/*
* Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
* Copyright (C) $$Year-Rel$$ The Jalview Authors
*
* This file is part of Jalview.
*
* Jalview is free software: you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, either version 3
* of the License, or (at your option) any later version.
*
* Jalview is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Jalview. If not, see .
* The Jalview Authors are detailed in the 'AUTHORS' file.
*/
package jalview.datamodel;
import jalview.analysis.AAFrequency;
import jalview.analysis.Conservation;
import jalview.renderer.ResidueShader;
import jalview.renderer.ResidueShaderI;
import jalview.schemes.ColourSchemeI;
import java.awt.Color;
import java.beans.PropertyChangeListener;
import java.beans.PropertyChangeSupport;
import java.util.ArrayList;
import java.util.List;
import java.util.Map;
/**
* Collects a set contiguous ranges on a set of sequences
*
* @author $author$
* @version $Revision$
*/
public class SequenceGroup implements AnnotatedCollectionI
{
// TODO ideally this event notification functionality should be separated into
// a
// subclass of ViewportProperties similarly to ViewportRanges. Done here as
// quick fix for JAL-2665
public static final String SEQ_GROUP_CHANGED = "Sequence group changed";
protected PropertyChangeSupport changeSupport = new PropertyChangeSupport(
this);
public void addPropertyChangeListener(PropertyChangeListener listener)
{
changeSupport.addPropertyChangeListener(listener);
}
public void removePropertyChangeListener(PropertyChangeListener listener)
{
changeSupport.removePropertyChangeListener(listener);
}
// end of event notification functionality initialisation
String groupName;
String description;
Conservation conserve;
boolean displayBoxes = true;
boolean displayText = true;
boolean colourText = false;
/**
* True if the group is defined as a group on the alignment, false if it is
* just a selection.
*/
boolean isDefined = false;
/**
* after Olivier's non-conserved only character display
*/
boolean showNonconserved = false;
/**
* group members
*/
private List sequences = new ArrayList<>();
/**
* representative sequence for this group (if any)
*/
private SequenceI seqrep = null;
int width = -1;
/**
* Colourscheme applied to group if any
*/
public ResidueShaderI cs;
// start column (base 0)
int startRes = 0;
// end column (base 0)
int endRes = 0;
public Color outlineColour = Color.black;
public Color idColour = null;
public int thresholdTextColour = 0;
public Color textColour = Color.black;
public Color textColour2 = Color.white;
/**
* consensus calculation property
*/
private boolean ignoreGapsInConsensus = true;
/**
* consensus calculation property
*/
private boolean showSequenceLogo = false;
/**
* flag indicating if logo should be rendered normalised
*/
private boolean normaliseSequenceLogo;
/*
* visibility of rows or represented rows covered by group
*/
private boolean hidereps = false;
/*
* visibility of columns intersecting this group
*/
private boolean hidecols = false;
AlignmentAnnotation consensus = null;
AlignmentAnnotation conservation = null;
private boolean showConsensusHistogram;
private AnnotatedCollectionI context;
/**
* Creates a new SequenceGroup object.
*/
public SequenceGroup()
{
groupName = "JGroup:" + this.hashCode();
cs = new ResidueShader();
}
/**
* Creates a new SequenceGroup object.
