@Override
public void train(
double[][] trainingSet,
double[][] expectedResultSet,
KObject origin,
KInternalDataManager manager) {
int maxOutput = ((MetaEnum) origin.metaClass().outputs()[0].type()).literals().length;
KMemoryChunk ks =
manager.preciseChunk(
origin.universe(),
origin.now(),
origin.uuid(),
origin.metaClass(),
((AbstractKObject) origin).previousResolved());
int dependenciesIndex = origin.metaClass().dependencies().index();
// Create initial chunk if empty
int size = (maxOutput + 1) * (origin.metaClass().inputs().length * NUMOFFIELDS + 1);
if (ks.getDoubleArraySize(dependenciesIndex, origin.metaClass()) == 0) {
ks.extendDoubleArray(origin.metaClass().dependencies().index(), size, origin.metaClass());
for (int i = 0; i < size; i++) {
ks.setDoubleArrayElem(dependenciesIndex, i, 0, origin.metaClass());
}
}
Array1D state =
new Array1D(size, 0, origin.metaClass().dependencies().index(), ks, origin.metaClass());
// update the state
for (int i = 0; i < trainingSet.length; i++) {
int output = (int) expectedResultSet[i][0];
for (int j = 0; j < origin.metaClass().inputs().length; j++) {
// If this is the first datapoint
if (state.get(getCounter(output, origin.metaClass().dependencies())) == 0) {
state.set(getIndex(j, output, MIN, origin.metaClass().dependencies()), trainingSet[i][j]);
state.set(getIndex(j, output, MAX, origin.metaClass().dependencies()), trainingSet[i][j]);
state.set(getIndex(j, output, SUM, origin.metaClass().dependencies()), trainingSet[i][j]);
state.set(
getIndex(j, output, SUMSQUARE, origin.metaClass().dependencies()),
trainingSet[i][j] * trainingSet[i][j]);
} else {
if (trainingSet[i][j]
< state.get(getIndex(j, output, MIN, origin.metaClass().dependencies()))) {
state.set(
getIndex(j, output, MIN, origin.metaClass().dependencies()), trainingSet[i][j]);
}
if (trainingSet[i][j]
> state.get(getIndex(j, output, MAX, origin.metaClass().dependencies()))) {
state.set(
getIndex(j, output, MAX, origin.metaClass().dependencies()), trainingSet[i][j]);
}
state.add(getIndex(j, output, SUM, origin.metaClass().dependencies()), trainingSet[i][j]);
state.add(
getIndex(j, output, SUMSQUARE, origin.metaClass().dependencies()),
trainingSet[i][j] * trainingSet[i][j]);
}
// update global stat
if (state.get(getCounter(maxOutput, origin.metaClass().dependencies())) == 0) {
state.set(
getIndex(j, maxOutput, MIN, origin.metaClass().dependencies()), trainingSet[i][j]);
state.set(
getIndex(j, maxOutput, MAX, origin.metaClass().dependencies()), trainingSet[i][j]);
state.set(
getIndex(j, maxOutput, SUM, origin.metaClass().dependencies()), trainingSet[i][j]);
state.set(
getIndex(j, maxOutput, SUMSQUARE, origin.metaClass().dependencies()),
trainingSet[i][j] * trainingSet[i][j]);
} else {
if (trainingSet[i][j]
< state.get(getIndex(j, maxOutput, MIN, origin.metaClass().dependencies()))) {
state.set(
getIndex(j, maxOutput, MIN, origin.metaClass().dependencies()), trainingSet[i][j]);
}
if (trainingSet[i][j]
> state.get(getIndex(j, maxOutput, MAX, origin.metaClass().dependencies()))) {
state.set(
getIndex(j, maxOutput, MAX, origin.metaClass().dependencies()), trainingSet[i][j]);
}
state.add(
getIndex(j, maxOutput, SUM, origin.metaClass().dependencies()), trainingSet[i][j]);
state.add(
getIndex(j, maxOutput, SUMSQUARE, origin.metaClass().dependencies()),
trainingSet[i][j] * trainingSet[i][j]);
}
}
// Update Global counters
state.add(getCounter(output, origin.metaClass().dependencies()), 1);
