private static final int TO_UPPER_CASE = 'a' - 'A';
- private static final char GAP_SPACE = ' ';
+ public static final char GAP_SPACE = ' ';
- private static final char GAP_DOT = '.';
+ public static final char GAP_DOT = '.';
- private static final char GAP_DASH = '-';
+ public static final char GAP_DASH = '-';
- public static final String GapChars = new String(new char[] { GAP_SPACE,
- GAP_DOT, GAP_DASH });
+ public static final String GapChars = new String(
+ new char[]
+ { GAP_SPACE, GAP_DOT, GAP_DASH });
/**
* DOCUMENT ME!
* int
* @return float
*/
- public static float compare(SequenceI ii, SequenceI jj, int start, int end)
+ public static float compare(SequenceI ii, SequenceI jj, int start,
+ int end)
{
String si = ii.getSequenceAsString();
String sj = jj.getSequenceAsString();
{
for (int j = 0; j < jlen; j++)
{
- if (si.substring(start + j, start + j + 1).equals(
- sj.substring(start + j, start + j + 1)))
+ if (si.substring(start + j, start + j + 1)
+ .equals(sj.substring(start + j, start + j + 1)))
{
match++;
}
{
for (int j = 0; j < jlen; j++)
{
- if (si.substring(start + j, start + j + 1).equals(
- sj.substring(start + j, start + j + 1)))
+ if (si.substring(start + j, start + j + 1)
+ .equals(sj.substring(start + j, start + j + 1)))
{
match++;
}
* @param s2
* SequenceI
* @return float
+ * @deprecated use PIDModel.computePID()
*/
+ @Deprecated
public final static float PID(String seq1, String seq2)
{
return PID(seq1, seq2, 0, seq1.length());
static final int caseShift = 'a' - 'A';
// Another pid with region specification
- public final static float PID(String seq1, String seq2, int start, int end)
+ /**
+ * @deprecated use PIDModel.computePID()
+ */
+ @Deprecated
+ public final static float PID(String seq1, String seq2, int start,
+ int end)
{
return PID(seq1, seq2, start, end, true, false);
}
* @param ungappedOnly
* - if true - only count PID over ungapped columns
* @return
+ * @deprecated use PIDModel.computePID()
*/
+ @Deprecated
public final static float PID(String seq1, String seq2, int start,
int end, boolean wcGaps, boolean ungappedOnly)
{
{
return false;
}
- char[][] letters = new char[seqs.length][];
- for (int i = 0; i < seqs.length; i++)
- {
- if (seqs[i] != null)
- {
- char[] sequence = seqs[i].getSequence();
- if (sequence != null)
- {
- letters[i] = sequence;
- }
- }
- }
-
- return areNucleotide(letters);
- }
- /**
- * Answers true if more than 85% of the sequence residues (ignoring gaps) are
- * A, G, C, T or U, else false. This is just a heuristic guess and may give a
- * wrong answer (as AGCT are also amino acid codes).
- *
- * @param letters
- * @return
- */
- static final boolean areNucleotide(char[][] letters)
- {
int ntCount = 0;
int aaCount = 0;
- for (char[] seq : letters)
+ for (SequenceI seq : seqs)
{
if (seq == null)
{
}
// TODO could possibly make an informed guess just from the first sequence
// to save a lengthy calculation
- for (char c : seq)
+ int len = seq.getLength();
+ for (int i = 0; i < len; i++)
{
+ char c = seq.getCharAt(i);
if (isNucleotide(c))
{
ntCount++;
flattened.add(s);
}
}
- final SequenceI[] oneDArray = flattened.toArray(new SequenceI[flattened
- .size()]);
+ final SequenceI[] oneDArray = flattened
+ .toArray(new SequenceI[flattened.size()]);
return isNucleotide(oneDArray);
}
+
+ /**
+ * Compares two residues either case sensitively or case insensitively
+ * depending on the caseSensitive flag
+ *
+ * @param c1
+ * first char
+ * @param c2
+ * second char to compare with
+ * @param caseSensitive
+ * if true comparison will be case sensitive otherwise its not
+ * @return
+ */
+ public static boolean isSameResidue(char c1, char c2,
+ boolean caseSensitive)
+ {
+ if (caseSensitive)
+ {
+ return (c1 == c2);
+ }
+ else
+ {
+ return Character.toUpperCase(c1) == Character.toUpperCase(c2);
+ }
+ }
}