package jalview.datamodel.features;
+import jalview.datamodel.ContiguousI;
import jalview.datamodel.SequenceFeature;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
+import java.util.HashSet;
import java.util.List;
+import java.util.Set;
/**
* A data store for a set of sequence features that supports efficient lookup of
- * features overlapping a given range.
+ * features overlapping a given range. Intended for (but not limited to) storage
+ * of features for one sequence and feature type.
*
* @author gmcarstairs
*
*/
public class FeatureStore
{
- Comparator<ContiguousI> startOrdering = new RangeComparator(true);
+ /**
+ * a class providing criteria for performing a binary search of a list
+ */
+ abstract static class SearchCriterion
+ {
+ /**
+ * Answers true if the entry passes the search criterion test
+ *
+ * @param entry
+ * @return
+ */
+ abstract boolean compare(SequenceFeature entry);
- Comparator<ContiguousI> endOrdering = new RangeComparator(false);
+ /**
+ * serves a search condition for finding the first feature whose start
+ * position follows a given target location
+ *
+ * @param target
+ * @return
+ */
+ static SearchCriterion byStart(final long target)
+ {
+ return new SearchCriterion() {
+
+ @Override
+ boolean compare(SequenceFeature entry)
+ {
+ return entry.getBegin() >= target;
+ }
+ };
+ }
+
+ /**
+ * serves a search condition for finding the first feature whose end
+ * position is at or follows a given target location
+ *
+ * @param target
+ * @return
+ */
+ static SearchCriterion byEnd(final long target)
+ {
+ return new SearchCriterion()
+ {
+
+ @Override
+ boolean compare(SequenceFeature entry)
+ {
+ return entry.getEnd() >= target;
+ }
+ };
+ }
+
+ /**
+ * serves a search condition for finding the first feature which follows the
+ * given range as determined by a supplied comparator
+ *
+ * @param target
+ * @return
+ */
+ static SearchCriterion byFeature(final ContiguousI to,
+ final Comparator<ContiguousI> rc)
+ {
+ return new SearchCriterion()
+ {
+
+ @Override
+ boolean compare(SequenceFeature entry)
+ {
+ return rc.compare(entry, to) >= 0;
+ }
+ };
+ }
+ }
+
+ /*
+ * Non-positional features have no (zero) start/end position.
+ * Kept as a separate list in case this criterion changes in future.
+ */
+ List<SequenceFeature> nonPositionalFeatures;
/*
* An ordered list of features, with the promise that no feature in the list
*/
NCList<SequenceFeature> nestedFeatures;
+ /*
+ * Feature groups represented in stored positional features
+ * (possibly including null)
+ */
+ Set<String> positionalFeatureGroups;
+
+ /*
+ * Feature groups represented in stored non-positional features
+ * (possibly including null)
+ */
+ Set<String> nonPositionalFeatureGroups;
+
+ /*
+ * the total length of all positional features; contact features count 1 to
+ * the total and 1 to size(), consistent with an average 'feature length' of 1
+ */
+ int totalExtent;
+
+ float positionalMinScore;
+
+ float positionalMaxScore;
+
+ float nonPositionalMinScore;
+
+ float nonPositionalMaxScore;
+
/**
* Constructor
*/
public FeatureStore()
{
nonNestedFeatures = new ArrayList<SequenceFeature>();
- // we only construct contactFeatures and the NCList if we need to
+ positionalFeatureGroups = new HashSet<String>();
+ nonPositionalFeatureGroups = new HashSet<String>();
+ positionalMinScore = Float.NaN;
+ positionalMaxScore = Float.NaN;
+ nonPositionalMinScore = Float.NaN;
+ nonPositionalMaxScore = Float.NaN;
+
+ // we only construct nonPositionalFeatures, contactFeatures
+ // or the NCList if we need to
}
/**
- * Add one entry to the data store
+ * Adds one sequence feature to the store, and returns true, unless the
+ * feature is already contained in the store, in which case this method
+ * returns false. Containment is determined by SequenceFeature.equals()
+ * comparison.
