import java.util.ArrayList;
import java.util.Arrays;
+import java.util.BitSet;
import java.util.Collections;
import java.util.Enumeration;
import java.util.List;
+import java.util.ListIterator;
import java.util.Vector;
import com.stevesoft.pat.Regex;
return this.description;
}
- /*
- * (non-Javadoc)
- *
- * @see jalview.datamodel.SequenceI#findIndex(int)
+ /**
+ * {@inheritDoc}
*/
@Override
public int findIndex(int pos)
{
/*
- * use a valid nearby cursor if available
+ * use a valid, hopefully nearby, cursor if available
*/
- if (cursor != null && cursor.sequence == this
- && cursor.token == changeCount)
+ if (isValidCursor(cursor))
{
return findIndex(pos, cursor);
}
i++;
}
- if ((j == end) && (j < pos))
+ if (j == end && j < pos)
{
return end + 1;
}
- else
- {
- updateCursor(pos, i);
- return i;
- }
+
+ updateCursor(pos, i);
+ return i;
}
+ /**
+ * Updates the cursor to the latest found residue and column position
+ *
+ * @param residuePos
+ * (start..)
+ * @param column
+ * (1..)
+ */
protected void updateCursor(int residuePos, int column)
{
- // TODO probably want to synchronize this on something
cursor = new SequenceCursor(this, residuePos, column, this.changeCount);
}
*/
protected int findIndex(int pos, SequenceCursor curs)
{
- if (curs.sequence != this || curs.token != changeCount)
+ if (!isValidCursor(curs))
{
/*
* wrong or invalidated cursor, compute de novo
return col;
}
+ /**
+ * {@inheritDoc}
+ */
@Override
- public int findPosition(final int i)
+ public int findPosition(final int column)
{
/*
- * use a valid nearby cursor if available
+ * use a valid, hopefully nearby, cursor if available
*/
- if (cursor != null && cursor.sequence == this
- && cursor.token == changeCount)
+ if (isValidCursor(cursor))
+ {
+ return findPosition(column + 1, cursor);
+ }
+
+ // TODO recode this more naturally i.e. count residues only
+ // as they are found, not 'in anticipation'
+
+ int lastPosFound = 0;
+ int lastPosFoundColumn = 0;
+ int seqlen = sequence.length;
+ if (seqlen > 0 && !Comparison.isGap(sequence[0]))
{
- return findPosition(i + 1, cursor);
+ lastPosFound = start;
+ lastPosFoundColumn = 0;
}
int j = 0;
int pos = start;
- int seqlen = sequence.length;
- while ((j < i) && (j < seqlen))
+
+ while (j < column && j < seqlen)
{
if (!Comparison.isGap(sequence[j]))
{
+ lastPosFound = pos;
+ lastPosFoundColumn = j;
pos++;
}
-
j++;
}
+ if (j < seqlen && !Comparison.isGap(sequence[j]))
+ {
+ lastPosFound = pos;
+ lastPosFoundColumn = j;
+ }
- if (j == i && !Comparison.isGap(sequence[i]))
+ /*
+ * update the cursor to the last residue position found (if any)
+ * (converting column position to base 1)
+ */
+ if (lastPosFound != 0)
{
- updateCursor(pos, i + 1);
+ updateCursor(lastPosFound, lastPosFoundColumn + 1);
}
return pos;
}
/**
+ * Answers true if the given cursor is not null, is for this sequence object,
+ * and has a token value that matches this object's changeCount, else false.
+ * This allows us to ignore a cursor as 'stale' if the sequence has been
+ * modified since the cursor was created.
+ *
+ * @param curs
+ * @return
+ */
+ protected boolean isValidCursor(SequenceCursor curs)
+ {
+ if (curs == null || curs.sequence != this || curs.token != changeCount)
+ {
+ return false;
+ }
+ /*
+ * sanity check against range
+ */
+ if (curs.columnPosition < 0 || curs.columnPosition >= sequence.length)
+ {
+ return false;
+ }
+ if (curs.residuePosition < start || curs.residuePosition > end)
+ {
+ return false;
+ }
+ return true;
+ }
+
+ /**
* Answers the sequence position (start..) for the given aligned column
* position (1..), given a hint of a cursor in the neighbourhood. The cursor
* may lie left of, at, or to the right of the column position.
