2 * Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
3 * Copyright (C) $$Year-Rel$$ The Jalview Authors
5 * This file is part of Jalview.
7 * Jalview is free software: you can redistribute it and/or
8 * modify it under the terms of the GNU General Public License
9 * as published by the Free Software Foundation, either version 3
10 * of the License, or (at your option) any later version.
12 * Jalview is distributed in the hope that it will be useful, but
13 * WITHOUT ANY WARRANTY; without even the implied warranty
14 * of MERCHANTABILITY or FITNESS FOR A PARTICULAR
15 * PURPOSE. See the GNU General Public License for more details.
17 * You should have received a copy of the GNU General Public License
18 * along with Jalview. If not, see <http://www.gnu.org/licenses/>.
19 * The Jalview Authors are detailed in the 'AUTHORS' file.
23 import jalview.analysis.AlignmentUtils;
24 import jalview.analysis.SequenceIdMatcher;
25 import jalview.api.AlignViewportI;
26 import jalview.api.FeatureColourI;
27 import jalview.api.FeaturesSourceI;
28 import jalview.datamodel.AlignedCodonFrame;
29 import jalview.datamodel.Alignment;
30 import jalview.datamodel.AlignmentI;
31 import jalview.datamodel.SequenceDummy;
32 import jalview.datamodel.SequenceFeature;
33 import jalview.datamodel.SequenceI;
34 import jalview.io.gff.GffHelperBase;
35 import jalview.io.gff.GffHelperFactory;
36 import jalview.io.gff.GffHelperI;
37 import jalview.schemes.FeatureColour;
38 import jalview.util.ColorUtils;
39 import jalview.util.MapList;
40 import jalview.util.ParseHtmlBodyAndLinks;
41 import jalview.util.StringUtils;
43 import java.awt.Color;
44 import java.io.IOException;
45 import java.util.ArrayList;
46 import java.util.Arrays;
47 import java.util.HashMap;
48 import java.util.Iterator;
49 import java.util.List;
51 import java.util.Map.Entry;
54 * Parses and writes features files, which may be in Jalview, GFF2 or GFF3
55 * format. These are tab-delimited formats but with differences in the use of
58 * A Jalview feature file may define feature colours and then declare that the
59 * remainder of the file is in GFF format with the line 'GFF'.
61 * GFF3 files may include alignment mappings for features, which Jalview will
62 * attempt to model, and may include sequence data following a ##FASTA line.
69 public class FeaturesFile extends AlignFile implements FeaturesSourceI
71 private static final String ID_NOT_SPECIFIED = "ID_NOT_SPECIFIED";
73 private static final String NOTE = "Note";
75 protected static final String TAB = "\t";
77 protected static final String GFF_VERSION = "##gff-version";
79 private AlignmentI lastmatchedAl = null;
81 private SequenceIdMatcher matcher = null;
83 protected AlignmentI dataset;
85 protected int gffVersion;
88 * Creates a new FeaturesFile object.
