/*
- * Jalview - A Sequence Alignment Editor and Viewer (Version 2.9.0b1)
- * Copyright (C) 2015 The Jalview Authors
+ * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
+ * Copyright (C) $$Year-Rel$$ The Jalview Authors
*
* This file is part of Jalview.
*
*/
package jalview.analysis;
+import jalview.analysis.scoremodels.PIDModel;
+import jalview.analysis.scoremodels.SimilarityParams;
import jalview.datamodel.AlignmentAnnotation;
import jalview.datamodel.AlignmentI;
import jalview.datamodel.AlignmentOrder;
import jalview.datamodel.SequenceGroup;
import jalview.datamodel.SequenceI;
import jalview.datamodel.SequenceNode;
-import jalview.util.Comparison;
import jalview.util.MessageManager;
import jalview.util.QuickSort;
import java.util.ArrayList;
+import java.util.Arrays;
import java.util.List;
/**
static boolean sortOrderAscending = true;
- static NJTree lastTree = null;
+ static TreeModel lastTree = null;
static boolean sortTreeAscending = true;
private static boolean sortLengthAscending;
/**
- * Sort by Percentage Identity w.r.t. s
+ * Sorts sequences in the alignment by Percentage Identity with the given
+ * reference sequence, sorting the highest identity to the top
*
* @param align
* AlignmentI
* @param s
* SequenceI
- * @param tosort
- * sequences from align that are to be sorted.
- */
- public static void sortByPID(AlignmentI align, SequenceI s,
- SequenceI[] tosort)
- {
- sortByPID(align, s, tosort, 0, -1);
- }
-
- /**
- * Sort by Percentage Identity w.r.t. s
- *
- * @param align
- * AlignmentI
- * @param s
- * SequenceI
- * @param tosort
- * sequences from align that are to be sorted.
- * @param start
- * start column (0 for beginning
* @param end
*/
- public static void sortByPID(AlignmentI align, SequenceI s,
- SequenceI[] tosort, int start, int end)
+ public static void sortByPID(AlignmentI align, SequenceI s)
{
int nSeq = align.getHeight();
float[] scores = new float[nSeq];
SequenceI[] seqs = new SequenceI[nSeq];
+ String refSeq = s.getSequenceAsString();
+ SimilarityParams pidParams = new SimilarityParams(true, true, true,
+ true);
for (int i = 0; i < nSeq; i++)
{
- scores[i] = Comparison.PID(align.getSequenceAt(i)
- .getSequenceAsString(), s.getSequenceAsString());
+ scores[i] = (float) PIDModel.computePID(
+ align.getSequenceAt(i).getSequenceAsString(), refSeq,
+ pidParams);
seqs[i] = align.getSequenceAt(i);
}
}
else
{
- setReverseOrder(align, vectorSubsetToArray(tmp, align.getSequences()));
+ setReverseOrder(align,
+ vectorSubsetToArray(tmp, align.getSequences()));
}
}
* @return DOCUMENT ME!
