/*
* Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
* Copyright (C) $$Year-Rel$$ The Jalview Authors
*
* This file is part of Jalview.
*
* Jalview is free software: you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation, either version 3
* of the License, or (at your option) any later version.
*
* Jalview is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty
* of MERCHANTABILITY or FITNESS FOR A PARTICULAR
* PURPOSE. See the GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Jalview. If not, see .
* The Jalview Authors are detailed in the 'AUTHORS' file.
*/
package jalview.analysis;
import static org.testng.AssertJUnit.assertEquals;
import static org.testng.AssertJUnit.assertNotNull;
import static org.testng.AssertJUnit.assertTrue;
import jalview.api.AlignViewportI;
import jalview.datamodel.AlignedCodon;
import jalview.datamodel.Alignment;
import jalview.datamodel.AlignmentI;
import jalview.datamodel.HiddenColumns;
import jalview.datamodel.Sequence;
import jalview.datamodel.SequenceI;
import jalview.gui.AlignViewport;
import jalview.gui.JvOptionPane;
import jalview.io.DataSourceType;
import jalview.io.FileFormat;
import jalview.io.FormatAdapter;
import java.io.IOException;
import java.util.Iterator;
import org.testng.annotations.BeforeClass;
import org.testng.annotations.Test;
public class DnaTest
{
@BeforeClass(alwaysRun = true)
public void setUpJvOptionPane()
{
JvOptionPane.setInteractiveMode(false);
JvOptionPane.setMockResponse(JvOptionPane.CANCEL_OPTION);
}
// @formatter:off
// AA encoding codons as ordered on the Jalview help page Amino Acid Table
private static String fasta = ">B\n" + "GCT" + "GCC" + "GCA" + "GCG"
+ "TGT" + "TGC" + "GAT" + "GAC" + "GAA" + "GAG" + "TTT" + "TTC"
+ "GGT" + "GGC" + "GGA" + "GGG" + "CAT" + "CAC" + "ATT" + "ATC"
+ "ATA" + "AAA" + "AAG" + "TTG" + "TTA" + "CTT" + "CTC" + "CTA"
+ "CTG" + "ATG" + "AAT" + "AAC" + "CCT" + "CCC" + "CCA" + "CCG"
+ "CAA" + "CAG" + "CGT" + "CGC" + "CGA" + "CGG" + "AGA" + "AGG"
+ "TCT" + "TCC" + "TCA" + "TCG" + "AGT" + "AGC" + "ACT" + "ACC"
+ "ACA" + "ACG" + "GTT" + "GTC" + "GTA" + "GTG" + "TGG" + "TAT"
+ "TAC" + "TAA" + "TAG" + "TGA";
private static String JAL_1312_example_align_fasta = ">B.FR.83.HXB2_LAI_IIIB_BRU_K03455/45-306\n"