95 * Constructor which does not parse the file immediately
101 public FeaturesFile(String inFile, DataSourceType paste)
104 super(false, inFile, paste);
109 * @throws IOException
111 public FeaturesFile(FileParse source) throws IOException
117 * Constructor that optionally parses the file immediately
119 * @param parseImmediately
122 * @throws IOException
124 public FeaturesFile(boolean parseImmediately, String inFile,
128 super(parseImmediately, inFile, type);
132 * Parse GFF or sequence features file using case-independent matching,
136 * - alignment/dataset containing sequences that are to be annotated
138 * - hashtable to store feature colour definitions
140 * - process html strings into plain text
141 * @return true if features were added
143 public boolean parse(AlignmentI align,
144 Map<String, FeatureColourI> colours, boolean removeHTML)
146 return parse(align, colours, removeHTML, false);
150 * Extends the default addProperties by also adding peptide-to-cDNA mappings
151 * (if any) derived while parsing a GFF file
154 public void addProperties(AlignmentI al)
156 super.addProperties(al);
157 if (dataset != null && dataset.getCodonFrames() != null)
159 AlignmentI ds = (al.getDataset() == null) ? al : al.getDataset();
160 for (AlignedCodonFrame codons : dataset.getCodonFrames())
162 ds.addCodonFrame(codons);
168 * Parse GFF or Jalview format sequence features file
171 * - alignment/dataset containing sequences that are to be annotated
173 * - hashtable to store feature colour definitions
175 * - process html strings into plain text
176 * @param relaxedIdmatching
177 * - when true, ID matches to compound sequence IDs are allowed
178 * @return true if features were added
180 public boolean parse(AlignmentI align,
181 Map<String, FeatureColourI> colours, boolean removeHTML,
182 boolean relaxedIdmatching)
184 Map<String, String> gffProps = new HashMap<String, String>();
186 * keep track of any sequences we try to create from the data
188 List<SequenceI> newseqs = new ArrayList<SequenceI>();
194 String featureGroup = null;
196 while ((line = nextLine()) != null)
198 // skip comments/process pragmas
199 if (line.length() == 0 || line.startsWith("#"))
201 if (line.toLowerCase().startsWith("##"))
203 processGffPragma(line, gffProps, align, newseqs);
208 gffColumns = line.split("\\t"); // tab as regex
209 if (gffColumns.length == 1)
211 if (line.trim().equalsIgnoreCase("GFF"))
214 * Jalview features file with appended GFF
215 * assume GFF2 (though it may declare ##gff-version 3)
222 if (gffColumns.length > 1 && gffColumns.length < 4)
225 * if 2 or 3 tokens, we anticipate either 'startgroup', 'endgroup' or
226 * a feature type colour specification
228 String ft = gffColumns[0];
229 if (ft.equalsIgnoreCase("startgroup"))
231 featureGroup = gffColumns[1];
233 else if (ft.equalsIgnoreCase("endgroup"))
235 // We should check whether this is the current group,
236 // but at present there's no way of showing more than 1 group
241 String colscheme = gffColumns[1];
242 FeatureColourI colour = FeatureColour
243 .parseJalviewFeatureColour(colscheme);
246 colours.put(ft, colour);
253 * if not a comment, GFF pragma, startgroup, endgroup or feature
254 * colour specification, that just leaves a feature details line
255 * in either Jalview or GFF format
259 parseJalviewFeature(line, gffColumns, align, colours, removeHTML,
260 relaxedIdmatching, featureGroup);
264 parseGff(gffColumns, align, relaxedIdmatching, newseqs);
268 } catch (Exception ex)
270 // should report somewhere useful for UI if necessary
271 warningMessage = ((warningMessage == null) ? "" : warningMessage)
272 + "Parsing error at\n" + line;
273 System.out.println("Error parsing feature file: " + ex + "\n" + line);
274 ex.printStackTrace(System.err);
280 * experimental - add any dummy sequences with features to the alignment
281 * - we need them for Ensembl feature extraction - though maybe not otherwise
283 for (SequenceI newseq : newseqs)
285 if (newseq.getFeatures().hasFeatures())
287 align.addSequence(newseq);
294 * Try to parse a Jalview format feature specification and add it as a
295 * sequence feature to any matching sequences in the alignment. Returns true
296 * if successful (a feature was added), or false if not.
