+/*
+ * 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 <http://www.gnu.org/licenses/>.
+ * The Jalview Authors are detailed in the 'AUTHORS' file.
+ */
package jalview.io.vcf;
-import jalview.analysis.AlignmentUtils;
-import jalview.analysis.Dna;
-import jalview.api.AlignViewControllerGuiI;
-import jalview.bin.Cache;
-import jalview.datamodel.DBRefEntry;
-import jalview.datamodel.GeneLociI;
-import jalview.datamodel.Mapping;
-import jalview.datamodel.SequenceFeature;
-import jalview.datamodel.SequenceI;
-import jalview.datamodel.features.FeatureAttributeType;
-import jalview.datamodel.features.FeatureSource;
-import jalview.datamodel.features.FeatureSources;
-import jalview.ext.ensembl.EnsemblMap;
-import jalview.ext.htsjdk.HtsContigDb;
-import jalview.ext.htsjdk.VCFReader;
-import jalview.io.gff.Gff3Helper;
-import jalview.io.gff.SequenceOntologyI;
-import jalview.util.MapList;
-import jalview.util.MappingUtils;
-import jalview.util.MessageManager;
+import java.util.Locale;
import java.io.File;
import java.io.IOException;
import java.util.ArrayList;
import java.util.HashMap;
+import java.util.HashSet;
+import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Map.Entry;
+import java.util.Set;
import java.util.regex.Pattern;
import java.util.regex.PatternSyntaxException;
import htsjdk.samtools.SAMSequenceDictionary;
import htsjdk.samtools.SAMSequenceRecord;
import htsjdk.samtools.util.CloseableIterator;
+import htsjdk.tribble.TribbleException;
import htsjdk.variant.variantcontext.Allele;
import htsjdk.variant.variantcontext.VariantContext;
+import htsjdk.variant.vcf.VCFConstants;
import htsjdk.variant.vcf.VCFHeader;
import htsjdk.variant.vcf.VCFHeaderLine;
import htsjdk.variant.vcf.VCFHeaderLineCount;
import htsjdk.variant.vcf.VCFHeaderLineType;
import htsjdk.variant.vcf.VCFInfoHeaderLine;
+import jalview.analysis.Dna;
+import jalview.api.AlignViewControllerGuiI;
+import jalview.bin.Cache;
+import jalview.bin.Console;
+import jalview.datamodel.DBRefEntry;
+import jalview.datamodel.GeneLociI;
+import jalview.datamodel.Mapping;
+import jalview.datamodel.SequenceFeature;
+import jalview.datamodel.SequenceI;
+import jalview.datamodel.features.FeatureAttributeType;
+import jalview.datamodel.features.FeatureSource;
+import jalview.datamodel.features.FeatureSources;
+import jalview.ext.ensembl.EnsemblMap;
+import jalview.ext.htsjdk.HtsContigDb;
+import jalview.ext.htsjdk.VCFReader;
+import jalview.io.gff.Gff3Helper;
+import jalview.io.gff.SequenceOntologyI;
+import jalview.util.MapList;
+import jalview.util.MappingUtils;
+import jalview.util.MessageManager;
+import jalview.util.StringUtils;
/**
* A class to read VCF data (using the htsjdk) and add variants as sequence
*/
public class VCFLoader
{
+ private static final String VCF_ENCODABLE = ":;=%,";
+
+ /*
+ * Jalview feature attributes for VCF fixed column data
+ */
+ private static final String VCF_POS = "POS";
+
+ private static final String VCF_ID = "ID";
+
+ private static final String VCF_QUAL = "QUAL";
+
+ private static final String VCF_FILTER = "FILTER";
+
+ private static final String NO_VALUE = VCFConstants.MISSING_VALUE_v4; // '.'