+ "ATGGGAAAAAATTCGGTTAAGGCCAGGGGGAAAGAAAAAATATAAATTAAAACATATAGTATGGGCAAGCAG\n"
+ "GGAGCTAGAACGATTCGCAGTTAATCCTGGCCTGTTAGAAACATCAGAAGGCTGTAGACAAATACTGGGACA\n"
+ "GCTACAACCATCCCTTCAGACAGGATCAGAAGAACTTAGATCATTATATAATACAGTAGCAACCCTCTATTG\n"
+ "TGTGCATCAAAGGATAGAGATAAAAGACACCAAGGAAGCTTTAGAC\n"
+ ">gi|27804621|gb|AY178912.1|/1-259\n"
+ "-TGGGAGAA-ATTCGGTT-CGGCCAGGGGGAAAGAAAAAATATCAGTTAAAACATATAGTATGGGCAAGCAG\n"
+ "AGAGCTAGAACGATTCGCAGTTAACCCTGGCCTTTTAGAGACATCACAAGGCTGTAGACAAATACTGGGACA\n"
+ "GCTACAACCATCCCTTCAGACAGGATCAGAAGAACTTAAATCATTATATAATACAGTAGCAACCCTCTATTG\n"
+ "TGTTCATCAAAGGATAGATATAAAAGACACCAAGGAAGCTTTAGAT\n"
+ ">gi|27804623|gb|AY178913.1|/1-259\n"
+ "-TGGGAGAA-ATTCGGTT-CGGCCAGGGGGAAAGAAAAAATATCAGTTAAAACATATAGTATGGGCAAGCAG\n"
+ "AGAGCTAGAACGATTCGCAGTTAACCCTGGCCTTTTAGAGACATCACAAGGCTGTAGACAAATACTGGAACA\n"
+ "GCTACAACCATCCCTTCAGACAGGATCAGAAGAACTTAAATCATTATATAATACAGTAGCAACCCTCTATTG\n"
+ "TGTTCATCAAAGGATAGATGTAAAAGACACCAAGGAAGCTTTAGAT\n"
+ ">gi|27804627|gb|AY178915.1|/1-260\n"
+ "-TGGGAAAA-ATTCGGTTAAGGCCAGGGGGAAAGAAAAAATATAAGTTAAAACATATAGTATGGGCAAGCAG\n"
+ "GGAGCTAGAACGATTCGCAGTTAACCCTGGCCTGTTAGAAACATCAGAAGGTTGTAGACAAATATTGGGACA\n"
+ "GCTACAACCATCCCTTGAGACAGGATCAGAAGAACTTAAATCATTATWTAATACCATAGCAGTCCTCTATTG\n"
+ "TGTACATCAAAGGATAGATATAAAAGACACCAAGGAAGCTTTAGAG\n"
+ ">gi|27804631|gb|AY178917.1|/1-261\n"
+ "-TGGGAAAAAATTCGGTTGAGGCCAGGGGGAAAGAAAAAATATAAGTTAAAACATATAGTATGGGCAAGCAG\n"
+ "GGAGCTAGAACGATTCGCAGTCAACCCTGGCCTGTTAGAAACACCAGAAGGCTGTAGACAAATACTGGGACA\n"
+ "GCTACAACCGTCCCTTCAGACAGGATCGGAAGAACTTAAATCATTATATAATACAGTAGCAACCCTCTATTG\n"
+ "TGTGCATCAAAGGATAGATGTAAAAGACACCAAGGAGGCTTTAGAC\n"
+ ">gi|27804635|gb|AY178919.1|/1-261\n"
+ "-TGGGAGAGAATTCGGTTACGGCCAGGAGGAAAGAAAAAATATAAATTGAAACATATAGTATGGGCAGGCAG\n"
+ "AGAGCTAGATCGATTCGCAGTCAATCCTGGCCTGTTAGAAACATCAGAAGGCTGCAGACAGATATTGGGACA\n"
+ "GCTACAACCGTCCCTTAAGACAGGATCAGAAGAACTTAAATCATTATATAATACAGTAGCAACCCTCTATTG\n"
+ "TGTACATCAAAGGATAGATGTAAAAGACACCAAGGAAGCTTTAGAT\n"
+ ">gi|27804641|gb|AY178922.1|/1-261\n"
+ "-TGGGAGAAAATTCGGTTACGGCCAGGGGGAAAGAAAAGATATAAGTTAAAACATATAGTATGGGCAAGCAG\n"
+ "GGAGCTAGAACGATTCGCAGTCAACCCTGGCCTGTTAGAAACATCAGAAGGCTGCAGACAAATACTGGGACA\n"
+ "GTTACACCCATCCCTTCATACAGGATCAGAAGAACTTAAATCATTATATAATACAGTAGCAACCCTCTATTG\n"