301 * @param featureColours
303 * @param relaxedIdmatching
304 * @param featureGroup
306 protected boolean parseJalviewFeature(String line, String[] gffColumns,
307 AlignmentI alignment, Map<String, FeatureColourI> featureColours,
308 boolean removeHTML, boolean relaxedIdMatching, String featureGroup)
311 * tokens: description seqid seqIndex start end type [score]
313 if (gffColumns.length < 6)
315 System.err.println("Ignoring feature line '" + line
316 + "' with too few columns (" + gffColumns.length + ")");
319 String desc = gffColumns[0];
320 String seqId = gffColumns[1];
321 SequenceI seq = findSequence(seqId, alignment, null, relaxedIdMatching);
323 if (!ID_NOT_SPECIFIED.equals(seqId))
325 seq = findSequence(seqId, alignment, null, relaxedIdMatching);
331 String seqIndex = gffColumns[2];
334 int idx = Integer.parseInt(seqIndex);
335 seq = alignment.getSequenceAt(idx);
336 } catch (NumberFormatException ex)
338 System.err.println("Invalid sequence index: " + seqIndex);
344 System.out.println("Sequence not found: " + line);
348 int startPos = Integer.parseInt(gffColumns[3]);
349 int endPos = Integer.parseInt(gffColumns[4]);
351 String ft = gffColumns[5];
353 if (!featureColours.containsKey(ft))
356 * Perhaps an old style groups file with no colours -
357 * synthesize a colour from the feature type
359 Color colour = ColorUtils.createColourFromName(ft);
360 featureColours.put(ft, new FeatureColour(colour));
362 SequenceFeature sf = new SequenceFeature(ft, desc, "", startPos,
363 endPos, featureGroup);
364 if (gffColumns.length > 6)
366 float score = Float.NaN;
369 score = new Float(gffColumns[6]).floatValue();
370 // update colourgradient bounds if allowed to
371 } catch (NumberFormatException ex)
378 parseDescriptionHTML(sf, removeHTML);
380 seq.addSequenceFeature(sf);
383 && (seq = alignment.findName(seq, seqId, false)) != null)
385 seq.addSequenceFeature(new SequenceFeature(sf));
391 * clear any temporary handles used to speed up ID matching
393 protected void resetMatcher()
395 lastmatchedAl = null;
400 * Returns a sequence matching the given id, as follows
402 * <li>strict matching is on exact sequence name</li>
403 * <li>relaxed matching allows matching on a token within the sequence name,
405 * <li>first tries to find a match in the alignment sequences</li>
406 * <li>else tries to find a match in the new sequences already generated while
407 * parsing the features file</li>
408 * <li>else creates a new placeholder sequence, adds it to the new sequences
409 * list, and returns it</li>
415 * @param relaxedIdMatching
419 protected SequenceI findSequence(String seqId, AlignmentI align,
420 List<SequenceI> newseqs, boolean relaxedIdMatching)
422 // TODO encapsulate in SequenceIdMatcher, share the matcher
423 // with the GffHelper (removing code duplication)
424 SequenceI match = null;
425 if (relaxedIdMatching)
427 if (lastmatchedAl != align)
429 lastmatchedAl = align;
430 matcher = new SequenceIdMatcher(align.getSequencesArray());
433 matcher.addAll(newseqs);
436 match = matcher.findIdMatch(seqId);
440 match = align.findName(seqId, true);
441 if (match == null && newseqs != null)
443 for (SequenceI m : newseqs)
445 if (seqId.equals(m.getName()))
453 if (match == null && newseqs != null)
455 match = new SequenceDummy(seqId);
456 if (relaxedIdMatching)
458 matcher.addAll(Arrays.asList(new SequenceI[] { match }));
460 // add dummy sequence to the newseqs list
466 public void parseDescriptionHTML(SequenceFeature sf, boolean removeHTML)
468 if (sf.getDescription() == null)
472 ParseHtmlBodyAndLinks parsed = new ParseHtmlBodyAndLinks(
473 sf.getDescription(), removeHTML, newline);
477 sf.setDescription(parsed.getNonHtmlContent());
480 for (String link : parsed.getLinks())
488 * generate a features file for seqs includes non-pos features by default.
