/*
- * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
- * Copyright (C) $$Year-Rel$$ The Jalview Authors
+ * Jalview - A Sequence Alignment Editor and Viewer (Version 2.9.0b1)
+ * Copyright (C) 2015 The Jalview Authors
*
* This file is part of Jalview.
*
public static final String DNA = "dna";
- static String[] dna =
- { "A", "C", "G", "T", "-" };
+ private static final String NEWLINE = System.lineSeparator();
+
+ static String[] dna = { "A", "C", "G", "T", "-" };
// "C", "T", "A", "G", "-"};
- static String[] pep =
- { "A", "R", "N", "D", "C", "Q", "E", "G", "H", "I", "L", "K", "M", "F",
- "P", "S", "T", "W", "Y", "V", "B", "Z", "X", "-" };
+ static String[] pep = { "A", "R", "N", "D", "C", "Q", "E", "G", "H", "I",
+ "L", "K", "M", "F", "P", "S", "T", "W", "Y", "V", "B", "Z", "X", "-" };
int[][] score;
else
{
output.append("Wrong type = dna or pep only");
- throw new Error(MessageManager.formatMessage("error.unknown_type_dna_or_pep", new String[]{type2}));
+ throw new Error(MessageManager.formatMessage(
+ "error.unknown_type_dna_or_pep", new String[] { type2 }));
}
}
int nochunks = ((aseq1.length - count) / len) + 1;
pid = 0;
- output.append("Score = " + score[maxi][maxj] + "\n");
- output.append("Length of alignment = " + (aseq1.length - count) + "\n");
+ output.append("Score = ").append(score[maxi][maxj]).append(NEWLINE);
+ output.append("Length of alignment = ")
+ .append(String.valueOf(aseq1.length - count)).append(NEWLINE);
output.append("Sequence ");
output.append(new Format("%" + maxid + "s").form(s1.getName()));
- output.append(" : " + s1.getStart() + " - " + s1.getEnd()
- + " (Sequence length = " + s1str.length() + ")\n");
+ output.append(" : ").append(String.valueOf(s1.getStart()))
+ .append(" - ").append(String.valueOf(s1.getEnd()));
+ output.append(" (Sequence length = ")
+ .append(String.valueOf(s1str.length())).append(")")
+ .append(NEWLINE);
output.append("Sequence ");
output.append(new Format("%" + maxid + "s").form(s2.getName()));
- output.append(" : " + s2.getStart() + " - " + s2.getEnd()
- + " (Sequence length = " + s2str.length() + ")\n\n");
+ output.append(" : ").append(String.valueOf(s2.getStart()))
+ .append(" - ").append(String.valueOf(s2.getEnd()));
+ output.append(" (Sequence length = ")
+ .append(String.valueOf(s2str.length())).append(")")
+ .append(NEWLINE).append(NEWLINE);
for (int j = 0; j < nochunks; j++)
{
// Print the first aligned sequence
- output.append(new Format("%" + (maxid) + "s").form(s1id) + " ");
+ output.append(new Format("%" + (maxid) + "s").form(s1id)).append(" ");
for (int i = 0; i < len; i++)
{
}
}
- output.append("\n");
- output.append(new Format("%" + (maxid) + "s").form(" ") + " ");
+ output.append(NEWLINE);
+ output.append(new Format("%" + (maxid) + "s").form(" ")).append(" ");
// Print out the matching chars
for (int i = 0; i < len; i++)
}
// Now print the second aligned sequence
- output = output.append("\n");
- output = output.append(new Format("%" + (maxid) + "s").form(s2id)
- + " ");
+ output = output.append(NEWLINE);
+ output = output.append(new Format("%" + (maxid) + "s").form(s2id))
+ .append(" ");
for (int i = 0; i < len; i++)
{
}
}
- output = output.append("\n\n");
+ output.append(NEWLINE).append(NEWLINE);
}
pid = pid / (aseq1.length - count) * 100;
}
/**
- * DOCUMENT ME!
+ * Returns the given sequence with all of the given gap characters removed.
*
- * @param gapChar
- * DOCUMENT ME!
+ * @param gapChars
+ * a string of characters to be treated as gaps
* @param seq
- * DOCUMENT ME!
+ * the input sequence
*
- * @return DOCUMENT ME!
+ * @return
*/
- public static String extractGaps(String gapChar, String seq)
+ public static String extractGaps(String gapChars, String seq)
{
- StringTokenizer str = new StringTokenizer(seq, gapChar);
- StringBuffer newString = new StringBuffer();
+ if (gapChars == null || seq == null)
+ {
+ return null;
+ }
+ StringTokenizer str = new StringTokenizer(seq, gapChars);
+ StringBuilder newString = new StringBuilder(seq.length());
while (str.hasMoreTokens())
{
*/
public static List<List<? extends Object>> replaceMatchingSeqsWith(
List<SequenceI> seqs, List<AlignmentAnnotation> annotations,
- List<SequenceI> ochains,
- AlignmentI al, String dnaOrProtein, boolean removeOldAnnots)
+ List<SequenceI> ochains, AlignmentI al, String dnaOrProtein,
+ boolean removeOldAnnots)
{
List<SequenceI> orig = new ArrayList<SequenceI>(), repl = new ArrayList<SequenceI>();
List<AlignSeq> aligs = new ArrayList<AlignSeq>();
{
ArrayList<SequenceI> matches = new ArrayList<SequenceI>();
ArrayList<AlignSeq> aligns = new ArrayList<AlignSeq>();
-
+
for (SequenceI sq : ochains)
{
SequenceI bestm = null;
int bestscore = 0;
for (SequenceI msq : al.getSequences())
{
- AlignSeq aseq = doGlobalNWAlignment(msq, sq,
- dnaOrProtein);
+ AlignSeq aseq = doGlobalNWAlignment(msq, sq, dnaOrProtein);
if (bestm == null || aseq.getMaxScore() > bestscore)
{
bestscore = aseq.getMaxScore();
sq.setName(sp.getName());
sq.setDescription(sp.getDescription());
Mapping sp2sq;
- sq.transferAnnotation(sp, sp2sq = aligns.get(q).getMappingFromS1(false));
+ sq.transferAnnotation(sp,
+ sp2sq = aligns.get(q).getMappingFromS1(false));
aligs.add(aligns.get(q));
int inspos = -1;
for (int ap = 0; ap < annotations.size();)
{
inspos = ap;
}
- if (removeOldAnnots) {
+ if (removeOldAnnots)
+ {
annotations.remove(ap);
- } else {
+ }
+ else
+ {
AlignmentAnnotation alan = annotations.remove(ap);
alan.liftOver(sq, sp2sq);
alan.setSequenceRef(sq);