public static final int[] purinepyrimidineIndex;
- public static final Map<String, Integer> aa3Hash = new HashMap<String, Integer>();
+ public static final Map<String, Integer> aa3Hash = new HashMap<>();
- public static final Map<String, String> aa2Triplet = new HashMap<String, String>();
+ public static final Map<String, String> aa2Triplet = new HashMap<>();
- public static final Map<String, String> nucleotideName = new HashMap<String, String>();
+ public static final Map<String, String> nucleotideName = new HashMap<>();
// lookup from modified amino acid (e.g. MSE) to canonical form (e.g. MET)
- public static final Map<String, String> modifications = new HashMap<String, String>();
+ public static final Map<String, String> modifications = new HashMap<>();
static
{
};
// Added for PurinePyrimidineColourScheme
- public static final Color[] purinepyrimidine = {
- new Color(255, 131, 250), // A, G, R purines purplish/orchid
+ public static final Color[] purinepyrimidine = { new Color(255, 131, 250), // A,
+ // G,
+ // R
+ // purines
+ // purplish/orchid
new Color(64, 224, 208), // C,U, T, Y pyrimidines turquoise
Color.white, // all other nucleotides
Color.white // Gap
Color.green, // Q
Color.red, // E
Color.magenta, // G
- midBlue,// Color.red, // H
+ midBlue, // Color.red, // H
Color.pink, // I
Color.pink, // L
midBlue, // K
0.0 // X
};
- public static final double[] helix = { 1.42, 0.98, 0.67, 1.01, 0.70,
- 1.11, 1.51, 0.57, 1.00, 1.08, 1.21, 1.16, 1.45, 1.13, 0.57, 0.77,
- 0.83, 1.08, 0.69, 1.06, 0.84, 1.31, 1.00, 0.0 };
+ public static final double[] helix = { 1.42, 0.98, 0.67, 1.01, 0.70, 1.11,
+ 1.51, 0.57, 1.00, 1.08, 1.21, 1.16, 1.45, 1.13, 0.57, 0.77, 0.83,
+ 1.08, 0.69, 1.06, 0.84, 1.31, 1.00, 0.0 };
public static final double helixmin = 0.57;
public static final double turnmax = 1.56;
- public static final double[] buried = { 1.7, 0.1, 0.4, 0.4, 4.6, 0.3,
- 0.3, 1.8, 0.8, 3.1, 2.4, 0.05, 1.9, 2.2, 0.6, 0.8, 0.7, 1.6, 0.5,
- 2.9, 0.4, 0.3, 1.358, 0.00 };
+ public static final double[] buried = { 1.7, 0.1, 0.4, 0.4, 4.6, 0.3, 0.3,
+ 1.8, 0.8, 3.1, 2.4, 0.05, 1.9, 2.2, 0.6, 0.8, 0.7, 1.6, 0.5, 2.9, 0.4,
+ 0.3, 1.358, 0.00 };
public static final double buriedmin = 0.05;
* Color.white, // R Color.white, // Y Color.white, // N Color.white, // Gap
*/
- public static List<String> STOP = Arrays.asList("TGA", "TAA", "TAG");
+ public static String STOP = "STOP";
+
+ public static List<String> STOP_CODONS = Arrays.asList("TGA", "TAA", "TAG");
public static String START = "ATG";
/**
* Nucleotide Ambiguity Codes
*/
- public static final Map<String, String[]> ambiguityCodes = new Hashtable<String, String[]>();
+ public static final Map<String, String[]> ambiguityCodes = new Hashtable<>();
/**
* Codon triplets with additional symbols for unambiguous codons that include
* ambiguity codes
*/
- public static final Hashtable<String, String> codonHash2 = new Hashtable<String, String>();
+ public static final Hashtable<String, String> codonHash2 = new Hashtable<>();
/**
* all ambiguity codes for a given base
*/
- public final static Hashtable<String, List<String>> _ambiguityCodes = new Hashtable<String, List<String>>();
+ public final static Hashtable<String, List<String>> _ambiguityCodes = new Hashtable<>();
static
{
List<String> codesfor = _ambiguityCodes.get(r);
if (codesfor == null)
{
- _ambiguityCodes.put(r, codesfor = new ArrayList<String>());
+ _ambiguityCodes.put(r, codesfor = new ArrayList<>());
}
if (!codesfor.contains(acode.getKey()))
{
}
else
{
- System.err
- .println("Inconsistency in the IUBMB ambiguity code nomenclature table: collision for "
+ System.err.println(
+ "Inconsistency in the IUBMB ambiguity code nomenclature table: collision for "
+ acode.getKey() + " in residue " + r);
}
}
}
// and programmatically add in the ambiguity codes that yield the same amino
// acid
- String[] unambcodons = codonHash2.keySet().toArray(
- new String[codonHash2.size()]);
+ String[] unambcodons = codonHash2.keySet()
+ .toArray(new String[codonHash2.size()]);
for (String codon : unambcodons)
{
