import jalview.datamodel.AlignmentI;
import jalview.datamodel.SequenceFeature;
import jalview.datamodel.SequenceI;
+import jalview.datamodel.features.FeatureMatcherSetI;
import jalview.datamodel.features.SequenceFeatures;
import jalview.renderer.seqfeatures.FeatureRenderer;
import jalview.schemes.FeatureColour;
import jalview.util.ColorUtils;
-import jalview.util.matcher.KeyedMatcherSetI;
import java.awt.Color;
import java.beans.PropertyChangeListener;
public abstract class FeatureRendererModel
implements jalview.api.FeatureRenderer
{
+ /*
+ * a data bean to hold one row of feature settings from the gui
+ */
+ public static class FeatureSettingsBean
+ {
+ public final String featureType;
+
+ public final FeatureColourI featureColour;
+
+ public final FeatureMatcherSetI filter;
+
+ public final Boolean show;
+
+ public FeatureSettingsBean(String type, FeatureColourI colour,
+ FeatureMatcherSetI theFilter, Boolean isShown)
+ {
+ featureType = type;
+ featureColour = colour;
+ filter = theFilter;
+ show = isShown;
+ }
+ }
/*
* global transparency for feature
/*
* filters for each feature type
*/
- protected Map<String, KeyedMatcherSetI> featureFilters = new HashMap<>();
+ protected Map<String, FeatureMatcherSetI> featureFilters = new HashMap<>();
protected String[] renderOrder;
* Replace current ordering with new ordering
*
* @param data
- * { String(Type), Colour(Type), Boolean(Displayed) }
+ * an array of { Type, Colour, Filter, Boolean }
* @return true if any visible features have been reordered, else false
*/
- public boolean setFeaturePriority(Object[][] data)
+ public boolean setFeaturePriority(FeatureSettingsBean[] data)
{
return setFeaturePriority(data, true);
}
/**
- * Sets the priority order for features, with the highest priority (displayed
- * on top) at the start of the data array
+ * Sets the priority order for features, with the highest priority (displayed on
+ * top) at the start of the data array
*
* @param data
- * { String(Type), Colour(Type), Boolean(Displayed) }
+ * an array of { Type, Colour, Filter, Boolean }
* @param visibleNew
* when true current featureDisplay list will be cleared
- * @return true if any visible features have been reordered or recoloured,
- * else false (i.e. no need to repaint)
+ * @return true if any visible features have been reordered or recoloured, else
+ * false (i.e. no need to repaint)
*/
- public boolean setFeaturePriority(Object[][] data, boolean visibleNew)
+ public boolean setFeaturePriority(FeatureSettingsBean[] data,
+ boolean visibleNew)
{
/*
* note visible feature ordering and colours before update
{
for (int i = 0; i < data.length; i++)
{
- String type = data[i][0].toString();
- setColour(type, (FeatureColourI) data[i][1]);
- if (((Boolean) data[i][2]).booleanValue())
+ String type = data[i].featureType;
+ setColour(type, data[i].featureColour);
+ if (data[i].show)
{
av_featuresdisplayed.setVisible(type);
}
* Removes from the list of features any that duplicate the location of a
* feature of the same type. Should be used only for features of the same,
* simple, feature colour (which normally implies the same feature type). Does
- * not check visibility settings for feature type or feature group.
+ * not check visibility settings for feature type or feature group. No
+ * filtering is done if transparency, or any feature filters, are in force.
*
* @param features
*/
public void filterFeaturesForDisplay(List<SequenceFeature> features)
{
- if (features.isEmpty())
+ /*
+ * don't remove 'redundant' features if
+ * - transparency is applied (feature count affects depth of feature colour)
+ * - filters are applied (not all features may be displayable)
+ */
+ if (features.isEmpty() || transparency != 1f
+ || !featureFilters.isEmpty())
{
return;
}
+
SequenceFeatures.sortFeatures(features, true);
SequenceFeature lastFeature = null;
}
@Override
- public Map<String, KeyedMatcherSetI> getFeatureFilters()
+ public Map<String, FeatureMatcherSetI> getFeatureFilters()
{
- return new HashMap<>(featureFilters);
+ return featureFilters;
}
@Override
- public void setFeatureFilters(Map<String, KeyedMatcherSetI> filters)
+ public void setFeatureFilters(Map<String, FeatureMatcherSetI> filters)
{
featureFilters = filters;
}
@Override
- public KeyedMatcherSetI getFeatureFilter(String featureType)
+ public FeatureMatcherSetI getFeatureFilter(String featureType)
{
return featureFilters.get(featureType);
}
@Override
- public void setFeatureFilter(String featureType, KeyedMatcherSetI filter)
+ public void setFeatureFilter(String featureType, FeatureMatcherSetI filter)
{
if (filter == null || filter.isEmpty())
{
/**
* Answers the colour for the feature, or null if the feature is excluded by
- * feature type or group visibility, by filters, or by colour threshold
- * settings
+ * feature group visibility, by filters, or by colour threshold settings. This
+ * method does not take feature visibility into account.
*
* @param sf
* @param fc
public Color getColor(SequenceFeature sf, FeatureColourI fc)
{
/*
- * is the feature type displayed?
- */
- if (!showFeatureOfType(sf.getType()))
- {
- return null;
- }
-
- /*
* is the feature group displayed?
*/
if (featureGroupNotShown(sf))
*/
protected boolean featureMatchesFilters(SequenceFeature sf)
{
- KeyedMatcherSetI filter = featureFilters.get(sf.getType());
- return filter == null ? true : filter.matches(key -> sf
- .getValueAsString(key));
+ FeatureMatcherSetI filter = featureFilters.get(sf.getType());
+ return filter == null ? true : filter.matches(sf);
}
}