/* * 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.datamodel; import java.util.HashMap; import java.util.Map; import java.util.Vector; /** * DOCUMENT ME! * * @author $author$ * @version $Revision$ */ public class SequenceFeature { private static final String STATUS = "status"; private static final String STRAND = "STRAND"; // private key for Phase designed not to conflict with real GFF data private static final String PHASE = "!Phase"; // private key for ENA location designed not to conflict with real GFF data private static final String LOCATION = "!Location"; /* * ATTRIBUTES is reserved for the GFF 'column 9' data, formatted as * name1=value1;name2=value2,value3;...etc */ private static final String ATTRIBUTES = "ATTRIBUTES"; public int begin; public int end; public float score; public String type; public String description; /* * a map of key-value pairs; may be populated from GFF 'column 9' data, * other data sources (e.g. GenBank file), or programmatically */ public Map otherDetails; public Vector links; // Feature group can be set from a features file // as a group of features between STARTGROUP and ENDGROUP markers public String featureGroup; public SequenceFeature() { } /** * Constructs a duplicate feature. Note: Uses makes a shallow copy of the * otherDetails map, so the new and original SequenceFeature may reference the * same objects in the map. * * @param cpy */ public SequenceFeature(SequenceFeature cpy) { if (cpy != null) { begin = cpy.begin; end = cpy.end; score = cpy.score; if (cpy.type != null) { type = new String(cpy.type); } if (cpy.description != null) { description = new String(cpy.description); } if (cpy.featureGroup != null) { featureGroup = new String(cpy.featureGroup); } if (cpy.otherDetails != null) { try { otherDetails = (Map) ((HashMap) cpy.otherDetails) .clone(); } catch (Exception e) { // ignore } } if (cpy.links != null && cpy.links.size() > 0) { links = new Vector(); for (int i = 0, iSize = cpy.links.size(); i < iSize; i++) { links.addElement(cpy.links.elementAt(i)); } } } } /** * Constructor including a Status value * * @param type * @param desc * @param status * @param begin * @param end * @param featureGroup */ public SequenceFeature(String type, String desc, String status, int begin, int end, String featureGroup) { this(type, desc, begin, end, featureGroup); setStatus(status); } /** * Constructor * * @param type * @param desc * @param begin * @param end * @param featureGroup */ SequenceFeature(String type, String desc, int begin, int end, String featureGroup) { this.type = type; this.description = desc; this.begin = begin; this.end = end; this.featureGroup = featureGroup; } /** * Constructor including a score value * * @param type * @param desc * @param begin * @param end * @param score * @param featureGroup */ public SequenceFeature(String type, String desc, int begin, int end, float score, String featureGroup) { this(type, desc, begin, end, featureGroup); this.score = score; } /** * Two features are considered equal if they have the same type, group, * description, start, end, phase, strand, and (if present) 'Name', ID' and * 'Parent' attributes. * * Note we need to check Parent to distinguish the same exon occurring in * different transcripts (in Ensembl GFF). This allows assembly of transcript * sequences from their component exon regions. */ @Override public boolean equals(Object o) { return equals(o, false); } /** * Overloaded method allows the equality test to optionally ignore the * 'Parent' attribute of a feature. This supports avoiding adding many * superficially duplicate 'exon' or CDS features to genomic or protein * sequence. * * @param o * @param ignoreParent * @return */ public boolean equals(Object o, boolean ignoreParent) { if (o == null || !(o instanceof SequenceFeature)) { return false; } SequenceFeature sf = (SequenceFeature) o; boolean sameScore = Float.isNaN(score) ? Float.isNaN(sf.score) : score == sf.score; if (begin != sf.begin || end != sf.end || !sameScore) { return false; } if (getStrand() != sf.getStrand()) { return false; } if (!