+
private static final String DEFAULT_SPECIES = "homo_sapiens";
/**
- * A class to model the mapping from sequence to VCF coordinates. Cases include
+ * A class to model the mapping from sequence to VCF coordinates. Cases
+ * include
* <ul>
* <li>a direct 1:1 mapping where the sequence is one of the VCF contigs</li>
- * <li>a mapping of sequence to chromosomal coordinates, where sequence and VCF
- * use the same reference assembly</li>
- * <li>a modified mapping of sequence to chromosomal coordinates, where sequence
- * and VCF use different reference assembles</li>
+ * <li>a mapping of sequence to chromosomal coordinates, where sequence and
+ * VCF use the same reference assembly</li>
+ * <li>a modified mapping of sequence to chromosomal coordinates, where
+ * sequence and VCF use different reference assembles</li>
* </ul>
*/
class VCFMap
private static final String VCF_SPECIES = "VCF_SPECIES"; // default is human
- private static final String DEFAULT_REFERENCE = "grch37"; // fallback default is human GRCh37
+ private static final String DEFAULT_REFERENCE = "grch37"; // fallback default
+ // is human GRCh37
/*
* keys to fields of VEP CSQ consequence data
* see https://www.ensembl.org/info/docs/tools/vep/vep_formats.html
*/
private static final String CSQ_CONSEQUENCE_KEY = "Consequence";
+
private static final String CSQ_ALLELE_KEY = "Allele";
- private static final String CSQ_ALLELE_NUM_KEY = "ALLELE_NUM"; // 0 (ref), 1...
+
+ private static final String CSQ_ALLELE_NUM_KEY = "ALLELE_NUM"; // 0 (ref),
+ // 1...
+
private static final String CSQ_FEATURE_KEY = "Feature"; // Ensembl stable id
/*
* see http://www.ensembl.org/info/docs/tools/vep/vep_formats.html
*/
private int csqConsequenceFieldIndex = -1;
+
private int csqAlleleFieldIndex = -1;
+
private int csqAlleleNumberFieldIndex = -1;
+
private int csqFeatureFieldIndex = -1;
// todo the same fields for SnpEff ANN data if wanted
*/
Map<Integer, String> vepFieldsOfInterest;
+ /*
+ * key:value for which rejected data has been seen
+ * (the error is logged only once for each combination)
+ */
+ private Set<String> badData;
+
/**
* Constructor given a VCF file
*
*/
public SequenceI loadVCFContig(String contig)
{
- VCFHeaderLine headerLine = header.getOtherHeaderLine(VCFHeader.REFERENCE_KEY);
+ VCFHeaderLine headerLine = header
+ .getOtherHeaderLine(VCFHeader.REFERENCE_KEY);
if (headerLine == null)
{
- Cache.log.error("VCF reference header not found");
+ Console.error("VCF reference header not found");
return null;
}
String ref = headerLine.getValue();
}
else
{
- Cache.log.error("VCF reference not found: " + ref);
+ Console.error("VCF reference not found: " + ref);
}
return seq;
/**
* Attempts to determine and save the species and genome assembly version to
- * which the VCF data applies. This may be done by parsing the {@code reference}
- * header line, configured in a property file, or (potentially) confirmed
- * interactively by the user.
+ * which the VCF data applies. This may be done by parsing the
+ * {@code reference} header line, configured in a property file, or
+ * (potentially) confirmed interactively by the user.
* <p>
* The saved values should be identifiers valid for Ensembl's REST service
* {@code map} endpoint, so they can be used (if necessary) to retrieve the
{
if (reference == null)
{
- Cache.log.error("No VCF ##reference found, defaulting to "
+ Console.error("No VCF ##reference found, defaulting to "
+ DEFAULT_REFERENCE + ":" + DEFAULT_SPECIES);
reference = DEFAULT_REFERENCE; // default to GRCh37 if not specified
}
- reference = reference.toLowerCase();
+ reference = reference.toLowerCase(Locale.ROOT);
/*
* for a non-human species, or other assembly identifier,
String[] tokens = token.split("=");
if (tokens.length == 2)
{
- if (reference.contains(tokens[0].trim().toLowerCase()))
+ if (reference.contains(tokens[0].trim().toLowerCase(Locale.ROOT)))
{
vcfAssembly = tokens[1].trim();
break;
String[] tokens = token.split("=");
if (tokens.length == 2)
{
- if (reference.contains(tokens[0].trim().toLowerCase()))
+ if (reference.contains(tokens[0].trim().toLowerCase(Locale.ROOT)))
{
vcfSpecies = tokens[1].trim();
break;
{
for (Pattern p : filters)
{
- if (p.matcher(id.toUpperCase()).matches())
+ if (p.matcher(id.toUpperCase(Locale.ROOT)).matches())
{
return true;
}
{
try
{
- patterns.add(Pattern.compile(token.toUpperCase()));
+ patterns.add(Pattern.compile(token.toUpperCase(Locale.ROOT)));
} catch (PatternSyntaxException e)
{
System.err.println("Invalid pattern ignored: " + token);
/**
* Transfers VCF features to sequences to which this sequence has a mapping.