*
* @param sequences
* @param groupName
* @param scheme
* @param displayBoxes
* @param displayText
* @param colourText
* @param start
* first column of group
* @param end
* last column of group
*/
public SequenceGroup(List sequences, String groupName,
ColourSchemeI scheme, boolean displayBoxes, boolean displayText,
boolean colourText, int start, int end)
{
this();
this.sequences = sequences;
this.groupName = groupName;
this.displayBoxes = displayBoxes;
this.displayText = displayText;
this.colourText = colourText;
this.cs = new ResidueShader(scheme);
startRes = start;
endRes = end;
recalcConservation();
}
/**
* copy constructor
*
* @param seqsel
*/
public SequenceGroup(SequenceGroup seqsel)
{
this();
if (seqsel != null)
{
sequences = new ArrayList<>();
sequences.addAll(seqsel.sequences);
if (seqsel.groupName != null)
{
groupName = new String(seqsel.groupName);
}
displayBoxes = seqsel.displayBoxes;
displayText = seqsel.displayText;
colourText = seqsel.colourText;
startRes = seqsel.startRes;
endRes = seqsel.endRes;
cs = new ResidueShader((ResidueShader) seqsel.cs);
if (seqsel.description != null)
{
description = new String(seqsel.description);
}
hidecols = seqsel.hidecols;
hidereps = seqsel.hidereps;
showNonconserved = seqsel.showNonconserved;
showSequenceLogo = seqsel.showSequenceLogo;
normaliseSequenceLogo = seqsel.normaliseSequenceLogo;
showConsensusHistogram = seqsel.showConsensusHistogram;
idColour = seqsel.idColour;
outlineColour = seqsel.outlineColour;
seqrep = seqsel.seqrep;
textColour = seqsel.textColour;
textColour2 = seqsel.textColour2;
thresholdTextColour = seqsel.thresholdTextColour;
width = seqsel.width;
ignoreGapsInConsensus = seqsel.ignoreGapsInConsensus;
if (seqsel.conserve != null)
{
recalcConservation(); // safer than
// aaFrequency = (Vector) seqsel.aaFrequency.clone(); // ??
}
}
}
public boolean isShowSequenceLogo()
{
return showSequenceLogo;
}
public SequenceI[] getSelectionAsNewSequences(AlignmentI align)
{
int iSize = sequences.size();
SequenceI[] seqs = new SequenceI[iSize];
SequenceI[] inorder = getSequencesInOrder(align);
for (int i = 0, ipos = 0; i < inorder.length; i++)
{
SequenceI seq = inorder[i];
seqs[ipos] = seq.getSubSequence(startRes, endRes + 1);
if (seqs[ipos] != null)
{
seqs[ipos].setDescription(seq.getDescription());
seqs[ipos].setDBRefs(seq.getDBRefs());
seqs[ipos].setSequenceFeatures(seq.getSequenceFeatures());
if (seq.getDatasetSequence() != null)
{
seqs[ipos].setDatasetSequence(seq.getDatasetSequence());
}
if (seq.getAnnotation() != null)
{
AlignmentAnnotation[] alann = align.getAlignmentAnnotation();
// Only copy annotation that is either a score or referenced by the
// alignment's annotation vector
for (int a = 0; a < seq.getAnnotation().length; a++)
{
AlignmentAnnotation tocopy = seq.getAnnotation()[a];
if (alann != null)
{
boolean found = false;
for (int pos = 0; pos < alann.length; pos++)
{
if (alann[pos] == tocopy)
{
found = true;
break;
}
}
if (!found)
{
continue;
}
}
AlignmentAnnotation newannot = new AlignmentAnnotation(
seq.getAnnotation()[a]);
newannot.restrict(startRes, endRes);
newannot.setSequenceRef(seqs[ipos]);
newannot.adjustForAlignment();
seqs[ipos].addAlignmentAnnotation(newannot);
}
}
ipos++;
}
else
{
iSize--;
}
}
if (iSize != inorder.length)
{
SequenceI[] nseqs = new SequenceI[iSize];
System.arraycopy(seqs, 0, nseqs, 0, iSize);
seqs = nseqs;
}
return seqs;
}
/**
* If sequence ends in gaps, the end residue can be correctly calculated here
*
* @param seq
* SequenceI
* @return int
*/
public int findEndRes(SequenceI seq)
{
int eres = 0;
char ch;
for (int j = 0; j < endRes + 1 && j < seq.getLength(); j++)
{
ch = seq.getCharAt(j);
if (!jalview.util.Comparison.isGap((ch)))
{
eres++;
}
}
if (eres > 0)
{
eres += seq.getStart() - 1;
}
return eres;
}
@Override
public List getSequences()
{
return sequences;
}
@Override
public List getSequences(
Map hiddenReps)
{
if (hiddenReps == null)
{
// TODO: need a synchronizedCollection here ?
