/** * Returns all residues relate to a BIRD molecule. Since BIRD molecules can span multiple internal * chains, we need to search all chains with a particular BIRD instance * * @param structure * @param chain * @return */ private Residue[] getBirdResidues(Structure structure, Chain chain) { List<Residue> residues = new ArrayList<Residue>(); Bird bird = chain.getBird(); for (Chain c : structure.getStructureMap().getChains()) { Bird b = c.getBird(); if (b != null && b.isSameInstance(bird)) { residues.addAll(c.getResidues()); } } return residues.toArray(new Residue[residues.size()]); }
public LigandSideBar(LXDocumentFrame mainFrame) { super(); final StructureModel model = LigandExplorer.sgetModel(); if (!model.hasStructures()) { this.setBackground(LXDocumentFrame.sidebarColor); this.setLayout(new BorderLayout()); final JPanel pdbPanel = new JPanel(); pdbPanel.setLayout(new FlowLayout()); pdbPanel.setBackground(LXDocumentFrame.sidebarColor); final JLabel pdbLabel = new JLabel("PDB id"); pdbLabel.setFont(pdbLabel.getFont().deriveFont(Font.BOLD)); pdbLabel.setBackground(LXDocumentFrame.sidebarColor); mainFrame.getPdbIdList().setBackground(LXDocumentFrame.sidebarColor); pdbPanel.add(pdbLabel); pdbPanel.add(mainFrame.getPdbIdList()); this.add(pdbPanel, BorderLayout.NORTH); } else { this.ligandList = this.getLigandList(model.getStructures().get(0)); final Comparator<Chain> chainComparator = new Comparator<Chain>() { public int compare(Chain c1, Chain c2) { return c1.getAuthorChainId().compareTo(c2.getAuthorChainId()); } }; Collections.sort(ligandList, chainComparator); this.setLayout(null); final JLabel centerView = new JLabel("Choose a ligand to analyze..."); centerView.setFont(centerView.getFont().deriveFont(Font.BOLD + Font.ITALIC)); this.add(centerView); if (this.ligandList.size() > 0) { DefaultMutableTreeNode root = new DefaultMutableTreeNode("Ligands:"); ligandJList = new JTree(root); ligandJList .getSelectionModel() .setSelectionMode(TreeSelectionModel.CONTIGUOUS_TREE_SELECTION); ligandJList.setCellRenderer(new LigandTreeCellRenderer()); ligandJList.setExpandsSelectedPaths(true); ligandJList.setRootVisible(false); ligandJList.setShowsRootHandles(true); String chainId = ""; DefaultMutableTreeNode chainNode = null; DefaultMutableTreeNode birdNode = null; Bird prevBird = null; for (Chain chain : ligandList) { // create new node only if chain id is different from previous chain id if (!chain.getAuthorChainId().equals(chainId)) { // chainNode = new DefaultMutableTreeNode(chain); chainNode = new DefaultMutableTreeNode(chain.getAuthorChainId()); root.add(chainNode); chainId = chain.getAuthorChainId(); } if (chain.getClassification() == Residue.Classification.LIGAND) { for (Residue residue : chain.getResidues()) { chainNode.add(new DefaultMutableTreeNode(residue)); } } else if (chain.getClassification() == Residue.Classification.BIRD) { Bird currBird = chain.getBird(); if (prevBird == null && currBird != null) { birdNode = new DefaultMutableTreeNode(chain); chainNode.add(birdNode); prevBird = currBird; } else if (!prevBird.isSameInstance(currBird)) { birdNode = new DefaultMutableTreeNode(chain); chainNode.add(birdNode); prevBird = currBird; } for (Residue residue : chain.getResidues()) { birdNode.add(new DefaultMutableTreeNode(residue)); } } else if (chain.hasModifiedResidues()) { for (Residue residue : chain.getModifiedResidues()) { chainNode.add(new DefaultMutableTreeNode(residue)); } } } ligandJList .getSelectionModel() .addTreeSelectionListener( new TreeSelectionListener() { public void valueChanged(TreeSelectionEvent e) { applyButton.doClick(); Structure structure = AppBase.sgetModel().getStructures().get(0); if (structure.getStructureMap().getSurfaceCount() > 0) { LigandExplorer.sgetGlGeometryViewer().ligandViewWithSurface(structure); } else { LigandExplorer.sgetGlGeometryViewer().ligandView(structure); } } }); ligandScroller = new JScrollPane(this.ligandJList); add(ligandScroller); } else centerView.setText("No ligands in this structure"); final JLabel displayView = new JLabel("Choose interactions & thresholds..."); displayView.setFont(displayView.getFont().deriveFont(Font.BOLD + Font.ITALIC)); this.add(displayView); final JCheckBox hydrophilicBox = new JCheckBox(InteractionConstants.hydrogenBondType); final LegendPanel hydrophilicPanel = new LegendPanel(InteractionConstants.hydrogenBondColor, LXDocumentFrame.sidebarColor); final FloatLimitField philicFLF2 = new FloatLimitField("3.3"); this.add(hydrophilicBox); this.add(philicFLF2); this.add(hydrophilicPanel); final JCheckBox hydrophobicBox = new JCheckBox(InteractionConstants.hydrophobicType); final LegendPanel hydrophobicPanel = new LegendPanel(InteractionConstants.hydrophobicBondColor, LXDocumentFrame.sidebarColor); final FloatLimitField phobicFLF2 = new FloatLimitField("3.9"); this.add(hydrophobicBox); this.add(phobicFLF2); this.add(hydrophobicPanel); final JCheckBox l_h2o_pBox = new JCheckBox(InteractionConstants.waterMediatedType); l_h2o_pBox.setBackground(LXDocumentFrame.sidebarColor); final LegendPanel l_h2o_pPanel = new LegendPanel(InteractionConstants.waterMediatedColor, LXDocumentFrame.sidebarColor); l_h2o_pBox.setBackground(LXDocumentFrame.sidebarColor); final FloatLimitField l_h2o_pFLF2 = new FloatLimitField("3.3"); this.add(l_h2o_pBox); this.add(l_h2o_pFLF2); this.add(l_h2o_pPanel); final JCheckBox otherBox = new JCheckBox(InteractionConstants.metalInteractionType); final LegendPanel otherPanel = new LegendPanel(InteractionConstants.metalInteractionColor, LXDocumentFrame.sidebarColor); final FloatLimitField otherFLF2 = new FloatLimitField("3.5"); this.add(otherBox); this.add(otherFLF2); this.add(otherPanel); final JCheckBox neighborBox = new JCheckBox(InteractionConstants.neighborInteractionType); final FloatLimitField neighborFLF1 = new FloatLimitField("4.0"); this.add(neighborBox); this.add(neighborFLF1); // new: added this separator final JSeparator separator = new JSeparator(); this.add(separator); final JCheckBox distanceBox = new JCheckBox("Label interactions by distance"); distanceBox.setBackground(LXDocumentFrame.sidebarColor); distanceBox.setSelected(true); this.add(distanceBox); // System.out.println("Adding BindingSiteSurfacePanel"); final JPanel surfacePanel = new BindingSiteSurfacePanel(hasMacromoleculeChain()); surfacePanel.setBackground(LXDocumentFrame.sidebarColor); this.add(surfacePanel); // this button should eventually be removed. Its still used // to fire some update events applyButton = new JButton("Apply"); this.add(applyButton); this.setLayout( new LayoutManager() { public void addLayoutComponent(String arg0, Component arg1) {} private Dimension layoutSize = null; public void layoutContainer(Container parent) { final int visualBuffer = 3; Insets parentInsets = parent.getInsets(); if (ligandList == null || ligandList.size() == 0) { Dimension preferred = centerView.getPreferredSize(); centerView.setBounds( parentInsets.left + visualBuffer, parentInsets.top + visualBuffer, preferred.width, preferred.height); } else { Dimension step1Preferred = centerView.getPreferredSize(); Dimension step2Preferred = displayView.getPreferredSize(); ; Dimension hydrophilicBoxPreferred = hydrophilicBox.getPreferredSize(); Dimension hydrophobicBoxPreferred = hydrophobicBox.getPreferredSize(); Dimension l_h2o_pBoxPreferred = l_h2o_pBox.getPreferredSize(); Dimension otherBoxPreferred = otherBox.getPreferredSize(); Dimension neighborBoxPreferred = neighborBox.getPreferredSize(); Dimension distancePreferred = distanceBox.getPreferredSize(); Dimension hydrophilicFLF2Preferred = philicFLF2.getPreferredSize(); Dimension hydrophobicFLF2Preferred = phobicFLF2.getPreferredSize(); Dimension l_h2o_pFLF2Preferred = l_h2o_pFLF2.getPreferredSize(); Dimension otherFLF2Preferred = otherFLF2.getPreferredSize(); Dimension neighborFLF1Preferred = neighborFLF1.getPreferredSize(); Dimension separatorPreferred = separator.getPreferredSize(); Dimension surfacePanelPreferred = surfacePanel.getPreferredSize(); int parentHeight = parent.getHeight(); int parentWidth = parent.getWidth(); int fullWidth = parentWidth - parentInsets.left - parentInsets.right - visualBuffer * 2; int listHeight = parentHeight - parentInsets.top - parentInsets.bottom - (step1Preferred.height + step2Preferred.height + hydrophilicBoxPreferred.height + hydrophobicBoxPreferred.height + l_h2o_pBoxPreferred.height + otherBoxPreferred.height + neighborBoxPreferred.height + separatorPreferred.height + distancePreferred.height + surfacePanelPreferred.height + visualBuffer * 13); int curY = parentInsets.top + visualBuffer; int curX = parentInsets.left + visualBuffer; int maxWidth = 0; centerView.setBounds(curX, curY, step1Preferred.width, step1Preferred.height); curY += step1Preferred.height + visualBuffer; maxWidth = step1Preferred.width; ligandScroller.setBounds(curX, curY, fullWidth, listHeight); curY += listHeight + visualBuffer; displayView.setBounds(curX, curY, step2Preferred.width, step2Preferred.height); curY += step2Preferred.height + visualBuffer; maxWidth = Math.max(maxWidth, step2Preferred.width); int maxCheckboxWidth = 0; int hydrophilicBoxStartY = curY; hydrophilicBox.setBounds( curX, curY, hydrophilicBoxPreferred.width, hydrophilicBoxPreferred.height); curY += hydrophilicBoxPreferred.height + visualBuffer; maxWidth = Math.max(maxWidth, hydrophilicBoxPreferred.width); maxCheckboxWidth = Math.max(maxCheckboxWidth, hydrophilicBoxPreferred.width); int hydrophobicBoxStartY = curY; hydrophobicBox.setBounds( curX, curY, hydrophobicBoxPreferred.width, hydrophobicBoxPreferred.height); curY += hydrophobicBoxPreferred.height + visualBuffer; maxWidth = Math.max(maxWidth, hydrophobicBoxPreferred.width); maxCheckboxWidth = Math.max(maxCheckboxWidth, hydrophobicBoxPreferred.width); int l_h2o_pBoxStartY = curY; l_h2o_pBox.setBounds( curX, curY, l_h2o_pBoxPreferred.width, l_h2o_pBoxPreferred.height); curY += l_h2o_pBoxPreferred.height + visualBuffer; maxWidth = Math.max(maxWidth, l_h2o_pBoxPreferred.width); maxCheckboxWidth = Math.max(maxCheckboxWidth, l_h2o_pBoxPreferred.width); int otherBoxStartY = curY; otherBox.setBounds(curX, curY, otherBoxPreferred.width, otherBoxPreferred.height); curY += otherBoxPreferred.height + visualBuffer; maxWidth = Math.max(maxWidth, otherBoxPreferred.width); maxCheckboxWidth = Math.max(maxCheckboxWidth, otherBoxPreferred.width); int neighborBoxStartY = curY; neighborBox.setBounds( curX, curY, neighborBoxPreferred.width, neighborBoxPreferred.height); curY += neighborBoxPreferred.height + visualBuffer; maxWidth = Math.max(maxWidth, neighborBoxPreferred.width); maxCheckboxWidth = Math.max(maxCheckboxWidth, neighborBoxPreferred.width); // now align the constraint boxes to a grid defined by the check boxes. final int legendWidth = 50; curX += maxCheckboxWidth + visualBuffer * 