491 * source of sequence features
493 * hash of feature types and colours
494 * @return features file contents
496 public String printJalviewFormat(SequenceI[] sequences,
497 Map<String, FeatureColourI> visible)
499 return printJalviewFormat(sequences, visible, true, true);
503 * generate a features file for seqs with colours from visible (if any)
508 * hash of Colours for each feature type
510 * when true only feature types in 'visible' will be output
512 * indicates if non-positional features should be output (regardless
514 * @return features file contents
516 public String printJalviewFormat(SequenceI[] sequences,
517 Map<String, FeatureColourI> visible, boolean visOnly,
520 StringBuilder out = new StringBuilder(256);
521 boolean featuresGen = false;
522 if (visOnly && !nonpos && (visible == null || visible.size() < 1))
524 // no point continuing.
525 return "No Features Visible";
528 if (visible != null && visOnly)
530 // write feature colours only if we're given them and we are generating
532 // TODO: decide if feature links should also be written here ?
533 Iterator<String> en = visible.keySet().iterator();
536 String featureType = en.next().toString();
537 FeatureColourI colour = visible.get(featureType);
538 out.append(colour.toJalviewFormat(featureType)).append(newline);
542 // Work out which groups are both present and visible
543 List<String> groups = new ArrayList<String>();
545 boolean isnonpos = false;
547 SequenceFeature[] features;
548 for (int i = 0; i < sequences.length; i++)
550 features = sequences[i].getSequenceFeatures();
551 if (features != null)
553 for (int j = 0; j < features.length; j++)
555 isnonpos = features[j].begin == 0 && features[j].end == 0;
556 if ((!nonpos && isnonpos)
557 || (!isnonpos && visOnly && !visible
558 .containsKey(features[j].type)))
563 if (features[j].featureGroup != null
564 && !groups.contains(features[j].featureGroup))
566 groups.add(features[j].featureGroup);
575 if (groups.size() > 0 && groupIndex < groups.size())
577 group = groups.get(groupIndex);
579 out.append("STARTGROUP").append(TAB);
588 for (int i = 0; i < sequences.length; i++)
590 features = sequences[i].getSequenceFeatures();
591 if (features != null)
593 for (SequenceFeature sequenceFeature : features)
595 isnonpos = sequenceFeature.begin == 0
596 && sequenceFeature.end == 0;
597 if ((!nonpos && isnonpos)
598 || (!isnonpos && visOnly && !visible
599 .containsKey(sequenceFeature.type)))
601 // skip if feature is nonpos and we ignore them or if we only
602 // output visible and it isn't non-pos and it's not visible
607 && (sequenceFeature.featureGroup == null || !sequenceFeature.featureGroup
613 if (group == null && sequenceFeature.featureGroup != null)
617 // we have features to output
619 if (sequenceFeature.description == null
620 || sequenceFeature.description.equals(""))
622 out.append(sequenceFeature.type).append(TAB);
626 if (sequenceFeature.links != null
627 && sequenceFeature.getDescription().indexOf("<html>") == -1)
629 out.append("<html>");
632 out.append(sequenceFeature.description);
633 if (sequenceFeature.links != null)
635 for (int l = 0; l < sequenceFeature.links.size(); l++)
637 String label = sequenceFeature.links.elementAt(l);
638 String href = label.substring(label.indexOf("|") + 1);
639 label = label.substring(0, label.indexOf("|"));
641 if (sequenceFeature.description.indexOf(href) == -1)
643 out.append(" <a href=\"" + href + "\">" + label
648 if (sequenceFeature.getDescription().indexOf("</html>") == -1)
650 out.append("</html>");
656 out.append(sequences[i].getName());
657 out.append("\t-1\t");
658 out.append(sequenceFeature.begin);
660 out.append(sequenceFeature.end);
662 out.append(sequenceFeature.type);
663 if (!Float.isNaN(sequenceFeature.score))
666 out.append(sequenceFeature.score);
675 out.append("ENDGROUP").append(TAB);
685 } while (groupIndex < groups.size() + 1);
689 return "No Features Visible";
692 return out.toString();
696 * Parse method that is called when a GFF file is dragged to the desktop
701 AlignViewportI av = getViewport();
704 if (av.getAlignment() != null)
706 dataset = av.getAlignment().getDataset();
710 // working in the applet context ?
