/*
* Jalview - A Sequence Alignment Editor and Viewer (Version 2.8.2)
* Copyright (C) 2014 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.junit.Assert.assertEquals;
import static org.junit.Assert.assertTrue;
import jalview.analysis.AlignmentUtils.MappingResult;
import jalview.datamodel.AlignedCodonFrame;
import jalview.datamodel.Alignment;
import jalview.datamodel.AlignmentI;
import jalview.datamodel.Mapping;
import jalview.datamodel.Sequence;
import jalview.datamodel.SequenceI;
import jalview.io.AppletFormatAdapter;
import jalview.io.FormatAdapter;
import jalview.util.MapList;
import java.io.IOException;
import java.util.Arrays;
import java.util.List;
import java.util.Map;
import org.junit.Test;
public class AlignmentUtilsTests
{
// @formatter:off
private static final String TEST_DATA =
"# STOCKHOLM 1.0\n" +
"#=GS D.melanogaster.1 AC AY119185.1/838-902\n" +
"#=GS D.melanogaster.2 AC AC092237.1/57223-57161\n" +
"#=GS D.melanogaster.3 AC AY060611.1/560-627\n" +
"D.melanogaster.1 G.AGCC.CU...AUGAUCGA\n" +
"#=GR D.melanogaster.1 SS ................((((\n" +
"D.melanogaster.2 C.AUUCAACU.UAUGAGGAU\n" +
"#=GR D.melanogaster.2 SS ................((((\n" +
"D.melanogaster.3 G.UGGCGCU..UAUGACGCA\n" +
"#=GR D.melanogaster.3 SS (.(((...(....(((((((\n" +
"//";
private static final String AA_SEQS_1 =
">Seq1Name\n" +
"K-QY--L\n" +
">Seq2Name\n" +
"-R-FP-W-\n";
private static final String CDNA_SEQS_1 =
">Seq1Name\n" +
"AC-GG--CUC-CAA-CT\n" +
">Seq2Name\n" +
"-CG-TTA--ACG---AAGT\n";
private static final String CDNA_SEQS_2 =
">Seq1Name\n" +
"GCTCGUCGTACT\n" +
">Seq2Name\n" +
"GGGTCAGGCAGT\n";
// @formatter:on
public static Sequence ts=new Sequence("short","ASDASDASDASDASDASDASDASDASDASDASDASDASD");
@Test
public void testExpandFlanks()
{
AlignmentI al = new Alignment(new Sequence[] {});
for (int i=4;i<14;i+=3)
{
SequenceI s1=ts.deriveSequence().getSubSequence(i, i+7);
al.addSequence(s1);
}
System.out.println(new AppletFormatAdapter().formatSequences("Clustal", al, true));
for (int flnk=-1;flnk<25; flnk++)
{
AlignmentI exp;
System.out.println("\nFlank size: "+flnk);
System.out.println(new AppletFormatAdapter().formatSequences("Clustal", exp=AlignmentUtils.expandContext(al, flnk), true));
if (flnk==-1) {
for (SequenceI sq:exp.getSequences())
{
String ung = sq.getSequenceAsString().replaceAll("-+", "");
assertTrue("Flanking sequence not the same as original dataset sequence.\n"+ung+"\n"+sq.getDatasetSequence().getSequenceAsString(),ung.equalsIgnoreCase(sq.getDatasetSequence().getSequenceAsString()));
}
}
}
}
/**
* Test method that returns a map of lists of sequences by sequence name.
*
* @throws IOException
*/
@Test
public void testGetSequencesByName() throws IOException
{
final String data = ">Seq1Name\nKQYL\n" + ">Seq2Name\nRFPW\n"
+ ">Seq1Name\nABCD\n";
AlignmentI al = loadAlignment(data, "FASTA");
Map> map = AlignmentUtils
.getSequencesByName(al);
assertEquals(2, map.keySet().size());
assertEquals(2, map.get("Seq1Name").size());
assertEquals("KQYL", map.get("Seq1Name").get(0).getSequenceAsString());
assertEquals("ABCD", map.get("Seq1Name").get(1).getSequenceAsString());
assertEquals(1, map.get("Seq2Name").size());
assertEquals("RFPW", map.get("Seq2Name").get(0).getSequenceAsString());
}
/**
* Helper method to load an alignment and ensure dataset sequences are set up.
*
* @param data
* @param format TODO
* @return
* @throws IOException
*/
protected AlignmentI loadAlignment(final String data, String format) throws IOException
{
Alignment a = new FormatAdapter().readFile(data,
AppletFormatAdapter.PASTE, format);
a.setDataset(null);
return a;
}
/**
* Test mapping of protein to cDNA.
