import jalview.schemes.FeatureColour;
import jalview.structure.StructureSelectionManager;
import jalview.util.matcher.Condition;
+import jalview.viewmodel.seqfeatures.FeatureRendererModel;
+import jalview.viewmodel.seqfeatures.FeatureRendererModel.FeatureSettingsBean;
import java.awt.Color;
import java.io.File;
import java.io.IOException;
-import java.util.ArrayList;
-import java.util.Arrays;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
* first with no features displayed, exclude non-positional features
*/
FeatureRenderer fr = af.alignPanel.getFeatureRenderer();
- Map<String, FeatureColourI> visible = fr.getDisplayedFeatureCols();
- List<String> visibleGroups = new ArrayList<>(
- Arrays.asList(new String[] {}));
- String exported = featuresFile.printJalviewFormat(
- al.getSequencesArray(), visible, null, visibleGroups, false);
+ String exported = featuresFile
+ .printJalviewFormat(al.getSequencesArray(), fr, false);
String expected = "No Features Visible";
assertEquals(expected, exported);
/*
- * include non-positional features
+ * include non-positional features, but still no positional features
*/
- visibleGroups.add("uniprot");
- exported = featuresFile.printJalviewFormat(al.getSequencesArray(),
- visible, null, visibleGroups, true);
- expected = "Cath\tFER_CAPAA\t-1\t0\t0\tDomain\t0.0\n"
- + "desc1\tFER_CAPAN\t-1\t0\t0\tPfam\t1.3\n"
- + "desc3\tFER1_SOLLC\t-1\t0\t0\tPfam\n" // NaN is not output
- + "\nSTARTGROUP\tuniprot\nENDGROUP\tuniprot\n";
+ fr.setGroupVisibility("uniprot", true);
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ true);
+ expected = "\nSTARTGROUP\tuniprot\n"
+ + "Cath\tFER_CAPAA\t-1\t0\t0\tDomain\t0.0\n"
+ + "ENDGROUP\tuniprot\n\n"
+ + "desc1\tFER_CAPAN\t-1\t0\t0\tPfam\t1.3\n\n"
+ + "desc3\tFER1_SOLLC\t-1\t0\t0\tPfam\n"; // NaN is not output
assertEquals(expected, exported);
/*
*/
fr.setVisible("METAL");
fr.setVisible("GAMMA-TURN");
- visible = fr.getDisplayedFeatureCols();
- exported = featuresFile.printJalviewFormat(al.getSequencesArray(),
- visible, null, visibleGroups, false);
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ false);
expected = "METAL\tcc9900\n"
+ "GAMMA-TURN\tscore|ff0000|00ffff|noValueMin|20.0|95.0|below|66.0\n"
+ "\nSTARTGROUP\tuniprot\n"
* now set Pfam visible
*/
fr.setVisible("Pfam");
- visible = fr.getDisplayedFeatureCols();
- exported = featuresFile.printJalviewFormat(al.getSequencesArray(),
- visible, null, visibleGroups, false);
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ false);
/*
- * features are output within group, ordered by sequence and by type
+ * features are output within group, ordered by sequence and type
*/
expected = "METAL\tcc9900\n"
+ "Pfam\tff0000\n"
+ "Iron\tFER_CAPAA\t-1\t39\t39\tMETAL\t0.0\n"
+ "<html>Pfam domain<a href=\"http://pfam.xfam.org/family/PF00111\">Pfam_3_4</a></html>\tFER_CAPAA\t-1\t20\t20\tPfam\t0.0\n"
+ "ENDGROUP\tuniprot\n"
- // null / empty group features output after features in named
- // groups:
+ // null / empty group features are output after named groups
+ + "\ndesc2\tFER_CAPAN\t-1\t4\t9\tPfam\n"
+ + "\ndesc4\tFER1_SOLLC\t-1\t5\t8\tPfam\t-2.6\n";
+ assertEquals(expected, exported);
+
+ /*
+ * hide uniprot group
+ */
+ fr.setGroupVisibility("uniprot", false);
+ expected = "METAL\tcc9900\n" + "Pfam\tff0000\n"
+ + "GAMMA-TURN\tscore|ff0000|00ffff|noValueMin|20.0|95.0|below|66.0\n"