711 dataset = av.getAlignment();
716 dataset = new Alignment(new SequenceI[] {});
719 Map<String, FeatureColourI> featureColours = new HashMap<String, FeatureColourI>();
720 boolean parseResult = parse(dataset, featureColours, false, true);
723 // pass error up somehow
727 // update viewport with the dataset data ?
731 setSeqs(dataset.getSequencesArray());
736 * Implementation of unused abstract method
738 * @return error message
741 public String print(SequenceI[] sqs, boolean jvsuffix)
743 System.out.println("Use printGffFormat() or printJalviewFormat()");
748 * Returns features output in GFF2 format, including hidden and non-positional
752 * the sequences whose features are to be output
754 * a map whose keys are the type names of visible features
757 public String printGffFormat(SequenceI[] sequences,
758 Map<String, FeatureColourI> visible)
760 return printGffFormat(sequences, visible, true, true);
764 * Returns features output in GFF2 format
767 * the sequences whose features are to be output
769 * a map whose keys are the type names of visible features
770 * @param outputVisibleOnly
771 * @param includeNonPositionalFeatures
774 public String printGffFormat(SequenceI[] sequences,
775 Map<String, FeatureColourI> visible, boolean outputVisibleOnly,
776 boolean includeNonPositionalFeatures)
778 StringBuilder out = new StringBuilder(256);
779 int version = gffVersion == 0 ? 2 : gffVersion;
780 out.append(String.format("%s %d\n", GFF_VERSION, version));
783 for (SequenceI seq : sequences)
785 SequenceFeature[] features = seq.getSequenceFeatures();
786 if (features != null)
788 for (SequenceFeature sf : features)
790 isnonpos = sf.begin == 0 && sf.end == 0;
791 if (!includeNonPositionalFeatures && isnonpos)
794 * ignore non-positional features if not wanted
798 // TODO why the test !isnonpos here?
799 // what about not visible non-positional features?
800 if (!isnonpos && outputVisibleOnly
801 && !visible.containsKey(sf.type))
804 * ignore not visible features if not wanted
809 source = sf.featureGroup;
812 source = sf.getDescription();
815 out.append(seq.getName());
821 out.append(sf.begin);
825 out.append(sf.score);
828 int strand = sf.getStrand();
829 out.append(strand == 1 ? "+" : (strand == -1 ? "-" : "."));
832 String phase = sf.getPhase();
833 out.append(phase == null ? "." : phase);
835 // miscellaneous key-values (GFF column 9)
836 String attributes = sf.getAttributes();
837 if (attributes != null)
839 out.append(TAB).append(attributes);
847 return out.toString();
851 * Returns a mapping given list of one or more Align descriptors (exonerate
854 * @param alignedRegions
855 * a list of "Align fromStart toStart fromCount"
856 * @param mapIsFromCdna
857 * if true, 'from' is dna, else 'from' is protein
859 * either 1 (forward) or -1 (reverse)
861 * @throws IOException
863 protected MapList constructCodonMappingFromAlign(
864 List<String> alignedRegions, boolean mapIsFromCdna, int strand)
869 throw new IOException(
870 "Invalid strand for a codon mapping (cannot be 0)");
872 int regions = alignedRegions.size();
873 // arrays to hold [start, end] for each aligned region
874 int[] fromRanges = new int[regions * 2]; // from dna
875 int[] toRanges = new int[regions * 2]; // to protein
876 int fromRangesIndex = 0;
877 int toRangesIndex = 0;
879 for (String range : alignedRegions)
882 * Align mapFromStart mapToStart mapFromCount
883 * e.g. if mapIsFromCdna
884 * Align 11270 143 120
886 * 120 bases from pos 11270 align to pos 143 in peptide
887 * if !mapIsFromCdna this would instead be
890 String[] tokens = range.split(" ");
891 if (tokens.length != 3)
893 throw new IOException("Wrong number of fields for Align");
900 fromStart = Integer.parseInt(tokens[0]);
901 toStart = Integer.parseInt(tokens[1]);
902 fromCount = Integer.parseInt(tokens[2]);
903 } catch (NumberFormatException nfe)
905 throw new IOException("Invalid number in Align field: "
910 * Jalview always models from dna to protein, so adjust values if the
911 * GFF mapping is from protein to dna
916 int temp = fromStart;
920 fromRanges[fromRangesIndex++] = fromStart;
921 fromRanges[fromRangesIndex++] = fromStart + strand * (fromCount - 1);
924 * If a codon has an intron gap, there will be contiguous 'toRanges';
925 * this is handled for us by the MapList constructor.