return sequences;
}
else
{
List allSequences = new ArrayList<>();
for (SequenceI seq : sequences)
{
allSequences.add(seq);
if (hiddenReps.containsKey(seq))
{
SequenceCollectionI hsg = hiddenReps.get(seq);
for (SequenceI seq2 : hsg.getSequences())
{
if (seq2 != seq && !allSequences.contains(seq2))
{
allSequences.add(seq2);
}
}
}
}
return allSequences;
}
}
public SequenceI[] getSequencesAsArray(
Map map)
{
List tmp = getSequences(map);
if (tmp == null)
{
return null;
}
return tmp.toArray(new SequenceI[tmp.size()]);
}
/**
* DOCUMENT ME!
*
* @param col
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
public boolean adjustForRemoveLeft(int col)
{
// return value is true if the group still exists
if (startRes >= col)
{
startRes = startRes - col;
}
if (endRes >= col)
{
endRes = endRes - col;
if (startRes > endRes)
{
startRes = 0;
}
}
else
{
// must delete this group!!
return false;
}
return true;
}
/**
* DOCUMENT ME!
*
* @param col
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
public boolean adjustForRemoveRight(int col)
{
if (startRes > col)
{
// delete this group
return false;
}
if (endRes >= col)
{
endRes = col;
}
return true;
}
/**
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
public String getName()
{
return groupName;
}
public String getDescription()
{
return description;
}
/**
* DOCUMENT ME!
*
* @param name
* DOCUMENT ME!
*/
public void setName(String name)
{
groupName = name;
// TODO: URGENT: update dependent objects (annotation row)
}
public void setDescription(String desc)
{
description = desc;
}
/**
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
public Conservation getConservation()
{
return conserve;
}
/**
* DOCUMENT ME!
*
* @param c
* DOCUMENT ME!
*/
public void setConservation(Conservation c)
{
conserve = c;
}
/**
* Add s to this sequence group. If aligment sequence is already contained in
* group, it will not be added again, but recalculation may happen if the flag
* is set.
*
* @param s
* alignment sequence to be added
* @param recalc
* true means Group's conservation should be recalculated
*/
public void addSequence(SequenceI s, boolean recalc)
{
synchronized (sequences)
{
if (s != null && !sequences.contains(s))
{
sequences.add(s);
changeSupport.firePropertyChange(SEQ_GROUP_CHANGED,
sequences.size() - 1, sequences.size());
}
if (recalc)
{
recalcConservation();
}
}
}
/**
* Max Gaps Threshold (percent) for performing a conservation calculation
*/
private int consPercGaps = 25;
/**
* @return Max Gaps Threshold for performing a conservation calculation
*/
public int getConsPercGaps()
{
return consPercGaps;
}
/**
* set Max Gaps Threshold (percent) for performing a conservation calculation
*
* @param consPercGaps
*/
public void setConsPercGaps(int consPercGaps)
{
this.consPercGaps = consPercGaps;
}
/**
* calculate residue conservation and colourschemes for group - but only if
* necessary. returns true if the calculation resulted in a visible change to
* group
*/
public boolean recalcConservation()
{
return recalcConservation(false);
}
/**
* calculate residue conservation for group - but only if necessary. returns
* true if the calculation resulted in a visible change to group
*
* @param defer
* when set, colourschemes for this group are not refreshed after
* recalculation
*/
public boolean recalcConservation(boolean defer)
{
if (cs == null && consensus == null && conservation == null)
{
return false;
}
// TODO: try harder to detect changes in state in order to minimise
// recalculation effort
boolean upd = false;
