*/
package jalview.datamodel;
-import jalview.datamodel.features.FeatureAttributeType;
-import jalview.datamodel.features.FeatureAttributes;
-import jalview.datamodel.features.FeatureLocationI;
-import jalview.datamodel.features.FeatureSourceI;
-import jalview.datamodel.features.FeatureSources;
-import jalview.util.StringUtils;
-
import java.util.Comparator;
-import java.util.HashMap;
+import java.util.LinkedHashMap;
import java.util.Map;
import java.util.Map.Entry;
import java.util.SortedMap;
import java.util.TreeMap;
import java.util.Vector;
+import jalview.datamodel.features.FeatureAttributeType;
+import jalview.datamodel.features.FeatureAttributes;
+import jalview.datamodel.features.FeatureLocationI;
+import jalview.datamodel.features.FeatureSourceI;
+import jalview.datamodel.features.FeatureSources;
+import jalview.util.StringUtils;
+
/**
* A class that models a single contiguous feature on a sequence. If flag
* 'contactFeature' is true, the start and end positions are interpreted instead
private static final String STATUS = "status";
- private static final String STRAND = "STRAND";
+ public static final String STRAND = "STRAND";
- // private key for Phase designed not to conflict with real GFF data
- private static final String PHASE = "!Phase";
+ // key for Phase designed not to conflict with real GFF data
+ public static final String PHASE = "!Phase";
// private key for ENA location designed not to conflict with real GFF data
private static final String LOCATION = "!Location";
private static final String ROW_DATA = "<tr><td>%s</td><td>%s</td><td>%s</td></tr>";
/*
- * ATTRIBUTES is reserved for the GFF 'column 9' data, formatted as
- * name1=value1;name2=value2,value3;...etc
- */
- private static final String ATTRIBUTES = "ATTRIBUTES";
-
- /*
* type, begin, end, featureGroup, score and contactFeature are final
* to ensure that the integrity of SequenceFeatures data store
* can't be broken by direct update of these fields
*/
public SequenceFeature(SequenceFeature cpy)
{
- this(cpy, cpy.getBegin(), cpy.getEnd(), cpy.getFeatureGroup(), cpy
- .getScore());
+ this(cpy, cpy.getBegin(), cpy.getEnd(), cpy.getFeatureGroup(),
+ cpy.getScore());
}
/**
if (sf.otherDetails != null)
{
- otherDetails = new HashMap<>();
- for (Entry<String, Object> entry : sf.otherDetails.entrySet())
- {
- otherDetails.put(entry.getKey(), entry.getValue());
- }
+ otherDetails = new LinkedHashMap<>();
+ otherDetails.putAll(sf.otherDetails);
}
if (sf.links != null && sf.links.size() > 0)
{
links = new Vector<>();
- for (int i = 0, iSize = sf.links.size(); i < iSize; i++)
- {
- links.addElement(sf.links.elementAt(i));
- }
+ links.addAll(sf.links);
}
}
/**
* Answers the value of the specified attribute as string, or null if no such
- * value. If more than one attribute name is provided, tries to resolve as keys
- * to nested maps. For example, if attribute "CSQ" holds a map of key-value
- * pairs, then getValueAsString("CSQ", "Allele") returns the value of "Allele"
- * in that map.
+ * value. If more than one attribute name is provided, tries to resolve as
+ * keys to nested maps. For example, if attribute "CSQ" holds a map of
+ * key-value pairs, then getValueAsString("CSQ", "Allele") returns the value
+ * of "Allele" in that map.
*
* @param key
* @return
{
if (otherDetails == null)
{
- otherDetails = new HashMap<>();
+ /*
+ * LinkedHashMap preserves insertion order of attributes
+ */
+ otherDetails = new LinkedHashMap<>();
}
otherDetails.put(key, value);
return (String) getValue(STATUS);
}
- public void setAttributes(String attr)
- {
- setValue(ATTRIBUTES, attr);
- }
-
- public String getAttributes()
- {
- return (String) getValue(ATTRIBUTES);
- }
-
/**
* Return 1 for forward strand ('+' in GFF), -1 for reverse strand ('-' in
* GFF), and 0 for unknown or not (validly) specified
}
/**
- * Answers an html-formatted report of feature details
+ * Answers an html-formatted report of feature details. If parameter
+ * {@code mf} is not null, the feature is a virtual linked feature, and
+ * details included both the original location and the mapped location
+ * (CDS/peptide).
*
- * @param sequence
+ * @param seqName
+ * @param mf
*
* @return
*/
- public String getDetailsReport(SequenceI sequence)
+ public String getDetailsReport(String seqName, MappedFeatures mf)
{
FeatureSourceI metadata = FeatureSources.getInstance()
.getSource(source);
StringBuilder sb = new StringBuilder(128);
sb.append("<br>");
sb.append("<table>");
- sb.append(String.format(ROW_DATA, "Location", sequence.getName(),
- begin == end ? begin
- : begin + (isContactFeature() ? ":" : "-") + end));
+ String name = mf == null ? seqName : mf.getLinkedSequenceName();
+ sb.append(String.format(ROW_DATA, "Location", name, begin == end ? begin
+ : begin + (isContactFeature() ? ":" : "-") + end));
+
+ String consequence = "";
+ if (mf != null)
+ {
+ int[] localRange = mf.getMappedPositions(begin, end);
+ int from = localRange[0];
+ int to = localRange[localRange.length - 1];
+ String s = mf.isFromCds() ? "Peptide Location" : "Coding location";
+ sb.append(String.format(ROW_DATA, s, seqName, from == to ? from
+ : from + (isContactFeature() ? ":" : "-") + to));
+ if (mf.isFromCds())
+ {
+ consequence = mf.findProteinVariants(this);
+ }
+ }
sb.append(String.format(ROW_DATA, "Type", type, ""));
String desc = StringUtils.stripHtmlTags(description);
sb.append(String.format(ROW_DATA, "Description", desc, ""));
sb.append(String.format(ROW_DATA, "Group", featureGroup, ""));
}
+ if (!consequence.isEmpty())
+ {
+ sb.append(String.format(ROW_DATA, "Consequence",
+ "<i>Translated by Jalview</i>", consequence));
+ }
+
if (otherDetails != null)
{
TreeMap<String, Object> ordered = new TreeMap<>(
for (Entry<String, Object> entry : ordered.entrySet())
{
String key = entry.getKey();
- if (ATTRIBUTES.equals(key))
- {
- continue; // to avoid double reporting
- }
Object value = entry.getValue();
if (value instanceof Map<?, ?>)
sm.putAll(values);
for (Entry<?, ?> e : sm.entrySet())
{
- sb.append(String.format(ROW_DATA, key, e.getKey().toString(), e
- .getValue().toString()));
+ sb.append(String.format(ROW_DATA, key, e.getKey().toString(),
+ e.getValue().toString()));
}
}
else
String s = entry.getValue().toString();
if (isValueInteresting(key, s, metadata))
{
- sb.append(String.format(ROW_DATA, key, attDesc == null ? ""
- : attDesc, s));
+ sb.append(String.format(ROW_DATA, key,
+ attDesc == null ? "" : attDesc, s));
}
}
}
}
FeatureAttributeType attType = metadata.getAttributeType(key);
- if (attType != null
- && (attType == FeatureAttributeType.Float || attType
- .equals(FeatureAttributeType.Integer)))
+ if (attType != null && (attType == FeatureAttributeType.Float
+ || attType.equals(FeatureAttributeType.Integer)))
{
try
{