*/
package jalview.ws.jws2;
-import jalview.api.AlignCalcWorkerI;
import jalview.api.FeatureColourI;
import jalview.bin.Cache;
import jalview.datamodel.AlignmentAnnotation;
AlignFrame af;
public AADisorderClient(Jws2Instance sh, AlignFrame alignFrame,
- WsParamSetI preset, List<Argument> paramset)
+ WsParamSetI thePreset, List<Argument> paramset)
{
- super(sh, alignFrame, preset, paramset);
+ super(sh, alignFrame, thePreset, paramset);
af = alignFrame;
typeName = sh.action;
methodName = sh.serviceType;
{
// TODO: turn this into some kind of configuration file that's a bit easier
// to edit
- featureMap = new HashMap<String, Map<String, String[]>>();
+ featureMap = new HashMap<>();
Map<String, String[]> fmap;
featureMap.put(compbio.ws.client.Services.IUPredWS.toString(),
- fmap = new HashMap<String, String[]>());
+ fmap = new HashMap<>());
fmap.put("Glob",
new String[]
{ "Globular Domain", "Predicted globular domain" });
featureMap.put(compbio.ws.client.Services.JronnWS.toString(),
- fmap = new HashMap<String, String[]>());
+ fmap = new HashMap<>());
featureMap.put(compbio.ws.client.Services.DisemblWS.toString(),
- fmap = new HashMap<String, String[]>());
+ fmap = new HashMap<>());
fmap.put("REM465", new String[] { "REM465", "Missing density" });
fmap.put("HOTLOOPS", new String[] { "HOTLOOPS", "Flexible loops" });
fmap.put("COILS", new String[] { "COILS", "Random coil" });
featureMap.put(compbio.ws.client.Services.GlobPlotWS.toString(),
- fmap = new HashMap<String, String[]>());
+ fmap = new HashMap<>());
fmap.put("GlobDoms",
new String[]
{ "Globular Domain", "Predicted globular domain" });
new String[]
{ "Protein Disorder", "Probable unstructured peptide region" });
Map<String, Map<String, Object>> amap;
- annotMap = new HashMap<String, Map<String, Map<String, Object>>>();
+ annotMap = new HashMap<>();
annotMap.put(compbio.ws.client.Services.GlobPlotWS.toString(),
- amap = new HashMap<String, Map<String, Object>>());
+ amap = new HashMap<>());
amap.put("Dydx", new HashMap<String, Object>());
amap.get("Dydx").put(DONTCOMBINE, DONTCOMBINE);
amap.get("Dydx").put(THRESHOLD, new double[] { 1, 0 });
amap.put("RawScore", new HashMap<String, Object>());
amap.get("RawScore").put(INVISIBLE, INVISIBLE);
annotMap.put(compbio.ws.client.Services.DisemblWS.toString(),
- amap = new HashMap<String, Map<String, Object>>());
+ amap = new HashMap<>());
amap.put("COILS", new HashMap<String, Object>());
amap.put("HOTLOOPS", new HashMap<String, Object>());
amap.put("REM465", new HashMap<String, Object>());
amap.get("REM465").put(RANGE, new float[] { 0, 1 });
annotMap.put(compbio.ws.client.Services.IUPredWS.toString(),
- amap = new HashMap<String, Map<String, Object>>());
+ amap = new HashMap<>());
amap.put("Long", new HashMap<String, Object>());
amap.put("Short", new HashMap<String, Object>());
amap.get("Long").put(THRESHOLD, new double[] { 1, 0.5 });
amap.get("Short").put(THRESHOLD, new double[] { 1, 0.5 });
amap.get("Short").put(RANGE, new float[] { 0, 1 });
annotMap.put(compbio.ws.client.Services.JronnWS.toString(),
- amap = new HashMap<String, Map<String, Object>>());
+ amap = new HashMap<>());
amap.put("JRonn", new HashMap<String, Object>());
amap.get("JRonn").put(THRESHOLD, new double[] { 1, 0.5 });
amap.get("JRonn").put(RANGE, new float[] { 0, 1 });
Map<String, Map<String, Object>> annotTypeMap = annotMap
.get(service.serviceType);
boolean dispFeatures = false;
- Map<String, Object> fc = new Hashtable<String, Object>();
- List<AlignmentAnnotation> ourAnnot = new ArrayList<AlignmentAnnotation>();
+ Map<String, Object> fc = new Hashtable<>();
+ List<AlignmentAnnotation> ourAnnot = new ArrayList<>();
/**
* grouping for any annotation rows created
*/
}
if (vals.hasNext())
{
- sf = new SequenceFeature(type[0], type[1], base + rn.from,
- base + rn.to, val = vals.next().floatValue(),
- methodName);
+ val = vals.next().floatValue();
+ sf = new SequenceFeature(type[0], type[1],
+ base + rn.from, base + rn.to, val, methodName);
}
else
{
- sf = new SequenceFeature(type[0], type[1], null,
+ sf = new SequenceFeature(type[0], type[1],
base + rn.from, base + rn.to, methodName);
}
dseq.addSequenceFeature(sf);
{
// set graduated color as fading to white for minimum, and
// autoscaling to values on alignment
- FeatureColourI ggc = new FeatureColour(Color.white,
- gc.getColour(), Float.MIN_VALUE, Float.MAX_VALUE);
+ FeatureColourI ggc = new FeatureColour(gc.getColour(),
+ Color.white, gc.getColour(), Color.white,
+ Float.MIN_VALUE, Float.MAX_VALUE);
ggc.setAutoScaled(true);
fr.setColour(ft, ggc);
}
// only do this if the alignFrame is currently showing this view.
af.setShowSeqFeatures(true);
}
- ap.paintAlignment(true);
}
if (ourAnnot.size() > 0)
{
// new alignment annotation rows created.
updateOurAnnots(ourAnnot);
ap.adjustAnnotationHeight();
+ ap.paintAlignment(true, true);
}
}
}