- * If the mapping is 3:1, computes peptide variants from nucleotide variants.
*
* @param seq
*/
protected void transferAddedFeatures(SequenceI seq)
{
- DBRefEntry[] dbrefs = seq.getDBRefs();
+ List<DBRefEntry> dbrefs = seq.getDBRefs();
if (dbrefs == null)
{
return;
/*
* dna-to-peptide product mapping
*/
- AlignmentUtils.computeProteinFeatures(seq, mapTo, map);
+ // JAL-3187 render on the fly instead
+ // AlignmentUtils.computeProteinFeatures(seq, mapTo, map);
}
else
{
}
/**
- * Tries to add overlapping variants read from a VCF file to the given sequence,
- * and returns the number of variant features added
+ * Tries to add overlapping variants read from a VCF file to the given
+ * sequence, and returns the number of variant features added
*
* @param seq
* @return
GeneLociI seqCoords = seq.getGeneLoci();
if (seqCoords == null)
{
- Cache.log.warn(String.format(
+ Console.warn(String.format(
"Can't query VCF for %s as chromosome coordinates not known",
seq.getName()));
return null;
String species = seqCoords.getSpeciesId();
String chromosome = seqCoords.getChromosomeId();
String seqRef = seqCoords.getAssemblyId();
- MapList map = seqCoords.getMap();
+ MapList map = seqCoords.getMapping();
// note this requires the configured species to match that
// returned with the Ensembl sequence; todo: support aliases?
if (!vcfSpecies.equalsIgnoreCase(species))
{
- Cache.log.warn("No VCF loaded to " + seq.getName()
+ Console.warn("No VCF loaded to " + seq.getName()
+ " as species not matched");
return null;
}
vcfAssembly);
if (newRange == null)
{
- Cache.log.error(
- String.format("Failed to map %s:%s:%s:%d:%d to %s", species,
- chromosome, seqRef, range[0], range[1],
- vcfAssembly));
+ Console.error(String.format("Failed to map %s:%s:%s:%d:%d to %s",
+ species, chromosome, seqRef, range[0], range[1],
+ vcfAssembly));
continue;
}
else
{
int vcfStart = Math.min(range[0], range[1]);
int vcfEnd = Math.max(range[0], range[1]);
- CloseableIterator<VariantContext> variants = reader
- .query(map.chromosome, vcfStart, vcfEnd);
- while (variants.hasNext())
+ try
{
- VariantContext variant = variants.next();
+ CloseableIterator<VariantContext> variants = reader
+ .query(map.chromosome, vcfStart, vcfEnd);
+ while (variants.hasNext())
+ {
+ VariantContext variant = variants.next();
- int[] featureRange = map.map.locateInFrom(variant.getStart(),
- variant.getEnd());
+ int[] featureRange = map.map.locateInFrom(variant.getStart(),
+ variant.getEnd());
- if (featureRange != null)
- {
- int featureStart = Math.min(featureRange[0], featureRange[1]);
- int featureEnd = Math.max(featureRange[0], featureRange[1]);
- count += addAlleleFeatures(seq, variant, featureStart, featureEnd,
- forwardStrand);
+ /*
+ * only take features whose range is fully mappable to sequence positions
+ */
+ if (featureRange != null)
+ {
+ int featureStart = Math.min(featureRange[0], featureRange[1]);
+ int featureEnd = Math.max(featureRange[0], featureRange[1]);
+ if (featureEnd - featureStart == variant.getEnd()
+ - variant.getStart())
+ {
+ count += addAlleleFeatures(seq, variant, featureStart,
+ featureEnd, forwardStrand);
+ }
+ }
}
+ variants.close();
+ } catch (TribbleException e)
+ {
+ /*
+ * RuntimeException throwable by htsjdk
+ */
+ String msg = String.format("Error reading VCF for %s:%d-%d: %s ",
+ map.chromosome, vcfStart, vcfEnd, e.getLocalizedMessage());
+ Console.error(msg);
}
- variants.close();
}
return count;
/**
* Inspects one allele and attempts to add a variant feature for it to the
* sequence. The additional data associated with this allele is extracted to
- * store in the feature's key-value map. Answers the number of features added (0
- * or 1).