+ + "\ndesc2\tFER_CAPAN\t-1\t4\t9\tPfam\n"
+ + "\ndesc4\tFER1_SOLLC\t-1\t5\t8\tPfam\t-2.6\n";
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ false);
+ assertEquals(expected, exported);
+
+ /*
+ * include non-positional (overrides group not shown)
+ */
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ true);
+ expected = "METAL\tcc9900\n" + "Pfam\tff0000\n"
+ + "GAMMA-TURN\tscore|ff0000|00ffff|noValueMin|20.0|95.0|below|66.0\n"
+ + "\nSTARTGROUP\tuniprot\n"
+ + "Cath\tFER_CAPAA\t-1\t0\t0\tDomain\t0.0\n"
+ + "ENDGROUP\tuniprot\n"
+ + "\ndesc1\tFER_CAPAN\t-1\t0\t0\tPfam\t1.3\n"
+ "desc2\tFER_CAPAN\t-1\t4\t9\tPfam\n"
+ + "\ndesc3\tFER1_SOLLC\t-1\t0\t0\tPfam\n"
+ "desc4\tFER1_SOLLC\t-1\t5\t8\tPfam\t-2.6\n";
assertEquals(expected, exported);
}
* no features
*/
FeaturesFile featuresFile = new FeaturesFile();
- FeatureRenderer fr = af.alignPanel.getFeatureRenderer();
- Map<String, FeatureColourI> visible = new HashMap<>();
- List<String> visibleGroups = new ArrayList<>(
- Arrays.asList(new String[] {}));
+ FeatureRendererModel fr = (FeatureRendererModel) af.alignPanel
+ .getFeatureRenderer();
String exported = featuresFile.printGffFormat(al.getSequencesArray(),
- visible, visibleGroups, false);
+ fr, false);
String gffHeader = "##gff-version 2\n";
assertEquals(gffHeader, exported);
- exported = featuresFile.printGffFormat(al.getSequencesArray(), visible,
- visibleGroups, true);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ true);
assertEquals(gffHeader, exported);
/*
al.getSequenceAt(1).addSequenceFeature(sf);
/*
+ * 'discover' features then hide all feature types
+ */
+ fr.findAllFeatures(true);
+ FeatureSettingsBean[] data = new FeatureSettingsBean[4];
+ FeatureColourI fc = new FeatureColour(Color.PINK);
+ data[0] = new FeatureSettingsBean("Domain", fc, null, false);
+ data[1] = new FeatureSettingsBean("METAL", fc, null, false);
+ data[2] = new FeatureSettingsBean("GAMMA-TURN", fc, null, false);
+ data[3] = new FeatureSettingsBean("Pfam", fc, null, false);
+ fr.setFeaturePriority(data);
+
+ /*
* with no features displayed, exclude non-positional features
*/
- exported = featuresFile.printGffFormat(al.getSequencesArray(), visible,
- visibleGroups, false);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ false);
assertEquals(gffHeader, exported);
/*
* include non-positional features
*/
- visibleGroups.add("Uniprot");
- exported = featuresFile.printGffFormat(al.getSequencesArray(), visible,
- visibleGroups, true);
+ fr.setGroupVisibility("Uniprot", true);
+ fr.setGroupVisibility("s3dm", false);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ true);
String expected = gffHeader
+ "FER_CAPAA\tUniprot\tDomain\t0\t0\t0.0\t.\t.\n";
assertEquals(expected, exported);
*/
fr.setVisible("METAL");
fr.setVisible("GAMMA-TURN");
- visible = fr.getDisplayedFeatureCols();
- exported = featuresFile.printGffFormat(al.getSequencesArray(), visible,
- visibleGroups, false);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ false);
// METAL feature has null group: description used for column 2
expected = gffHeader + "FER_CAPAA\tCath\tMETAL\t39\t39\t1.2\t.\t.\n";
assertEquals(expected, exported);
/*
* set s3dm group visible
*/
- visibleGroups.add("s3dm");
- exported = featuresFile.printGffFormat(al.getSequencesArray(), visible,
- visibleGroups, false);
