public static LinkedList<String> GetComponentTypes() { LinkedList<String> result = new LinkedList<String>(); for (IOComponentTypes comp : IOComponentTypes.KnownComponentSet) { result.add(comp.toString()); } return result; };
public static IOComponentTypes getEnumFromString(String str) { for (IOComponentTypes elem : KnownComponentSet) { if (elem.name().equalsIgnoreCase(str)) { return elem; } } return IOComponentTypes.Unknown; }
public FPGAIOInformationContainer( IOComponentTypes Type, BoardRectangle rect, BoardDialog parent) { MyType = Type; MyIdentifier = -1; MyRectangle = rect; MyPinLocations = new HashMap<Integer, String>(); NrOfPins = 0; MyPullBehavior = PullBehaviors.Unknown; MyActivityLevel = PinActivity.Unknown; MyIOStandard = IoStandards.Unknown; MyDriveStrength = DriveStrength.Unknown; if (IOComponentTypes.SimpleInputSet.contains(Type)) { if (MyType.equals(IOComponentTypes.DIPSwitch) || MyType.equals(IOComponentTypes.PortIO)) { GetSizeInformationDialog(parent); } GetSimpleInformationDialog(parent); return; } MyType = IOComponentTypes.Unknown; }
private ArrayList<String> GetXilinxUCFStrings(String direction, int StartId) { ArrayList<String> Contents = new ArrayList<String>(); StringBuffer Temp = new StringBuffer(); Integer start = 0; Integer end = NrOfPins; ArrayList<String> labels = null; if (MyType.equals(IOComponentTypes.PortIO)) { labels = PortIO.GetLabels(IOComponentTypes.GetNrOfFPGAPins(MyType)); } else if (MyType.equals(IOComponentTypes.LocalBus)) { labels = ReptarLocalBus.GetLabels(); if (direction.equals("in")) { end = IOComponentTypes.GetFPGAInputRequirement(MyType); } else if (direction.equals("out")) { // TODO: YSY Contents.add( "NET \"FPGA_LB_OUT_0\" LOC = \"R24\" | IOSTANDARD = LVCMOS18 ; # SP6_LB_WAIT3_o"); Contents.add("NET \"FPGA_LB_OUT_1\" LOC = \"AB30\" | IOSTANDARD = LVCMOS18 ; # IRQ_o"); return Contents; // start = IOComponentTypes.GetFPGAInputRequirement(MyType); // end = start + // IOComponentTypes.GetFPGAOutputRequirement(MyType); } else if (direction.equals("inout")) { start = IOComponentTypes.GetFPGAInputRequirement(MyType) + IOComponentTypes.GetFPGAOutputRequirement(MyType); end = start + IOComponentTypes.GetFPGAInOutRequirement(MyType); } } else if (MyType.equals(IOComponentTypes.DIPSwitch)) { labels = DipSwitch.GetLabels(IOComponentTypes.GetNrOfFPGAPins(MyType)); } else if (MyType.equals(IOComponentTypes.SevenSegment)) { labels = SevenSegment.GetLabels(); } else if (MyType.equals(IOComponentTypes.RGBLED)) { labels = RGBLed.GetLabels(); } for (int i = start; i < end; i++) { Temp.setLength(0); Temp.append("LOC = \"" + MyPinLocations.get(i) + "\" "); if (MyPullBehavior != PullBehaviors.Unknown && MyPullBehavior != PullBehaviors.Float) { Temp.append("| " + PullBehaviors.getContraintedPullString(MyPullBehavior) + " "); } if (MyDriveStrength != DriveStrength.Unknown && MyDriveStrength != DriveStrength.DefaulStength) { Temp.append( "| DRIVE = " + DriveStrength.GetContraintedDriveStrength(MyDriveStrength) + " "); } if (MyIOStandard != IoStandards.Unknown && MyIOStandard != IoStandards.DefaulStandard) { Temp.append("| IOSTANDARD = " + IoStandards.GetConstraintedIoStandard(MyIOStandard) + " "); } Temp.append(";"); if (labels != null) { Temp.append(" # " + labels.get(i)); } String NetName = ""; if (direction == "in") { NetName = HDLGeneratorFactory.FPGAInputPinName + "_" + Integer.toString(StartId + i - start); } else if (direction == "inout") { NetName = HDLGeneratorFactory.FPGAInOutPinName + "_" + Integer.toString(StartId + i - start); } else { NetName = HDLGeneratorFactory.FPGAOutputPinName + "_" + Integer.toString(StartId + i - start); } // String NetName = (InputPins) ? // HDLGeneratorFactory.FPGAInputPinName + "_" + // Integer.toString(StartId + i) // : HDLGeneratorFactory.FPGAOutputPinName + "_" + // Integer.toString(StartId + i); Contents.add("NET \"" + NetName + "\" " + Temp.toString()); } return Contents; }
