private void writeLogEntry(PrintWriter out, LogEntry logEntry) { if (logEntry.getEntriesCount() == 0) { return; } String message = logEntry.getMessage().replace(QUOTE_CHARACTER, QUOTE_SPECIAL_CHARACTER); message = message.replace(ANGLE_OPENING_BRACKET_CHARACTER, ANGLE_OPENING_BRACKET_SPECIAL_CHARACTER); message = message.replace(ANGLE_CLOSING_BRACKET_CHARACTER, ANGLE_CLOSING_BRACKET_SPECIAL_CHARACTER); out.println( MessageFormat.format( LOGENTRY_START_NODE, new String[] {message, Integer.toString(logEntry.getRevision()), logEntry.getDate()})); List<PathEntry> pathEntries = logEntry.getPathEntries(); for (PathEntry pathEntry : pathEntries) { out.println( MessageFormat.format( PATH_NODE, new String[] {pathEntry.getAction(), pathEntry.getPath()})); } out.println(LOGENTRY_END_NODE); }
/** * ** Gets the Localized value for the specified key. The default String text is return if ** the * specified key does not exist ** @param key The LocalStrings key ** @param dft The default * String text to return if the LocalStrings key does not exist ** @param args An array of * replacement fields ** @return The Localized String text */ public String getString(String key, String dft, Object args[]) { String val = this.getString(key, dft); if ((args != null) && (args.length > 0) && (val != null)) { try { MessageFormat mf = new MessageFormat(val); mf.setLocale(this.locale); StringBuffer sb = mf.format(args, new StringBuffer(), null); return I18N.decodeNewLine(sb).toString(); } catch (Throwable th) { Print.logInfo("Exception: " + key + " ==> " + val); } } return I18N.decodeNewLine(val); }
void open(java.lang.String name) { final java.lang.String textString; if (name == null || name.length() == 0) { return; } java.io.File file = new java.io.File(name); if (!file.exists()) { java.lang.String message = MessageFormat.format( resources.getString("Err_file_no_exist"), new java.lang.String[] {file.getName()}); displayError(message); return; } try { java.io.FileInputStream stream = new java.io.FileInputStream(file.getPath()); try { java.io.Reader in = new java.io.BufferedReader(new java.io.InputStreamReader(stream)); char[] readBuffer = new char[2048]; java.lang.StringBuffer buffer = new java.lang.StringBuffer((int) file.length()); int n; while ((n = in.read(readBuffer)) > 0) { buffer.append(readBuffer, 0, (-n)); } textString = buffer.toString(); stream.close(); } catch (java.io.IOException e) { java.lang.String message = MessageFormat.format( resources.getString("Err_file_io"), new java.lang.String[] {file.getName()}); displayError(message); return; } } catch (java.io.FileNotFoundException e) { java.lang.String message = MessageFormat.format( resources.getString("Err_not_found"), new java.lang.String[] {file.getName()}); displayError(message); return; } org.eclipse.swt.widgets.Display display = text.getDisplay(); display.asyncExec( new java.lang.Runnable() { public void run() { text.setText(textString); } }); lineStyler.parseBlockComments(textString); }
private String formatString( MLevel l, String srcClass, String srcMeth, String msg, Object[] params, Throwable t) { boolean add_parens = (srcMeth != null && !srcMeth.endsWith(")")); StringBuffer sb = new StringBuffer(256); sb.append(l.getLineHeader()); sb.append(' '); if (srcClass != null && srcMeth != null) { sb.append('['); sb.append(srcClass); sb.append('.'); sb.append(srcMeth); if (add_parens) sb.append("()"); sb.append(']'); } else if (srcClass != null) { sb.append('['); sb.append(srcClass); sb.append(']'); } else if (srcMeth != null) { sb.append('['); sb.append(srcMeth); if (add_parens) sb.append("()"); sb.append(']'); } if (msg == null) { if (params != null) { sb.append("params: "); for (int i = 0, len = params.length; i < len; ++i) { if (i != 0) sb.append(", "); sb.append(params[i]); } } } else { if (params == null) sb.append(msg); else { MessageFormat mfmt = new MessageFormat(msg); sb.append(mfmt.format(params)); } } if (t != null) { sb.append(SEP); sb.append(ThrowableUtils.extractStackTrace(t)); } return sb.toString(); }
