Exemplo n.º 1
0
  /**
   * Does the mapping respected the component grouping specified by the query.
   *
   * @param mapping a permutation of the query vertices
   * @return the mapping preserves the specified grouping
   */
  @Override
  public boolean apply(final int[] mapping) {

    // no grouping required
    if (queryComponents == null) return true;

    // bidirectional map of query/target components, last index
    // of query components holds the count
    int[] usedBy = new int[cc.nComponents() + 1];
    int[] usedIn = new int[queryComponents[mapping.length] + 1];

    // verify we don't have any collisions
    for (int v = 0; v < mapping.length; v++) {
      if (queryComponents[v] == 0) continue;

      int w = mapping[v];

      int queryComponent = queryComponents[v];
      int targetComponent = targetComponents[w];

      // is the target component already used by a query component?
      if (usedBy[targetComponent] == 0) usedBy[targetComponent] = queryComponent;
      else if (usedBy[targetComponent] != queryComponent) return false;

      // is the query component already used in a target component?
      if (usedIn[queryComponent] == 0) usedIn[queryComponent] = targetComponent;
      else if (usedIn[queryComponent] != targetComponent) return false;
    }

    return true;
  }
Exemplo n.º 2
0
 /**
  * Create a predicate to match components for the provided query (grouping) and target (connected
  * components).
  *
  * @param grouping query grouping
  * @param cc connected component of the target
  */
 public ComponentGrouping(int[] grouping, ConnectedComponents cc) {
   this.queryComponents = grouping;
   this.cc = cc;
   this.targetComponents = cc != null ? cc.components() : null;
 }