926 * (It is not clear that exonerate ever generates this case)
928 toRanges[toRangesIndex++] = toStart;
929 toRanges[toRangesIndex++] = toStart + (fromCount - 1) / 3;
932 return new MapList(fromRanges, toRanges, 3, 1);
936 * Parse a GFF format feature. This may include creating a 'dummy' sequence to
937 * hold the feature, or for its mapped sequence, or both, to be resolved
938 * either later in the GFF file (##FASTA section), or when the user loads
939 * additional sequences.
943 * @param relaxedIdMatching
947 protected SequenceI parseGff(String[] gffColumns, AlignmentI alignment,
948 boolean relaxedIdMatching, List<SequenceI> newseqs)
951 * GFF: seqid source type start end score strand phase [attributes]
953 if (gffColumns.length < 5)
955 System.err.println("Ignoring GFF feature line with too few columns ("
956 + gffColumns.length + ")");
961 * locate referenced sequence in alignment _or_
962 * as a forward or external reference (SequenceDummy)
964 String seqId = gffColumns[0];
965 SequenceI seq = findSequence(seqId, alignment, newseqs,
968 SequenceFeature sf = null;
969 GffHelperI helper = GffHelperFactory.getHelper(gffColumns);
974 sf = helper.processGff(seq, gffColumns, alignment, newseqs,
978 seq.addSequenceFeature(sf);
979 while ((seq = alignment.findName(seq, seqId, true)) != null)
981 seq.addSequenceFeature(new SequenceFeature(sf));
984 } catch (IOException e)
986 System.err.println("GFF parsing failed with: " + e.getMessage());
995 * Process the 'column 9' data of the GFF file. This is less formally defined,
996 * and its interpretation will vary depending on the tool that has generated
1002 protected void processGffColumnNine(String attributes, SequenceFeature sf)
1004 sf.setAttributes(attributes);
1007 * Parse attributes in column 9 and add them to the sequence feature's
1008 * 'otherData' table; use Note as a best proxy for description
1010 char nameValueSeparator = gffVersion == 3 ? '=' : ' ';
1011 // TODO check we don't break GFF2 values which include commas here
1012 Map<String, List<String>> nameValues = GffHelperBase
1013 .parseNameValuePairs(attributes, ";", nameValueSeparator, ",");
1014 for (Entry<String, List<String>> attr : nameValues.entrySet())
1016 String values = StringUtils.listToDelimitedString(attr.getValue(),
1018 sf.setValue(attr.getKey(), values);
1019 if (NOTE.equals(attr.getKey()))
1021 sf.setDescription(values);
1027 * After encountering ##fasta in a GFF3 file, process the remainder of the
1028 * file as FAST sequence data. Any placeholder sequences created during
1029 * feature parsing are updated with the actual sequences.
