, Collection, Collection)} */ private static int subgraph(SemanticGraph graph, IndexedWord root, Collection<IndexedWord> excludeVertexes, Collection<GrammaticalRelation> excludeRelations, Collection<GrammaticalRelation> excludeRelationsTop, Collection<SemanticGraphEdge> edgesToRemove, int counter) { /* TODO: In some sentences there is infinite recursion. Dirty fix to stop it. Example sentence: "Policies on electronic tickets differ ''from airline to airline and airport to airport,'' said Ms. McInerney, whose group is working with the airline industry on e-ticket policies and the matter of standardizing itineraries and receipts, perhaps with a universal template to create more readily verifiable printouts that carry uniform information like a ticket number that can be matched to an airline computer reservation." */ counter++; if (counter > MAX_RECURSION_ITERATIONS){ return counter; } List<SemanticGraphEdge> edges = graph.getOutEdgesSorted(root); for (SemanticGraphEdge e : edges) { IndexedWord child = e.getDependent(); if (excludeVertexes.contains(child) || excludeRelations.contains(e.getRelation()) || excludeRelationsTop.contains(e.getRelation())) { edgesToRemove.add(graph.getEdge(root, child)); } else { counter = subgraph(graph, child, excludeVertexes, excludeRelations, Collections.<GrammaticalRelation> emptySet(), edgesToRemove, counter); } } return counter; }
Example 12
Source File: ClauseDetector.java From ambiverse-nlu with Apache License 2.0 | 5 votes |
/** Generates a clause from a possessive relation * @param subject The subject of the clause * @param object The object of the clause */ private static void addPossessiveClause(ClausIE clausIE, IndexedWord subject, IndexedWord object, SemanticGraph semanticGraph) { Clause clause = new Clause(semanticGraph); SemanticGraph newSemanticGraph = new SemanticGraph(semanticGraph); clause.setSubject(0); clause.setVerb(1); clause.getDobjects().add(2); Set<IndexedWord> excludesub = new TreeSet<IndexedWord>(); Set<IndexedWord> excludeobj = new TreeSet<IndexedWord>(); excludeobj.add(subject); List<SemanticGraphEdge> outedobj = newSemanticGraph.getOutEdgesSorted(object); excludeVertexPoss(outedobj, excludeobj, clausIE); SemanticGraphEdge rcmod = null; if (subject.tag().charAt(0) == 'W') { IndexedWord root = newSemanticGraph.getParent(object); if (root.tag().equals("IN")) root = newSemanticGraph.getParent(root); // "I saw the man in whose wife I trust" List<SemanticGraphEdge> inedges = newSemanticGraph.getIncomingEdgesSorted(root); rcmod = DpUtils.findFirstOfRelation(inedges, EnglishGrammaticalRelations.RELATIVE_CLAUSE_MODIFIER); } else { List<SemanticGraphEdge> outedges = newSemanticGraph.getOutEdgesSorted(subject); SemanticGraphEdge ps = DpUtils.findFirstOfRelation(outedges, EnglishGrammaticalRelations.POSSESSIVE_MODIFIER); if (ps != null) excludesub.add(ps.getDependent()); } if (rcmod != null) { clause.getConstituents().add(createRelConstituent(newSemanticGraph, rcmod.getGovernor(), Type.SUBJECT)); ((IndexedConstituent) clause.getConstituents().get(0)).getExcludedVertexes() .addAll(excludesub); // to avoid the s in "Bill's clothes are great". } else { clause.getConstituents().add(new IndexedConstituent(newSemanticGraph, subject, Collections.<IndexedWord>emptySet(), excludesub, Type.SUBJECT)); } clause.getConstituents().add(new TextConstituent(clausIE.options.possessiveVerb, Constituent.Type.VERB)); clause.getConstituents() .add(new IndexedConstituent(newSemanticGraph, object, Collections.<IndexedWord>emptySet(), excludeobj, Constituent.Type.DOBJ)); clause.setType(Clause.Type.SVO); clausIE.clauses.add(clause); }
Example 13
Source File: ClauseDetector.java From ambiverse-nlu with Apache License 2.0 | 5 votes |