@SuppressWarnings({"rawtypes", "unchecked"}) private void GetSizeInformationDialog(BoardDialog parent) { int NrOfDevicePins = IOComponentTypes.GetNrOfFPGAPins(MyType); int min = 1; int max = 1; String text = "null"; switch (MyType) { case DIPSwitch: min = DipSwitch.MIN_SWITCH; max = DipSwitch.MAX_SWITCH; text = "switch"; break; case PortIO: min = PortIO.MIN_IO; max = PortIO.MAX_IO; text = "pins"; break; default: break; } final JDialog selWindow = new JDialog(parent.GetPanel(), MyType + " number of " + text); ActionListener actionListener = new ActionListener() { public void actionPerformed(ActionEvent e) { if (e.getActionCommand().equals("next")) { MyType.setNbSwitch( Integer.valueOf( ((JComboBox) (selWindow.getContentPane().getComponents()[1])) .getSelectedItem() .toString())); // setNrOfPins(Integer.valueOf(((JComboBox)(selWindow.getContentPane().getComponents()[1])).getSelectedItem().toString())); selWindow.dispose(); } selWindow.setVisible(false); } }; JComboBox size = new JComboBox<>(); for (int i = min; i <= max; i++) { size.addItem(i); } size.setSelectedItem(NrOfDevicePins); GridBagLayout dialogLayout = new GridBagLayout(); GridBagConstraints c = new GridBagConstraints(); selWindow.setLayout(dialogLayout); c.fill = GridBagConstraints.HORIZONTAL; JLabel sizeText = new JLabel("Specify number of " + text + ": "); c.gridx = 0; c.gridy = 0; selWindow.add(sizeText, c); c.gridx = 1; selWindow.add(size, c); JButton nextButton = new JButton("Next"); nextButton.setActionCommand("next"); nextButton.addActionListener(actionListener); c.gridy++; selWindow.add(nextButton, c); selWindow.pack(); selWindow.setLocation(Projects.getCenteredLoc(selWindow.getWidth(), selWindow.getHeight())); // PointerInfo mouseloc = MouseInfo.getPointerInfo(); // Point mlocation = mouseloc.getLocation(); // selWindow.setLocation(mlocation.x, mlocation.y); selWindow.setModal(true); selWindow.setResizable(false); selWindow.setDefaultCloseOperation(JDialog.DO_NOTHING_ON_CLOSE); selWindow.setAlwaysOnTop(true); selWindow.setVisible(true); }
private void GetSimpleInformationDialog(BoardDialog parent) { int NrOfDevicePins = IOComponentTypes.GetNrOfFPGAPins(MyType); final JDialog selWindow = new JDialog(parent.GetPanel(), MyType + " properties"); JComboBox<String> DriveInput = new JComboBox<>(DriveStrength.Behavior_strings); JComboBox<String> PullInput = new JComboBox<>(PullBehaviors.Behavior_strings); JComboBox<String> ActiveInput = new JComboBox<>(PinActivity.Behavior_strings); ActionListener actionListener = new ActionListener() { public void actionPerformed(ActionEvent e) { if (e.getActionCommand().equals("cancel")) { MyType = IOComponentTypes.Unknown; abort = true; } selWindow.setVisible(false); } }; GridBagLayout dialogLayout = new GridBagLayout(); GridBagConstraints c = new GridBagConstraints(); selWindow.setLayout(dialogLayout); c.fill = GridBagConstraints.HORIZONTAL; c.gridy = -1; ArrayList<JTextField> LocInputs = new ArrayList<JTextField>(); ArrayList<String> PinLabels; switch (MyType) { case SevenSegment: PinLabels = SevenSegment.GetLabels(); break; case RGBLED: PinLabels = RGBLed.GetLabels(); break; case DIPSwitch: PinLabels = DipSwitch.GetLabels(NrOfDevicePins); break; case PortIO: PinLabels = PortIO.GetLabels(NrOfDevicePins); break; case LocalBus: PinLabels = ReptarLocalBus.GetLabels(); break; default: PinLabels = new ArrayList<String>(); if (NrOfDevicePins == 1) { PinLabels.add("FPGA pin"); } else { for (int i = 0; i < NrOfDevicePins; i++) { PinLabels.add("pin " + i); } } } int offset = 0; int oldY = c.gridy; int maxY = -1; for (int i = 0; i < NrOfDevicePins; i++) { if (i % 32 == 0) { offset = (i / 32) * 2; c.gridy = oldY; } JLabel LocText = new JLabel("Specify " + PinLabels.get(i) + " location:"); c.gridx = 0 + offset; c.gridy++; selWindow.add(LocText, c); JTextField txt = new JTextField(6); LocInputs.add(txt); c.gridx = 1 + offset; selWindow.add(LocInputs.get(i), c); maxY = c.gridy > maxY ? c.gridy : maxY; } c.gridy = maxY; JLabel StandardText = new JLabel("Specify FPGA pin standard:"); c.gridy++; c.gridx = 0; selWindow.add(StandardText, c); JComboBox<String> StandardInput = new JComboBox<>(IoStandards.Behavior_strings); StandardInput.setSelectedIndex(parent.GetDefaultStandard()); c.gridx = 1; selWindow.add(StandardInput, c); if (IOComponentTypes.OutputComponentSet.contains(MyType)) { JLabel DriveText = new JLabel("Specify FPGA pin drive strength:"); c.gridy++; c.gridx = 0; selWindow.add(DriveText, c); DriveInput.setSelectedIndex(parent.GetDefaultDriveStrength()); c.gridx = 1; selWindow.add(DriveInput, c); } if (IOComponentTypes.InputComponentSet.contains(MyType)) { JLabel PullText = new JLabel("Specify FPGA pin pull behavior:"); c.gridy++; c.gridx = 0; selWindow.add(PullText, c); PullInput.setSelectedIndex(parent.GetDefaultPullSelection()); c.gridx = 1; selWindow.add(PullInput, c); } if (!IOComponentTypes.InOutComponentSet.contains(MyType)) { JLabel ActiveText = new JLabel("Specify " + MyType + " activity:"); c.gridy++; c.gridx = 0; selWindow.add(ActiveText, c); ActiveInput.setSelectedIndex(parent.GetDefaultActivity()); c.gridx = 1; selWindow.add(ActiveInput, c); } JButton OkayButton = new JButton("Done and Store"); OkayButton.setActionCommand("done"); OkayButton.addActionListener(actionListener); c.gridx = 0; c.gridy++; selWindow.add(OkayButton, c); JButton CancelButton = new JButton("Cancel"); CancelButton.setActionCommand("cancel"); CancelButton.addActionListener(actionListener); c.gridx = 1; selWindow.add(CancelButton, c); selWindow.pack(); selWindow.setLocation(Projects.getCenteredLoc(selWindow.getWidth(), selWindow.getHeight())); // PointerInfo mouseloc = MouseInfo.getPointerInfo(); // Point mlocation = mouseloc.getLocation(); // selWindow.setLocation(mlocation.x, mlocation.y); selWindow.setModal(true); selWindow.setResizable(false); selWindow.setDefaultCloseOperation(JDialog.DO_NOTHING_ON_CLOSE); selWindow.setAlwaysOnTop(true); abort = false; while (!abort) { selWindow.setVisible(true); if (!abort) { boolean correct = true; for (int i = 0; i < NrOfDevicePins; i++) { if (LocInputs.get(i).getText().isEmpty()) { correct = false; showDialogNotification( selWindow, "Error", "<html>You have to specify a location for " + PinLabels.get(i) + "!</html>"); continue; } } if (correct) { parent.SetDefaultStandard(StandardInput.getSelectedIndex()); NrOfPins = NrOfDevicePins; for (int i = 0; i < NrOfDevicePins; i++) { MyPinLocations.put(i, LocInputs.get(i).getText()); } MyIOStandard = IoStandards.getId(StandardInput.getSelectedItem().toString()); if (IOComponentTypes.OutputComponentSet.contains(MyType)) { parent.SetDefaultDriveStrength(DriveInput.getSelectedIndex()); MyDriveStrength = DriveStrength.getId(DriveInput.getSelectedItem().toString()); } if (IOComponentTypes.InputComponentSet.contains(MyType)) { parent.SetDefaultPullSelection(PullInput.getSelectedIndex()); MyPullBehavior = PullBehaviors.getId(PullInput.getSelectedItem().toString()); } if (!IOComponentTypes.InOutComponentSet.contains(MyType)) { parent.SetDefaultActivity(ActiveInput.getSelectedIndex()); MyActivityLevel = PinActivity.getId(ActiveInput.getSelectedItem().toString()); } abort = true; } } } selWindow.dispose(); }
public Element GetDocumentElement(Document doc) { if (MyType.equals(IOComponentTypes.Unknown)) { return null; } try { Element result = doc.createElement(MyType.toString()); result.setAttribute( BoardWriterClass.LocationXString, Integer.toString(MyRectangle.getXpos())); Attr ypos = doc.createAttribute(BoardWriterClass.LocationYString); ypos.setValue(Integer.toString(MyRectangle.getYpos())); result.setAttributeNode(ypos); Attr width = doc.createAttribute(BoardWriterClass.WidthString); width.setValue(Integer.toString(MyRectangle.getWidth())); result.setAttributeNode(width); Attr height = doc.createAttribute(BoardWriterClass.HeightString); height.setValue(Integer.toString(MyRectangle.getHeight())); result.setAttributeNode(height); if (NrOfPins == 1) { Attr loc = doc.createAttribute(BoardWriterClass.PinLocationString); loc.setValue(MyPinLocations.get(0)); result.setAttributeNode(loc); } else { Attr NrPins = doc.createAttribute(BoardWriterClass.MultiPinInformationString); NrPins.setValue(NrOfPins.toString()); result.setAttributeNode(NrPins); for (int i = 0; i < NrOfPins; i++) { String PinName = BoardWriterClass.MultiPinPrefixString + Integer.toString(i); Attr PinX = doc.createAttribute(PinName); PinX.setValue(MyPinLocations.get(i)); result.setAttributeNode(PinX); } } if (MyDriveStrength != DriveStrength.Unknown) { Attr drive = doc.createAttribute(DriveStrength.DriveAttributeString); drive.setValue(DriveStrength.Behavior_strings[MyDriveStrength]); result.setAttributeNode(drive); } if (MyPullBehavior != PullBehaviors.Unknown) { Attr pull = doc.createAttribute(PullBehaviors.PullAttributeString); pull.setValue(PullBehaviors.Behavior_strings[MyPullBehavior]); result.setAttributeNode(pull); } if (MyIOStandard != IoStandards.Unknown) { Attr stand = doc.createAttribute(IoStandards.IOAttributeString); stand.setValue(IoStandards.Behavior_strings[MyIOStandard]); result.setAttributeNode(stand); } if (MyActivityLevel != PinActivity.Unknown) { Attr act = doc.createAttribute(PinActivity.ActivityAttributeString); act.setValue(PinActivity.Behavior_strings[MyActivityLevel]); result.setAttributeNode(act); } return result; } catch (Exception e) { /* TODO: handle exceptions */ logger.error( "Exceptions not handled yet in GetDocumentElement(), but got an exception: {}", e.getMessage()); } return null; }
public FPGAIOInformationContainer(Node DocumentInfo) { /* * This constructor is used to create an element during the reading of a * board information xml file */ MyType = IOComponentTypes.Unknown; MyIdentifier = -1; MyRectangle = null; MyPinLocations = new HashMap<Integer, String>(); NrOfPins = 0; MyPullBehavior = PullBehaviors.Unknown; MyActivityLevel = PinActivity.Unknown; MyIOStandard = IoStandards.Unknown; MyDriveStrength = DriveStrength.Unknown; IOComponentTypes SetId = IOComponentTypes.getEnumFromString(DocumentInfo.getNodeName()); if (IOComponentTypes.KnownComponentSet.contains(SetId)) { MyType = SetId; } else { return; } NamedNodeMap Attrs = DocumentInfo.getAttributes(); int x = -1, y = -1, width = -1, height = -1; for (int i = 0; i < Attrs.getLength(); i++) { Node ThisAttr = Attrs.item(i); if (ThisAttr.getNodeName().equals(BoardWriterClass.LocationXString)) { x = Integer.parseInt(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(BoardWriterClass.LocationYString)) { y = Integer.parseInt(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(BoardWriterClass.WidthString)) { width = Integer.parseInt(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(BoardWriterClass.HeightString)) { height = Integer.parseInt(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(BoardWriterClass.PinLocationString)) { NrOfPins = 1; MyPinLocations.put(0, ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(BoardWriterClass.MultiPinInformationString)) { NrOfPins = Integer.parseInt(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().startsWith(BoardWriterClass.MultiPinPrefixString)) { String Id = ThisAttr.getNodeName().substring(BoardWriterClass.MultiPinPrefixString.length()); MyPinLocations.put(Integer.parseInt(Id), ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(DriveStrength.DriveAttributeString)) { MyDriveStrength = DriveStrength.getId(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(PullBehaviors.PullAttributeString)) { MyPullBehavior = PullBehaviors.getId(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(IoStandards.IOAttributeString)) { MyIOStandard = IoStandards.getId(ThisAttr.getNodeValue()); } if (ThisAttr.getNodeName().equals(PinActivity.ActivityAttributeString)) { MyActivityLevel = PinActivity.getId(ThisAttr.getNodeValue()); } } if ((x < 0) || (y < 0) || (width < 1) || (height < 1)) { MyType = IOComponentTypes.Unknown; return; } boolean PinsComplete = true; for (int i = 0; i < NrOfPins; i++) { if (!MyPinLocations.containsKey(i)) { logger.warn("Bizar missing pin {} of component!", i); PinsComplete = false; } } if (!PinsComplete) { MyType = IOComponentTypes.Unknown; return; } if (MyType.equals(IOComponentTypes.DIPSwitch) || MyType.equals(IOComponentTypes.PortIO)) { MyType.setNbSwitch(NrOfPins); } MyRectangle = new BoardRectangle(x, y, width, height); }