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Stanford Parser processes raw text in English, Chinese, German, Arabic, and French, and extracts constituency parse trees.

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package edu.stanford.nlp.semgraph;

import edu.stanford.nlp.ling.IndexedWord;
import edu.stanford.nlp.trees.*;
import java.util.function.Predicate;
import edu.stanford.nlp.util.Filters;
import edu.stanford.nlp.util.Generics;

import java.util.*;

/**
 * Refactoring of static makers of SemanticGraphs in order to simplify
 * the SemanticGraph class.
 *
 * @author rafferty
 */
public class SemanticGraphFactory {

  private SemanticGraphFactory() {} // just static factory methods

  private static final boolean INCLUDE_PUNCTUATION_DEPENDENCIES = false;

  public static enum Mode {
    COLLAPSED_TREE,
    /** collapse: Whether to do "collapsing" of pairs of dependencies into
     *  single dependencies, e.g., for prepositions and conjunctions.
     */
    COLLAPSED,
    /** ccProcess: Whether to do processing of CC complements resulting from
     *  collapsing.  This argument is ignored unless collapse is
     * true.
     */
    CCPROCESSED,
    BASIC
  }

  /**
   * Produces an Uncollapsed SemanticGraph with no extras.
   */
  public static SemanticGraph generateUncollapsedDependencies(Tree tree) {
    return makeFromTree(tree, Mode.BASIC, GrammaticalStructure.Extras.NONE, true);
  }

  /**
   * Produces a Collapsed SemanticGraph with no extras.
   */
  public static SemanticGraph generateCollapsedDependencies(Tree tree) {
    return makeFromTree(tree, Mode.COLLAPSED, GrammaticalStructure.Extras.NONE, true);
  }

  /**
   * Produces a CCProcessed SemanticGraph with no extras.
   */
  public static SemanticGraph generateCCProcessedDependencies(Tree tree) {
    return makeFromTree(tree, Mode.CCPROCESSED, GrammaticalStructure.Extras.NONE, true);
  }

  /**
   * Produces an Uncollapsed SemanticGraph with no extras.
   */
  public static SemanticGraph generateUncollapsedDependencies(GrammaticalStructure gs) {
    return makeFromTree(gs, Mode.BASIC, GrammaticalStructure.Extras.NONE, true, null);
  }

  /**
   * Produces a Collapsed SemanticGraph with no extras.
   */
  public static SemanticGraph generateCollapsedDependencies(GrammaticalStructure gs) {
    return makeFromTree(gs, Mode.COLLAPSED, GrammaticalStructure.Extras.NONE, true, null);
  }

  /**
   * Produces a CCProcessed SemanticGraph with no extras.
   */
  public static SemanticGraph generateCCProcessedDependencies(GrammaticalStructure gs) {
    return makeFromTree(gs, Mode.CCPROCESSED, GrammaticalStructure.Extras.NONE, true, null);
  }

  /**
   * Produces an Uncollapsed SemanticGraph with optional extras.
   */
  public static SemanticGraph generateUncollapsedDependencies(GrammaticalStructure gs, GrammaticalStructure.Extras extras) {
    return makeFromTree(gs, Mode.BASIC, extras, true, null);
  }

  /**
   * Produces a Collapsed SemanticGraph with optional extras.
   */
  public static SemanticGraph generateCollapsedDependencies(GrammaticalStructure gs, GrammaticalStructure.Extras extras) {
    return makeFromTree(gs, Mode.COLLAPSED, extras, true, null);
  }

  /**
   * Produces a CCProcessed SemanticGraph with optional extras.
   */
  public static SemanticGraph generateCCProcessedDependencies(GrammaticalStructure gs, GrammaticalStructure.Extras extras) {
    return makeFromTree(gs, Mode.CCPROCESSED, extras, true, null);
  }



  /**
   * Returns a new SemanticGraph constructed from a given {@link
   * Tree} with given options. 

* * This factory method is intended to replace a profusion of highly similar * factory methods, such as * typedDependencies(), * typedDependenciesCollapsed(), * allTypedDependencies(), * allTypedDependenciesCollapsed(), etc.

* * For a fuller explanation of the meaning of the boolean arguments, see * {@link GrammaticalStructure}.

