Beispiel #1
0
    private void executeEvent(final int x, final int y) {
      if (executer == null) {
        return;
      }
      final ILocation pp = getModelCoordinatesFrom(x, y, surface);
      if (pp.getX() < 0
          || pp.getY() < 0
          || pp.getX() >= surface.getEnvWidth()
          || pp.getY() >= surface.getEnvHeight()) {
        return;
      }
      final Arguments args = new Arguments();
      final Collection<IAgent> agentset = surface.selectAgent(x, y);
      if (pointArg != null) {
        args.put(
            pointArg, ConstantExpressionDescription.create(new GamaPoint(pp.getX(), pp.getY())));
      }
      if (listArg != null) {
        args.put(listArg, ConstantExpressionDescription.create(agentset));
      }

      executer.setRuntimeArgs(args);
      GAMA.run(
          new GAMA.InScope.Void() {

            @Override
            public void process(final IScope scope) {
              executer.executeOn(scope);
            }
          });
      if (surface.getOutput().isPaused() || GAMA.isPaused()) {
        surface.updateDisplay(true);
      }
    }
Beispiel #2
0
  private static int buildRings(
      final IScope scope,
      final IAgentFilter filter,
      final Double distance,
      final List<Double> rings,
      final Map<Double, Integer> ringsPn,
      final IAddressableContainer<Integer, IAgent, Integer, IAgent> agents) {

    IList<ILocation> locs = GamaListFactory.create(Types.POINT);
    for (IAgent ag : agents.iterable(scope)) {
      locs.add(ag.getLocation());
    }
    ILocation centralLoc = (ILocation) Stats.getMean(scope, locs);
    IAgent centralAg = scope.getTopology().getAgentClosestTo(scope, centralLoc, filter);
    List<IAgent> neighbors =
        distance == 0 || filter == null
            ? new ArrayList<IAgent>()
            : new ArrayList<IAgent>(
                scope.getTopology().getNeighborsOf(scope, centralAg, distance, filter));

    for (IAgent ag : neighbors) {
      double dist = centralLoc.euclidianDistanceTo(ag.getLocation());
      if (dist == 0) {
        continue;
      }
      if (!rings.contains(dist)) {
        rings.add(dist);
        ringsPn.put(dist, 1);
      } else {
        ringsPn.put(dist, 1 + ringsPn.get(dist));
      }
    }
    Collections.sort(rings);

    for (int i = 1; i < rings.size(); i++) {
      double dist = rings.get(i);
      double dist1 = rings.get(i - 1);
      ringsPn.put(dist, ringsPn.get(dist) + ringsPn.get(dist1));
    }