*
* @throws IOException
*/
@Test
public void testMapProteinToCdna() throws IOException
{
// protein: Human + Mouse, 3 residues
AlignmentI protein = loadAlignment(
">Human\nKQY\n>Mouse\nAFP\n>Worm\nRST\n",
"FASTA");
// cDNA: Mouse, Human, Mouse, 9 bases
// @formatter:off
String dnaData =
">Mouse\nGAAATCCAG\n" +
">Human\nTTCGATTAC\n" +
">Mouse\nGTCGTTTGC\n" +
">Mouse\nGTCGTTTGCgac\n" + // not mapped - wrong length
">Fly\nGTCGTTTGC\n"; // not mapped - no name match
// @formatter:on
AlignmentI cdna1 = loadAlignment(
dnaData,
"FASTA");
MappingResult mapped = AlignmentUtils.mapProteinToCdna(protein, cdna1);
assertEquals(mapped, MappingResult.Mapped);
/*
* Check two mappings (one for Mouse, one for Human)
*/
assertEquals(2, protein.getCodonFrames().size());
assertEquals(1, protein.getCodonFrame(protein.getSequenceAt(0)).size());
assertEquals(1, protein.getCodonFrame(protein.getSequenceAt(1)).size());
/*
* Inspect mapping for Human protein
*/
AlignedCodonFrame humanMapping = protein.getCodonFrame(
protein.getSequenceAt(0)).get(0);
assertEquals(1, humanMapping.getdnaSeqs().length);
assertEquals(cdna1.getSequenceAt(1).getDatasetSequence(),
humanMapping.getdnaSeqs()[0]);
Mapping[] protMappings = humanMapping.getProtMappings();
assertEquals(1, protMappings.length);
MapList mapList = protMappings[0].getMap();
assertEquals(3, mapList.getFromRatio());
assertEquals(1, mapList.getToRatio());
assertTrue(Arrays.equals(new int[]
{ 1, 9 }, mapList.getFromRanges()));
assertTrue(Arrays.equals(new int[]
{ 1, 3 }, mapList.getToRanges()));
/*
* Inspect mappings for Mouse protein
*/
AlignedCodonFrame mouseMapping1 = protein.getCodonFrame(
protein.getSequenceAt(1)).get(0);
assertEquals(2, mouseMapping1.getdnaSeqs().length);
assertEquals(cdna1.getSequenceAt(0).getDatasetSequence(),
mouseMapping1.getdnaSeqs()[0]);
assertEquals(cdna1.getSequenceAt(2).getDatasetSequence(),
mouseMapping1.getdnaSeqs()[1]);
protMappings = mouseMapping1.getProtMappings();
assertEquals(2, protMappings.length);
for (int i = 0; i < 2; i++)
{
mapList = protMappings[i].getMap();
assertEquals(3, mapList.getFromRatio());
assertEquals(1, mapList.getToRatio());
assertTrue(Arrays.equals(new int[]
{ 1, 9 }, mapList.getFromRanges()));
assertTrue(Arrays.equals(new int[]
{ 1, 3 }, mapList.getToRanges()));
}
}
/**
* Test mapping of protein to cDNA which may include start and/or stop codons.
