fr.inria.prophet4j.feature.extended.ExtendedFeatureCross Maven / Gradle / Ivy
package fr.inria.prophet4j.feature.extended;
import java.io.Serializable;
import java.util.ArrayList;
import java.util.List;
import fr.inria.prophet4j.feature.Feature;
import fr.inria.prophet4j.feature.FeatureCross;
import static fr.inria.prophet4j.feature.extended.ExtendedFeature.*;
public class ExtendedFeatureCross implements FeatureCross, Serializable {
static final long serialVersionUID = 1L;
private Integer id;
private Double degree;
private List features;
public ExtendedFeatureCross(Integer id) {
this(id, 1.0);
}
public ExtendedFeatureCross(Integer id, Double degree) {
this.id = id;
this.degree = degree;
this.features = new ArrayList<>();
if (id >= FEATURE_BASE_3) {
int tmp = id - FEATURE_BASE_3;
int ordinal0 = tmp / VF_SIZE;
int ordinal1 = tmp % VF_SIZE;
this.features.add(AtomicFeature.values()[ordinal0]);
this.features.add(ValueFeature.values()[ordinal1]);
} else if (id >= FEATURE_BASE_2) {
int tmp = id - FEATURE_BASE_2;
int ordinal0 = tmp / (AF_SIZE * AF_SIZE);
int ordinal1 = (tmp % (AF_SIZE * AF_SIZE)) / AF_SIZE;
int ordinal2 = (tmp % (AF_SIZE * AF_SIZE)) % AF_SIZE;
this.features.add(Position.values()[ordinal0]);
this.features.add(AtomicFeature.values()[ordinal1]);
this.features.add(AtomicFeature.values()[ordinal2]);
} else if (id >= FEATURE_BASE_1) {
int tmp = id - FEATURE_BASE_1;
int ordinal0 = tmp / (AF_SIZE * RF_SIZE);
int ordinal1 = (tmp % (AF_SIZE * RF_SIZE)) / RF_SIZE;
int ordinal2 = (tmp % (AF_SIZE * RF_SIZE)) % RF_SIZE;
this.features.add(Position.values()[ordinal0]);
this.features.add(AtomicFeature.values()[ordinal1]);
this.features.add(RepairFeature.values()[ordinal2]);
} else if (id >= FEATURE_BASE_0) {
int ordinal0 = id - FEATURE_BASE_0;
this.features.add(RepairFeature.values()[ordinal0]);
}
// if (id >= FEATURE_BASE_2) {
// int tmp = id - FEATURE_BASE_2;
// int ordinal0 = tmp / SF_SIZE;
// int ordinal1 = tmp % SF_SIZE;
// this.features.add(RepairFeature.values()[ordinal0]);
// this.features.add(ValueFeature.values()[ordinal1]);
// } else if (id >= FEATURE_BASE_1) {
// int tmp = id - FEATURE_BASE_1;
// int ordinal0 = tmp / AF_SIZE;
// int ordinal1 = tmp % AF_SIZE;
// this.features.add(Position.values()[ordinal0]);
// this.features.add(AtomicFeature.values()[ordinal1]);
// } else if (id >= FEATURE_BASE_0) {
// int tmp = id - FEATURE_BASE_0;
// int ordinal0 = tmp / AF_SIZE;
// int ordinal1 = tmp % AF_SIZE;
// this.features.add(Position.values()[ordinal0]);
// this.features.add(AtomicFeature.values()[ordinal1]);
// }
}
public ExtendedFeatureCross(CrossType crossType, List features) {
this(crossType, features, 1.0);
}
public ExtendedFeatureCross(CrossType crossType, List features, Double degree) {
int ordinal0, ordinal1, ordinal2;
switch (crossType) {
case RF_CT:
assert features.size() == 1;
assert features.get(0) instanceof RepairFeature;
ordinal0 = ((RepairFeature) features.get(0)).ordinal();
this.id = FEATURE_BASE_0 + ordinal0;
break;
case POS_AF_RF_CT:
assert features.size() == 3;
assert features.get(0) instanceof Position;
assert features.get(1) instanceof AtomicFeature;
assert features.get(2) instanceof RepairFeature;
ordinal0 = ((Position) features.get(0)).ordinal();
ordinal1 = ((AtomicFeature) features.get(1)).ordinal();
ordinal2 = ((RepairFeature) features.get(2)).ordinal();
this.id = FEATURE_BASE_1 + ordinal0 * AF_SIZE * RF_SIZE + ordinal1 * RF_SIZE + ordinal2;
break;
case POS_AF_AF_CT:
assert features.size() == 3;
assert features.get(0) instanceof Position;
assert features.get(1) instanceof AtomicFeature;
assert features.get(2) instanceof AtomicFeature;
ordinal0 = ((Position) features.get(0)).ordinal();
ordinal1 = ((AtomicFeature) features.get(1)).ordinal();
ordinal2 = ((AtomicFeature) features.get(2)).ordinal();
this.id = FEATURE_BASE_2 + ordinal0 * AF_SIZE * AF_SIZE + ordinal1 * AF_SIZE + ordinal2;
break;
case AF_VF_CT:
assert features.size() == 2;
assert features.get(0) instanceof AtomicFeature;
assert features.get(1) instanceof ValueFeature;
ordinal0 = ((AtomicFeature) features.get(0)).ordinal();
ordinal1 = ((ValueFeature) features.get(1)).ordinal();
this.id = FEATURE_BASE_3 + ordinal0 * VF_SIZE + ordinal1;
break;
// case POS_AF_CT4SRC:
// assert features.size() == 2;
// assert features.get(0) instanceof Position;
// assert features.get(1) instanceof AtomicFeature;
// ordinal0 = ((Position) features.get(0)).ordinal();
// ordinal1 = ((AtomicFeature) features.get(1)).ordinal();
// this.id = FEATURE_BASE_0 + ordinal0 * AF_SIZE + ordinal1;
// break;
// case POS_AF_CT4DST:
// assert features.size() == 2;
// assert features.get(0) instanceof Position;
// assert features.get(1) instanceof AtomicFeature;
// ordinal0 = ((Position) features.get(0)).ordinal();
// ordinal1 = ((AtomicFeature) features.get(1)).ordinal();
// this.id = FEATURE_BASE_1 + ordinal0 * AF_SIZE + ordinal1;
// break;
// case RF_SF_CT:
// assert features.size() == 2;
// assert features.get(0) instanceof RepairFeature;
// assert features.get(1) instanceof ValueFeature;
// ordinal0 = ((RepairFeature) features.get(0)).ordinal();
// ordinal1 = ((ValueFeature) features.get(1)).ordinal();
// this.id = FEATURE_BASE_2 + ordinal0 * SF_SIZE + ordinal1;
// break;
}
this.degree = degree;
this.features = features;
}
public Integer getId() {
return id;
}
public Double getDegree() {
return degree;
}
public List getFeatures() {
return features;
}
public boolean containFeature(Feature feature) {
return features.contains(feature);
}
@Override
public String toString() {
return "FeatureCross: " + features;
}
@Override
public List getSimpleP4JFeatures() {
// TODO Auto-generated method stub
return null;
}
}