/**
* A class to count occurrences of residues in a profile, optimised for speed
* and memory footprint.
+ *
* @author gmcarstairs
*
*/
{
if (intCounts[i] == count)
{
- modal.append(isNucleotide ? NUCS.charAt(i - 1) : AAS
- .charAt(i - 1));
+ modal.append(
+ isNucleotide ? NUCS.charAt(i - 1) : AAS.charAt(i - 1));
}
}
}
{
if (counts[i] == count)
{
- modal.append(isNucleotide ? NUCS.charAt(i - 1) : AAS
- .charAt(i - 1));
+ modal.append(
+ isNucleotide ? NUCS.charAt(i - 1) : AAS.charAt(i - 1));
}
}
}
*
* @return
*/
- public int size() {
+ public int size()
+ {
int size = 0;
if (useIntCounts)
{
{
if (intCounts[i] > 0)
{
- char symbol = isNucleotide ? NUCS.charAt(i - 1) : AAS
- .charAt(i - 1);
+ char symbol = isNucleotide ? NUCS.charAt(i - 1)
+ : AAS.charAt(i - 1);
symbols[j] = symbol;
values[j] = intCounts[i];
j++;
{
if (counts[i] > 0)
{
- char symbol = isNucleotide ? NUCS.charAt(i - 1) : AAS
- .charAt(i - 1);
+ char symbol = isNucleotide ? NUCS.charAt(i - 1)
+ : AAS.charAt(i - 1);
symbols[j] = symbol;
values[j] = counts[i];
j++;