*
* @param feature
*/
- public void addFeature(SequenceFeature feature)
+ public boolean addFeature(SequenceFeature feature)
{
+ if (contains(feature))
+ {
+ return false;
+ }
+
+ /*
+ * keep a record of feature groups
+ */
+ if (!feature.isNonPositional())
+ {
+ positionalFeatureGroups.add(feature.getFeatureGroup());
+ }
+
+ boolean added = false;
+
if (feature.isContactFeature())
{
- addContactFeature(feature);
+ added = addContactFeature(feature);
+ }
+ else if (feature.isNonPositional())
+ {
+ added = addNonPositionalFeature(feature);
}
else
{
- boolean added = addNonNestedFeature(feature);
+ added = addNonNestedFeature(feature);
if (!added)
{
/*
* detected a nested feature - put it in the NCList structure
*/
- addNestedFeature(feature);
+ added = addNestedFeature(feature);
}
}
+
+ if (added)
+ {
+ /*
+ * record the total extent of positional features, to make
+ * getTotalFeatureLength possible; we count the length of a
+ * contact feature as 1
+ */
+ totalExtent += getFeatureLength(feature);
+
+ /*
+ * record the minimum and maximum score for positional
+ * and non-positional features
+ */
+ float score = feature.getScore();
+ if (!Float.isNaN(score))
+ {
+ if (feature.isNonPositional())
+ {
+ nonPositionalMinScore = min(nonPositionalMinScore, score);
+ nonPositionalMaxScore = max(nonPositionalMaxScore, score);
+ }
+ else
+ {
+ positionalMinScore = min(positionalMinScore, score);
+ positionalMaxScore = max(positionalMaxScore, score);
+ }
+ }
+ }
+
+ return added;
}
/**
- * Adds one feature to the NCList that can manage nested features (creating
- * the NCList if necessary)
+ * Answers true if this store contains the given feature (testing by
+ * SequenceFeature.equals), else false
+ *
+ * @param feature
+ * @return
*/
- protected synchronized void addNestedFeature(SequenceFeature feature)
+ public boolean contains(SequenceFeature feature)
{
- if (nestedFeatures == null)
+ if (feature.isNonPositional())
{
- nestedFeatures = new NCList<SequenceFeature>(feature);
+ return nonPositionalFeatures == null ? false : nonPositionalFeatures
+ .contains(feature);
}
- else
+
+ if (feature.isContactFeature())
+ {
+ return contactFeatureStarts == null ? false : listContains(
+ contactFeatureStarts, feature);
+ }
+
+ if (listContains(nonNestedFeatures, feature))
+ {
+ return true;
+ }
+
+ return nestedFeatures == null ? false : nestedFeatures
+ .contains(feature);
+ }
+
+ /**
+ * Answers the 'length' of the feature, counting 0 for non-positional features
+ * and 1 for contact features
+ *
+ * @param feature
+ * @return
+ */
+ protected static int getFeatureLength(SequenceFeature feature)
+ {
+ if (feature.isNonPositional())
+ {
+ return 0;
+ }
+ if (feature.isContactFeature())
+ {
+ return 1;
+ }
+ return 1 + feature.getEnd() - feature.getBegin();
+ }
+
+ /**
+ * Adds the feature to the list of non-positional features (with lazy
+ * instantiation of the list if it is null), and returns true. The feature
+ * group is added to the set of distinct feature groups for non-positional
+ * features. This method allows duplicate features, so test before calling to
+ * prevent this.
+ *
+ * @param feature
+ */
+ protected boolean addNonPositionalFeature(SequenceFeature feature)
+ {
+ if (nonPositionalFeatures == null)
{
- nestedFeatures.add(feature);
+ nonPositionalFeatures = new ArrayList<SequenceFeature>();
}
+
+ nonPositionalFeatures.add(feature);
+
+ nonPositionalFeatureGroups.add(feature.getFeatureGroup());
+
+ return true;
+ }
+
+ /**
+ * Adds one feature to the NCList that can manage nested features (creating
+ * the NCList if necessary), and returns true. If the feature is already
+ * stored in the NCList (by equality test), then it is not added, and this
+ * method returns false.
+ */
+ protected synchronized boolean addNestedFeature(SequenceFeature feature)
+ {
+ if (nestedFeatures == null)
+ {
+ nestedFeatures = new NCList<>(feature);
+ return true;
+ }
+ return nestedFeatures.add(feature, false);
}
/**
* contained by) an existing feature. If there is no nesting, the feature is
* added to the list and the method returns true. If nesting is found, the
* feature is not added and the method returns false.