* * @param tree A tree representing a phrase structure parse * @param includeExtras Whether to include extra dependencies, which may * result in a non-tree * @param threadSafe Whether to make sure processing is thread-safe * @param filter A filter to exclude certain dependencies; ignored if null * @return A SemanticGraph */ public static SemanticGraph makeFromTree(Tree tree, Mode mode, GrammaticalStructure.Extras includeExtras, boolean threadSafe, Predicate filter) { Predicate wordFilt; if (INCLUDE_PUNCTUATION_DEPENDENCIES) { wordFilt = Filters.acceptFilter(); } else { wordFilt = new PennTreebankLanguagePack().punctuationWordRejectFilter(); } GrammaticalStructure gs = new EnglishGrammaticalStructure(tree, wordFilt, new SemanticHeadFinder(true), threadSafe); return makeFromTree(gs, mode, includeExtras, threadSafe, filter); } /** * @see edu.stanford.nlp.semgraph.SemanticGraphFactory#makeFromTree(edu.stanford.nlp.trees.Tree, edu.stanford.nlp.semgraph.SemanticGraphFactory.Mode, edu.stanford.nlp.trees.GrammaticalStructure.Extras, boolean, java.util.function.Predicate) */ @Deprecated public static SemanticGraph makeFromTree(Tree tree, Mode mode, boolean includeExtras, boolean threadSafe, Predicate filter) { return makeFromTree(tree, mode, includeExtras ? GrammaticalStructure.Extras.MAXIMAL : GrammaticalStructure.Extras.NONE, threadSafe, filter); } // TODO: these booleans would be more readable as enums similar to Mode. // Then the arguments would make more sense public static SemanticGraph makeFromTree(GrammaticalStructure gs, Mode mode, GrammaticalStructure.Extras includeExtras, boolean threadSafe, Predicate filter) { Collection deps; switch(mode) { case COLLAPSED_TREE: deps = gs.typedDependenciesCollapsedTree(); break; case COLLAPSED: deps = gs.typedDependenciesCollapsed(includeExtras); break; case CCPROCESSED: deps = gs.typedDependenciesCCprocessed(includeExtras); break; case BASIC: deps = gs.typedDependencies(includeExtras); break; default: throw new IllegalArgumentException("Unknown mode " + mode); } if (filter != null) { List depsFiltered = Generics.newArrayList(); for (TypedDependency td : deps) { if (filter.test(td)) { depsFiltered.add(td); } } deps = depsFiltered; } // there used to be an if clause that filtered out the case of empty // dependencies. However, I could not understand (or replicate) the error // it alluded to, and it led to empty dependency graphs for very short fragments, // which meant they were ignored by the RTE system. Changed. (pado) // See also the SemanticGraph constructor. //System.err.println(deps.toString()); return new SemanticGraph(deps); } /** * @see edu.stanford.nlp.semgraph.SemanticGraphFactory#makeFromTree(edu.stanford.nlp.trees.GrammaticalStructure, edu.stanford.nlp.semgraph.SemanticGraphFactory.Mode, edu.stanford.nlp.trees.GrammaticalStructure.Extras, boolean, java.util.function.Predicate) */ @Deprecated public static SemanticGraph makeFromTree(GrammaticalStructure tree, Mode mode, boolean includeExtras, boolean threadSafe, Predicate filter) { return makeFromTree(tree, mode, includeExtras ? GrammaticalStructure.Extras.MAXIMAL : GrammaticalStructure.Extras.NONE, threadSafe, filter); } /** * @see edu.stanford.nlp.semgraph.SemanticGraphFactory#makeFromTree(edu.stanford.nlp.trees.GrammaticalStructure, edu.stanford.nlp.semgraph.SemanticGraphFactory.Mode, edu.stanford.nlp.trees.GrammaticalStructure.Extras, boolean, java.util.function.Predicate) */ public static SemanticGraph makeFromTree(GrammaticalStructure structure) { return makeFromTree(structure, Mode.BASIC, GrammaticalStructure.Extras.NONE, false, null); } /** * @see edu.stanford.nlp.semgraph.SemanticGraphFactory#makeFromTree(edu.stanford.nlp.trees.Tree, edu.stanford.nlp.semgraph.SemanticGraphFactory.Mode, edu.stanford.nlp.trees.GrammaticalStructure.Extras, boolean, java.util.function.Predicate) */ public static SemanticGraph makeFromTree(Tree tree, Mode mode, GrammaticalStructure.Extras includeExtras, Predicate filter) { return makeFromTree(tree, mode, includeExtras, false, filter); } /** * @see edu.stanford.nlp.semgraph.SemanticGraphFactory#makeFromTree(edu.stanford.nlp.trees.Tree, edu.stanford.nlp.semgraph.SemanticGraphFactory.Mode, edu.stanford.nlp.trees.GrammaticalStructure.Extras, java.util.function.Predicate) */ @Deprecated public static SemanticGraph makeFromTree(Tree tree, Mode mode, boolean includeExtras, Predicate filter) { return makeFromTree(tree, mode, includeExtras ? GrammaticalStructure.Extras.MAXIMAL : GrammaticalStructure.Extras.NONE, filter); } /** * @see edu.stanford.nlp.semgraph.SemanticGraphFactory#makeFromTree(edu.stanford.nlp.trees.Tree, edu.stanford.nlp.semgraph.SemanticGraphFactory.Mode, edu.stanford.nlp.trees.GrammaticalStructure.Extras, boolean, java.util.function.Predicate) */ public static SemanticGraph makeFromTree(Tree tree, Mode mode, GrammaticalStructure.Extras includeExtras, boolean threadSafe) { return makeFromTree(tree, mode, includeExtras, threadSafe, null); } /** * @see edu.stanford.nlp.semgraph.SemanticGraphFactory#makeFromTree(edu.stanford.nlp.trees.Tree, edu.stanford.nlp.semgraph.SemanticGraphFactory.Mode, edu.stanford.nlp.trees.GrammaticalStructure.Extras, boolean) */ @Deprecated public static SemanticGraph makeFromTree(Tree tree, Mode mode, boolean includeExtras, boolean threadSafe) { return makeFromTree(tree, mode, includeExtras ? GrammaticalStructure.Extras.MAXIMAL : GrammaticalStructure.Extras.NONE, threadSafe); } /** * Returns a new SemanticGraph constructed from the given tree. Dependencies are collapsed * according to the parameter "collapse", and extra dependencies are not included * @param tree tree from which to make new semantic graph * @param collapse collapse dependencies iff this parameter is true */ public static SemanticGraph makeFromTree(Tree tree, boolean collapse) { return makeFromTree(tree, (collapse) ? Mode.COLLAPSED : Mode.BASIC, GrammaticalStructure.Extras.NONE, false, null); } /** * Returns a new SemanticGraph constructed from the given tree. Dependencies are collapsed, * and extra dependencies are not included (convenience method for makeFromTree(Tree tree, boolean collapse)) */ public static SemanticGraph makeFromTree(Tree tree) { return makeFromTree(tree, Mode.COLLAPSED, GrammaticalStructure.Extras.NONE, false, null); } /** * Returns a new SemanticGraph constructed from the given tree. Collapsing * of dependencies is performed according to "collapse". The list includes extra * dependencies which do not respect a tree structure of the * dependencies.