*/
protected int findPosition(final int col, SequenceCursor curs)
{
- if (curs.sequence != this || curs.token != changeCount)
+ if (!isValidCursor(curs))
{
/*
* wrong or invalidated cursor, compute de novo
if (curs.columnPosition == col)
{
+ cursor = curs; // in case this method becomes public
return curs.residuePosition; // easy case :-)
}
int newPos = curs.residuePosition;
int delta = curs.columnPosition > col ? -1 : 1;
boolean gapped = false;
+ int lastFoundPosition = curs.residuePosition;
+ int lastFoundPositionColumn = curs.columnPosition;
while (column != col - 1)
{
if (!gapped)
{
newPos += delta;
+ lastFoundPosition = newPos;
+ lastFoundPositionColumn = column + 1;
}
}
- /*
- * hack to give position to the right if on a gap
- * pending resolution of JAL-2562
- */
- if (delta > 0 && gapped)
- {
- newPos++;
- }
-
- return newPos;
- }
-
- /**
- * {@inheritDoc}
- */
- @Override
- public Range findPositions(int fromCol, int toCol)
- {
- if (cursor != null && cursor.sequence == this
- && cursor.token == changeCount)
- {
- return findPositions(fromCol, toCol, cursor);
- }
-
- /*
- * count residues before fromCol
- */
- int j = 0;
- int count = 0;
- int seqlen = sequence.length;
- while (j < fromCol && j < seqlen)
- {
- if (!Comparison.isGap(sequence[j]))
- {
- count++;
- }
- j++;
- }
-
- /*
- * find first and last residues between fromCol and toCol
- */
- int firstPos = 0;
- int lastPos = 0;
- boolean foundFirst = false;
-
- while (j <= toCol && j < seqlen)
- {
- if (!Comparison.isGap(sequence[j]))
- {
- count++;
- if (!foundFirst)
- {
- firstPos = count;
- foundFirst = true;
- }
- lastPos = count;
- }
- j++;
- }
-
- if (firstPos == 0)
+ if (cursor == null || lastFoundPosition != cursor.residuePosition)
{
- /*
- * no residues in this range
- */
- return null;
+ updateCursor(lastFoundPosition, lastFoundPositionColumn);
}
/*
- * adjust for sequence start coordinate
- */
- firstPos += start - 1;
- lastPos += start - 1;
-
- return new Range(firstPos, lastPos);
- }
-
- /**
- * Returns the range of sequence positions included in the given alignment
- * position range. If no positions are included (the range is entirely gaps),
- * then returns null. The cursor parameter may provide a starting position in
- * the neighbourhood of the search (which may be left of, right of, or
- * overlapping the search region).
- *
- * @param fromCol
- * start column of region (0..)
- * @param toCol
- * end column of region (0..)
- * @param curs
- * @return
- */
- protected Range findPositions(int fromCol, int toCol, SequenceCursor curs)
- {
- if (curs.sequence != this || curs.token != changeCount)
- {
- /*
- * wrong or invalidated cursor, compute de novo
- */
- return findPositions(fromCol, toCol);
- }
-
- /*
- * keep this simple...first step from cursor to fromCol...