- * <p>
- * Contact features are added at the position of their first contact point
*
* @param feature
* @return
{
synchronized (nonNestedFeatures)
{
- int insertPosition = binarySearchForAdd(nonNestedFeatures, feature);
+ /*
+ * find the first stored feature which doesn't precede the new one
+ */
+ int insertPosition = binarySearch(nonNestedFeatures,
+ SearchCriterion.byFeature(feature, RangeComparator.BY_START_POSITION));
/*
* fail if we detect feature enclosure - of the new feature by
}
/*
- * checks passed - add or append the feature
+ * checks passed - add the feature
*/
- if (insertPosition == nonNestedFeatures.size())
- {
- nonNestedFeatures.add(feature);
- }
- else
- {
- nonNestedFeatures.add(insertPosition, feature);
- }
+ nonNestedFeatures.add(insertPosition, feature);
+
return true;
}
}
}
/**
- * Answers the index of the first element in the given list which follows or
- * matches the given feature in the sort order. If no such element, answers
- * the length of the list.
+ * Add a contact feature to the lists that hold them ordered by start (first
+ * contact) and by end (second contact) position, ensuring the lists remain
+ * ordered, and returns true. This method allows duplicate features to be
+ * added, so test before calling to avoid this.
*
- * @param list
* @param feature
- *
* @return
*/
- protected int binarySearchForAdd(List<SequenceFeature> list, SequenceFeature feature)
+ protected synchronized boolean addContactFeature(SequenceFeature feature)
{
- // TODO binary search!
- int i = 0;
- while (i < list.size())
+ if (contactFeatureStarts == null)
{
- if (startOrdering.compare(nonNestedFeatures.get(i), feature) >= 0)
- {
- break;
- }
- i++;
+ contactFeatureStarts = new ArrayList<SequenceFeature>();
+ }
+ if (contactFeatureEnds == null)
+ {
+ contactFeatureEnds = new ArrayList<SequenceFeature>();
}
- return i;
+
+ /*
+ * binary search the sorted list to find the insertion point
+ */
+ int insertPosition = binarySearch(contactFeatureStarts,
+ SearchCriterion.byFeature(feature,
+ RangeComparator.BY_START_POSITION));
+ contactFeatureStarts.add(insertPosition, feature);
+ // and resort to mak siccar...just in case insertion point not quite right
+ Collections.sort(contactFeatureStarts, RangeComparator.BY_START_POSITION);
+
+ insertPosition = binarySearch(contactFeatureStarts,
+ SearchCriterion.byFeature(feature,
+ RangeComparator.BY_END_POSITION));
+ contactFeatureEnds.add(feature);
+ Collections.sort(contactFeatureEnds, RangeComparator.BY_END_POSITION);
+
+ return true;
}
/**
- * Add a contact feature to the lists that hold them ordered by start (first
- * contact) and by end (second contact) position, ensuring the lists remain
- * ordered
+ * Answers true if the list contains the feature, else false. This method is
+ * optimised for the condition that the list is sorted on feature start
+ * position ascending, and will give unreliable results if this does not hold.
*
+ * @param features
* @param feature
+ * @return
*/
- protected synchronized void addContactFeature(SequenceFeature feature)
+ protected static boolean listContains(List<SequenceFeature> features,
+ SequenceFeature feature)
{
- // TODO binary search for insertion points!
- if (contactFeatureStarts == null)
+ if (features == null || feature == null)
{
- contactFeatureStarts = new ArrayList<SequenceFeature>();
+ return false;
}
- if (contactFeatureEnds == null)
+
+ /*
+ * locate the first entry in the list which does not precede the feature
+ */
+ int pos = binarySearch(features,
+ SearchCriterion.byFeature(feature, RangeComparator.BY_START_POSITION));
+ int len = features.size();
+ while (pos < len)
{
- contactFeatureEnds = new ArrayList<SequenceFeature>();
+ SequenceFeature sf = features.get(pos);
+ if (sf.getBegin() > feature.getBegin())
+ {
+ return false; // no match found
+ }
+ if (sf.equals(feature))
+ {
+ return true;
+ }
+ pos++;
}
- contactFeatureStarts.add(feature);
- Collections.sort(contactFeatureStarts, startOrdering);
- contactFeatureEnds.add(feature);
- Collections.sort(contactFeatureEnds, endOrdering);
+ return false;
}
/**
- * Returns a (possibly empty) list of entries whose range overlaps the given
+ * Returns a (possibly empty) list of features whose extent overlaps the given
* range. The returned list is not ordered. Contact features are included if
* either of the contact points lies within the range.