* * (Internally, this invokes (@link * edu.stanford.nlp.trees.GrammaticalStructure#allTypedDependencies() * GrammaticalStructure.allTypedDependencies()).) * * @param tree tree from which to make new semantic graph * @param collapse collapse dependencies iff this parameter is true */ // todo: Should we now update this to do CC process by default? public static SemanticGraph allTypedDependencies(Tree tree, boolean collapse) { return makeFromTree(tree, (collapse) ? Mode.COLLAPSED : Mode.BASIC, GrammaticalStructure.Extras.MAXIMAL, null); } /** * Given a list of edges, attempts to create and return a rooted SemanticGraph. *

* TODO: throw Exceptions, or flag warnings on conditions for concern (no root, etc) */ public static SemanticGraph makeFromEdges(Iterable edges) { // Identify the root(s) of this graph SemanticGraph sg = new SemanticGraph(); Collection vertices = getVerticesFromEdgeSet(edges); for (IndexedWord vertex : vertices) { sg.addVertex(vertex); } for (SemanticGraphEdge edge : edges) { sg.addEdge(edge.getSource(),edge.getTarget(), edge.getRelation(), edge.getWeight(), edge.isExtra()); } sg.resetRoots(); return sg; } /** * Given an iterable set of edges, returns the set of vertices covered by these edges. *