*/
private static List<SequenceI> getOrderByTree(AlignmentI align,
- NJTree tree)
+ TreeModel tree)
{
int nSeq = align.getHeight();
if (tmp.size() != nSeq)
{
- System.err
- .println("WARNING: tmp.size()="
- + tmp.size()
- + " != nseq="
- + nSeq
- + " in getOrderByTree - tree contains sequences not in alignment");
+ System.err.println("WARNING: tmp.size()=" + tmp.size() + " != nseq="
+ + nSeq
+ + " in getOrderByTree - tree contains sequences not in alignment");
}
}
* @param tree
* tree which has
*/
- public static void sortByTree(AlignmentI align, NJTree tree)
+ public static void sortByTree(AlignmentI align, TreeModel tree)
{
List<SequenceI> tmp = getOrderByTree(align, tree);
}
else
{
- setReverseOrder(align, vectorSubsetToArray(tmp, align.getSequences()));
+ setReverseOrder(align,
+ vectorSubsetToArray(tmp, align.getSequences()));
}
}
public static void sortByFeature(String featureLabel, String groupLabel,
int start, int stop, AlignmentI alignment, String method)
{
- sortByFeature(featureLabel == null ? null
- : new String[] { featureLabel }, groupLabel == null ? null
- : new String[] { groupLabel }, start, stop, alignment, method);
+ sortByFeature(
+ featureLabel == null ? null : Arrays.asList(new String[]
+ { featureLabel }),
+ groupLabel == null ? null : Arrays.asList(new String[]
+ { groupLabel }), start, stop, alignment, method);
}
private static boolean containsIgnoreCase(final String lab,
- final String[] labs)
+ final List<String> labs)
{
if (labs == null)
{
{
return false;
}
- for (int q = 0; q < labs.length; q++)
+ for (String label : labs)
{
- if (labs[q] != null && lab.equalsIgnoreCase(labs[q]))
+ if (lab.equalsIgnoreCase(label))
{
return true;
}
return false;
}
- public static void sortByFeature(String[] featureLabels,
- String[] groupLabels, int start, int stop, AlignmentI alignment,
- String method)
+ public static void sortByFeature(List<String> featureLabels,
+ List<String> groupLabels, int start, int stop,
+ AlignmentI alignment, String method)
{
if (method != FEATURE_SCORE && method != FEATURE_LABEL
&& method != FEATURE_DENSITY)
{
- throw new Error(
- MessageManager
- .getString("error.implementation_error_sortbyfeature"));
+ throw new Error(MessageManager
+ .getString("error.implementation_error_sortbyfeature"));
}
+
boolean ignoreScore = method != FEATURE_SCORE;
StringBuffer scoreLabel = new StringBuffer();
scoreLabel.append(start + stop + method);
// This doesn't quite work yet - we'd like to have a canonical ordering that
// can be preserved from call to call
- for (int i = 0; featureLabels != null && i < featureLabels.length; i++)
+ if (featureLabels != null)
+ {
+ for (String label : featureLabels)
+ {
+ scoreLabel.append(label);
+ }
+ }
+ if (groupLabels != null)
+ {
+ for (String label : groupLabels)
+ {
+ scoreLabel.append(label);
+ }
+ }
+
+ /*
+ * if resorting the same feature, toggle sort order
+ */
+ if (lastSortByFeatureScore == null
+ || !scoreLabel.toString().equals(lastSortByFeatureScore))
{
- scoreLabel.append(featureLabels[i] == null ? "null"
- : featureLabels[i]);
+ sortByFeatureScoreAscending = true;
}
- for (int i = 0; groupLabels != null && i < groupLabels.length; i++)
+ else
{
- scoreLabel.append(groupLabels[i] == null ? "null" : groupLabels[i]);
+ sortByFeatureScoreAscending = !sortByFeatureScoreAscending;
}
+ lastSortByFeatureScore = scoreLabel.toString();
+
SequenceI[] seqs = alignment.getSequencesArray();
boolean[] hasScore = new boolean[seqs.length]; // per sequence score
for (int f = 0; f < sf.length; f++)
{
// filter for selection criteria
- if (
- // ignore features outwith alignment start-stop positions.
- (sf[f].end < sstart || sf[f].begin > sstop) ||
- // or ignore based on selection criteria
- (featureLabels != null && !AlignmentSorter
- .containsIgnoreCase(sf[f].type, featureLabels))
- || (groupLabels != null
- // problem here: we cannot eliminate null feature group features
- && (sf[f].getFeatureGroup() != null && !AlignmentSorter
- .containsIgnoreCase(sf[f].getFeatureGroup(),
- groupLabels))))
+ SequenceFeature feature = sf[f];
+
+ /*
+ * double-check feature overlaps columns (JAL-2544)
+ * (could avoid this with a findPositions(fromCol, toCol) method)
+ * findIndex returns base 1 column values, startCol/endCol are base 0
+ */
+ boolean noOverlap = seqs[i].findIndex(feature.getBegin()) > stop + 1
+ || seqs[i].findIndex(feature.getEnd()) < start + 1;
+ boolean skipFeatureType = featureLabels != null && !AlignmentSorter
+ .containsIgnoreCase(feature.type, featureLabels);
+ boolean skipFeatureGroup = groupLabels != null
+ && (feature.getFeatureGroup() != null
+ && !AlignmentSorter.containsIgnoreCase(
+ feature.getFeatureGroup(), groupLabels));
+ if (noOverlap || skipFeatureType || skipFeatureGroup)
{
// forget about this feature
sf[f] = null;
else
{
// or, also take a look at the scores if necessary.