+ "TGTGCATCAAAGGATAGAAGTAAAAGACACCAAGGAAGCTTTAGAC\n"
+ ">gi|27804647|gb|AY178925.1|/1-261\n"
+ "-TGGGAAAAAATTCGGTTAAGGCCAGGGGGAAAGAAAAAATATCAATTAAAACATGTAGTATGGGCAAGCAG\n"
+ "GGAACTAGAACGATTCGCAGTTAATCCTGGCCTGTTAGAAACATCAGAAGGCTGTAGACAAATATTGGGACA\n"
+ "GCTACAACCATCCCTTCAGACAGGATCAGAGGAACTTAAATCATTATTTAATACAGTAGCAGTCCTCTATTG\n"
+ "TGTACATCAAAGAATAGATGTAAAAGACACCAAGGAAGCTCTAGAA\n"
+ ">gi|27804649|gb|AY178926.1|/1-261\n"
+ "-TGGGAAAAAATTCGGTTAAGGCCAGGGGGAAAGAAAAAATATAAGTTAAAACATATAGTATGGGCAAGCAG\n"
+ "GGAGCTAGAACGATTCGCGGTCAATCCTGGCCTGTTAGAAACATCAGAAGGCTGTAGACAACTACTGGGACA\n"
+ "GTTACAACCATCCCTTCAGACAGGATCAGAAGAACTCAAATCATTATATAATACAATAGCAACCCTCTATTG\n"
+ "TGTGCATCAAAGGATAGAGATAAAAGACACCAAGGAAGCCTTAGAT\n"
+ ">gi|27804653|gb|AY178928.1|/1-261\n"
+ "-TGGGAAAGAATTCGGTTAAGGCCAGGGGGAAAGAAACAATATAAATTAAAACATATAGTATGGGCAAGCAG\n"
+ "GGAGCTAGACCGATTCGCACTTAACCCCGGCCTGTTAGAAACATCAGAAGGCTGTAGACAAATATTGGGACA\n"
+ "GCTACAATCGTCCCTTCAGACAGGATCAGAAGAACTTAGATCACTATATAATACAGTAGCAGTCCTCTATTG\n"
+ "TGTGCATCAAAAGATAGATGTAAAAGACACCAAGGAAGCCTTAGAC\n"
+ ">gi|27804659|gb|AY178931.1|/1-261\n"
+ "-TGGGAAAAAATTCGGTTACGGCCAGGAGGAAAGAAAAGATATAAATTAAAACATATAGTATGGGCAAGCAG\n"
+ "GGAGCTAGAACGATTYGCAGTTAATCCTGGCCTTTTAGAAACAGCAGAAGGCTGTAGACAAATACTGGGACA\n"
+ "GCTACAACCATCCCTTCAGACAGGATCAGAAGAACTTAAATCATTATATAATACAGTAGCAACCCTCTATTG\n"
+ "TGTACATCAAAGGATAGAGATAAAAGACACCAAGGAAGCTTTAGAA\n";
// @formatter:on
/**
* Corner case for this test is the presence of codons after codons that were
* not translated.
*
* @throws IOException
*/
@Test(groups = { "Functional" })
public void testTranslateCdna_withUntranslatableCodons()
throws IOException
{
AlignmentI alf = new FormatAdapter().readFile(
JAL_1312_example_align_fasta, DataSourceType.PASTE,
FileFormat.Fasta);
HiddenColumns cs = new HiddenColumns();
AlignViewportI av = new AlignViewport(alf, cs);
Iterator contigs = cs.getVisContigsIterator(0, alf.getWidth(),
false);
Dna dna = new Dna(av, contigs);
AlignmentI translated = dna
.translateCdna(GeneticCodes.getStandardCodeTable());
assertNotNull("Couldn't do a full width translation of test data.",
translated);
}
/**
* Test variant in which 15 column blocks at a time are translated (the rest
* hidden).