try
{
ProfilesI cnsns = AAFrequency.calculate(sequences, startRes,
endRes + 1, showSequenceLogo);
if (consensus != null)
{
_updateConsensusRow(cnsns, sequences.size());
upd = true;
}
if (cs != null)
{
cs.setConsensus(cnsns);
upd = true;
}
if ((conservation != null)
|| (cs != null && cs.conservationApplied()))
{
Conservation c = new Conservation(groupName, sequences, startRes,
endRes + 1);
c.calculate();
c.verdict(false, consPercGaps);
if (conservation != null)
{
_updateConservationRow(c);
}
if (cs != null)
{
if (cs.conservationApplied())
{
cs.setConservation(c);
}
}
// eager update - will cause a refresh of overview regardless
upd = true;
}
if (cs != null && !defer)
{
// TODO: JAL-2034 should cs.alignmentChanged modify return state
cs.alignmentChanged(context != null ? context : this, null);
return true;
}
else
{
return upd;
}
} catch (java.lang.OutOfMemoryError err)
{
// TODO: catch OOM
System.out.println("Out of memory loading groups: " + err);
}
return upd;
}
private void _updateConservationRow(Conservation c)
{
if (conservation == null)
{
getConservation();
}
// update Labels
conservation.label = "Conservation for " + getName();
conservation.description = "Conservation for group " + getName()
+ " less than " + consPercGaps + "% gaps";
// preserve width if already set
int aWidth = (conservation.annotations != null)
? (endRes < conservation.annotations.length
? conservation.annotations.length
: endRes + 1)
: endRes + 1;
conservation.annotations = null;
conservation.annotations = new Annotation[aWidth]; // should be alignment
// width
c.completeAnnotations(conservation, null, startRes, endRes + 1);
}
public ProfilesI consensusData = null;
private void _updateConsensusRow(ProfilesI cnsns, long nseq)
{
if (consensus == null)
{
getConsensus();
}
consensus.label = "Consensus for " + getName();
consensus.description = "Percent Identity";
consensusData = cnsns;
// preserve width if already set
int aWidth = (consensus.annotations != null)
? (endRes < consensus.annotations.length
? consensus.annotations.length
: endRes + 1)
: endRes + 1;
consensus.annotations = null;
consensus.annotations = new Annotation[aWidth]; // should be alignment width
AAFrequency.completeConsensus(consensus, cnsns, startRes, endRes + 1,
ignoreGapsInConsensus, showSequenceLogo, nseq); // TODO: setting
// container
// for
// ignoreGapsInConsensusCalculation);
}
/**
* @param s
* sequence to either add or remove from group
* @param recalc
* flag passed to delete/addSequence to indicate if group properties
* should be recalculated
*/
public void addOrRemove(SequenceI s, boolean recalc)
{
synchronized (sequences)
{
if (sequences.contains(s))
{
deleteSequence(s, recalc);
}
else
{
addSequence(s, recalc);
}
}
}
/**
* remove
*
* @param s
* to be removed
* @param recalc
* true means recalculate conservation
*/
public void deleteSequence(SequenceI s, boolean recalc)
{
synchronized (sequences)
{
sequences.remove(s);
changeSupport.firePropertyChange(SEQ_GROUP_CHANGED,
sequences.size() + 1, sequences.size());
if (recalc)
{
recalcConservation();
}
}
}
/**
*
*
* @return the first column selected by this group. Runs from 0<=i width)
{
width = seq.getLength();
first = false;
}
}
return width;
}
}
/**
* DOCUMENT ME!
*
* @param c
* DOCUMENT ME!
*/
public void setOutlineColour(Color c)
{
outlineColour = c;
}
/**
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
public Color getOutlineColour()
{
return outlineColour;
}
/**
*
* returns the sequences in the group ordered by the ordering given by al.