* Note: CDM changed the return of this from a List to a Set in 2011. This seemed more * sensible. Hopefully it doesn't break anything.... */ public static Set getVerticesFromEdgeSet(Iterable edges) { Set retSet = Generics.newHashSet(); for (SemanticGraphEdge edge : edges) { retSet.add(edge.getGovernor()); retSet.add(edge.getDependent()); } return retSet; } /** * Given a set of vertices, and the source graph they are drawn from, create a path composed * of the minimum paths between the vertices. i.e. this is a simple brain-dead attempt at getting * something approximating a minimum spanning graph. * * NOTE: the hope is the vertices will already be contiguous, but facilities are added just in case for * adding additional nodes. */ public static SemanticGraph makeFromVertices(SemanticGraph sg, Collection nodes) { List edgesToAdd = new ArrayList(); List nodesToAdd = new ArrayList(nodes); for (IndexedWord nodeA :nodes) { for (IndexedWord nodeB : nodes) { if (nodeA != nodeB) { List edges = sg.getShortestDirectedPathEdges(nodeA, nodeB); if (edges != null) { edgesToAdd.addAll(edges); for (SemanticGraphEdge edge : edges) { IndexedWord gov = edge.getGovernor(); IndexedWord dep = edge.getDependent(); if (gov != null && !nodesToAdd.contains(gov)) { nodesToAdd.add(gov); } if (dep != null && !nodesToAdd.contains(dep)) { nodesToAdd.add(dep); } } } } } } SemanticGraph retSg = new SemanticGraph(); for (IndexedWord node : nodesToAdd) { retSg.addVertex(node); } for (SemanticGraphEdge edge : edgesToAdd) { retSg.addEdge(edge.getGovernor(), edge.getDependent(), edge.getRelation(), edge.getWeight(), edge.isExtra()); } retSg.resetRoots(); return retSg; } /** * This creates a new graph based off the given, but uses the existing nodes objects. */ public static SemanticGraph duplicateKeepNodes(SemanticGraph sg) { SemanticGraph retSg = new SemanticGraph(); for (IndexedWord node : sg.vertexSet()) { retSg.addVertex(node); } retSg.setRoots(sg.getRoots()); for (SemanticGraphEdge edge : sg.edgeIterable()) { retSg.addEdge(edge.getGovernor(), edge.getDependent(), edge.getRelation(), edge.getWeight(), edge.isExtra()); } return retSg; } /** * Given a list of graphs, constructs a new graph combined from the * collection of graphs. Original vertices are used, edges are * copied. Graphs are ordered by the sentence index and index of * the original vertices. Intent is to create a "mega graph" * similar to the graphs used in the RTE problem. *
* This method only works if the indexed words have different * sentence ids, as otherwise the maps used will confuse several of * the IndexedWords. */ public static SemanticGraph makeFromGraphs(Collection sgList) { SemanticGraph sg = new SemanticGraph(); Collection newRoots = Generics.newHashSet(); for (SemanticGraph currSg : sgList) { newRoots.addAll(currSg.getRoots()); for (IndexedWord currVertex : currSg.vertexSet()) sg.addVertex(currVertex); for (SemanticGraphEdge currEdge : currSg.edgeIterable()) sg.addEdge(currEdge.getGovernor(), currEdge.getDependent(), currEdge.getRelation(), currEdge.getWeight(), currEdge.isExtra()); } sg.setRoots(newRoots); return sg; } /** * Like makeFromGraphs, but it makes a deep copy of the graphs and * renumbers the index words. *
* lengths must be a vector containing the number of * tokens in each sentence. This is used to reindex the tokens. */ public static SemanticGraph deepCopyFromGraphs(List graphs, List lengths) { SemanticGraph newGraph = new SemanticGraph(); Map newWords = Generics.newHashMap(); List newRoots = new ArrayList(); int vertexOffset = 0; for (int i = 0; i < graphs.size(); ++i) { SemanticGraph graph = graphs.get(i); for (IndexedWord vertex : graph.vertexSet()) { IndexedWord newVertex = new IndexedWord(vertex); newVertex.setIndex(vertex.index() + vertexOffset); newGraph.addVertex(newVertex); newWords.put(newVertex.index(), newVertex); } for (SemanticGraphEdge edge : graph.edgeIterable()) { IndexedWord gov = newWords.get(edge.getGovernor().index() + vertexOffset); IndexedWord dep = newWords.get(edge.getDependent().index() + vertexOffset); if (gov == null || dep == null) { throw new AssertionError("Counting problem (or broken edge)"); } newGraph.addEdge(gov, dep, edge.getRelation(), edge.getWeight(), edge.isExtra()); } for (IndexedWord root : graph.getRoots()) { newRoots.add(newWords.get(root.index() + vertexOffset)); } vertexOffset += lengths.get(i); } newGraph.setRoots(newRoots); return newGraph; } }





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