*
* @throws IOException
*/
@Test(groups = { "Functional" })
public void testTranslateCdna_withUntranslatableCodonsAndHiddenColumns()
throws IOException
{
AlignmentI alf = new FormatAdapter().readFile(
JAL_1312_example_align_fasta, DataSourceType.PASTE,
FileFormat.Fasta);
int vwidth = 15;
for (int ipos = 0; ipos + vwidth < alf.getWidth(); ipos += vwidth)
{
HiddenColumns cs = new HiddenColumns();
if (ipos > 0)
{
cs.hideColumns(0, ipos - 1);
}
cs.hideColumns(ipos + vwidth, alf.getWidth());
Iterator vcontigs = cs.getVisContigsIterator(0,
alf.getWidth(), false);
AlignViewportI av = new AlignViewport(alf, cs);
Dna dna = new Dna(av, vcontigs);
AlignmentI transAlf = dna
.translateCdna(GeneticCodes.getStandardCodeTable());
assertTrue("Translation failed (ipos=" + ipos
+ ") No alignment data.", transAlf != null);
assertTrue("Translation failed (ipos=" + ipos + ") Empty alignment.",
transAlf.getHeight() > 0);
assertTrue("Translation failed (ipos=" + ipos + ") Translated "
+ transAlf.getHeight() + " sequences from " + alf.getHeight()
+ " sequences", alf.getHeight() == transAlf.getHeight());
}
}
/**
* Test simple translation to Amino Acids (with STOP codons translated to *).
*
* @throws IOException
*/
@Test(groups = { "Functional" })
public void testTranslateCdna_simple() throws IOException
{
AlignmentI alf = new FormatAdapter().readFile(fasta,
DataSourceType.PASTE, FileFormat.Fasta);
HiddenColumns cs = new HiddenColumns();
AlignViewportI av = new AlignViewport(alf, cs);
Iterator contigs = cs.getVisContigsIterator(0, alf.getWidth(),
false);
Dna dna = new Dna(av, contigs);
AlignmentI translated = dna
.translateCdna(GeneticCodes.getStandardCodeTable());
String aa = translated.getSequenceAt(0).getSequenceAsString();
assertEquals(
"AAAACCDDEEFFGGGGHHIIIKKLLLLLLMNNPPPPQQRRRRRRSSSSSSTTTTVVVVWYY***",
aa);
}
/**
* Test translation excluding hidden columns.
*
* @throws IOException
*/
@Test(groups = { "Functional" })
public void testTranslateCdna_hiddenColumns() throws IOException
{
AlignmentI alf = new FormatAdapter().readFile(fasta,
DataSourceType.PASTE, FileFormat.Fasta);
HiddenColumns cs = new HiddenColumns();
cs.hideColumns(6, 14); // hide codons 3/4/5
cs.hideColumns(24, 35); // hide codons 9-12
cs.hideColumns(177, 191); // hide codons 60-64
AlignViewportI av = new AlignViewport(alf, cs);
Iterator contigs = cs.getVisContigsIterator(0, alf.getWidth(),
false);
Dna dna = new Dna(av, contigs);
AlignmentI translated = dna
.translateCdna(GeneticCodes.getStandardCodeTable());
String aa = translated.getSequenceAt(0).getSequenceAsString();
assertEquals("AACDDGGGGHHIIIKKLLLLLLMNNPPPPQQRRRRRRSSSSSSTTTTVVVVW", aa);
}
/**
* Use this test to help debug into any cases of interest.
*/
@Test(groups = { "Functional" })
public void testCompareCodonPos_oneOnly()
{
assertFollows("-AA--A", "G--GG"); // 2 shifted seq2, 3 shifted seq1
}
/**
* Tests for method that compares 'alignment' of two codon position triplets.
*/
@Test(groups = { "Functional" })
public void testCompareCodonPos()
{
/*
* Returns 0 for any null argument
*/
assertEquals(0, Dna.compareCodonPos(new AlignedCodon(1, 2, 3), null));
assertEquals(0, Dna.compareCodonPos(null, new AlignedCodon(1, 2, 3)));
/*
* Work through 27 combinations. First 9 cases where first position matches.
*/
assertMatches("AAA", "GGG"); // 2 and 3 match
assertFollows("AA-A", "GGG"); // 2 matches, 3 shifted seq1
assertPrecedes("AAA", "GG-G"); // 2 matches, 3 shifted seq2
assertFollows("A-AA", "GG-G"); // 2 shifted seq1, 3 matches
assertFollows("A-A-A", "GG-G"); // 2 shifted seq1, 3 shifted seq1
assertPrecedes("A-AA", "GG--G"); // 2 shifted seq1, 3 shifted seq2
assertPrecedes("AA-A", "G-GG"); // 2 shifted seq2, 3 matches
assertFollows("AA--A", "G-GG"); // 2 shifted seq2, 3 shifted seq1
assertPrecedes("AAA", "G-GG"); // 2 shifted seq2, 3 shifted seq2
/*
* 9 cases where first position is shifted in first sequence.