*
*/
public List<SequenceFeature> findOverlappingFeatures(long start, long end)
{
- List<SequenceFeature> result = new ArrayList<SequenceFeature>();
+ List<SequenceFeature> result = new ArrayList<>();
findNonNestedFeatures(start, end, result);
/**
* Adds contact features to the result list where either the second or the
- * first contact position lies within the target range.
+ * first contact position lies within the target range
*
* @param from
* @param to
}
/**
+ * Adds to the result list any contact features whose end (second contact
+ * point), but not start (first contact point), lies in the query from-to
+ * range
+ *
* @param from
* @param to
* @param result
protected void findContactEndFeatures(long from, long to,
List<SequenceFeature> result)
{
- // TODO binary search for startPosition
- for (int startPosition = 0; startPosition < contactFeatureEnds.size(); startPosition++)
+ /*
+ * find the first contact feature (if any) that does not lie
+ * entirely before the target range
+ */
+ int startPosition = binarySearch(contactFeatureEnds,
+ SearchCriterion.byEnd(from));
+ for (; startPosition < contactFeatureEnds.size(); startPosition++)
{
SequenceFeature sf = contactFeatureEnds.get(startPosition);
if (!sf.isContactFeature())
+ sf.getType() + " in contact features list");
continue;
}
+
int begin = sf.getBegin();
if (begin >= from && begin <= to)
{
*/
continue;
}
+
int end = sf.getEnd();
if (end >= from && end <= to)
{
result.add(sf);
}
- }
- }
-
- /**
- * Returns the index of the first contact feature found whose end (second
- * contact position) is not before the given start position. If no such
- * feature is found, returns the length of the contact features list.
- *
- * @param start
- * @return
- */
- protected int contactsBinarySearch(long start)
- {
- // TODO binary search!!
- int i = 0;
- while (i < contactFeatureEnds.size())
- {
- if (contactFeatureEnds.get(i).getEnd() >= start)
+ if (end > to)
{
break;
}
- i++;
}
-
- return i;
}
/**
- * Adds features to the result list that are at a single position which lies
- * within the target range. Non-positional features (start=end=0) and contact
+ * Adds non-nested features to the result list that lie within the target
+ * range. Non-positional features (start=end=0), contact features and nested
* features are excluded.
*
* @param from
protected void findNonNestedFeatures(long from, long to,
List<SequenceFeature> result)
{
- int startIndex = binarySearch(nonNestedFeatures, from);
- findNonNestedFeatures(startIndex, from, to, result);
+ /*
+ * find the first feature whose end position is
+ * after the target range start
+ */
+ int startIndex = binarySearch(nonNestedFeatures,
+ SearchCriterion.byEnd(from));
+
+ final int startIndex1 = startIndex;
+ int i = startIndex1;
+ while (i < nonNestedFeatures.size())
+ {
+ SequenceFeature sf = nonNestedFeatures.get(i);
+ if (sf.getBegin() > to)
+ {
+ break;
+ }
+ if (sf.getBegin() <= to && sf.getEnd() >= from)
+ {
+ result.add(sf);
+ }
+ i++;
+ }
}
/**
- * Scans the list of non-nested features, starting from startIndex, to find
- * those that overlap the from-to range, and adds them to the result list.
- * Returns the index of the first feature whose start position is after the
- * target range (or the length of the whole list if none such feature exists).