(type + description + featureGroup + getPhase()).equals(sf.type + sf.description + sf.featureGroup + sf.getPhase())) { return false; } if (!equalAttribute(getValue("ID"), sf.getValue("ID"))) { return false; } if (!equalAttribute(getValue("Name"), sf.getValue("Name"))) { return false; } if (!ignoreParent) { if (!equalAttribute(getValue("Parent"), sf.getValue("Parent"))) { return false; } } return true; } /** * Returns true if both values are null, are both non-null and equal * * @param att1 * @param att2 * @return */ protected static boolean equalAttribute(Object att1, Object att2) { if (att1 == null && att2 == null) { return true; } if (att1 != null) { return att1.equals(att2); } return att2.equals(att1); } /** * DOCUMENT ME! * * @return DOCUMENT ME! */ public int getBegin() { return begin; } public void setBegin(int start) { this.begin = start; } /** * DOCUMENT ME! * * @return DOCUMENT ME! */ public int getEnd() { return end; } public void setEnd(int end) { this.end = end; } /** * DOCUMENT ME! * * @return DOCUMENT ME! */ public String getType() { return type; } public void setType(String type) { this.type = type; } /** * DOCUMENT ME! * * @return DOCUMENT ME! */ public String getDescription() { return description; } public void setDescription(String desc) { description = desc; } public String getFeatureGroup() { return featureGroup; } public void setFeatureGroup(String featureGroup) { this.featureGroup = featureGroup; } public void addLink(String labelLink) { if (links == null) { links = new Vector(); } links.insertElementAt(labelLink, 0); } public float getScore() { return score; } public void setScore(float value) { score = value; } /** * Used for getting values which are not in the basic set. eg STRAND, PHASE * for GFF file * * @param key * String */ public Object getValue(String key) { if (otherDetails == null) { return null; } else { return otherDetails.get(key); } } /** * Returns a property value for the given key if known, else the specified * default value * * @param key * @param defaultValue * @return */ public Object getValue(String key, Object defaultValue) { Object value = getValue(key); return value == null ? defaultValue : value; } /** * Used for setting values which are not in the basic set. eg STRAND, FRAME * for GFF file * * @param key * eg STRAND * @param value * eg + */ public void setValue(String key, Object value) { if (value != null) { if (otherDetails == null) { otherDetails = new HashMap(); } otherDetails.put(key, value); } } /* * The following methods are added to maintain the castor Uniprot mapping file * for the moment. */ public void setStatus(String status) { setValue(STATUS, status); } public String getStatus() { return (String) getValue(STATUS); } public void setAttributes(String attr) { setValue(ATTRIBUTES, attr); } public String getAttributes() { return (String) getValue(ATTRIBUTES); } public void setPosition(int pos) { begin = pos; end = pos; } public int getPosition() { return begin; } /** * Return 1 for forward strand ('+' in GFF), -1 for reverse strand ('-' in * GFF), and 0 for unknown or not (validly) specified * * @return */ public int getStrand() { int strand = 0; if (otherDetails != null) { Object str = otherDetails.get(STRAND); if ("-".equals(str)) { strand = -1; } else if ("+".equals(str)) { strand = 1; } } return strand; } /** * Set the value of strand * * @param strand * should be "+" for forward, or "-" for reverse */ public void setStrand(String strand) { setValue(STRAND, strand); } public void setPhase(String phase) { setValue(PHASE, phase); } public String getPhase() { return (String) getValue(PHASE); } /** * Sets the 'raw' ENA format location specifier e.g. join(12..45,89..121) * * @param loc */ public void setEnaLocation(String loc) { setValue(LOCATION, loc); } /** * Gets the 'raw' ENA format location specifier e.g. join(12..45,89..121) * * @param loc */ public String getEnaLocation() { return (String) getValue(LOCATION); } /** * Readable representation, for debug only, not guaranteed not to change * between versions */ @Override public String toString() { return String.format("%d %d %s %s", getBegin(), getEnd(), getType(), getDescription()); } /** * Overridden to ensure that whenever two objects are equal, they have the * same hashCode */ @Override public int hashCode() { String s = getType() + getDescription() + getFeatureGroup() + getValue("ID") + getValue("Name") + getValue("Parent") + getPhase(); return s.hashCode() + getBegin() + getEnd() + (int) getScore() + getStrand(); } /** * Answers true if the feature's start/end values represent two related * positions, rather than ends of a range. Such features may be visualised or * reported differently to features on a range. */ public boolean isContactFeature() { // TODO abstract one day to a FeatureType class if ("disulfide bond".equalsIgnoreCase(type) || "disulphide bond".equalsIgnoreCase(type)) { return true; } return false; } }