+ fr.setGroupVisibility("s3dm", true);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ false);
// METAL feature has null group: description used for column 2
expected = gffHeader + "FER_CAPAA\tCath\tMETAL\t39\t39\t1.2\t.\t.\n"
+ "FER_CAPAN\ts3dm\tGAMMA-TURN\t36\t38\t2.1\t.\t.\n";
* now set Pfam visible
*/
fr.setVisible("Pfam");
- visible = fr.getDisplayedFeatureCols();
- exported = featuresFile.printGffFormat(al.getSequencesArray(), visible,
- visibleGroups, false);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ false);
// Pfam feature columns include strand(+), phase(2), attributes
expected = gffHeader
+ "FER_CAPAA\tCath\tMETAL\t39\t39\t1.2\t.\t.\n"
featureFilters.put("pfam", filter2);
visible.put("foobar", new FeatureColour(Color.blue));
ff.outputFeatureFilters(sb, visible, featureFilters);
- String expected = "\nSTARTFILTERS\nfoobar\tLabel Present\npfam\t(CSQ:PolyPhen Present) AND (Score LE -2.4)\nENDFILTERS\n\n";
+ String expected = "\nSTARTFILTERS\nfoobar\tLabel Present\npfam\t(CSQ:PolyPhen Present) AND (Score LE -2.4)\nENDFILTERS\n";
assertEquals(expected, sb.toString());
}
+
+ /**
+ * Output as GFF should not include features which are not visible due to
+ * colour threshold or feature filter settings
+ *
+ * @throws Exception
+ */
+ @Test(groups = { "Functional" })
+ public void testPrintGffFormat_withFilters() throws Exception
+ {
+ File f = new File("examples/uniref50.fa");
+ AlignmentI al = readAlignmentFile(f);
+ AlignFrame af = new AlignFrame(al, 500, 500);
+ SequenceFeature sf1 = new SequenceFeature("METAL", "Cath", 39, 39, 1.2f,
+ null);
+ sf1.setValue("clin_sig", "Likely Pathogenic");
+ sf1.setValue("AF", "24");
+ al.getSequenceAt(0).addSequenceFeature(sf1);
+ SequenceFeature sf2 = new SequenceFeature("METAL", "Cath", 41, 41, 0.6f,
+ null);
+ sf2.setValue("clin_sig", "Benign");
+ sf2.setValue("AF", "46");
+ al.getSequenceAt(0).addSequenceFeature(sf2);
+
+ FeaturesFile featuresFile = new FeaturesFile();
+ FeatureRenderer fr = af.alignPanel.getFeatureRenderer();
+ final String gffHeader = "##gff-version 2\n";
+
+ fr.setVisible("METAL");
+ fr.setColour("METAL", new FeatureColour(Color.PINK));
+ String exported = featuresFile.printGffFormat(al.getSequencesArray(),
+ fr, false);
+ String expected = gffHeader
+ + "FER_CAPAA\tCath\tMETAL\t39\t39\t1.2\t.\t.\n"
+ + "FER_CAPAA\tCath\tMETAL\t41\t41\t0.6\t.\t.\n";
+ assertEquals(expected, exported);
+
+ /*
+ * now threshold to Score > 1.1 - should exclude sf2
+ */
+ FeatureColourI fc = new FeatureColour(null, Color.white, Color.BLACK,
+ Color.white, 0f, 2f);
+ fc.setAboveThreshold(true);
+ fc.setThreshold(1.1f);
+ fr.setColour("METAL", fc);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ false);
+ expected = gffHeader + "FER_CAPAA\tCath\tMETAL\t39\t39\t1.2\t.\t.\n";
+ assertEquals(expected, exported);
+
+ /*
+ * remove threshold and check sf2 is exported
+ */
+ fc.setAboveThreshold(false);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ false);
+ expected = gffHeader + "FER_CAPAA\tCath\tMETAL\t39\t39\t1.2\t.\t.\n"
+ + "FER_CAPAA\tCath\tMETAL\t41\t41\t0.6\t.\t.\n";
+ assertEquals(expected, exported);
+
+ /*
+ * filter on (clin_sig contains Benign) - should include sf2 and exclude sf1
+ */
+ FeatureMatcherSetI filter = new FeatureMatcherSet();
+ filter.and(FeatureMatcher.byAttribute(Condition.Contains, "benign",
+ "clin_sig"));
