return new ArrayList<>();
}
- return getAllFeatures(featureTypes.toArray(new String[featureTypes
- .size()]));
+ return getAllFeatures(
+ featureTypes.toArray(new String[featureTypes.size()]));
}
/**
for (Entry<String, FeatureStore> featureType : featureStore.entrySet())
{
- Set<String> featureGroups = featureType.getValue().getFeatureGroups(
- positionalFeatures);
+ Set<String> featureGroups = featureType.getValue()
+ .getFeatureGroups(positionalFeatures);
for (String group : groups)
{
if (featureGroups.contains(group))
{
return true;
}
- SequenceOntologyI so = SequenceOntologyFactory.getInstance();
+ SequenceOntologyI so = SequenceOntologyFactory.getSequenceOntology();
for (String term : soTerm)
{
if (type.equals(term) || so.isA(type, term))
@Override
public float getMinimumScore(String type, boolean positional)
{
- return featureStore.containsKey(type) ? featureStore.get(type)
- .getMinimumScore(positional) : Float.NaN;
+ return featureStore.containsKey(type)
+ ? featureStore.get(type).getMinimumScore(positional)
+ : Float.NaN;
}
/**
@Override
public float getMaximumScore(String type, boolean positional)
{
- return featureStore.containsKey(type) ? featureStore.get(type)
- .getMaximumScore(positional) : Float.NaN;
+ return featureStore.containsKey(type)
+ ? featureStore.get(type).getMaximumScore(positional)
+ : Float.NaN;
}
/**
final boolean forwardStrand)
{
Collections.sort(features,
- forwardStrand ? IntervalI.COMPARE_BEGIN_ASC_END_ASC
+ forwardStrand ? IntervalI.COMPARE_BEGIN_ASC_END_DESC
: IntervalI.COMPARE_END_DESC);
}