*
* @throws IOException
*/
@Test
public void testMapProteinToCdna_stopStartCodons() throws IOException
{
// protein: Human + Mouse, 3 residues
AlignmentI protein = loadAlignment(
">Human\nKQY\n>Mouse\nAFP\n>Worm\nRST\n", "FASTA");
// @formatter:off
String dnaData =
">Mouse\natgGAAATCCAG\n" + // Mouse with start codon
">Human\nTTCGATtactaa\n" + // Human with stop codon TAA
">Mouse\nGTCGTTTGctaG\n" + // Mouse with stop codon TAG
">Human\nGTCGTTTgctGa\n" + // Human with stop codon TGA
">Mouse\nATGGTCGTTTGCtag\n"; // Mouse with start and stop codons
// @formatter:on
AlignmentI cdna1 = loadAlignment(
dnaData,
"FASTA");
MappingResult mapped = AlignmentUtils.mapProteinToCdna(protein, cdna1);
assertEquals(mapped, MappingResult.Mapped);
/*
* Check two mappings (one for Mouse, one for Human)
*/
assertEquals(2, protein.getCodonFrames().size());
assertEquals(1, protein.getCodonFrame(protein.getSequenceAt(0)).size());
assertEquals(1, protein.getCodonFrame(protein.getSequenceAt(1)).size());
/*
* Inspect mapping for Human protein - should map to 2nd and 4th cDNA seqs
*/
AlignedCodonFrame humanMapping = protein.getCodonFrame(
protein.getSequenceAt(0)).get(0);
assertEquals(2, humanMapping.getdnaSeqs().length);
assertEquals(cdna1.getSequenceAt(1).getDatasetSequence(),
humanMapping.getdnaSeqs()[0]);
assertEquals(cdna1.getSequenceAt(3).getDatasetSequence(),
humanMapping.getdnaSeqs()[1]);
Mapping[] protMappings = humanMapping.getProtMappings();
// two mappings, both to cDNA with stop codon
assertEquals(2, protMappings.length);
MapList mapList = protMappings[0].getMap();
assertEquals(3, mapList.getFromRatio());
assertEquals(1, mapList.getToRatio());
assertTrue(Arrays.equals(new int[]
{ 1, 9 }, mapList.getFromRanges()));
assertTrue(Arrays.equals(new int[]
{ 1, 3 }, mapList.getToRanges()));
mapList = protMappings[1].getMap();
assertEquals(3, mapList.getFromRatio());
assertEquals(1, mapList.getToRatio());
assertTrue(Arrays.equals(new int[]
{ 1, 9 }, mapList.getFromRanges()));
assertTrue(Arrays.equals(new int[]
{ 1, 3 }, mapList.getToRanges()));
/*
* Inspect mapping for Mouse protein - should map to 1st/3rd/5th cDNA seqs
*/
AlignedCodonFrame mouseMapping = protein.getCodonFrame(
protein.getSequenceAt(1)).get(0);
assertEquals(3, mouseMapping.getdnaSeqs().length);
assertEquals(cdna1.getSequenceAt(0).getDatasetSequence(),
mouseMapping.getdnaSeqs()[0]);
assertEquals(cdna1.getSequenceAt(2).getDatasetSequence(),
mouseMapping.getdnaSeqs()[1]);
assertEquals(cdna1.getSequenceAt(4).getDatasetSequence(),
mouseMapping.getdnaSeqs()[2]);
// three mappings
protMappings = mouseMapping.getProtMappings();
assertEquals(3, protMappings.length);
// first mapping to cDNA with start codon
mapList = protMappings[0].getMap();
assertEquals(3, mapList.getFromRatio());
assertEquals(1, mapList.getToRatio());
assertTrue(Arrays.equals(new int[]
{ 4, 12 }, mapList.getFromRanges()));
assertTrue(Arrays.equals(new int[]
{ 1, 3 }, mapList.getToRanges()));
// second mapping to cDNA with stop codon
mapList = protMappings[1].getMap();
assertEquals(3, mapList.getFromRatio());
assertEquals(1, mapList.getToRatio());
assertTrue(Arrays.equals(new int[]
{ 1, 9 }, mapList.getFromRanges()));
assertTrue(Arrays.equals(new int[]
{ 1, 3 }, mapList.getToRanges()));
// third mapping to cDNA with start and stop codon
mapList = protMappings[2].getMap();
assertEquals(3, mapList.getFromRatio());
assertEquals(1, mapList.getToRatio());
assertTrue(Arrays.equals(new int[]
{ 4, 12 }, mapList.getFromRanges()));
assertTrue(Arrays.equals(new int[]
{ 1, 3 }, mapList.getToRanges()));
}
/**
* Test for the alignSequenceAs method that takes two sequences and a mapping.
*/
@Test
public void testAlignSequenceAs_withMapping_noIntrons()
{
MapList map = new MapList(new int[]
{ 1, 6 }, new int[]
{ 1, 2 }, 3, 1);
/*
* No existing gaps in dna:
*/
checkAlignSequenceAs("GGGAAA", "-A-L-", false, false, map,
"---GGG---AAA");
/*
* Now introduce gaps in dna but ignore them when realigning.
*/
checkAlignSequenceAs("-G-G-G-A-A-A-", "-A-L-", false, false, map,
"---GGG---AAA");
/*
* Now include gaps in dna when realigning. First retaining 'mapped' gaps
* only, i.e. those within the exon region.
*/
checkAlignSequenceAs("-G-G--G-A--A-A-", "-A-L-", true, false, map,
"---G-G--G---A--A-A");
/*
* Include all gaps in dna when realigning (within and without the exon
* region). The leading gap, and the gaps between codons, are subsumed by
* the protein alignment gap.
