public void doRFileEvaluate(final IScope scope, final IContainer param) { int size = param.length(scope); // if ( size == 0 ) { throw GamaRuntimeException.error("Missing Parameter Exception", scope); } final String RFile = getPath(); try { // Call R RCaller caller = new RCaller(); String RPath = GamaPreferences.LIB_R.value(scope).getPath(); caller.setRscriptExecutable(RPath); double[] vectorParam = new double[param.length(scope)]; int k = 0; for (Object o : param.iterable(scope)) { vectorParam[k++] = Cast.asFloat(scope, o); } RCode c = new RCode(); // Adding the parameters c.addDoubleArray("vectorParam", vectorParam); // Adding the codes in file List<String> R_statements = new ArrayList<String>(); // tmthai.begin---------------------------------------------------------------------------- String fullPath = FileUtils.constructAbsoluteFilePath(scope, RFile, true); if (DEBUG) { GuiUtils.debug("Stats.R_compute_param.RScript:" + RPath); GuiUtils.debug("Stats.R_compute_param.Param:" + vectorParam.toString()); GuiUtils.debug("Stats.R_compute_param.RFile:" + RFile); GuiUtils.debug("Stats.R_compute_param.fullPath:" + fullPath); } // FileReader fr = new FileReader(RFile); FileReader fr = new FileReader(fullPath); // tmthai.end---------------------------------------------------------------------------- BufferedReader br = new BufferedReader(fr); String statement; while ((statement = br.readLine()) != null) { c.addRCode(statement); R_statements.add(statement); // java.lang.System.out.println(statement); } br.close(); fr.close(); caller.setRCode(c); GamaMap<String, IList> result = GamaMapFactory.create(Types.STRING, Types.LIST); String var = computeVariable(R_statements.get(R_statements.size() - 1).toString()); caller.runAndReturnResult(var); // DEBUG: // java.lang.System.out.println("Name: '" + R_statements.length(scope) + "'"); if (DEBUG) { GuiUtils.debug("Stats.R_compute_param.R_statements.length: '" + R_statements.size() + "'"); } for (String name : caller.getParser().getNames()) { String[] results = null; results = caller.getParser().getAsStringArray(name); // java.lang.System.out.println("Name: '" + name + "'"); if (DEBUG) { GuiUtils.debug( "Stats.R_compute_param.caller.Name: '" + name + "' length: " + results.length + " - Value: " + results.toString()); } result.put(name, GamaListFactory.create(scope, Types.NO_TYPE, results)); } if (DEBUG) { GuiUtils.debug("Stats.R_compute_param.return:" + result.serialize(false)); } setBuffer(result); } catch (Exception ex) { throw GamaRuntimeException.error("RCallerExecutionException " + ex.getMessage(), scope); } }
private static IList<IList<IAgent>> clusteringUsingWeka( final IScope scope, final Clusterer clusterer, final IList<String> attributes, final IAddressableContainer<Integer, IAgent, Integer, IAgent> agents) throws GamaRuntimeException { Instances dataset = convertToInstances(scope, attributes, agents); try { clusterer.buildClusterer(dataset); IList<IList<IAgent>> groupes = GamaListFactory.create(Types.LIST.of(Types.AGENT)); for (int i = 0; i < clusterer.numberOfClusters(); i++) { groupes.add(GamaListFactory.<IAgent>create(Types.AGENT)); } for (int i = 0; i < dataset.numInstances(); i++) { Instance inst = dataset.instance(i); int clusterIndex = -1; clusterIndex = clusterer.clusterInstance(inst); IList<IAgent> groupe = groupes.get(clusterIndex); groupe.add(agents.get(scope, i)); } return groupes; } catch (Exception e) { return null; } }
@Override public IList<ISpecies> getMicroSpecies() { final IList<ISpecies> retVal = GamaListFactory.create(Types.SPECIES); retVal.addAll(microSpecies.values()); final ISpecies parentSpecies = this.getParentSpecies(); if (parentSpecies != null) { retVal.addAll(parentSpecies.getMicroSpecies()); } return retVal; }
@Override public IList<ISpecies> getSubSpecies(final IScope scope) { IList<ISpecies> subspecies = GamaListFactory.create(Types.SPECIES); GamlModelSpecies model = (GamlModelSpecies) scope.getModel().getSpecies(); for (ISpecies s : model.getAllSpecies().values()) { if (s.getParentSpecies() == this) { subspecies.add(s); } } return subspecies; }
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 public IList<String> getAttributeNames(final IScope scope) { return GamaListFactory.create(scope, Types.STRING, getVarNames()); }
private static void computeXaXsTransitions( final IScope scope, final IAgentFilter filter, final GamaMatrix<Double> fuzzytransitions, final Double distance, final IContainer<Integer, IAgent> agents, final int nbCat, final Map<List<Integer>, Map<Double, Double>> XaPerTransition, final Map<List<Integer>, Map<Double, Double>> XsPerTransition, final Set<Double> Xvals) { IList<ILocation> locs = GamaListFactory.create(Types.POINT); for (IAgent ag : agents.iterable(scope)) { locs.add(ag.getLocation()); } ILocation centralLoc = (ILocation) Stats.getMean(scope, locs); if (filter != null) { IAgent centralAg = scope.getTopology().getAgentClosestTo(scope, centralLoc, filter); List<IAgent> neighbors = distance == 0 ? new ArrayList<IAgent>() : new ArrayList<IAgent>( scope.getTopology().getNeighborsOf(scope, centralAg, distance, filter)); double sizeNorm = FastMath.sqrt(centralAg.getEnvelope().getArea()); Map<IAgent, Double> distancesCoeff = new TOrderedHashMap<IAgent, Double>(); distancesCoeff.put(centralAg, 1.0); for (IAgent ag : neighbors) { double euclidDist = centralAg.getLocation().euclidianDistanceTo(ag.getLocation()); double dist = 1 / (1.0 + euclidDist / sizeNorm); distancesCoeff.put(ag, dist); } for (int i = 0; i < nbCat; i++) { for (int j = 0; j < nbCat; j++) { for (int k = 0; k < nbCat; k++) { List<Integer> ca = new ArrayList(); ca.add(i); ca.add(j); ca.add(k); double xa = 0; double xs = 0; for (IAgent ag : distancesCoeff.keySet()) { double dist = distancesCoeff.get(ag); double xatmp = fuzzyTransition(scope, fuzzytransitions, nbCat, i, k, i, j) * dist; double xstmp = fuzzyTransition(scope, fuzzytransitions, nbCat, i, j, i, k) * dist; if (xatmp > xa) { xa = xatmp; } if (xstmp > xs) { xs = xstmp; } } if (xa > 0) { Map<Double, Double> mapxa = XaPerTransition.get(ca); if (mapxa == null) { mapxa = new TOrderedHashMap<Double, Double>(); mapxa.put(xa, 1.0); XaPerTransition.put(ca, mapxa); } else { if (mapxa.containsKey(xa)) { mapxa.put(xa, mapxa.get(xa) + 1.0); } else { mapxa.put(xa, 1.0); } } Xvals.add(xa); } if (xs > 0) { Map<Double, Double> mapxs = XsPerTransition.get(ca); if (mapxs == null) { mapxs = new TOrderedHashMap<Double, Double>(); mapxs.put(xs, 1.0); XsPerTransition.put(ca, mapxs); } else { if (mapxs.containsKey(xa)) { mapxs.put(xs, mapxs.get(xs) + 1.0); } else { mapxs.put(xs, 1.0); } } Xvals.add(xs); } } } } } }