- */
- final int seqlen = sequence.length;
- int resNo = curs.residuePosition;
- int col = curs.columnPosition - 1; // from base 1 to base 0
- if (col != fromCol)
- {
- int delta = col > fromCol ? -1 : 1;
- while (col != fromCol && col >= 0 && col < seqlen)
- {
- if (!Comparison.isGap(sequence[col]))
- {
- resNo += delta;
- }
- col += delta;
- }
- }
-
- if (col < fromCol || col == seqlen)
- {
- /*
- * sequence lies to the left of the target region
- */
- return null;
- }
-
- /*
- * resNo is now the residue at fromCol (if not gapped), else the one
- * before it (if delta == 1), else the one after (if delta == -1);
- * we want the residue before fromCol
- */
- if (!Comparison.isGap(sequence[fromCol]))
- {
- resNo--;
- }
- else if (curs.columnPosition > fromCol)
- {
- resNo -= 2;
- }
-
- /*
- * now first and last residues between fromCol and toCol
+ * hack to give position to the right if on a gap
+ * or beyond the length of the sequence (see JAL-2562)
*/
- int firstPos = 0;
- int lastPos = 0;
- boolean foundFirst = false;
-
- while (col <= toCol && col < seqlen)
- {
- if (!Comparison.isGap(sequence[col]))
- {
- resNo++;
- if (!foundFirst)
- {
- firstPos = resNo;
- foundFirst = true;
- }
- lastPos = resNo;
- }
- col++;
- }
-
- if (firstPos == 0)
+ if (delta > 0 && (gapped || column >= sequence.length))
{
- /*
- * no residues in this range
- */
- return null;
+ newPos++;
}
- return new Range(firstPos, lastPos);
+ return newPos;
}
/**
}
@Override
+ public BitSet getInsertionsAsBits()
+ {
+ BitSet map = new BitSet();
+ int lastj = -1, j = 0;
+ int pos = start;
+ int seqlen = sequence.length;
+ while ((j < seqlen))
+ {
+ if (jalview.util.Comparison.isGap(sequence[j]))
+ {
+ if (lastj == -1)
+ {
+ lastj = j;
+ }
+ }
+ else
+ {
+ if (lastj != -1)
+ {
+ map.set(lastj, j);
+ lastj = -1;
+ }
+ }
+ j++;
+ }
+ if (lastj != -1)
+ {
+ map.set(lastj, j);
+ lastj = -1;
+ }
+ return map;
+ }
+
+ @Override
public void deleteChars(int i, int j)
{
int newstart = start, newend = end;
* {@inheritDoc}
*/
@Override
- public List<SequenceFeature> findFeatures(int from, int to,
+ public List<SequenceFeature> findFeatures(int fromColumn, int toColumn,
String... types)
{
+ int startPos = findPosition(fromColumn - 1); // convert base 1 to base 0
+ int endPos = findPosition(toColumn - 1);
+
+ List<SequenceFeature> result = new ArrayList<>();
if (datasetSequence != null)
{
- return datasetSequence.findFeatures(from, to, types);
+ result = datasetSequence.getFeatures().findFeatures(startPos, endPos,
+ types);
+ }
+ else
+ {
+ result = sequenceFeatureStore.findFeatures(startPos, endPos, types);
+ }
+
+ /*
+ * if the start or end column is gapped, startPos or endPos may be to the
+ * left or right, and we may have included adjacent or enclosing features;
+ * remove any that are not enclosing, non-contact features
+ */
+ if (endPos > this.end || Comparison.isGap(sequence[fromColumn - 1])
+ || Comparison.isGap(sequence[toColumn - 1]))
+ {
+ ListIterator<SequenceFeature> it = result.listIterator();
+ while (it.hasNext())
+ {
+ SequenceFeature sf = it.next();
+ int featureStartColumn = findIndex(sf.getBegin());
+ int featureEndColumn = findIndex(sf.getEnd());
+ boolean noOverlap = featureStartColumn > toColumn
+ || featureEndColumn < fromColumn;
+
+ /*
+ * reject an 'enclosing' feature if it is actually a contact feature
+ */
+ if (sf.isContactFeature() && featureStartColumn < fromColumn
+ && featureEndColumn > toColumn)
+ {
+ noOverlap = true;
+ }
+ if (noOverlap)
+ {
+ it.remove();
+ }
+ }
}
- return sequenceFeatureStore.findFeatures(from, to, types);
+
+ return result;
}
/**