* this used to return an array with null entries regardless, new behaviour is
* below. TODO: verify that this does not affect use in applet or application
*
* @param al
* Alignment
* @return SequenceI[] intersection of sequences in group with al, ordered by
* al, or null if group does not intersect with al
*/
public SequenceI[] getSequencesInOrder(AlignmentI al)
{
return getSequencesInOrder(al, true);
}
/**
* return an array representing the intersection of the group with al,
* optionally returning an array the size of al.getHeight() where nulls mark
* the non-intersected sequences
*
* @param al
* @param trim
* @return null or array
*/
public SequenceI[] getSequencesInOrder(AlignmentI al, boolean trim)
{
synchronized (sequences)
{
int sSize = sequences.size();
int alHeight = al.getHeight();
SequenceI[] seqs = new SequenceI[(trim) ? sSize : alHeight];
int index = 0;
for (int i = 0; i < alHeight && index < sSize; i++)
{
if (sequences.contains(al.getSequenceAt(i)))
{
seqs[(trim) ? index : i] = al.getSequenceAt(i);
index++;
}
}
if (index == 0)
{
return null;
}
if (!trim)
{
return seqs;
}
if (index < seqs.length)
{
SequenceI[] dummy = seqs;
seqs = new SequenceI[index];
while (--index >= 0)
{
seqs[index] = dummy[index];
dummy[index] = null;
}
}
return seqs;
}
}
/**
* @return the idColour
*/
public Color getIdColour()
{
return idColour;
}
/**
* @param idColour
* the idColour to set
*/
public void setIdColour(Color idColour)
{
this.idColour = idColour;
}
/**
* @return the representative sequence for this group
*/
@Override
public SequenceI getSeqrep()
{
return seqrep;
}
/**
* set the representative sequence for this group. Note - this affects the
* interpretation of the Hidereps attribute.
*
* @param seqrep
* the seqrep to set (null means no sequence representative)
*/
@Override
public void setSeqrep(SequenceI seqrep)
{
this.seqrep = seqrep;
}
/**
*
* @return true if group has a sequence representative
*/
@Override
public boolean hasSeqrep()
{
return seqrep != null;
}
/**
* set visibility of sequences covered by (if no sequence representative is
* defined) or represented by this group.
*
* @param visibility
*/
public void setHidereps(boolean visibility)
{
hidereps = visibility;
}
/**
*
* @return true if sequences represented (or covered) by this group should be
* hidden
*/
public boolean isHidereps()
{
return hidereps;
}
/**
* set intended visibility of columns covered by this group
*
* @param visibility
*/
public void setHideCols(boolean visibility)
{
hidecols = visibility;
}
/**
*
* @return true if columns covered by group should be hidden
*/
public boolean isHideCols()
{
return hidecols;
}
/**
* create a new sequence group from the intersection of this group with an
* alignment Hashtable of hidden representatives
*
* @param alignment
* (may not be null)
* @param map
* (may be null)
* @return new group containing sequences common to this group and alignment
*/
public SequenceGroup intersect(AlignmentI alignment,
Map map)
{
SequenceGroup sgroup = new SequenceGroup(this);
SequenceI[] insect = getSequencesInOrder(alignment);
sgroup.sequences = new ArrayList<>();
for (int s = 0; insect != null && s < insect.length; s++)
{
if (map == null || map.containsKey(insect[s]))
{
sgroup.sequences.add(insect[s]);
}
}
return sgroup;
}
/**
* @return the showUnconserved
*/
public boolean getShowNonconserved()
{
return showNonconserved;
}
/**
* @param showNonconserved
* the showUnconserved to set
*/
public void setShowNonconserved(boolean displayNonconserved)
{
this.showNonconserved = displayNonconserved;
}
/**
* set this alignmentAnnotation object as the one used to render consensus
* annotation
*
* @param aan
*/
public void setConsensus(AlignmentAnnotation aan)
{
if (consensus == null)
{
consensus = aan;
}
}
/**
*
* @return automatically calculated consensus row note: the row is a stub if a
* consensus calculation has not yet been performed on the group
*/
public AlignmentAnnotation getConsensus()
{
// TODO get or calculate and get consensus annotation row for this group
int aWidth = this.getWidth();
// pointer
// possibility
// here.