String residue = codonHash2.get(codon);
}
}
// enumerate all combinations and test for veracity of translation
- int tpos[] = new int[codon.length()], cpos[] = new int[codon.length()];
+ int tpos[] = new int[codon.length()],
+ cpos[] = new int[codon.length()];
for (int i = 0; i < tpos.length; i++)
{
tpos[i] = -1;
}
// Stores residue codes/names and colours and other things
- public static Map<String, Map<String, Integer>> propHash = new Hashtable<String, Map<String, Integer>>();
+ public static Map<String, Map<String, Integer>> propHash = new Hashtable<>();
- public static Map<String, Integer> hydrophobic = new Hashtable<String, Integer>();
+ public static Map<String, Integer> hydrophobic = new Hashtable<>();
- public static Map<String, Integer> polar = new Hashtable<String, Integer>();
+ public static Map<String, Integer> polar = new Hashtable<>();
- public static Map<String, Integer> small = new Hashtable<String, Integer>();
+ public static Map<String, Integer> small = new Hashtable<>();
- public static Map<String, Integer> positive = new Hashtable<String, Integer>();
+ public static Map<String, Integer> positive = new Hashtable<>();
- public static Map<String, Integer> negative = new Hashtable<String, Integer>();
+ public static Map<String, Integer> negative = new Hashtable<>();
- public static Map<String, Integer> charged = new Hashtable<String, Integer>();
+ public static Map<String, Integer> charged = new Hashtable<>();
- public static Map<String, Integer> aromatic = new Hashtable<String, Integer>();
+ public static Map<String, Integer> aromatic = new Hashtable<>();
- public static Map<String, Integer> aliphatic = new Hashtable<String, Integer>();
+ public static Map<String, Integer> aliphatic = new Hashtable<>();
- public static Map<String, Integer> tiny = new Hashtable<String, Integer>();
+ public static Map<String, Integer> tiny = new Hashtable<>();
- public static Map<String, Integer> proline = new Hashtable<String, Integer>();
+ public static Map<String, Integer> proline = new Hashtable<>();
static
{
charged.put("Q", ZERO);
charged.put("D", ONE);
charged.put("N", ZERO); // Asparagine is polar but not
- // charged.
+ // charged.
// Alternative would be charged and
// negative (in basic form)?
charged.put("S", ZERO);
}
static
{
- int[][] propMatrixF = new int[maxProteinIndex][maxProteinIndex], propMatrixPos = new int[maxProteinIndex][maxProteinIndex], propMatrixEpos = new int[maxProteinIndex][maxProteinIndex];
+ int[][] propMatrixF = new int[maxProteinIndex][maxProteinIndex],
+ propMatrixPos = new int[maxProteinIndex][maxProteinIndex],
+ propMatrixEpos = new int[maxProteinIndex][maxProteinIndex];
for (int i = 0; i < maxProteinIndex; i++)
{
int maxF = 0, maxP = 0, maxEP = 0;
String cdn = codonHash2.get(lccodon.toUpperCase());
if ("*".equals(cdn))
{
- return "STOP";
+ return STOP;
}
return cdn;
}
public static Hashtable<String, String> toDssp3State;
static
{
- toDssp3State = new Hashtable<String, String>();
+ toDssp3State = new Hashtable<>();
toDssp3State.put("H", "H");
toDssp3State.put("E", "E");
toDssp3State.put("C", " ");
// / cut here
public static void main(String[] args)
{
- Hashtable<String, Vector<String>> aaProps = new Hashtable<String, Vector<String>>();
+ Hashtable<String, Vector<String>> aaProps = new Hashtable<>();
System.out.println("my %aa = {");
// invert property hashes
for (String pname : propHash.keySet())
Vector<String> aprops = aaProps.get(rname);
if (aprops == null)
{
- aprops = new Vector<String>();
+ aprops = new Vector<>();
aaProps.put(rname, aprops);
}
Integer hasprop = phash.get(rname);
public static List<String> getResidues(boolean forNucleotide,
boolean includeAmbiguous)
{
- List<String> result = new ArrayList<String>();
+ List<String> result = new ArrayList<>();
if (forNucleotide)
{
for (String nuc : nucleotideName.keySet())
{
return '0';
}
- Integer index = ResidueProperties.aa3Hash.get(threeLetterCode
- .toUpperCase());
+ Integer index = ResidueProperties.aa3Hash
+ .get(threeLetterCode.toUpperCase());
return index == null ? '0' : aa[index].charAt(0);
}
}