+ renderOrder = new String[allfeatures.size()];\r
+ Enumeration en = allfeatures.elements();\r
+ int i = allfeatures.size()-1;\r
+ while(en.hasMoreElements())\r
+ {\r
+ renderOrder[i] = en.nextElement().toString();\r
+ i--;\r
+ }\r
+ }\r
+\r
+ public Color getColour(String featureType)\r
+ {\r
+ return (Color)featureColours.get(featureType);\r
+ }\r
+\r
+ public void addNewFeature(String name, Color col)\r
+ {\r
+\r
+ setColour(name, col);\r
+ if(av.featuresDisplayed==null)\r
+ av.featuresDisplayed = new Hashtable();\r
+\r
+\r
+ av.featuresDisplayed.put(name, "NOGROUP");\r
+ }\r
+\r
+ public void setColour(String featureType, Color col)\r
+ {\r
+ featureColours.put(featureType, col);\r
+ }\r
+\r
+ public void setFeaturePriority(Object [][] data)\r
+ {\r
+ // The feature table will display high priority\r
+ // features at the top, but theses are the ones\r
+ // we need to render last, so invert the data\r
+ if(av.featuresDisplayed!=null)\r
+ av.featuresDisplayed.clear();\r
+\r
+ renderOrder = new String[data.length];\r
+\r
+ if (data.length > 0)\r
+ for (int i = 0; i < data.length; i++)\r
+ {\r
+ String type = data[i][0].toString();\r
+ setColour(type, (Color) data[i][1]);\r
+ if ( ( (Boolean) data[i][2]).booleanValue())\r
+ {\r
+ av.featuresDisplayed.put(type, new Integer(getColour(type).getRGB()));\r
+ }\r
+\r
+ renderOrder[data.length - i - 1] = type;\r
+ }\r
+ }\r
+\r
+ Hashtable featureColours = new Hashtable();\r
+ void initColours()\r
+ {\r
+ featureColours.put("active site", new Color(255, 75, 0));\r
+ featureColours.put("binding site", new Color(245, 85, 0));\r
+ featureColours.put("calcium-binding region", new Color(235, 95, 0));\r
+ featureColours.put("chain", new Color(225, 105, 0));\r
+ featureColours.put("coiled-coil region", new Color(215, 115, 0));\r
+ featureColours.put("compositionally biased region", new Color(205, 125, 0));\r
+ featureColours.put("cross-link", new Color(195, 135, 0));\r
+ featureColours.put("disulfide bond", new Color(185, 145, 0));\r
+ featureColours.put("DNA-binding region", new Color(175, 155, 0));\r
+ featureColours.put("domain", new Color(165, 165, 0));\r
+ featureColours.put("glycosylation site", new Color(155, 175, 0));\r
+ featureColours.put("helix", new Color(145, 185, 0));\r
+ featureColours.put("initiator methionine", new Color(135, 195, 5));\r
+ featureColours.put("lipid moiety-binding region", new Color(125, 205, 15));\r
+ featureColours.put("metal ion-binding site", new Color(115, 215, 25));\r
+ featureColours.put("modified residue", new Color(105, 225, 35));\r
+ featureColours.put("mutagenesis site", new Color(95, 235, 45));\r
+ featureColours.put("non-consecutive residues", new Color(85, 245, 55));\r
+ featureColours.put("non-terminal residue", new Color(75, 255, 65));\r
+ featureColours.put("nucleotide phosphate-binding region",\r
+ new Color(65, 245, 75));\r
+ featureColours.put("peptide", new Color(55, 235, 85));\r
+ featureColours.put("propeptide", new Color(45, 225, 95));\r
+ featureColours.put("region of interest", new Color(35, 215, 105));\r
+ featureColours.put("repeat", new Color(25, 205, 115));\r
+ featureColours.put("selenocysteine", new Color(15, 195, 125));\r
+ featureColours.put("sequence conflict", new Color(5, 185, 135));\r
+ featureColours.put("sequence variant", new Color(0, 175, 145));\r
+ featureColours.put("short sequence motif", new Color(0, 165, 155));\r
+ featureColours.put("signal peptide", new Color(0, 155, 165));\r
+ featureColours.put("site", new Color(0, 145, 175));\r
+ featureColours.put("splice variant", new Color(0, 135, 185));\r
+ featureColours.put("strand", new Color(0, 125, 195));\r
+ featureColours.put("topological domain", new Color(0, 115, 205));\r
+ featureColours.put("transit peptide", new Color(0, 105, 215));\r
+ featureColours.put("transmembrane region", new Color(0, 95, 225));\r
+ featureColours.put("turn", new Color(0, 85, 235));\r
+ featureColours.put("unsure residue", new Color(0, 75, 245));\r
+ featureColours.put("zinc finger region", new Color(0, 65, 255));\r