if (aWidth < 0)
{
return null;
}
if (consensus == null)
{
consensus = new AlignmentAnnotation("", "", new Annotation[1], 0f,
100f, AlignmentAnnotation.BAR_GRAPH);
consensus.hasText = true;
consensus.autoCalculated = true;
consensus.groupRef = this;
consensus.label = "Consensus for " + getName();
consensus.description = "Percent Identity";
}
return consensus;
}
/**
* set this alignmentAnnotation object as the one used to render consensus
* annotation
*
* @param aan
*/
public void setConservationRow(AlignmentAnnotation aan)
{
if (conservation == null)
{
conservation = aan;
}
}
/**
* get the conservation annotation row for this group
*
* @return autoCalculated annotation row
*/
public AlignmentAnnotation getConservationRow()
{
if (conservation == null)
{
conservation = new AlignmentAnnotation("", "", new Annotation[1], 0f,
11f, AlignmentAnnotation.BAR_GRAPH);
}
conservation.hasText = true;
conservation.autoCalculated = true;
conservation.groupRef = this;
conservation.label = "Conservation for " + getName();
conservation.description = "Conservation for group " + getName()
+ " less than " + consPercGaps + "% gaps";
return conservation;
}
/**
*
* @return true if annotation rows have been instantiated for this group
*/
public boolean hasAnnotationRows()
{
return consensus != null || conservation != null;
}
public SequenceI getConsensusSeq()
{
getConsensus();
StringBuffer seqs = new StringBuffer();
for (int i = 0; i < consensus.annotations.length; i++)
{
if (consensus.annotations[i] != null)
{
if (consensus.annotations[i].description.charAt(0) == '[')
{
seqs.append(consensus.annotations[i].description.charAt(1));
}
else
{
seqs.append(consensus.annotations[i].displayCharacter);
}
}
}
SequenceI sq = new Sequence("Group" + getName() + " Consensus",
seqs.toString());
sq.setDescription("Percentage Identity Consensus "
+ ((ignoreGapsInConsensus) ? " without gaps" : ""));
return sq;
}
public void setIgnoreGapsConsensus(boolean state)
{
if (this.ignoreGapsInConsensus != state && consensus != null)
{
ignoreGapsInConsensus = state;
recalcConservation();
}
ignoreGapsInConsensus = state;
}
public boolean getIgnoreGapsConsensus()
{
return ignoreGapsInConsensus;
}
/**
* @param showSequenceLogo
* indicates if a sequence logo is shown for consensus annotation
*/
public void setshowSequenceLogo(boolean showSequenceLogo)
{
// TODO: decouple calculation from settings update
if (this.showSequenceLogo != showSequenceLogo && consensus != null)
{
this.showSequenceLogo = showSequenceLogo;
recalcConservation();
}
this.showSequenceLogo = showSequenceLogo;
}
/**
*
* @param showConsHist
* flag indicating if the consensus histogram for this group should
* be rendered
*/
public void setShowConsensusHistogram(boolean showConsHist)
{
if (showConsensusHistogram != showConsHist && consensus != null)
{
this.showConsensusHistogram = showConsHist;
recalcConservation();
}
this.showConsensusHistogram = showConsHist;
}
/**
* @return the showConsensusHistogram
*/
public boolean isShowConsensusHistogram()
{
return showConsensusHistogram;
}
/**
* set flag indicating if logo should be normalised when rendered
*
* @param norm
*/
public void setNormaliseSequenceLogo(boolean norm)
{
normaliseSequenceLogo = norm;
}
public boolean isNormaliseSequenceLogo()
{
return normaliseSequenceLogo;
}
@Override
/**
* returns a new array with all annotation involving this group
*/
public AlignmentAnnotation[] getAlignmentAnnotation()
{
// TODO add in other methods like 'getAlignmentAnnotation(String label),
// etc'
ArrayList annot = new ArrayList<>();
synchronized (sequences)
{
