/** Returns the contents of the next text field. */ public String getNextString() { String theText; if (stringField == null) return ""; TextField tf = (TextField) (stringField.elementAt(sfIndex)); theText = tf.getText(); if (macro) { String label = (String) labels.get((Object) tf); theText = Macro.getValue(macroOptions, label, theText); if (theText != null && (theText.startsWith("&") || label.toLowerCase(Locale.US).startsWith(theText))) { // Is the value a macro variable? if (theText.startsWith("&")) theText = theText.substring(1); Interpreter interp = Interpreter.getInstance(); String s = interp != null ? interp.getVariableAsString(theText) : null; if (s != null) theText = s; } } if (recorderOn) { String s = theText; if (s != null && s.length() >= 3 && Character.isLetter(s.charAt(0)) && s.charAt(1) == ':' && s.charAt(2) == '\\') s = s.replaceAll("\\\\", "\\\\\\\\"); // replace "\" with "\\" in Windows file paths if (!smartRecording || !s.equals((String) defaultStrings.elementAt(sfIndex))) recordOption(tf, s); else if (Recorder.getCommandOptions() == null) Recorder.recordOption(" "); } sfIndex++; return theText; }
/** Returns the index of the selected item in the next popup menu. */ public int getNextChoiceIndex() { if (choice == null) return -1; Choice thisChoice = (Choice) (choice.elementAt(choiceIndex)); int index = thisChoice.getSelectedIndex(); if (macro) { String label = (String) labels.get((Object) thisChoice); String oldItem = thisChoice.getSelectedItem(); int oldIndex = thisChoice.getSelectedIndex(); String item = Macro.getValue(macroOptions, label, oldItem); if (item != null && item.startsWith("&")) // value is macro variable item = getChoiceVariable(item); thisChoice.select(item); index = thisChoice.getSelectedIndex(); if (index == oldIndex && !item.equals(oldItem)) { // is value a macro variable? Interpreter interp = Interpreter.getInstance(); String s = interp != null ? interp.getStringVariable(item) : null; if (s == null) IJ.error(getTitle(), "\"" + item + "\" is not a valid choice for \"" + label + "\""); else item = s; } } if (recorderOn) { int defaultIndex = ((Integer) (defaultChoiceIndexes.elementAt(choiceIndex))).intValue(); if (!(smartRecording && index == defaultIndex)) { String item = thisChoice.getSelectedItem(); if (!(item.equals("*None*") && getTitle().equals("Merge Channels"))) recordOption(thisChoice, thisChoice.getSelectedItem()); } } choiceIndex++; return index; }
private String backgroundColour(String type) { LispExpr e = interpreter.getGlobalExpr(type); if (!(e instanceof LispString)) { e = interpreter.getGlobalExpr("text-background-colour"); if (!(e instanceof LispString)) { return "white"; } } return ((LispString) e).toString(); }
public double parseDouble(String s) { if (s == null) return Double.NaN; double value = Tools.parseDouble(s); if (Double.isNaN(value)) { if (s.startsWith("&")) s = s.substring(1); Interpreter interp = Interpreter.getInstance(); value = interp != null ? interp.getVariable2(s) : Double.NaN; } return value; }
/** * Returns the contents of the next numeric field, or NaN if the field does not contain a number. */ public double getNextNumber() { if (numberField == null) return -1.0; TextField tf = (TextField) numberField.elementAt(nfIndex); String theText = tf.getText(); String label = null; if (macro) { label = (String) labels.get((Object) tf); theText = Macro.getValue(macroOptions, label, theText); // IJ.write("getNextNumber: "+label+" "+theText); } String originalText = (String) defaultText.elementAt(nfIndex); double defaultValue = ((Double) (defaultValues.elementAt(nfIndex))).doubleValue(); double value; boolean skipRecording = false; if (theText.equals(originalText)) { value = defaultValue; if (smartRecording) skipRecording = true; } else { Double d = getValue(theText); if (d != null) value = d.doubleValue(); else { // Is the value a macro variable? if (theText.startsWith("&")) theText = theText.substring(1); Interpreter interp = Interpreter.getInstance(); value = interp != null ? interp.getVariable2(theText) : Double.NaN; if (Double.isNaN(value)) { invalidNumber = true; errorMessage = "\"" + theText + "\" is an invalid number"; value = Double.NaN; if (macro) { IJ.error( "Macro Error", "Numeric value expected in run() function\n \n" + " Dialog box title: \"" + getTitle() + "\"\n" + " Key: \"" + label.toLowerCase(Locale.US) + "\"\n" + " Value or variable name: \"" + theText + "\""); } } } } if (recorderOn && !skipRecording) { recordOption(tf, trim(theText)); } nfIndex++; return value; }
private String getChoiceVariable(String item) { item = item.substring(1); Interpreter interp = Interpreter.getInstance(); String s = interp != null ? interp.getStringVariable(item) : null; if (s == null) { double value = interp != null ? interp.getVariable2(item) : Double.NaN; if (!Double.isNaN(value)) { if ((int) value == value) s = "" + (int) value; else s = "" + value; } } if (s != null) item = s; return item; }