+ * store in the feature's key-value map. Answers the number of features added
+ * (0 or 1).
*
* @param seq
* @param variant
* pick out the consequence data (if any) that is for the current allele
* and feature (transcript) that matches the current sequence
*/
- String consequence = getConsequenceForAlleleAndFeature(variant, CSQ_FIELD,
- altAlleleIndex, csqAlleleFieldIndex,
- csqAlleleNumberFieldIndex, seq.getName().toLowerCase(),
- csqFeatureFieldIndex);
+ String consequence = getConsequenceForAlleleAndFeature(variant,
+ CSQ_FIELD, altAlleleIndex, csqAlleleFieldIndex,
+ csqAlleleNumberFieldIndex,
+ seq.getName().toLowerCase(Locale.ROOT), csqFeatureFieldIndex);
/*
* pick out the ontology term for the consequence type
featureEnd, FEATURE_GROUP_VCF);
sf.setSource(sourceId);
- sf.setValue(Gff3Helper.ALLELES, alleles);
+ /*
+ * save the derived alleles as a named attribute; this will be
+ * needed when Jalview computes derived peptide variants
+ */
+ addFeatureAttribute(sf, Gff3Helper.ALLELES, alleles);
+
+ /*
+ * add selected VCF fixed column data as feature attributes
+ */
+ addFeatureAttribute(sf, VCF_POS, String.valueOf(variant.getStart()));
+ addFeatureAttribute(sf, VCF_ID, variant.getID());
+ addFeatureAttribute(sf, VCF_QUAL,
+ String.valueOf(variant.getPhredScaledQual()));
+ addFeatureAttribute(sf, VCF_FILTER, getFilter(variant));
addAlleleProperties(variant, sf, altAlleleIndex, consequence);
}
/**
- * Determines the Sequence Ontology term to use for the variant feature type in
- * Jalview. The default is 'sequence_variant', but a more specific term is used
- * if:
+ * Answers the VCF FILTER value for the variant - or an approximation to it.
+ * This field is either PASS, or a semi-colon separated list of filters not
+ * passed. htsjdk saves filters as a HashSet, so the order when reassembled
+ * into a list may be different.
+ *
+ * @param variant
+ * @return
+ */
+ String getFilter(VariantContext variant)
+ {
+ Set<String> filters = variant.getFilters();
+ if (filters.isEmpty())
+ {
+ return NO_VALUE;
+ }
+ Iterator<String> iterator = filters.iterator();
+ String first = iterator.next();
+ if (filters.size() == 1)
+ {
+ return first;
+ }
+
+ StringBuilder sb = new StringBuilder(first);
+ while (iterator.hasNext())
+ {
+ sb.append(";").append(iterator.next());
+ }
+
+ return sb.toString();
+ }
+
+ /**
+ * Adds one feature attribute unless the value is null, empty or '.'
+ *
+ * @param sf
+ * @param key
+ * @param value
+ */
+ void addFeatureAttribute(SequenceFeature sf, String key, String value)
+ {
+ if (value != null && !value.isEmpty() && !NO_VALUE.equals(value))
+ {
+ sf.setValue(key, value);
+ }
+ }
+
+ /**
+ * Determines the Sequence Ontology term to use for the variant feature type
+ * in Jalview. The default is 'sequence_variant', but a more specific term is
+ * used if:
* <ul>
* <li>VEP (or SnpEff) Consequence annotation is included in the VCF</li>
* <li>sequence id can be matched to VEP Feature (or SnpEff Feature_ID)</li>
*/
private String getConsequenceForAlleleAndFeature(VariantContext variant,
String vcfInfoId, int altAlleleIndex, int alleleFieldIndex,
- int alleleNumberFieldIndex,
- String seqName, int featureFieldIndex)
+ int alleleNumberFieldIndex, String seqName, int featureFieldIndex)
{
if (alleleFieldIndex == -1 || featureFieldIndex == -1)
{
if (csqFields.length > featureFieldIndex)
{
String featureIdentifier = csqFields[featureFieldIndex];
- if (featureIdentifier.length() > 4
- && seqName.indexOf(featureIdentifier.toLowerCase()) > -1)
+ if (featureIdentifier.length() > 4 && seqName
+ .indexOf(featureIdentifier.toLowerCase(Locale.ROOT)) > -1)
{
/*
* feature (transcript) matched - now check for allele match
}
/*
- * filter out fields we don't want to capture
- */
- if (!vcfFieldsOfInterest.contains(key))
- {
- continue;
- }
-
- /*
* we extract values for other data which are allele-specific;
* these may be per alternate allele (INFO[key].Number = 'A')
* or per allele including reference (INFO[key].Number = 'R')
* take the index'th value
*/
String value = getAttributeValue(variant, key, index);
- if (value != null)
+ if (value != null && isValid(variant, key, value))
+ {
+ /*
+ * decode colon, semicolon, equals sign, percent sign, comma (only)
+ * as required by the VCF specification (para 1.2)
+ */
+ value = StringUtils.urlDecode(value, VCF_ENCODABLE);
+ addFeatureAttribute(sf, key, value);
+ }
+ }
+ }
+
+ /**
+ * Answers true for '.', null, or an empty value, or if the INFO type is
+ * String. If the INFO type is Integer or Float, answers false if the value is
+ * not in valid format.
