+ if (response != 1 && response != 2)
+ {
+ return false;
+ }
+ final boolean openSplitPane = (response == 1);
+ final boolean openInNewWindow = (response == 2);
+
+ /*
+ * Identify protein and dna alignments. Make a copy of this one if opening
+ * in a new split pane.
+ */
+ AlignmentI thisAlignment = openSplitPane ? new Alignment(getAlignment())
+ : getAlignment();
+ AlignmentI protein = al.isNucleotide() ? thisAlignment : al;
+ final AlignmentI cdna = al.isNucleotide() ? al : thisAlignment;
+
+ /*
+ * Map sequences. At least one should get mapped as we have already passed
+ * the test for 'mappability'. Any mappings made will be added to the
+ * protein alignment. Note creating dataset sequences on the new alignment
+ * is a pre-requisite for building mappings.
+ */
+ al.setDataset(null);
+ AlignmentUtils.mapProteinToCdna(protein, cdna);
+
+ /*
+ * Create the AlignFrame for the added alignment. Note this will include the
+ * cDNA consensus annotation if it is protein (because the alignment holds
+ * mappings to nucleotide)
+ */
+ AlignFrame newAlignFrame = new AlignFrame(al, AlignFrame.DEFAULT_WIDTH,
+ AlignFrame.DEFAULT_HEIGHT);
+ newAlignFrame.setTitle(title);
+ newAlignFrame.statusBar.setText(MessageManager.formatMessage(
+ "label.successfully_loaded_file", new Object[]
+ { title }));
+
+ // TODO if we want this (e.g. to enable reload of the alignment from file),
+ // we will need to add parameters to the stack.
+ // if (!protocol.equals(AppletFormatAdapter.PASTE))
+ // {
+ // alignFrame.setFileName(file, format);
+ // }
+
+ if (openInNewWindow)
+ {
+ Desktop.addInternalFrame(newAlignFrame, title,
+ AlignFrame.DEFAULT_WIDTH,
+ AlignFrame.DEFAULT_HEIGHT);
+ }
+
+ try
+ {
+ newAlignFrame.setMaximum(jalview.bin.Cache.getDefault(
+ "SHOW_FULLSCREEN",
+ false));
+ } catch (java.beans.PropertyVetoException ex)
+ {
+ }
+
+ if (openSplitPane)
+ {
+ protein = openSplitFrame(newAlignFrame, thisAlignment,
+ protein.getCodonFrames());
+ }
+
+ /*
+ * Register the mappings (held on the protein alignment) with the
+ * StructureSelectionManager (for mouseover linking).
+ */
+ final StructureSelectionManager ssm = StructureSelectionManager
+ .getStructureSelectionManager(Desktop.instance);
+ ssm.addMappings(protein.getCodonFrames());
+
+ return true;
+ }
+
+ /**
+ * Helper method to open a new SplitFrame holding linked dna and protein
+ * alignments.
+ *
+ * @param newAlignFrame
+ * containing a new alignment to be shown
+ * @param complement
+ * cdna/protein complement alignment to show in the other split half
+ * @param mappings
+ * @return the protein alignment in the split frame
+ */
+ protected AlignmentI openSplitFrame(AlignFrame newAlignFrame,
+ AlignmentI complement, Set<AlignedCodonFrame> mappings)
+ {
+ /*
+ * Make a new frame with a copy of the alignment we are adding to. If this
+ * is protein, the new frame will have a cDNA consensus annotation row
+ * added.
+ */
+ AlignFrame copyMe = new AlignFrame(complement,
+ AlignFrame.DEFAULT_WIDTH, AlignFrame.DEFAULT_HEIGHT);
+ copyMe.setTitle(getAlignPanel().alignFrame.getTitle());
+
+ AlignmentI al = newAlignFrame.viewport.getAlignment();
+ final AlignFrame proteinFrame = al.isNucleotide() ? copyMe
+ : newAlignFrame;
+ final AlignFrame cdnaFrame = al.isNucleotide() ? newAlignFrame
+ : copyMe;
+ AlignmentI protein = proteinFrame.viewport.getAlignment();
+ protein.setCodonFrames(mappings);
+
+ cdnaFrame.setVisible(true);
+ proteinFrame.setVisible(true);
+ String linkedTitle = MessageManager
+ .getString("label.linked_view_title");
+
+ /*
+ * Open in split pane. DNA sequence above, protein below.
+ */
+ JInternalFrame splitFrame = new SplitFrame(cdnaFrame, proteinFrame);
+ Desktop.addInternalFrame(splitFrame, linkedTitle, -1, -1);
+
+ return protein;
+ }
+
+ public AnnotationColumnChooser getAnnotationColumnSelectionState()
+ {
+ return annotationColumnSelectionState;
+ }
+
+ public void setAnnotationColumnSelectionState(
+ AnnotationColumnChooser currentAnnotationColumnSelectionState)
+ {
+ this.annotationColumnSelectionState = currentAnnotationColumnSelectionState;
+ }
+
+ @Override
+ public void setIdWidth(int i)
+ {
+ super.setIdWidth(i);
+ AlignmentPanel ap = getAlignPanel();
+ if (ap != null)
+ {
+ // modify GUI elements to reflect geometry change
+ Dimension idw = getAlignPanel().getIdPanel().getIdCanvas()
+ .getPreferredSize();
+ idw.width = i;
+ getAlignPanel().getIdPanel().getIdCanvas().setPreferredSize(idw);
+ }
+ }
+
+ public Rectangle getExplodedGeometry()
+ {
+ return explodedGeometry;
+ }
+
+ public void setExplodedGeometry(Rectangle explodedPosition)
+ {
+ this.explodedGeometry = explodedPosition;
+ }
+
+ public boolean isGatherViewsHere()
+ {
+ return gatherViewsHere;
+ }
+
+ public void setGatherViewsHere(boolean gatherViewsHere)
+ {
+ this.gatherViewsHere = gatherViewsHere;
+ }
+
+ /**
+ * If this viewport has a (Protein/cDNA) complement, then scroll the
+ * complementary alignment to match this one.
+ */
+ public void scrollComplementaryAlignment()
+ {
+ /*
+ * Populate a SearchResults object with the mapped location to scroll to. If
+ * there is no complement, or it is not following highlights, or no mapping
+ * is found, the result will be empty.
+ */
+ SearchResults sr = new SearchResults();
+ int seqOffset = findComplementScrollTarget(sr);
+ if (!sr.isEmpty())
+ {
+ // TODO would like next line without cast but needs more refactoring...
+ final AlignmentPanel complementPanel = ((AlignViewport) getCodingComplement()).getAlignPanel();
+ complementPanel.setFollowingComplementScroll(true);
+ complementPanel.scrollToCentre(sr, seqOffset);
+ }
+ }
+
+ @Override
+ public FeatureRenderer getFeatureRenderer()
+ {
+ return featureRenderer;
+ }
+
+ @Override
+ public void setFeatureRenderer(FeatureRenderer featureRenderer)
+ {
+ this.featureRenderer = featureRenderer;
+ }
+
+ public boolean isIncludeHiddenRegion()
+ {
+ return includeHiddenRegion;
+ }
+
+ public void setIncludeHiddenRegion(boolean includeHiddenRegion)
+ {
+ this.includeHiddenRegion = includeHiddenRegion;
+ }