2; neighborFLF1.setBounds( curX, neighborBoxStartY, neighborFLF1Preferred.width, neighborFLF1Preferred.height); philicFLF2.setBounds( curX, hydrophilicBoxStartY, hydrophilicFLF2Preferred.width, hydrophilicFLF2Preferred.height); phobicFLF2.setBounds( curX, hydrophobicBoxStartY, hydrophobicFLF2Preferred.width, hydrophobicFLF2Preferred.height); l_h2o_pFLF2.setBounds( curX, l_h2o_pBoxStartY, l_h2o_pFLF2Preferred.width, l_h2o_pFLF2Preferred.height); otherFLF2.setBounds( curX, otherBoxStartY, otherFLF2Preferred.width, otherFLF2Preferred.height); curX += philicFLF2.getWidth() + visualBuffer; hydrophilicPanel.setBounds( curX, hydrophilicBoxStartY, legendWidth, hydrophilicFLF2Preferred.height); hydrophobicPanel.setBounds( curX, hydrophobicBoxStartY, legendWidth, hydrophobicFLF2Preferred.height); l_h2o_pPanel.setBounds( curX, l_h2o_pBoxStartY, legendWidth, l_h2o_pFLF2Preferred.height); otherPanel.setBounds(curX, otherBoxStartY, legendWidth, otherFLF2Preferred.height); curX = parentInsets.left + visualBuffer; separator.setBounds( curX, curY, separatorPreferred.width, separatorPreferred.height); curY += separatorPreferred.height + 3 * visualBuffer; maxWidth = Math.max(maxWidth, separatorPreferred.width); distanceBox.setBounds( curX, curY, distancePreferred.width, distancePreferred.height); curY += distancePreferred.height + visualBuffer; maxWidth = Math.max(maxWidth, distancePreferred.width); surfacePanel.setBounds( curX, curY, surfacePanelPreferred.width, surfacePanelPreferred.height); curY += surfacePanelPreferred.height + visualBuffer; maxWidth = Math.max(maxWidth, surfacePanelPreferred.width); // this.layoutSize.width = maxWidth + parentInsets.left + parentInsets.right + // visualBuffer * 2; // TODO check width on Mac OSX this.layoutSize.width = maxWidth + parentInsets.left + parentInsets.right + visualBuffer * 2; } } public Dimension minimumLayoutSize(Container parent) { if (this.layoutSize == null) { this.layoutSize = new Dimension(); this.layoutContainer(parent); } return this.layoutSize; } public Dimension preferredLayoutSize(Container parent) { if (this.layoutSize == null) { this.layoutSize = new Dimension(); this.layoutContainer(parent); } return this.layoutSize; } public void removeLayoutComponent(Component comp) {} }); // set colors and initial state this.setBackground(LXDocumentFrame.sidebarColor); hydrophilicBox.setBackground(LXDocumentFrame.sidebarColor); hydrophilicBox.setSelected(false); hydrophobicBox.setBackground(LXDocumentFrame.sidebarColor); hydrophobicBox.setSelected(false); otherBox.setBackground(LXDocumentFrame.sidebarColor); otherBox.setSelected(false); neighborBox.setBackground(LXDocumentFrame.sidebarColor); neighborBox.setSelected(false); // separator is not visible, why ?? separator.setBackground(Color.BLACK); separator.setForeground(Color.BLACK); separator.setVisible(true); interactionListener = new InteractionListener( l_h2o_pBox, hydrophilicBox, hydrophobicBox, otherBox, neighborBox, distanceBox, l_h2o_pFLF2, philicFLF2, phobicFLF2, otherFLF2, neighborFLF1); applyButton.addActionListener(interactionListener); hydrophilicBox.addActionListener(interactionListener); hydrophobicBox.addActionListener(interactionListener); l_h2o_pBox.addActionListener(interactionListener); otherBox.addActionListener(interactionListener); neighborBox.addActionListener(interactionListener); distanceBox.addActionListener(interactionListener); // add action listener to the distance threshold text boxes l_h2o_pFLF2.addActionListener(interactionListener); philicFLF2.addActionListener(interactionListener); phobicFLF2.addActionListener(interactionListener); otherFLF2.addActionListener(interactionListener); neighborFLF1.addActionListener(interactionListener); ; } }