+ fr.setFeatureFilter("METAL", filter);
+ exported = featuresFile.printGffFormat(al.getSequencesArray(), fr,
+ false);
+ expected = gffHeader + "FER_CAPAA\tCath\tMETAL\t41\t41\t0.6\t.\t.\n";
+ assertEquals(expected, exported);
+ }
+
+ /**
+ * Output as Jalview should not include features which are not visible due to
+ * colour threshold or feature filter settings
+ *
+ * @throws Exception
+ */
+ @Test(groups = { "Functional" })
+ public void testPrintJalviewFormat_withFilters() throws Exception
+ {
+ File f = new File("examples/uniref50.fa");
+ AlignmentI al = readAlignmentFile(f);
+ AlignFrame af = new AlignFrame(al, 500, 500);
+ SequenceFeature sf1 = new SequenceFeature("METAL", "Cath", 39, 39, 1.2f,
+ "grp1");
+ sf1.setValue("clin_sig", "Likely Pathogenic");
+ sf1.setValue("AF", "24");
+ al.getSequenceAt(0).addSequenceFeature(sf1);
+ SequenceFeature sf2 = new SequenceFeature("METAL", "Cath", 41, 41, 0.6f,
+ "grp2");
+ sf2.setValue("clin_sig", "Benign");
+ sf2.setValue("AF", "46");
+ al.getSequenceAt(0).addSequenceFeature(sf2);
+
+ FeaturesFile featuresFile = new FeaturesFile();
+ FeatureRenderer fr = af.alignPanel.getFeatureRenderer();
+ fr.findAllFeatures(true);
+
+ fr.setVisible("METAL");
+ fr.setColour("METAL", new FeatureColour(Color.PINK));
+ String exported = featuresFile.printJalviewFormat(
+ al.getSequencesArray(),
+ fr, false);
+ String expected = "METAL\tffafaf\n\nSTARTGROUP\tgrp1\n"
+ + "Cath\tFER_CAPAA\t-1\t39\t39\tMETAL\t1.2\n"
+ + "ENDGROUP\tgrp1\n\nSTARTGROUP\tgrp2\n"
+ + "Cath\tFER_CAPAA\t-1\t41\t41\tMETAL\t0.6\n"
+ + "ENDGROUP\tgrp2\n";
+ assertEquals(expected, exported);
+
+ /*
+ * now threshold to Score > 1.1 - should exclude sf2
+ * (and there should be no empty STARTGROUP/ENDGROUP output)
+ */
+ FeatureColourI fc = new FeatureColour(null, Color.white, Color.BLACK,
+ Color.white, 0f, 2f);
+ fc.setAboveThreshold(true);
+ fc.setThreshold(1.1f);
+ fr.setColour("METAL", fc);
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ false);
+ expected = "METAL\tscore|ffffff|000000|noValueMin|abso|0.0|2.0|above|1.1\n\n"
+ + "STARTGROUP\tgrp1\n"
+ + "Cath\tFER_CAPAA\t-1\t39\t39\tMETAL\t1.2\n"
+ + "ENDGROUP\tgrp1\n";
+ assertEquals(expected, exported);
+
+ /*
+ * remove threshold and check sf2 is exported
+ */
+ fc.setAboveThreshold(false);
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ false);
+ expected = "METAL\tscore|ffffff|000000|noValueMin|abso|0.0|2.0|none\n\n"
+ + "STARTGROUP\tgrp1\n"
+ + "Cath\tFER_CAPAA\t-1\t39\t39\tMETAL\t1.2\n"
+ + "ENDGROUP\tgrp1\n\nSTARTGROUP\tgrp2\n"
+ + "Cath\tFER_CAPAA\t-1\t41\t41\tMETAL\t0.6\n"
+ + "ENDGROUP\tgrp2\n";
+ assertEquals(expected, exported);
+
+ /*
+ * filter on (clin_sig contains Benign) - should include sf2 and exclude sf1
+ */
+ FeatureMatcherSetI filter = new FeatureMatcherSet();
+ filter.and(FeatureMatcher.byAttribute(Condition.Contains, "benign",
+ "clin_sig"));
+ fr.setFeatureFilter("METAL", filter);
+ exported = featuresFile.printJalviewFormat(al.getSequencesArray(), fr,
+ false);
+ expected = "FER_CAPAA\tCath\tMETAL\t41\t41\t0.6\t.\t.\n";
+ expected = "METAL\tscore|ffffff|000000|noValueMin|abso|0.0|2.0|none\n\n"
+ + "STARTFILTERS\nMETAL\tclin_sig Contains benign\nENDFILTERS\n\n"
+ + "STARTGROUP\tgrp2\n"
+ + "Cath\tFER_CAPAA\t-1\t41\t41\tMETAL\t0.6\n"
+ + "ENDGROUP\tgrp2\n";
+ assertEquals(expected, exported);
+ }
}