+ * Adds contact features whose start position lies in the from-to range to the
+ * result list
*
- * @param startIndex
* @param from
* @param to
* @param result
- * @return
*/
- protected int findNonNestedFeatures(final int startIndex, long from,
- long to,
+ protected void findContactStartFeatures(long from, long to,
List<SequenceFeature> result)
{
- int i = startIndex;
- while (i < nonNestedFeatures.size())
+ int startPosition = binarySearch(contactFeatureStarts,
+ SearchCriterion.byStart(from));
+
+ for (; startPosition < contactFeatureStarts.size(); startPosition++)
{
- SequenceFeature sf = nonNestedFeatures.get(i);
- if (sf.getBegin() > to)
+ SequenceFeature sf = contactFeatureStarts.get(startPosition);
+ if (!sf.isContactFeature())
{
- break;
+ System.err.println("Error! non-contact feature type "
+ + sf.getType() + " in contact features list");
+ continue;
}
- int start = sf.getBegin();
- int end = sf.getEnd();
- if (sf.isContactFeature())
+ int begin = sf.getBegin();
+ if (begin >= from && begin <= to)
{
- end = start;
+ result.add(sf);
}
- if (start <= to && end >= from)
+ }
+ }
+
+ /**
+ * Answers a list of all positional features stored, in no guaranteed order
+ *
+ * @return
+ */
+ public List<SequenceFeature> getPositionalFeatures()
+ {
+ /*
+ * add non-nested features (may be all features for many cases)
+ */
+ List<SequenceFeature> result = new ArrayList<>();
+ result.addAll(nonNestedFeatures);
+
+ /*
+ * add any contact features - from the list by start position
+ */
+ if (contactFeatureStarts != null)
+ {
+ result.addAll(contactFeatureStarts);
+ }
+
+ /*
+ * add any nested features
+ */
+ if (nestedFeatures != null)
+ {
+ result.addAll(nestedFeatures.getEntries());
+ }
+
+ return result;
+ }
+
+ /**
+ * Answers a list of all contact features. If there are none, returns an
+ * immutable empty list.
+ *
+ * @return
+ */
+ public List<SequenceFeature> getContactFeatures()
+ {
+ if (contactFeatureStarts == null)
+ {
+ return Collections.emptyList();
+ }
+ return new ArrayList<>(contactFeatureStarts);
+ }
+
+ /**
+ * Answers a list of all non-positional features. If there are none, returns
+ * an immutable empty list.
+ *
+ * @return
+ */
+ public List<SequenceFeature> getNonPositionalFeatures()
+ {
+ if (nonPositionalFeatures == null)
+ {
+ return Collections.emptyList();
+ }
+ return new ArrayList<>(nonPositionalFeatures);
+ }
+
+ /**
+ * Deletes the given feature from the store, returning true if it was found
+ * (and deleted), else false. This method makes no assumption that the feature
+ * is in the 'expected' place in the store, in case it has been modified since
+ * it was added.
+ *
+ * @param sf
+ */
+ public synchronized boolean delete(SequenceFeature sf)
+ {
+ /*
+ * try the non-nested positional features first
+ */
+ boolean removed = nonNestedFeatures.remove(sf);
+
+ /*
+ * if not found, try contact positions (and if found, delete
+ * from both lists of contact positions)
+ */
+ if (!removed && contactFeatureStarts != null)
+ {
+ removed = contactFeatureStarts.remove(sf);
+ if (removed)
{
- result.add(sf);
+ contactFeatureEnds.remove(sf);
}
- i++;
}
- return i;
+
+ boolean removedNonPositional = false;
+
+ /*
+ * if not found, try non-positional features
+ */
+ if (!removed && nonPositionalFeatures != null)
+ {
+ removedNonPositional = nonPositionalFeatures.remove(sf);
+ removed = removedNonPositional;
+ }
+
+ /*
+ * if not found, try nested features
+ */
+ if (!removed && nestedFeatures != null)
+ {
+ removed = nestedFeatures.delete(sf);
+ }
+
+ if (removed)
+ {
+ rescanAfterDelete();
+ }
+
+ return removed;
+ }
+
+ /**
+ * Rescan all features to recompute any cached values after an entry has been
+ * deleted. This is expected to be an infrequent event, so performance here is
+ * not critical.