1033 * @throws IOException
1035 protected void processAsFasta(AlignmentI align, List<SequenceI> newseqs)
1041 } catch (IOException q)
1044 FastaFile parser = new FastaFile(this);
1045 List<SequenceI> includedseqs = parser.getSeqs();
1047 SequenceIdMatcher smatcher = new SequenceIdMatcher(newseqs);
1050 * iterate over includedseqs, and replacing matching ones with newseqs
1051 * sequences. Generic iterator not used here because we modify
1052 * includedseqs as we go
1054 for (int p = 0, pSize = includedseqs.size(); p < pSize; p++)
1056 // search for any dummy seqs that this sequence can be used to update
1057 SequenceI includedSeq = includedseqs.get(p);
1058 SequenceI dummyseq = smatcher.findIdMatch(includedSeq);
1059 if (dummyseq != null && dummyseq instanceof SequenceDummy)
1061 // probably have the pattern wrong
1062 // idea is that a flyweight proxy for a sequence ID can be created for
1063 // 1. stable reference creation
1064 // 2. addition of annotation
1065 // 3. future replacement by a real sequence
1066 // current pattern is to create SequenceDummy objects - a convenience
1067 // constructor for a Sequence.
1068 // problem is that when promoted to a real sequence, all references
1069 // need to be updated somehow. We avoid that by keeping the same object.
1070 ((SequenceDummy) dummyseq).become(includedSeq);
1071 dummyseq.createDatasetSequence();
1074 * Update mappings so they are now to the dataset sequence
1076 for (AlignedCodonFrame mapping : align.getCodonFrames())
1078 mapping.updateToDataset(dummyseq);
1082 * replace parsed sequence with the realised forward reference
1084 includedseqs.set(p, dummyseq);
1087 * and remove from the newseqs list
1089 newseqs.remove(dummyseq);
1094 * finally add sequences to the dataset
1096 for (SequenceI seq : includedseqs)
1098 // experimental: mapping-based 'alignment' to query sequence
1099 AlignmentUtils.alignSequenceAs(seq, align,
1100 String.valueOf(align.getGapCharacter()), false, true);
1102 // rename sequences if GFF handler requested this
1103 // TODO a more elegant way e.g. gffHelper.postProcess(newseqs) ?
1104 SequenceFeature[] sfs = seq.getSequenceFeatures();
1107 String newName = (String) sfs[0].getValue(GffHelperI.RENAME_TOKEN);
1108 if (newName != null)
1110 seq.setName(newName);
1113 align.addSequence(seq);
1118 * Process a ## directive
1124 * @throws IOException
1126 protected void processGffPragma(String line,
1127 Map<String, String> gffProps, AlignmentI align,
1128 List<SequenceI> newseqs) throws IOException
1131 if ("###".equals(line))
1133 // close off any open 'forward references'
1137 String[] tokens = line.substring(2).split(" ");
1138 String pragma = tokens[0];
1139 String value = tokens.length == 1 ? null : tokens[1];
1141 if ("gff-version".equalsIgnoreCase(pragma))
1147 // value may be e.g. "3.1.2"
1148 gffVersion = Integer.parseInt(value.split("\\.")[0]);
1149 } catch (NumberFormatException e)
1155 else if ("sequence-region".equalsIgnoreCase(pragma))
1157 // could capture <seqid start end> if wanted here
1159 else if ("feature-ontology".equalsIgnoreCase(pragma))
1161 // should resolve against the specified feature ontology URI
1163 else if ("attribute-ontology".equalsIgnoreCase(pragma))
1165 // URI of attribute ontology - not currently used in GFF3
1167 else if ("source-ontology".equalsIgnoreCase(pragma))
1169 // URI of source ontology - not currently used in GFF3
1171 else if ("species-build".equalsIgnoreCase(pragma))
1173 // save URI of specific NCBI taxon version of annotations
1174 gffProps.put("species-build", value);
1176 else if ("fasta".equalsIgnoreCase(pragma))
1178 // process the rest of the file as a fasta file and replace any dummy
1180 processAsFasta(align, newseqs);
1184 System.err.println("Ignoring unknown pragma: " + line);