*/
assertFollows("-AAA", "G-GG"); // 2 and 3 match
assertFollows("-AA-A", "G-GG"); // 2 matches, 3 shifted seq1
// 'enclosing' case: pick first to start precedes
assertFollows("-AAA", "G-G-G"); // 2 matches, 3 shifted seq2
assertFollows("-A-AA", "G-G-G"); // 2 shifted seq1, 3 matches
assertFollows("-A-A-A", "G-G-G"); // 2 shifted seq1, 3 shifted seq1
// 'enclosing' case: pick first to start precedes
assertFollows("-A-AA", "G-G--G"); // 2 shifted seq1, 3 shifted seq2
assertFollows("-AA-A", "G--GG"); // 2 shifted seq2, 3 matches
assertFollows("-AA--A", "G--GG"); // 2 shifted seq2, 3 shifted seq1
assertPrecedes("-AAA", "G--GG"); // 2 shifted seq2, 3 shifted seq2
/*
* 9 cases where first position is shifted in second sequence.
*/
assertPrecedes("A-AA", "-GGG"); // 2 and 3 match
assertPrecedes("A-A-A", "-GGG"); // 2 matches, 3 shifted seq1
assertPrecedes("A-AA", "-GG-G"); // 2 matches, 3 shifted seq2
assertPrecedes("A--AA", "-GG-G"); // 2 shifted seq1, 3 matches
// 'enclosing' case with middle base deciding:
assertFollows("A--AA", "-GGG"); // 2 shifted seq1, 3 shifted seq1
assertPrecedes("A--AA", "-GG--G"); // 2 shifted seq1, 3 shifted seq2
assertPrecedes("AA-A", "-GGG"); // 2 shifted seq2, 3 matches
assertPrecedes("AA--A", "-GGG"); // 2 shifted seq2, 3 shifted seq1
assertPrecedes("AAA", "-GGG"); // 2 shifted seq2, 3 shifted seq2
}
/**
* This test generates a random cDNA alignment and its translation, then
* reorders the cDNA and retranslates, and verifies that the translations are
* the same (apart from ordering).
*/
@Test(groups = { "Functional" })
public void testTranslateCdna_sequenceOrderIndependent()
{
/*
* Generate cDNA - 8 sequences of 12 bases each.
*/
AlignmentI cdna = new AlignmentGenerator(true)
.generate(12, 8, 97, 5, 5);
HiddenColumns cs = new HiddenColumns();
AlignViewportI av = new AlignViewport(cdna, cs);
Iterator contigs = cs.getVisContigsIterator(0, cdna.getWidth(),
false);
Dna dna = new Dna(av, contigs);
AlignmentI translated = dna
.translateCdna(GeneticCodes.getStandardCodeTable());
/*
* Jumble the cDNA sequences and translate.
*/
SequenceI[] sorted = new SequenceI[cdna.getHeight()];
final int[] jumbler = new int[] { 6, 7, 3, 4, 2, 0, 1, 5 };
int seqNo = 0;
for (int i : jumbler)
{
sorted[seqNo++] = cdna.getSequenceAt(i);
}
AlignmentI cdnaReordered = new Alignment(sorted);
av = new AlignViewport(cdnaReordered, cs);
contigs = cs.getVisContigsIterator(0, cdna.getWidth(), false);
dna = new Dna(av, contigs);
AlignmentI translated2 = dna
.translateCdna(GeneticCodes.getStandardCodeTable());
/*
* Check translated sequences are the same in both alignments.
*/
System.out.println("Original");
System.out.println(translated.toString());
System.out.println("Sorted");
System.out.println(translated2.toString());
int sortedSequenceIndex = 0;
for (int originalSequenceIndex : jumbler)
{
final String translation1 = translated.getSequenceAt(
originalSequenceIndex).getSequenceAsString();
final String translation2 = translated2.getSequenceAt(
sortedSequenceIndex).getSequenceAsString();
assertEquals(translation2, translation1);
sortedSequenceIndex++;
}
}
/**
* Test that all the cases in testCompareCodonPos have a 'symmetric'
* comparison (without checking the actual comparison result).
