*/
package jalview.analysis;
+import jalview.analysis.scoremodels.PIDModel;
+import jalview.analysis.scoremodels.ScoreMatrix;
+import jalview.analysis.scoremodels.ScoreModels;
+import jalview.analysis.scoremodels.SimilarityParams;
import jalview.datamodel.AlignmentAnnotation;
import jalview.datamodel.AlignmentI;
import jalview.datamodel.Mapping;
import jalview.datamodel.Sequence;
import jalview.datamodel.SequenceI;
-import jalview.schemes.ResidueProperties;
-import jalview.schemes.ScoreMatrix;
import jalview.util.Comparison;
import jalview.util.Format;
import jalview.util.MapList;
private static final String NEWLINE = System.lineSeparator();
- static String[] dna = { "A", "C", "G", "T", "-" };
+ float[][] score;
- // "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", "-" };
+ float[][] E;
- int[][] score;
-
- int[][] E;
-
- int[][] F;
+ float[][] F;
int[][] traceback;
int count;
/** DOCUMENT ME!! */
- public int maxscore;
+ public float maxscore;
float pid;
int gapExtend = 20;
- int[][] lookup = ResidueProperties.getBLOSUM62();
-
- String[] intToStr = pep;
-
- int defInt = 23;
-
StringBuffer output = new StringBuffer();
- String type;
+ String type; // AlignSeq.PEP or AlignSeq.DNA
+
+ private ScoreMatrix scoreMatrix;
- private int[] charToInt;
+ private static final int GAP_INDEX = -1;
/**
* Creates a new AlignSeq object.
*
- * @param s1
- * DOCUMENT ME!
- * @param s2
- * DOCUMENT ME!
- * @param type
- * DOCUMENT ME!
+ * @param s1 first sequence for alignment
+ * @param s2 second sequence for alignment
+ * @param type molecule type, either AlignSeq.PEP or AlignSeq.DNA
*/
public AlignSeq(SequenceI s1, SequenceI s2, String type)
{
- SeqInit(s1, s1.getSequenceAsString(), s2, s2.getSequenceAsString(),
+ seqInit(s1, s1.getSequenceAsString(), s2, s2.getSequenceAsString(),
type);
}
public AlignSeq(SequenceI s1, String string1, SequenceI s2,
String string2, String type)
{
- SeqInit(s1, string1.toUpperCase(), s2, string2.toUpperCase(), type);
+ seqInit(s1, string1.toUpperCase(), s2, string2.toUpperCase(), type);
}
/**
*
* @return DOCUMENT ME!
*/
- public int getMaxScore()
+ public float getMaxScore()
{
return maxscore;
}
}
/**
- * DOCUMENT ME!
- *
- * @return DOCUMENT ME!
- */
- public SequenceI getS1()
- {
- return s1;
- }
-
- /**
- * DOCUMENT ME!
- *
- * @return DOCUMENT ME!
- */
- public SequenceI getS2()
- {
- return s2;
- }
-
- /**
*
* @return aligned instance of Seq 1
*/
* @param type
* DNA or PEPTIDE
*/
- public void SeqInit(SequenceI s1, String string1, SequenceI s2,
+ public void seqInit(SequenceI s1, String string1, SequenceI s2,
String string2, String type)
{
this.s1 = s1;
this.s2 = s2;
setDefaultParams(type);
- SeqInit(string1, string2);
- }
-
- /**
- * Construct score matrix for sequences with custom substitution matrix
- *
- * @param s1
- * - sequence 1
- * @param string1
- * - string to use for s1
- * @param s2
- * - sequence 2
- * @param string2
- * - string to use for s2
- * @param scoreMatrix
- * - substitution matrix to use for alignment
- */
- public void SeqInit(SequenceI s1, String string1, SequenceI s2,
- String string2, ScoreMatrix scoreMatrix)
- {
- this.s1 = s1;
- this.s2 = s2;
- setType(scoreMatrix.isDNA() ? AlignSeq.DNA : AlignSeq.PEP);
- lookup = scoreMatrix.getMatrix();
+ seqInit(string1, string2);
}
/**
* @param string1
* @param string2
*/
- private void SeqInit(String string1, String string2)
+ private void seqInit(String string1, String string2)
{
s1str = extractGaps(jalview.util.Comparison.GapChars, string1);
s2str = extractGaps(jalview.util.Comparison.GapChars, string2);
return;
}
- // System.out.println("lookuip " + rt.freeMemory() + " "+ rt.totalMemory());
- seq1 = new int[s1str.length()];
-
- // System.out.println("seq1 " + rt.freeMemory() +" " + rt.totalMemory());
- seq2 = new int[s2str.length()];
-
- // System.out.println("seq2 " + rt.freeMemory() + " " + rt.totalMemory());