    return rings.size();
  }
  @Override
  protected Object privateExecuteIn(final IScope scope) throws GamaRuntimeException {
    // IGraph data = createData(scope);
    IGraph g = Cast.asGraph(scope, getFacetValue(scope, IKeyword.GRAPH));
    int thread_number =
        Cast.asInt(
            scope,
            getFacetValue(
                scope, GraphForceAtlasLayoutStatement.THREAD_NUMBER, THREAD_NUMBER_DEFAULT));
    boolean dissuade_hubs =
        Cast.asBool(
            scope,
            getFacetValue(
                scope, GraphForceAtlasLayoutStatement.DISSUADE_HUBS, DISSUADE_HUBS_DEFAULT));
    boolean linlog_mode =
        Cast.asBool(
            scope,
            getFacetValue(scope, GraphForceAtlasLayoutStatement.LINLOG_MODE, LINLOG_MODE_DEFAULT));
    boolean prevent_overlap =
        Cast.asBool(
            scope,
            getFacetValue(
                scope, GraphForceAtlasLayoutStatement.PREVENT_OVERLAP, PREVENT_OVERLAP_DEFAULT));
    double edge_weight_influence =
        Cast.asFloat(
            scope,
            getFacetValue(
                scope,
                GraphForceAtlasLayoutStatement.EDGE_WEIGHT_INFLUENCE,
                EDGE_WEIGHT_INFLUENCE_DEFAULT));
    double scaling =
        Cast.asFloat(
            scope, getFacetValue(scope, GraphForceAtlasLayoutStatement.SCALING, SCALING_DEFAULT));
    boolean stronger_gravity =
        Cast.asBool(
            scope,
            getFacetValue(
                scope, GraphForceAtlasLayoutStatement.STRONGER_GRAVITY, STRONGER_GRAVITY_DEFAULT));
    double gravity =
        Cast.asFloat(
            scope, getFacetValue(scope, GraphForceAtlasLayoutStatement.GRAVITY, GRAVITY_DEFAULT));
    double tolerance =
        Cast.asFloat(
            scope,
            getFacetValue(scope, GraphForceAtlasLayoutStatement.TOLERANCE, TOLERANCE_DEFAULT));
    boolean approximate_repulsion =
        Cast.asBool(
            scope,
            getFacetValue(
                scope,
                GraphForceAtlasLayoutStatement.APPROXIMATE_REPULSION,
                APPROXIMATE_REPULSION_DEFAULT));
    double approximation =
        Cast.asFloat(
            scope,
            getFacetValue(
                scope, GraphForceAtlasLayoutStatement.APPROXIMATION, APPROXIMATION_DEFAULT));
    int nb_steps =
        Cast.asInt(
            scope, getFacetValue(scope, GraphForceAtlasLayoutStatement.NB_STEPS, NB_STEPS_DEFAULT));
    Object bp1 = getFacetValue(scope, GraphForceAtlasLayoutStatement.BOUNDED_P1, null);
    Object bp2 = getFacetValue(scope, GraphForceAtlasLayoutStatement.BOUNDED_P2, null);
    // public static IGraph YifanHuLayout_Step_Unlimited(final IGraph g, double optimal_distance,
    // double initial_step, double step_ratio, double convergence_threshold, double
    // barnes_hut_theta) {
    initializing();
    // System.out.println("ForceAtlas2 algorithm (by step), starting.");
    // System.out.println("converting ...");
    IGraph_to_GraphModel(g);
    // System.out.println("initializing ...");
    ForceAtlas2 fa2Layout = new ForceAtlas2(new ForceAtlas2Builder());
    initializing_GraphModel(g);
    fa2Layout.resetPropertiesValues();
    fa2Layout.setGraphModel(graph_model);
    fa2Layout.setOutboundAttractionDistribution(dissuade_hubs);
    fa2Layout.setLinLogMode(linlog_mode);
    fa2Layout.setAdjustSizes(prevent_overlap);
    fa2Layout.setEdgeWeightInfluence(edge_weight_influence);
    fa2Layout.setScalingRatio(scaling);
    fa2Layout.setStrongGravityMode(stronger_gravity);
    fa2Layout.setGravity(gravity);
    fa2Layout.setJitterTolerance(tolerance);
    fa2Layout.setBarnesHutOptimize(approximate_repulsion);
    fa2Layout.setBarnesHutTheta(approximation);
    // System.out.println("working ...");
    fa2Layout.initAlgo();
    // System.out.println("working ...");
    // int nbsteps=1;
    // for (int i = 0; i < nbsteps && fa2Layout.canAlgo(); i++){
    for (int i = 0; i < nb_steps; i++) {
      fa2Layout.goAlgo();
    }
    fa2Layout.endAlgo();
    // fa2Layout.goAlgo();
    // fa2Layout.endAlgo();
    if (bp1 != null && bp2 != null) {
      ILocation p1 = Cast.asPoint(scope, bp1);
      ILocation p2 = Cast.asPoint(scope, bp2);
      Update_locations(
          g,
          FastMath.min(p1.getX(), p2.getX()),
          FastMath.min(p1.getY(), p2.getY()),
          FastMath.max(p1.getX(), p2.getX()),
          FastMath.max(p1.getY(), p2.getY()));
    } else {
      Update_locations(g);
    }

    // System.out.println("ended.");

    return g;
  }