*/
@Test(groups = { "Functional" })
public void testCompareCodonPos_isSymmetric()
{
assertSymmetric("AAA", "GGG");
assertSymmetric("AA-A", "GGG");
assertSymmetric("AAA", "GG-G");
assertSymmetric("A-AA", "GG-G");
assertSymmetric("A-A-A", "GG-G");
assertSymmetric("A-AA", "GG--G");
assertSymmetric("AA-A", "G-GG");
assertSymmetric("AA--A", "G-GG");
assertSymmetric("AAA", "G-GG");
assertSymmetric("-AAA", "G-GG");
assertSymmetric("-AA-A", "G-GG");
assertSymmetric("-AAA", "G-G-G");
assertSymmetric("-A-AA", "G-G-G");
assertSymmetric("-A-A-A", "G-G-G");
assertSymmetric("-A-AA", "G-G--G");
assertSymmetric("-AA-A", "G--GG");
assertSymmetric("-AA--A", "G--GG");
assertSymmetric("-AAA", "G--GG");
assertSymmetric("A-AA", "-GGG");
assertSymmetric("A-A-A", "-GGG");
assertSymmetric("A-AA", "-GG-G");
assertSymmetric("A--AA", "-GG-G");
assertSymmetric("A--AA", "-GGG");
assertSymmetric("A--AA", "-GG--G");
assertSymmetric("AA-A", "-GGG");
assertSymmetric("AA--A", "-GGG");
assertSymmetric("AAA", "-GGG");
}
private void assertSymmetric(String codon1, String codon2)
{
assertEquals("Comparison of '" + codon1 + "' and '" + codon2
+ " not symmetric", Integer.signum(compare(codon1, codon2)),
-Integer.signum(compare(codon2, codon1)));
}
/**
* Assert that the first sequence should map to the same position as the
* second in a translated alignment. Also checks that this is true if the
* order of the codons is reversed.
*
* @param codon1
* @param codon2
*/
private void assertMatches(String codon1, String codon2)
{
assertEquals("Expected '" + codon1 + "' matches '" + codon2 + "'", 0,
compare(codon1, codon2));
assertEquals("Expected '" + codon2 + "' matches '" + codon1 + "'", 0,
compare(codon2, codon1));
}
/**
* Assert that the first sequence should precede the second in a translated
* alignment
*
* @param codon1
* @param codon2
*/
private void assertPrecedes(String codon1, String codon2)
{
assertEquals("Expected '" + codon1 + "' precedes '" + codon2 + "'",
-1, compare(codon1, codon2));
}
/**
* Assert that the first sequence should follow the second in a translated
* alignment
*
* @param codon1
* @param codon2
*/
private void assertFollows(String codon1, String codon2)
{
assertEquals("Expected '" + codon1 + "' follows '" + codon2 + "'", 1,
compare(codon1, codon2));
}
/**
* Convert two nucleotide strings to base positions and pass to
* Dna.compareCodonPos, return the result.
*
* @param s1
* @param s2
* @return
*/
private int compare(String s1, String s2)
{
final AlignedCodon cd1 = convertCodon(s1);
final AlignedCodon cd2 = convertCodon(s2);
System.out.println("K: " + s1 + " " + cd1.toString());
System.out.println("G: " + s2 + " " + cd2.toString());
System.out.println();
return Dna.compareCodonPos(cd1, cd2);
}
/**
* Convert a string e.g. "-GC-T" to base positions e.g. [1, 2, 4]. The string
* should have exactly 3 non-gap characters, and use '-' for gaps.
*
* @param s
* @return
*/
private AlignedCodon convertCodon(String s)
{
int[] codon = new int[3];
int i = 0;
for (int j = 0; j < s.length(); j++)
{
if (s.charAt(j) != '-')
{
codon[i++] = j;
}
}
return new AlignedCodon(codon[0], codon[1], codon[2]);
}
/**
* Weirdly, maybe worth a test to prove the helper method of this test class.