*/
checkAlignSequenceAs("-G-GG--AA-A-", "-A-L-", true, true, map,
"---G-GG---AA-A-");
/*
* Include only unmapped gaps in dna when realigning (outside the exon
* region). The leading gap, and the gaps between codons, are subsumed by
* the protein alignment gap.
*/
checkAlignSequenceAs("-G-GG--AA-A-", "-A-L-", false, true, map,
"---GGG---AAA-");
}
/**
* Test for the alignSequenceAs method that takes two sequences and a mapping.
*/
@Test
public void testAlignSequenceAs_withMapping_withIntrons()
{
/*
* Exons at codon 2 (AAA) and 4 (TTT)
*/
MapList map = new MapList(new int[]
{ 4, 6, 10, 12 }, new int[]
{ 1, 2 }, 3, 1);
/*
* Simple case: no gaps in dna
*/
checkAlignSequenceAs("GGGAAACCCTTTGGG", "--A-L-", false, false, map,
"GGG---AAACCCTTTGGG");
/*
* Add gaps to dna - but ignore when realigning.
*/
checkAlignSequenceAs("-G-G-G--A--A---AC-CC-T-TT-GG-G-", "--A-L-",
false, false, map, "GGG---AAACCCTTTGGG");
/*
* Add gaps to dna - include within exons only when realigning.
*/
checkAlignSequenceAs("-G-G-G--A--A---A-C-CC-T-TT-GG-G-", "--A-L-",
true, false, map, "GGG---A--A---ACCCT-TTGGG");
/*
* Include gaps outside exons only when realigning.
*/
checkAlignSequenceAs("-G-G-G--A--A---A-C-CC-T-TT-GG-G-", "--A-L-",
false, true, map, "-G-G-GAAAC-CCTTT-GG-G-");
/*
* Include gaps following first intron if we are 'preserving mapped gaps'
*/
checkAlignSequenceAs("-G-G-G--A--A---A-C-CC-T-TT-GG-G-", "--A-L-",
true, true, map, "-G-G-G--A--A---A-C-CC-T-TT-GG-G-");
/*
* Include all gaps in dna when realigning.
*/
checkAlignSequenceAs("-G-G-G--A--A---A-C-CC-T-TT-GG-G-", "--A-L-",
true, true, map, "-G-G-G--A--A---A-C-CC-T-TT-GG-G-");
}
/**
* Test for the case where not all of the protein sequence is mapped to cDNA.
*/
@Test
public void testAlignSequenceAs_withMapping_withUnmappedProtein()
{
/*
* Exons at codon 2 (AAA) and 4 (TTT) mapped to A and P
*/
final MapList map = new MapList(new int[]
{ 4, 6, 10, 12 }, new int[]
{ 1, 1, 3, 3 }, 3, 1);
/*
* Expect alignment does nothing (aborts realignment). Change this test
* first if different behaviour wanted.
*/
checkAlignSequenceAs("GGGAAACCCTTTGGG", "-A-L-P-", false,
false, map, "GGGAAACCCTTTGGG");
}
/**
* Helper method that performs and verifies the method under test.
*
* @param dnaSeq
* @param proteinSeq
* @param preserveMappedGaps
* @param preserveUnmappedGaps
* @param map
* @param expected
*/
protected void checkAlignSequenceAs(final String dnaSeq,
final String proteinSeq, final boolean preserveMappedGaps,
final boolean preserveUnmappedGaps, MapList map,
final String expected)
{
SequenceI dna = new Sequence("Seq1", dnaSeq);
dna.createDatasetSequence();
SequenceI protein = new Sequence("Seq1", proteinSeq);
protein.createDatasetSequence();
AlignedCodonFrame acf = new AlignedCodonFrame();
acf.addMap(dna.getDatasetSequence(), protein.getDatasetSequence(), map);
AlignmentUtils.alignSequenceAs(dna, protein, acf, "---", '-',
preserveMappedGaps, preserveUnmappedGaps);
assertEquals(expected, dna.getSequenceAsString());
}
/**
* Test for the alignSequenceAs method where we preserve gaps in introns only.
*/
@Test
public void testAlignSequenceAs_keepIntronGapsOnly()
{
/*
* Intron GGGAAA followed by exon CCCTTT
*/
MapList map = new MapList(new int[]
{ 7, 12 }, new int[]
{ 1, 2 }, 3, 1);
checkAlignSequenceAs("GG-G-AA-A-C-CC-T-TT", "AL",
false, true, map, "GG-G-AA-ACCCTTT");
}
}