/** Creates a constituent for the relative clause implied by rel * @param semanticGraph The semantic graph * @param root The root of the constituent * @param type The type of the constituent*/ private static IndexedConstituent createRelConstituent(SemanticGraph semanticGraph, IndexedWord root, Type type) { List<SemanticGraphEdge> outrcmod = semanticGraph.getOutEdgesSorted(root); SemanticGraphEdge rccop = DpUtils.findFirstOfRelation(outrcmod, EnglishGrammaticalRelations.COPULA); if (rccop != null) { Set<IndexedWord> excludercmod = DpUtils.exclude(semanticGraph, EXCLUDE_RELATIONS_COMPLEMENT, root); return new IndexedConstituent(semanticGraph, root, Collections.<IndexedWord>emptySet(), excludercmod, type); } else return new IndexedConstituent(semanticGraph, root, type); }
Example 14
Source File: DpUtils.java From ambiverse-nlu with Apache License 2.0 | 5 votes |
/** Disconnects independent clauses by removing the edge representing the coordinating conjunction */ public static void disconectClauses(SemanticGraph graph, Constituent constituent) { List<SemanticGraphEdge> outedges = graph.getOutEdgesSorted(((IndexedConstituent) constituent).getRoot()); for (int i = 0; i < outedges.size(); i++) { SemanticGraphEdge e = outedges.get(i); if (DpUtils.isAnyConj(e)) { IndexedWord child = e.getDependent(); List<SemanticGraphEdge> outNewRoot = graph.getOutEdgesSorted(child); SemanticGraphEdge sub = DpUtils.findFirstOfRelationOrDescendent(outNewRoot, EnglishGrammaticalRelations.SUBJECT); if (sub != null) graph.removeEdge(e); } } }
Example 15
Source File: DpUtils.java From ambiverse-nlu with Apache License 2.0 | 5 votes |
/** Finds the first occurrence of a grammatical relation or its descendants for a relative pronoun */ public static SemanticGraphEdge findDescendantRelativeRelation(SemanticGraph semanticGraph, IndexedWord root, GrammaticalRelation rel) { List<SemanticGraphEdge> outedges = semanticGraph.getOutEdgesSorted(root); for (SemanticGraphEdge e : outedges) { if (e.getDependent().tag().charAt(0) == 'W' && rel.isAncestor(e.getRelation())) { return e; } else return findDescendantRelativeRelation(semanticGraph, e.getDependent(), rel); } return null; }
Example 16
Source File: Clause.java From ambiverse-nlu with Apache License 2.0 | 5 votes |
private void collectEdges(IndexedWord root, SemanticGraph semanticGraph, Set<SemanticGraphEdge> edges) { for(SemanticGraphEdge edge: semanticGraph.getOutEdgesSorted(root)) { if(edges.contains(edge)) { break; } edges.add(edge); collectEdges(edge.getDependent(), semanticGraph, edges); } }
Example 17
Source File: ClauseDetector.java From minie with GNU General Public License v3.0 | 4 votes |
/** Generates a clause from a possessive relation * @param subject The subject of the clause * @param object The object of the clause */ private static void addPossessiveClause(ClausIE clausIE, IndexedWord subject, IndexedWord object) { Clause clause = new Clause(); SemanticGraph newSemanticGraph = new SemanticGraph(clausIE.getSemanticGraph()); clause.setSubject(0); clause.verb = 1; clause.dobjects.add(2); Set<IndexedWord> excludesub = new TreeSet<IndexedWord>(); Set<IndexedWord> excludeobj = new TreeSet<IndexedWord>(); excludeobj.add(subject); List<SemanticGraphEdge> outedobj = newSemanticGraph.getOutEdgesSorted(object); excludeVertexPoss(outedobj, excludeobj, clausIE); SemanticGraphEdge rcmod = null; if (subject.tag().charAt(0) == 'W') { IndexedWord root = newSemanticGraph.getParent(object); if (root != null){ if (root.tag().equals(POS_TAG.IN)){ root = newSemanticGraph.getParent(root); // "I saw the man in whose wife I trust" } List<SemanticGraphEdge> inedges = newSemanticGraph.getIncomingEdgesSorted(root); rcmod = DpUtils.findFirstOfRelation(inedges, EnglishGrammaticalRelations.RELATIVE_CLAUSE_MODIFIER); } } else { List<SemanticGraphEdge> outedges = newSemanticGraph.getOutEdgesSorted(subject); SemanticGraphEdge ps = DpUtils.findFirstOfRelation(outedges, EnglishGrammaticalRelations.POSSESSIVE_MODIFIER); if (ps != null){ excludesub.add(ps.getDependent()); } } if (rcmod != null) { clause.constituents.add(createRelConstituent(newSemanticGraph, rcmod.getGovernor(), Type.SUBJECT)); // To avoid the s in "Bill's clothes are great". ((IndexedConstituent) clause.constituents.get(0)).getExcludedVertexes().addAll(excludesub); } else { clause.constituents.add(new IndexedConstituent(newSemanticGraph, subject, Collections.<IndexedWord> emptySet(), excludesub, Type.SUBJECT)); } // Create a relation phrase with the possessive verb 'has' Phrase possPhrase = new Phrase(); IndexedWord possessiveVerb = new IndexedWord(); possessiveVerb.setWord("has"); possessiveVerb.setTag(POS_TAG.VBZ); possessiveVerb.setNER(NE_TYPE.NO_NER); possessiveVerb.setLemma("have"); possessiveVerb.setValue("has"); possessiveVerb.setIndex(-2); possPhrase.addWordToList(possessiveVerb); possPhrase.setRoot(possessiveVerb); clause.constituents.add(new PhraseConstituent(possPhrase, Constituent.Type.VERB)); clause.constituents.add(new IndexedConstituent(newSemanticGraph, object, Collections.<IndexedWord> emptySet(), excludeobj, Constituent.Type.DOBJ)); clause.setType(Clause.Type.SVO); clausIE.getClauses().add(clause); }
Example 18
Source File: ReverbPropositionGeneration.java From ambiverse-nlu with Apache License 2.0 | 4 votes |
public int generateReverbRelation(Clause clause, IndexedWord root, SemanticGraph semanticGraph, Map<Integer, IndexedWord> included, Map<Integer, IndexedWord> definite, boolean top, List<IndexedWord> constituentHeads, List<Integer> allowOmitAlternative) { included.put(root.beginPosition(), root); if(!isPresent(included, definite, allowOmitAlternative)) { included.remove(root.beginPosition()); return 0; } else { List<SemanticGraphEdge> outGoingEdges = semanticGraph.getOutEdgesSorted(root); int result = 0; for (SemanticGraphEdge edge : outGoingEdges) { if (DpUtils.isAux(edge) //avoid auxiliaries || DpUtils.isNeg(edge) //avoid negations || DpUtils.isAnySubj(edge) //avoid subject || edge.getDependent().beginPosition() < edge.getGovernor().beginPosition() //avoid left edges (anything before the root) || DpUtils.isPunctuation(edge)) { //avoid punctuation continue; } String pos = edge.getDependent().get(CoreAnnotations.PartOfSpeechAnnotation.class); if (EXCLUDE_POS_FROM_RELATIOM.contains(pos)) { continue; } if(DpUtils.isAuxPass(edge)) { allowOmitAlternative.add(edge.getDependent().beginPosition()); } int success = generateReverbRelation(clause, edge.getDependent(), semanticGraph, included, definite, false, constituentHeads, allowOmitAlternative); if(success == 0 && constituentHeads.contains(edge.getDependent()) && root.beginPosition() < edge.getDependent().beginPosition()) { return 0; } result = Math.max(result, success); if (edge.getDependent().get(CoreAnnotations.PartOfSpeechAnnotation.class).equals("IN") && result < 2) { break; } boolean stop = false; if (top && success == 0) { for (Constituent c : clause.getConstituents()) { if(c instanceof TextConstituent) { continue; } IndexedConstituent ic = (IndexedConstituent) c; if (edge.getDependent().equals(ic.root) && (ic.type.equals(Constituent.Type.DOBJ) || ic.type.equals(Constituent.Type.ACOMP) || (ic.type.equals(Constituent.Type.COMPLEMENT) && clause.getCop()))) { definite.clear(); stop = true; } } } if(stop) { break; } } return 1 + result; } }