- if (!ignoreScore && !Float.isNaN(sf[f].getScore()))
+ if (!ignoreScore && !Float.isNaN(feature.getScore()))
{
if (seqScores[i] == 0)
{
}
seqScores[i]++;
hasScore[i] = true;
- scores[i] += sf[f].getScore(); // take the first instance of this
+ scores[i] += feature.getScore(); // take the first instance of this
// score.
}
}
String[] labs = new String[fs.length];
for (int l = 0; l < labs.length; l++)
{
- labs[l] = (fs[l].getDescription() != null ? fs[l]
- .getDescription() : fs[l].getType());
+ labs[l] = (fs[l].getDescription() != null
+ ? fs[l].getDescription()
+ : fs[l].getType());
}
- jalview.util.QuickSort.sort(labs, ((Object[]) feats[i]));
+ QuickSort.sort(labs, ((Object[]) feats[i]));
}
}
if (hasScore[i])
}
else
{
- int nf = (feats[i] == null) ? 0
- : ((SequenceFeature[]) feats[i]).length;
- // System.err.println("Sorting on Score: seq "+seqs[i].getName()+
- // " Feats: "+nf+" Score : "+scores[i]);
+ // int nf = (feats[i] == null) ? 0
+ // : ((SequenceFeature[]) feats[i]).length;
+ // // System.err.println("Sorting on Score: seq " +
+ // seqs[i].getName()
+ // + " Feats: " + nf + " Score : " + scores[i]);
}
}
}
-
- jalview.util.QuickSort.sort(scores, seqs);
+ QuickSort.sortByDouble(scores, seqs, sortByFeatureScoreAscending);
}
else if (method == FEATURE_DENSITY)
{
-
- // break ties between equivalent numbers for adjacent sequences by adding
- // 1/Nseq*i on the original order
- double fr = 0.9 / (1.0 * seqs.length);
for (int i = 0; i < seqs.length; i++)
{
- double nf;
- scores[i] = (0.05 + fr * i)
- + (nf = ((feats[i] == null) ? 0.0
- : 1.0 * ((SequenceFeature[]) feats[i]).length));
+ int featureCount = feats[i] == null ? 0
+ : ((SequenceFeature[]) feats[i]).length;
+ scores[i] = featureCount;
// System.err.println("Sorting on Density: seq "+seqs[i].getName()+
- // " Feats: "+nf+" Score : "+scores[i]);
+ // " Feats: "+featureCount+" Score : "+scores[i]);
}
- jalview.util.QuickSort.sort(scores, seqs);
+ QuickSort.sortByDouble(scores, seqs, sortByFeatureScoreAscending);
}
else
{
MessageManager.getString("error.not_yet_implemented"));
}
}
- if (lastSortByFeatureScore == null
- || !scoreLabel.toString().equals(lastSortByFeatureScore))
- {
- sortByFeatureScoreAscending = true;
- }
- else
- {
- sortByFeatureScoreAscending = !sortByFeatureScoreAscending;
- }
- if (sortByFeatureScoreAscending)
- {
- setOrder(alignment, seqs);
- }
- else
- {
- setReverseOrder(alignment, seqs);
- }
- lastSortByFeatureScore = scoreLabel.toString();
+
+ setOrder(alignment, seqs);
}
}