+ *
+ * @param variant
+ * @param infoId
+ * @param value
+ * @return
+ */
+ protected boolean isValid(VariantContext variant, String infoId,
+ String value)
+ {
+ if (value == null || value.isEmpty() || NO_VALUE.equals(value))
+ {
+ return true;
+ }
+ VCFInfoHeaderLine infoHeader = header.getInfoHeaderLine(infoId);
+ if (infoHeader == null)
+ {
+ Console.error("Field " + infoId + " has no INFO header");
+ return false;
+ }
+ VCFHeaderLineType infoType = infoHeader.getType();
+ try
+ {
+ if (infoType == VCFHeaderLineType.Integer)
{
- sf.setValue(key, value);
+ Integer.parseInt(value);
}
+ else if (infoType == VCFHeaderLineType.Float)
+ {
+ Float.parseFloat(value);
+ }
+ } catch (NumberFormatException e)
+ {
+ logInvalidValue(variant, infoId, value);
+ return false;
+ }
+ return true;
+ }
+
+ /**
+ * Logs an error message for malformed data; duplicate messages (same id and
+ * value) are not logged
+ *
+ * @param variant
+ * @param infoId
+ * @param value
+ */
+ private void logInvalidValue(VariantContext variant, String infoId,
+ String value)
+ {
+ if (badData == null)
+ {
+ badData = new HashSet<>();
+ }
+ String token = infoId + ":" + value;
+ if (!badData.contains(token))
+ {
+ badData.add(token);
+ Console.error(String.format("Invalid VCF data at %s:%d %s=%s",
+ variant.getContig(), variant.getStart(), infoId, value));
}
}
String id = vepFieldsOfInterest.get(i);
if (id != null)
{
+ /*
+ * VCF spec requires encoding of special characters e.g. '='
+ * so decode them here before storing
+ */
+ field = StringUtils.urlDecode(field, VCF_ENCODABLE);
csqValues.put(id, field);
}
}
* @param toRef
* @return
*/
- protected int[] findSubsumedRangeMapping(int[] queryRange, String chromosome,
- String species, String fromRef, String toRef)
+ protected int[] findSubsumedRangeMapping(int[] queryRange,
+ String chromosome, String species, String fromRef, String toRef)
{
String key = makeRangesKey(chromosome, species, fromRef, toRef);
if (assemblyMappings.containsKey(key))
*/
int offset = queryRange[0] - fromRange[0];
int mappedRangeFrom = toRange[0] + offset;
- int mappedRangeTo = mappedRangeFrom + (queryRange[1] - queryRange[0]);
+ int mappedRangeTo = mappedRangeFrom
+ + (queryRange[1] - queryRange[0]);
return new int[] { mappedRangeFrom, mappedRangeTo };
}
}
SequenceI targetSequence, MapList mapping)
{
int[] mappedRange = mapping.locateInTo(sf.getBegin(), sf.getEnd());
-
+
if (mappedRange != null)
{
String group = sf.getFeatureGroup();
protected static String makeRangesKey(String chromosome, String species,
String fromRef, String toRef)
{
- return species + EXCL + chromosome + EXCL + fromRef + EXCL
- + toRef;
+ return species + EXCL + chromosome + EXCL + fromRef + EXCL + toRef;
}
}