for (SequenceI seq : sequences)
{
AlignmentAnnotation[] aa = seq.getAnnotation();
if (aa != null)
{
for (AlignmentAnnotation al : aa)
{
if (al.groupRef == this)
{
annot.add(al);
}
}
}
}
if (consensus != null)
{
annot.add(consensus);
}
if (conservation != null)
{
annot.add(conservation);
}
}
return annot.toArray(new AlignmentAnnotation[0]);
}
@Override
public Iterable findAnnotation(String calcId)
{
List aa = new ArrayList<>();
if (calcId == null)
{
return aa;
}
for (AlignmentAnnotation a : getAlignmentAnnotation())
{
if (calcId.equals(a.getCalcId()))
{
aa.add(a);
}
}
return aa;
}
@Override
public Iterable findAnnotations(SequenceI seq,
String calcId, String label)
{
ArrayList aa = new ArrayList<>();
for (AlignmentAnnotation ann : getAlignmentAnnotation())
{
if ((calcId == null || (ann.getCalcId() != null
&& ann.getCalcId().equals(calcId)))
&& (seq == null || (ann.sequenceRef != null
&& ann.sequenceRef == seq))
&& (label == null
|| (ann.label != null && ann.label.equals(label))))
{
aa.add(ann);
}
}
return aa;
}
/**
* Answer true if any annotation matches the calcId passed in (if not null).
*
* @param calcId
* @return
*/
public boolean hasAnnotation(String calcId)
{
if (calcId != null && !"".equals(calcId))
{
for (AlignmentAnnotation a : getAlignmentAnnotation())
{
if (a.getCalcId() == calcId)
{
return true;
}
}
}
return false;
}
/**
* Remove all sequences from the group (leaving other properties unchanged).
*/
public void clear()
{
synchronized (sequences)
{
int before = sequences.size();
sequences.clear();
changeSupport.firePropertyChange(SEQ_GROUP_CHANGED, before,
sequences.size());
}
}
/**
* Sets the alignment or group context for this group, and whether it is
* defined as a group
*
* @param ctx
* the context for the group
* @param defined
* whether the group is defined on the alignment or is just a
* selection
* @throws IllegalArgumentException
* if setting the context would result in a circular reference chain
*/
public void setContext(AnnotatedCollectionI ctx, boolean defined)
{
setContext(ctx);
this.isDefined = defined;
}
/**
* Sets the alignment or group context for this group
*
* @param ctx
* the context for the group
* @throws IllegalArgumentException
* if setting the context would result in a circular reference chain
*/
public void setContext(AnnotatedCollectionI ctx)
{
AnnotatedCollectionI ref = ctx;
while (ref != null)
{
if (ref == this || ref.getContext() == ctx)
{
throw new IllegalArgumentException(
"Circular reference in SequenceGroup.context");
}
ref = ref.getContext();
}
this.context = ctx;
}
/*
* (non-Javadoc)
*
* @see jalview.datamodel.AnnotatedCollectionI#getContext()
*/
@Override
public AnnotatedCollectionI getContext()
{
return context;
}
public boolean isDefined()
{
return isDefined;
}
public void setColourScheme(ColourSchemeI scheme)
{
if (cs == null)
{
cs = new ResidueShader();
}
cs.setColourScheme(scheme);
}
public void setGroupColourScheme(ResidueShaderI scheme)
{
cs = scheme;
}
public ColourSchemeI getColourScheme()
{
return cs == null ? null : cs.getColourScheme();
}
public ResidueShaderI getGroupColourScheme()
{
return cs;
}
@Override
public boolean isNucleotide()
{
if (context != null)
{
return context.isNucleotide();
}
return false;
}
/**
* @param seq
* @return true if seq is a member of the group
*/
public boolean contains(SequenceI seq1)
{
return sequences.contains(seq1);
}
/**
* @param seq
* @param apos
* @return true if startRes<=apos and endRes>=apos and seq is in the group
*/
public boolean contains(SequenceI seq, int apos)
{
return (startRes <= apos && endRes >= apos) && sequences.contains(seq);
}
}