public static void main(String argv[]) { // basically, if a command-line parameter is supplied // then assume it is a file name and execute it as // a simpular program without using the GUI at all. if (argv.length == 0) { // no command-line parameters, so use GUI. InterpreterFrame f = new InterpreterFrame(); } else if (argv[0].equals("-no-gui")) { // run interpreter without GUI! // setup new argument list for original // Main method String[] newargv = new String[argv.length - 1]; for (int i = 1; i != argv.length; ++i) { newargv[i - 1] = argv[i]; } Interpreter.main(newargv); } else { // run interpreter with GUI, but // load requested file. InterpreterFrame f = new InterpreterFrame(); // load file into text view f.textView.setText(f.physReadTextFile(new File(argv[0]))); // update status f.statusView.setText(" Loaded file \"" + argv[0] + "\"."); // reset dirty bit f.dirty = false; } }
void drawAllROIs(Graphics g) { RoiManager rm = RoiManager.getInstance(); if (rm == null) { rm = Interpreter.getBatchModeRoiManager(); if (rm != null && rm.getList().getItemCount() == 0) rm = null; } if (rm == null) { // if (showAllList!=null) // overlay = showAllList; showAllROIs = false; repaint(); return; } initGraphics(g, null, showAllColor); Hashtable rois = rm.getROIs(); java.awt.List list = rm.getList(); boolean drawLabels = rm.getDrawLabels(); currentRoi = null; int n = list.getItemCount(); if (IJ.debugMode) IJ.log("paint: drawing " + n + " \"Show All\" ROIs"); if (labelRects == null || labelRects.length != n) labelRects = new Rectangle[n]; if (!drawLabels) showAllList = new Overlay(); else showAllList = null; if (imp == null) return; int currentImage = imp.getCurrentSlice(); int channel = 0, slice = 0, frame = 0; boolean hyperstack = imp.isHyperStack(); if (hyperstack) { channel = imp.getChannel(); slice = imp.getSlice(); frame = imp.getFrame(); } drawNames = Prefs.useNamesAsLabels; for (int i = 0; i < n; i++) { String label = list.getItem(i); Roi roi = (Roi) rois.get(label); if (roi == null) continue; if (showAllList != null) showAllList.add(roi); if (i < 200 && drawLabels && roi == imp.getRoi()) currentRoi = roi; if (Prefs.showAllSliceOnly && imp.getStackSize() > 1) { if (hyperstack && roi.getPosition() == 0) { int c = roi.getCPosition(); int z = roi.getZPosition(); int t = roi.getTPosition(); if ((c == 0 || c == channel) && (z == 0 || z == slice) && (t == 0 || t == frame)) drawRoi(g, roi, drawLabels ? i : -1); } else { int position = roi.getPosition(); if (position == 0) position = getSliceNumber(roi.getName()); if (position == 0 || position == currentImage) drawRoi(g, roi, drawLabels ? i : -1); } } else drawRoi(g, roi, drawLabels ? i : -1); } ((Graphics2D) g).setStroke(Roi.onePixelWide); drawNames = false; }
public InterpreterFrame() { super("Simple Lisp Interpreter"); // Create the menu menubar = buildMenuBar(); setJMenuBar(menubar); // Create the toolbar toolbar = buildToolBar(); // disable cut and copy actions cutAction.setEnabled(false); copyAction.setEnabled(false); // Setup text area for editing source code // and setup document listener so interpreter // is notified when current file modified and // when the cursor is moved. textView = buildEditor(); textView.getDocument().addDocumentListener(this); textView.addCaretListener(this); // set default key bindings bindKeyToCommand("ctrl C", "(buffer-copy)"); bindKeyToCommand("ctrl X", "(buffer-cut)"); bindKeyToCommand("ctrl V", "(buffer-paste)"); bindKeyToCommand("ctrl E", "(buffer-eval)"); bindKeyToCommand("ctrl O", "(file-open)"); bindKeyToCommand("ctrl S", "(file-save)"); bindKeyToCommand("ctrl Q", "(exit)"); // Give text view scrolling capability Border border = BorderFactory.createCompoundBorder( BorderFactory.createEmptyBorder(3, 3, 3, 3), BorderFactory.createLineBorder(Color.gray)); JScrollPane topSplit = addScrollers(textView); topSplit.setBorder(border); // Create tabbed pane for console/problems consoleView = makeConsoleArea(10, 50, true); problemsView = makeConsoleArea(10, 50, false); tabbedPane = buildProblemsConsole(); // Plug the editor and problems/console together // using a split pane. This allows one to change // their relative size using the split-bar in // between them. splitPane = new JSplitPane(JSplitPane.VERTICAL_SPLIT, topSplit, tabbedPane); // Create status bar statusView = new JLabel(" Status"); lineNumberView = new JLabel("0:0"); statusbar = buildStatusBar(); // Now, create the outer panel which holds // everything together outerpanel = new JPanel(); outerpanel.setLayout(new BorderLayout()); outerpanel.add(toolbar, BorderLayout.PAGE_START); outerpanel.add(splitPane, BorderLayout.CENTER); outerpanel.add(statusbar, BorderLayout.SOUTH); getContentPane().add(outerpanel); // tell frame to fire a WindowsListener event // but not to close when "x" button clicked. setDefaultCloseOperation(DO_NOTHING_ON_CLOSE); addWindowListener(this); // set minimised icon to use setIconImage(makeImageIcon("spi.png").getImage()); // setup additional internal functions InternalFunctions.setup_internals(interpreter, this); // set default window size Component top = splitPane.getTopComponent(); Component bottom = splitPane.getBottomComponent(); top.setPreferredSize(new Dimension(100, 400)); bottom.setPreferredSize(new Dimension(100, 200)); pack(); // load + run user configuration file (if there is one) String homedir = System.getProperty("user.home"); try { interpreter.load(homedir + "/.simplelisp"); } catch (FileNotFoundException e) { // do nothing if file does not exist! System.out.println("Didn't find \"" + homedir + "/.simplelisp\""); } textView.grabFocus(); setVisible(true); // redirect all I/O to problems/console redirectIO(); // start highlighter thread highlighter = new DisplayThread(250); highlighter.setDaemon(true); highlighter.start(); }