+ */
+ protected synchronized void rescanAfterDelete()
+ {
+ positionalFeatureGroups.clear();
+ nonPositionalFeatureGroups.clear();
+ totalExtent = 0;
+ positionalMinScore = Float.NaN;
+ positionalMaxScore = Float.NaN;
+ nonPositionalMinScore = Float.NaN;
+ nonPositionalMaxScore = Float.NaN;
+
+ /*
+ * scan non-positional features for groups and scores
+ */
+ for (SequenceFeature sf : getNonPositionalFeatures())
+ {
+ nonPositionalFeatureGroups.add(sf.getFeatureGroup());
+ float score = sf.getScore();
+ nonPositionalMinScore = min(nonPositionalMinScore, score);
+ nonPositionalMaxScore = max(nonPositionalMaxScore, score);
+ }
+
+ /*
+ * scan positional features for groups, scores and extents
+ */
+ for (SequenceFeature sf : getPositionalFeatures())
+ {
+ positionalFeatureGroups.add(sf.getFeatureGroup());
+ float score = sf.getScore();
+ positionalMinScore = min(positionalMinScore, score);
+ positionalMaxScore = max(positionalMaxScore, score);
+ totalExtent += getFeatureLength(sf);
+ }
+ }
+
+ /**
+ * A helper method to return the minimum of two floats, where a non-NaN value
+ * is treated as 'less than' a NaN value (unlike Math.min which does the
+ * opposite)
+ *
+ * @param f1
+ * @param f2
+ */
+ protected static float min(float f1, float f2)
+ {
+ if (Float.isNaN(f1))
+ {
+ return Float.isNaN(f2) ? f1 : f2;
+ }
+ else
+ {
+ return Float.isNaN(f2) ? f1 : Math.min(f1, f2);
+ }
+ }
+
+ /**
+ * A helper method to return the maximum of two floats, where a non-NaN value
+ * is treated as 'greater than' a NaN value (unlike Math.max which does the
+ * opposite)
+ *
+ * @param f1
+ * @param f2
+ */
+ protected static float max(float f1, float f2)
+ {
+ if (Float.isNaN(f1))
+ {
+ return Float.isNaN(f2) ? f1 : f2;
+ }
+ else
+ {
+ return Float.isNaN(f2) ? f1 : Math.max(f1, f2);
+ }
+ }
+
+ /**
+ * Answers true if this store has no features, else false
+ *
+ * @return
+ */
+ public boolean isEmpty()
+ {
+ boolean hasFeatures = !nonNestedFeatures.isEmpty()
+ || (contactFeatureStarts != null && !contactFeatureStarts
+ .isEmpty())
+ || (nonPositionalFeatures != null && !nonPositionalFeatures
+ .isEmpty())
+ || (nestedFeatures != null && nestedFeatures.size() > 0);
+
+ return !hasFeatures;
+ }
+
+ /**
+ * Answers the set of distinct feature groups stored, possibly including null,
+ * as an unmodifiable view of the set. The parameter determines whether the
+ * groups for positional or for non-positional features are returned.
+ *
+ * @param positionalFeatures
+ * @return
+ */
+ public Set<String> getFeatureGroups(boolean positionalFeatures)
+ {
+ if (positionalFeatures)
+ {
+ return Collections.unmodifiableSet(positionalFeatureGroups);
+ }
+ else
+ {
+ return nonPositionalFeatureGroups == null ? Collections
+ .<String> emptySet() : Collections
+ .unmodifiableSet(nonPositionalFeatureGroups);
+ }
}
/**
* Performs a binary search of the (sorted) list to find the index of the
- * first entry whose end position is not less than the target position (i.e.
- * skip all features that properly precede the given position)
+ * first entry which returns true for the given comparator function. Returns
+ * the length of the list if there is no such entry.
*
* @param features
- * @param target
+ * @param sc
* @return
*/
- protected int binarySearch(List<SequenceFeature> features, long target)
+ protected static int binarySearch(List<SequenceFeature> features,
+ SearchCriterion sc)
{
- int width = features.size() / 2;
- int lastpos = width;
- while (width > 0)
+ int start = 0;
+ int end = features.size() - 1;
+ int matched = features.size();
+
+ while (start <= end)
{
- int end = features.get(lastpos).getEnd();
- width = width / 2;
- if (end > target)
+ int mid = (start + end) / 2;
+ SequenceFeature entry = features.get(mid);
+ boolean compare = sc.compare(entry);
+ if (compare)
{
- lastpos -= width;
+ matched = mid;
+ end = mid - 1;
}
else
{
- lastpos += width;
+ start = mid + 1;
}
}
- // todo correct binary search
- return lastpos > 1 ? lastpos - 2 : 0;
- // return lastpos;
+
+ return matched;
}
/**
- * Adds contact features whose start position lies in the from-to range to the
- * result list
+ * Answers the number of positional (or non-positional) features stored.
+ * Contact features count as 1.