state.add(getCounter(maxOutput, origin.metaClass().dependencies()), 1);
}
}
public static void main(String[] args) {
KMetaModel metaModel = new MetaModel("SmartCityMetaModel");
KMetaClass metaClassCity = metaModel.addMetaClass("City");
KMetaClass metaClassDistrict = metaModel.addMetaClass("District");
metaClassCity.addAttribute("name", KPrimitiveTypes.STRING);
metaClassDistrict.addAttribute("name", KPrimitiveTypes.STRING);
metaClassDistrict.addAttribute("nbcitizen", KPrimitiveTypes.LONG);
// create the reference districts from City to district with multiplicity 0..*
metaClassCity.addRelation("districts", metaClassDistrict, null);
KModel model =
metaModel.createModel(
DataManagerBuilder.create().withScheduler(new DirectScheduler()).build());
model.connect(
o -> {
// Create reflexively a model object using the metaClass name
KObject city = model.createByName("City", BASE_UNIVERSE, BASE_TIME);
city.setByName("name", "MySmartCity");
// Create reflexively a model object using the metaClass
KObject district_1 = model.create(metaClassDistrict, BASE_UNIVERSE, BASE_TIME);
district_1.setByName("name", "District_1");
district_1.setByName("nbcitizen", 10000);
// Create reflexively a model object using the metaClass
KObject district_2 = model.createByName("District", BASE_UNIVERSE, BASE_TIME);
district_2.setByName("name", "District_2");
district_2.setByName("nbcitizen", 50000);
// Add the two district to the City
city.addByName("districts", district_1);
city.addByName("districts", district_2);
// Save the full model as JSON in the console
model.universe(BASE_UNIVERSE).time(BASE_TIME).json().save(city, System.out::println);
// Visiting all reachable objects from the city
city.visit(
elem -> {
System.out.println("Visiting..." + elem.toJSON());
return KVisitResult.CONTINUE;
},
o1 -> System.out.println("End of the visit"));
// Visiting all attributes of an object
city.visitAttributes(
(metaAttribute, value) -> {
System.out.println(
"City attribute "
+ metaAttribute.metaName()
+ ", type="
+ metaAttribute.attributeTypeId()
+ "="
+ value);
});
// Finally any object have a UUID and can be retrieve from it
long cityUUID = city.uuid();
System.out.println("City uuid=" + cityUUID);
model.lookup(
BASE_UNIVERSE,
BASE_TIME,
cityUUID,
new KCallback<KObject>() {
@Override
public void on(KObject resolvedObject) {
System.out.println("Resolved=" + resolvedObject.toJSON());
}
});
});
}
@Override
public double[][] infer(double[][] features, KObject origin, KInternalDataManager manager) {
int maxOutput = ((MetaEnum) origin.metaClass().outputs()[0].type()).literals().length;
KMemoryChunk ks =
manager.closestChunk(
origin.universe(),
origin.now(),
origin.uuid(),
origin.metaClass(),
((AbstractKObject) origin).previousResolved());
int dependenciesIndex = origin.metaClass().dependencies().index();
// check if chunk is empty
int size = (maxOutput + 1) * (origin.metaClass().inputs().length * NUMOFFIELDS + 1);
if (ks.getDoubleArraySize(dependenciesIndex, origin.metaClass()) == 0) {
return null;
}
Array1D state =
new Array1D(size, 0, origin.metaClass().dependencies().index(), ks, origin.metaClass());
double[][] result = new double[features.length][1];
for (int j = 0; j < features.length; j++) {
result[j] = new double[1];
double maxprob = 0;
double prob = 0;
for (int output = 0; output < maxOutput; output++) {
prob = getProba(features[j], output, state, origin.metaClass().dependencies());
if (prob > maxprob) {
maxprob = prob;
result[j][0] = output;
}
}
}
return result;
}