- score = new int[s1str.length()][s2str.length()];
+ score = new float[s1str.length()][s2str.length()];
- // System.out.println("score " + rt.freeMemory() + " " + rt.totalMemory());
- E = new int[s1str.length()][s2str.length()];
+ E = new float[s1str.length()][s2str.length()];
- // System.out.println("E " + rt.freeMemory() + " " + rt.totalMemory());
- F = new int[s1str.length()][s2str.length()];
+ F = new float[s1str.length()][s2str.length()];
traceback = new int[s1str.length()][s2str.length()];
- // System.out.println("F " + rt.freeMemory() + " " + rt.totalMemory());
- seq1 = stringToInt(s1str, type);
-
- // System.out.println("seq1 " + rt.freeMemory() + " " + rt.totalMemory());
- seq2 = stringToInt(s2str, type);
-
- // System.out.println("Seq2 " + rt.freeMemory() + " " + rt.totalMemory());
- // long tstart = System.currentTimeMillis();
- // calcScoreMatrix();
- // long tend = System.currentTimeMillis();
- // System.out.println("Time take to calculate score matrix = " +
- // (tend-tstart) + " ms");
- // printScoreMatrix(score);
- // System.out.println();
- // printScoreMatrix(traceback);
- // System.out.println();
- // printScoreMatrix(E);
- // System.out.println();
- // /printScoreMatrix(F);
- // System.out.println();
- // tstart = System.currentTimeMillis();
- // traceAlignment();
- // tend = System.currentTimeMillis();
- // System.out.println("Time take to traceback alignment = " + (tend-tstart)
- // + " ms");
- }
-
- private void setDefaultParams(String type)
- {
- setType(type);
+ seq1 = indexEncode(s1str);
- if (type.equals(AlignSeq.PEP))
- {
- lookup = ResidueProperties.getDefaultPeptideMatrix();
- }
- else if (type.equals(AlignSeq.DNA))
- {
- lookup = ResidueProperties.getDefaultDnaMatrix();
- }
+ seq2 = indexEncode(s2str);
}
- private void setType(String type2)
+ private void setDefaultParams(String moleculeType)
{
- this.type = type2;
- if (type.equals(AlignSeq.PEP))
- {
- intToStr = pep;
- charToInt = ResidueProperties.aaIndex;
- defInt = ResidueProperties.maxProteinIndex;
- }
- else if (type.equals(AlignSeq.DNA))
- {
- intToStr = dna;
- charToInt = ResidueProperties.nucleotideIndex;
- defInt = ResidueProperties.maxNucleotideIndex;
- }
- else
+ if (!PEP.equals(moleculeType) && !DNA.equals(moleculeType))
{
output.append("Wrong type = dna or pep only");
throw new Error(MessageManager.formatMessage(
- "error.unknown_type_dna_or_pep", new String[] { type2 }));
+ "error.unknown_type_dna_or_pep",
+ new String[] { moleculeType }));
}
+
+ type = moleculeType;
+ scoreMatrix = ScoreModels.getInstance().getDefaultModel(
+ PEP.equals(type));
}
/**
public void traceAlignment()
{
// Find the maximum score along the rhs or bottom row
- int max = -9999;
+ float max = -Float.MAX_VALUE;
for (int i = 0; i < seq1.length; i++)
{
aseq1 = new int[seq1.length + seq2.length];
aseq2 = new int[seq1.length + seq2.length];
+ StringBuilder sb1 = new StringBuilder(aseq1.length);
+ StringBuilder sb2 = new StringBuilder(aseq2.length);
+
count = (seq1.length + seq2.length) - 1;
- while ((i > 0) && (j > 0))
+ while (i > 0 && j > 0)
{
- if ((aseq1[count] != defInt) && (i >= 0))
- {
- aseq1[count] = seq1[i];
- astr1 = s1str.charAt(i) + astr1;
- }
-
- if ((aseq2[count] != defInt) && (j > 0))
- {
- aseq2[count] = seq2[j];
- astr2 = s2str.charAt(j) + astr2;
- }
+ aseq1[count] = seq1[i];
+ sb1.append(s1str.charAt(i));
+ aseq2[count] = seq2[j];
+ sb2.append(s2str.charAt(j));
trace = findTrace(i, j);
else if (trace == 1)
{
j--;
- aseq1[count] = defInt;
- astr1 = "-" + astr1.substring(1);
+ aseq1[count] = GAP_INDEX;
+ sb1.replace(sb1.length() - 1, sb1.length(), "-");
}
else if (trace == -1)
{
i--;
- aseq2[count] = defInt;
- astr2 = "-" + astr2.substring(1);
+ aseq2[count] = GAP_INDEX;
+ sb2.replace(sb2.length() - 1, sb2.length(), "-");
}
count--;
seq1start = i + 1;
seq2start = j + 1;
- if (aseq1[count] != defInt)
+ if (aseq1[count] != GAP_INDEX)
{