*/
@Test(groups = { "Functional" })
public void testConvertCodon()
{
assertEquals("[0, 1, 2]", convertCodon("AAA").toString());
assertEquals("[0, 2, 5]", convertCodon("A-A--A").toString());
assertEquals("[1, 3, 4]", convertCodon("-A-AA-").toString());
}
/**
* Test dna complementing
*/
@Test(groups = "Functional")
public void testGetComplement()
{
assertEquals('t', Dna.getComplement('a'));
assertEquals('T', Dna.getComplement('A'));
assertEquals('a', Dna.getComplement('t'));
assertEquals('A', Dna.getComplement('T'));
assertEquals('c', Dna.getComplement('g'));
assertEquals('C', Dna.getComplement('G'));
assertEquals('g', Dna.getComplement('c'));
assertEquals('G', Dna.getComplement('C'));
// note uU --> aA but not vice versa
assertEquals('a', Dna.getComplement('u'));
assertEquals('A', Dna.getComplement('U'));
// ambiguity codes, see http://www.bioinformatics.org/sms/iupac.html
assertEquals('r', Dna.getComplement('y'));
assertEquals('R', Dna.getComplement('Y'));
assertEquals('y', Dna.getComplement('r'));
assertEquals('Y', Dna.getComplement('R'));
assertEquals('k', Dna.getComplement('m'));
assertEquals('K', Dna.getComplement('M'));
assertEquals('m', Dna.getComplement('k'));
assertEquals('M', Dna.getComplement('K'));
assertEquals('b', Dna.getComplement('v'));
assertEquals('B', Dna.getComplement('V'));
assertEquals('v', Dna.getComplement('b'));
assertEquals('V', Dna.getComplement('B'));
assertEquals('d', Dna.getComplement('h'));
assertEquals('D', Dna.getComplement('H'));
assertEquals('h', Dna.getComplement('d'));
assertEquals('H', Dna.getComplement('D'));
assertEquals('Q', Dna.getComplement('Q'));
}
@Test(groups = "Functional")
public void testReverseSequence()
{
String seq = "-Ac-GtU--rYkMbVdHNX-";
String seqRev = new StringBuilder(seq).reverse().toString();
// reverse:
SequenceI reversed = Dna.reverseSequence("Seq1", seq, false);
assertEquals(1, reversed.getStart());
assertEquals(15, reversed.getEnd());
assertEquals(20, reversed.getLength());
assertEquals(seqRev, reversed.getSequenceAsString());
assertEquals("Seq1|rev", reversed.getName());
// reverse complement:
SequenceI revcomp = Dna.reverseSequence("Seq1", seq, true);
assertEquals("-XNDhBvKmRy--AaC-gT-", revcomp.getSequenceAsString());
assertEquals("Seq1|revcomp", revcomp.getName());
}
@Test(groups = "Functional")
public void testReverseCdna()
{
String seq = "-Ac-GtU--rYkMbVdHNX-";
String seqRev = new StringBuilder(seq).reverse().toString();
String seqDs = seq.replaceAll("-", "");
String seqDsRev = new StringBuilder(seqDs).reverse().toString();
SequenceI dna = new Sequence("Seq1", seq);
Alignment al = new Alignment(new SequenceI[] { dna });
al.createDatasetAlignment();
assertEquals(seqDs, al.getSequenceAt(0).getDatasetSequence()
.getSequenceAsString());
HiddenColumns cs = new HiddenColumns();
AlignViewportI av = new AlignViewport(al, cs);
Iterator contigs = cs.getVisContigsIterator(0, al.getWidth(),
false);
Dna testee = new Dna(av, contigs);
AlignmentI reversed = testee.reverseCdna(false);
assertEquals(1, reversed.getHeight());
assertEquals(seqRev, reversed.getSequenceAt(0).getSequenceAsString());
assertEquals(seqDsRev, reversed.getSequenceAt(0).getDatasetSequence()
.getSequenceAsString());
}
}