*
- * @param from
- * @param to
- * @param result
+ * @param positional
+ * @return
*/
- protected void findContactStartFeatures(long from, long to,
- List<SequenceFeature> result)
+ public int getFeatureCount(boolean positional)
{
- // TODO binary search for startPosition
- for (int startPosition = 0; startPosition < contactFeatureStarts.size(); startPosition++)
+ if (!positional)
{
- SequenceFeature sf = contactFeatureStarts.get(startPosition);
- if (!sf.isContactFeature())
+ return nonPositionalFeatures == null ? 0 : nonPositionalFeatures
+ .size();
+ }
+
+ int size = nonNestedFeatures.size();
+
+ if (contactFeatureStarts != null)
+ {
+ // note a contact feature (start/end) counts as one
+ size += contactFeatureStarts.size();
+ }
+
+ if (nestedFeatures != null)
+ {
+ size += nestedFeatures.size();
+ }
+
+ return size;
+ }
+
+ /**
+ * Answers the total length of positional features (or zero if there are
+ * none). Contact features contribute a value of 1 to the total.
+ *
+ * @return
+ */
+ public int getTotalFeatureLength()
+ {
+ return totalExtent;
+ }
+
+ /**
+ * Answers the minimum score held for positional or non-positional features.
+ * This may be Float.NaN if there are no features, are none has a non-NaN
+ * score.
+ *
+ * @param positional
+ * @return
+ */
+ public float getMinimumScore(boolean positional)
+ {
+ return positional ? positionalMinScore : nonPositionalMinScore;
+ }
+
+ /**
+ * Answers the maximum score held for positional or non-positional features.
+ * This may be Float.NaN if there are no features, are none has a non-NaN
+ * score.
+ *
+ * @param positional
+ * @return
+ */
+ public float getMaximumScore(boolean positional)
+ {
+ return positional ? positionalMaxScore : nonPositionalMaxScore;
+ }
+
+ /**
+ * Answers a list of all either positional or non-positional features whose
+ * feature group matches the given group (which may be null)
+ *
+ * @param positional
+ * @param group
+ * @return
+ */
+ public List<SequenceFeature> getFeaturesForGroup(boolean positional,
+ String group)
+ {
+ List<SequenceFeature> result = new ArrayList<>();
+
+ /*
+ * if we know features don't include the target group, no need
+ * to inspect them for matches
+ */
+ if (positional && !positionalFeatureGroups.contains(group)
+ || !positional && !nonPositionalFeatureGroups.contains(group))
+ {
+ return result;
+ }
+
+ List<SequenceFeature> sfs = positional ? getPositionalFeatures()
+ : getNonPositionalFeatures();
+ for (SequenceFeature sf : sfs)
+ {
+ String featureGroup = sf.getFeatureGroup();
+ if (group == null && featureGroup == null || group != null
+ && group.equals(featureGroup))
{
- System.err.println("Error! non-contact feature type "
- + sf.getType() + " in contact features list");
- continue;
+ result.add(sf);
}
- int begin = sf.getBegin();
- if (begin >= from && begin <= to)
+ }
+ return result;
+ }
+
+ /**
+ * Adds the shift amount to the start and end of all positional features whose
+ * start position is at or after fromPosition. Returns true if at least one
+ * feature was shifted, else false.
+ *
+ * @param fromPosition
+ * @param shiftBy
+ * @return
+ */
+ public synchronized boolean shiftFeatures(int fromPosition, int shiftBy)
+ {
+ /*
+ * Because begin and end are final fields (to ensure the data store's
+ * integrity), we have to delete each feature and re-add it as amended.
+ * (Although a simple shift of all values would preserve data integrity!)
+ */
+ boolean modified = false;
+ for (SequenceFeature sf : getPositionalFeatures())
+ {
+ if (sf.getBegin() >= fromPosition)
{
- result.add(sf);
+ modified = true;
+ int newBegin = sf.getBegin() + shiftBy;
+ int newEnd = sf.getEnd() + shiftBy;
+
+ /*
+ * sanity check: don't shift left of the first residue
+ */
+ if (newEnd > 0)
+ {
+ newBegin = Math.max(1, newBegin);
+ SequenceFeature sf2 = new SequenceFeature(sf, newBegin, newEnd,
+ sf.getFeatureGroup(), sf.getScore());
+ addFeature(sf2);
+ }
+ delete(sf);
}
}
+ return modified;
}
}