aseq1[count] = seq1[i];
- astr1 = s1str.charAt(i) + astr1;
+ sb1.append(s1str.charAt(i));
}
- if (aseq2[count] != defInt)
+ if (aseq2[count] != GAP_INDEX)
{
aseq2[count] = seq2[j];
- astr2 = s2str.charAt(j) + astr2;
+ sb2.append(s2str.charAt(j));
}
+
+ /*
+ * we built the character strings backwards, so now
+ * reverse them to convert to sequence strings
+ */
+ astr1 = sb1.reverse().toString();
+ astr2 = sb2.reverse().toString();
}
/**
.append(String.valueOf(s2str.length())).append(")")
.append(NEWLINE).append(NEWLINE);
+ ScoreMatrix pam250 = ScoreModels.getInstance().getPam250();
+
for (int j = 0; j < nochunks; j++)
{
// Print the first aligned sequence
output.append(NEWLINE);
output.append(new Format("%" + (maxid) + "s").form(" ")).append(" ");
- // Print out the matching chars
+ /*
+ * Print out the match symbols:
+ * | for exact match (ignoring case)
+ * . if PAM250 score is positive
+ * else a space
+ */
for (int i = 0; i < len; i++)
{
if ((i + (j * len)) < astr1.length())
{
- if (astr1.charAt(i + (j * len)) == astr2.charAt(i + (j * len))
- && !jalview.util.Comparison.isGap(astr1.charAt(i
- + (j * len))))
+ char c1 = astr1.charAt(i + (j * len));
+ char c2 = astr2.charAt(i + (j * len));
+ boolean sameChar = Comparison.isSameResidue(c1, c2, false);
+ if (sameChar && !Comparison.isGap(c1))
{
pid++;
output.append("|");
}
else if (type.equals("pep"))
{
- if (ResidueProperties.getPAM250(astr1.charAt(i + (j * len)),
- astr2.charAt(i + (j * len))) > 0)
+ if (pam250.getPairwiseScore(c1, c2) > 0)
{
output.append(".");
}
/**
* DOCUMENT ME!
*
- * @param mat
- * DOCUMENT ME!
- */
- public void printScoreMatrix(int[][] mat)
- {
- int n = seq1.length;
- int m = seq2.length;
-
- for (int i = 0; i < n; i++)
- {
- // Print the top sequence
- if (i == 0)
- {
- Format.print(System.out, "%8s", s2str.substring(0, 1));
-
- for (int jj = 1; jj < m; jj++)
- {
- Format.print(System.out, "%5s", s2str.substring(jj, jj + 1));
- }
-
- System.out.println();
- }
-
- for (int j = 0; j < m; j++)
- {
- if (j == 0)
- {
- Format.print(System.out, "%3s", s1str.substring(i, i + 1));
- }
-
- Format.print(System.out, "%3d ", mat[i][j] / 10);
- }
-
- System.out.println();
- }
- }
-
- /**
- * DOCUMENT ME!
- *
* @param i
* DOCUMENT ME!
* @param j
public int findTrace(int i, int j)
{
int t = 0;
- int max = score[i - 1][j - 1] + (lookup[seq1[i]][seq2[j]] * 10);
+ // float pairwiseScore = lookup[seq1[i]][seq2[j]];
+ float pairwiseScore = scoreMatrix.getPairwiseScore(s1str.charAt(i),
+ s2str.charAt(j));
+ float max = score[i - 1][j - 1] + (pairwiseScore * 10);
if (F[i][j] > max)
{
int m = seq2.length;
// top left hand element
- score[0][0] = lookup[seq1[0]][seq2[0]] * 10;
+ score[0][0] = scoreMatrix.getPairwiseScore(s1str.charAt(0),
+ s2str.charAt(0)) * 10;
E[0][0] = -gapExtend;
F[0][0] = 0;
E[0][j] = max(score[0][j - 1] - gapOpen, E[0][j - 1] - gapExtend);
F[0][j] = -gapExtend;
- score[0][j] = max(lookup[seq1[0]][seq2[j]] * 10, -gapOpen, -gapExtend);
+ float pairwiseScore = scoreMatrix.getPairwiseScore(s1str.charAt(0),
+ s2str.charAt(j));
+ score[0][j] = max(pairwiseScore * 10, -gapOpen, -gapExtend);
traceback[0][j] = 1;
}
E[i][0] = -gapOpen;
F[i][0] = max(score[i - 1][0] - gapOpen, F[i - 1][0] - gapExtend);
- score[i][0] = max(lookup[seq1[i]][seq2[0]] * 10, E[i][0], F[i][0]);
+ float pairwiseScore = scoreMatrix.getPairwiseScore(s1str.charAt(i),
+ s2str.charAt(0));
+ score[i][0] = max(pairwiseScore * 10, E[i][0], F[i][0]);
traceback[i][0] = -1;
}
E[i][j] = max(score[i][j - 1] - gapOpen, E[i][j - 1] - gapExtend);
F[i][j] = max(score[i - 1][j] - gapOpen, F[i - 1][j] - gapExtend);
+ float pairwiseScore = scoreMatrix.getPairwiseScore(s1str.charAt(i),
+ s2str.charAt(j));
score[i][j] = max(score[i - 1][j - 1]
- + (lookup[seq1[i]][seq2[j]] * 10), E[i][j], F[i][j]);
+ + (pairwiseScore * 10), E[i][j], F[i][j]);
traceback[i][j] = findTrace(i, j);
}
}
/**
* DOCUMENT ME!
*
- * @param i1
+ * @param f1
* DOCUMENT ME!
- * @param i2
+ * @param f2
* DOCUMENT ME!
- * @param i3
+ * @param f3
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
- public int max(int i1, int i2, int i3)
+ private static float max(float f1, float f2, float f3)
{
- int max = i1;
+ float max = f1;
- if (i2 > i1)
+ if (f2 > f1)
{
- max = i2;
+ max = f2;
}
- if (i3 > max)
+ if (f3 > max)
{
- max = i3;
+ max = f3;
}
return max;
/**
* DOCUMENT ME!
*
- * @param i1
+ * @param f1
* DOCUMENT ME!
- * @param i2
+ * @param f2
* DOCUMENT ME!
*
* @return DOCUMENT ME!
*/
- public int max(int i1, int i2)
+ private static float max(float f1, float f2)
{
- int max = i1;
+ float max = f1;
- if (i2 > i1)
+ if (f2 > f1)
{
- max = i2;
+ max = f2;
}
return max;
}
/**
- * DOCUMENT ME!
+ * Converts the character string to an array of integers which are the
+ * corresponding indices to the characters in the score matrix
*
* @param s
- * DOCUMENT ME!
- * @param type
- * DOCUMENT ME!
*
- * @return DOCUMENT ME!
+ * @return
*/
- public int[] stringToInt(String s, String type)
+ int[] indexEncode(String s)
{
- int[] seq1 = new int[s.length()];
+ int[] encoded = new int[s.length()];
for (int i = 0; i < s.length(); i++)
{
- // String ss = s.substring(i, i + 1).toUpperCase();
char c = s.charAt(i);
- if ('a' <= c && c <= 'z')
- {
- // TO UPPERCASE !!!
- c -= ('a' - 'A');
- }
-
- try
- {
- seq1[i] = charToInt[c]; // set accordingly from setType
- if (seq1[i] < 0 || seq1[i] > defInt) // set from setType: 23 for
- // peptides, or 4 for NA.
- {
- seq1[i] = defInt;
- }
-
- } catch (Exception e)
- {
- seq1[i] = defInt;
- }
+ encoded[i] = scoreMatrix.getMatrixIndex(c);
}
- return seq1;
+ return encoded;
}
/**
public static void displayMatrix(Graphics g, int[][] mat, int n, int m,
int psize)
{
- // TODO method dosen't seem to be referenced anywhere delete??
+ // TODO method doesn't seem to be referenced anywhere delete??
int max = -1000;
int min = 1000;
{
SequenceI bestm = null;
AlignSeq bestaseq = null;
- int bestscore = 0;
+ float bestscore = 0;
for (SequenceI msq : al.getSequences())
{
AlignSeq aseq = doGlobalNWAlignment(msq, sq, dnaOrProtein);
bestm = msq;
}
}
- System.out.println("Best Score for " + (matches.size() + 1) + " :"
- + bestscore);
+ // System.out.println("Best Score for " + (matches.size() + 1) + " :"
+ // + bestscore);
matches.add(bestm);
aligns.add(bestaseq);
al.deleteSequence(bestm);
// long start = System.currentTimeMillis();
+ SimilarityParams pidParams = new SimilarityParams(true, true, true,
+ true);
float pid;
String seqi, seqj;
for (int i = 0; i < height; i++)
seqj = ug;
}
}
- pid = Comparison.PID(seqi, seqj);
+ pid = (float) PIDModel.computePID(seqi, seqj, pidParams);
// use real sequence length rather than string length
if (lngth[j] < lngth[i])