public java.lang.String getResourceString(java.lang.String key, java.lang.Object[] args) { try { return MessageFormat.format(getResourceString(key), args); } catch (java.util.MissingResourceException e) { return key; } catch (java.lang.NullPointerException e) { return "!" + key + "!"; } }
/** * Return the specified localized text for a given locale and replace the parameters with an array * of arguments. * * @since 0.2 * @param key the text key in the resource bundle * @param locale the locale of the message * @param arguments the array of arguments */ public static String getText(String key, Locale locale, Object... arguments) { // localize the arguments Object[] arguments2 = new Object[arguments.length]; for (int i = 0; i < arguments.length; i++) { arguments2[i] = getLocalizedArgument(locale, arguments[i]); } return MessageFormat.format(getText(key, locale), arguments2); }
/** * Gets a string from the resource bundle and binds it with the given arguments. If the key is not * found, return the key. */ static String getResourceString(String key, Object[] args) { try { return MessageFormat.format(getResourceString(key), args); } catch (MissingResourceException e) { return key; } catch (NullPointerException e) { return "!" + key + "!"; // $NON-NLS-1$ //$NON-NLS-2$ } }
/** * getLocalizedMessage is used to localize the messages being used in exceptions with arguments * inserted appropriately. */ public static String getLocalizedMessage(Logger logger, String key, Object[] args) { try { ResourceBundle rb = logger.getResourceBundle(); String message = rb.getString(key); return MessageFormat.format(message, args); } catch (Exception ex) { logger.log(Level.FINE, "JTS:Error while localizing the log message"); return key; } }
public static String format(String message, Object[] args) { MessageFormat mf; String msg; try { mf = (MessageFormat) _formats.get(message); if (mf == null) { try { msg = _messages.getString(message); } catch (MissingResourceException except) { return message; } mf = new MessageFormat(msg); _formats.put(message, mf); } return mf.format(args); } catch (Exception except) { return "An internal error occured while processing message " + message; } }
@Override public void actionPerformed(ActionEvent e) { if (fc == null) { fc = new IDEFileChooser(); fc.setFileView(new IDEFileView()); fc.setAcceptAllFileFilterUsed(false); fc.setFileSelectionMode(JFileChooser.FILES_ONLY); fc.setMultiSelectionEnabled(false); fc.setDialogTitle( messagesBundle.getString("ImageViewerPanelSaveAction.Choose_filename_to_save_4")); //$NON-NLS-1$ // prepare file filters IIORegistry theRegistry = IIORegistry.getDefaultInstance(); Iterator it = theRegistry.getServiceProviders(ImageWriterSpi.class, false); while (it.hasNext()) { ImageWriterSpi writer = (ImageWriterSpi) it.next(); if ((imageType == BufferedImage.TYPE_INT_ARGB || imageType == BufferedImage.TYPE_INT_ARGB_PRE) && "JPEG".equals(writer.getFormatNames()[0].toUpperCase())) continue; ImageWriterSpiFileFilter ff = new ImageWriterSpiFileFilter(writer); fc.addChoosableFileFilter(ff); } } if (fc.showSaveDialog(viewerPanel) == JFileChooser.APPROVE_OPTION) { File selectedFile = fc.getSelectedFile(); if (selectedFile != null) { String fileName = selectedFile.getAbsolutePath(); ImageWriterSpiFileFilter ff = (ImageWriterSpiFileFilter) fc.getFileFilter(); if (!ff.hasCorrectSuffix(fileName)) fileName = ff.addSuffix(fileName); selectedFile = new File(fileName); if (selectedFile.exists()) { String message = MessageFormat.format( messagesBundle.getString("ImageViewerPanelSaveAction.Overwrite_question_5"), //$NON-NLS-1$ fileName); if (JOptionPane.NO_OPTION == JOptionPane.showConfirmDialog( viewerPanel, message, messagesBundle.getString("ImageViewerPanelSaveAction.Warning_6"), //$NON-NLS-1$ JOptionPane.YES_NO_OPTION, JOptionPane.WARNING_MESSAGE)) return; } writeToFile(selectedFile, ff); } } }
private void writeSummary(PrintWriter out) { out.println(SUMMARY_START_NODE); out.println( MessageFormat.format( CHANGES_START_NODE, new String[] {Integer.toString(getLogEntriesCount())})); List<String> authors = getAuthors(); for (String author : authors) { out.println( MessageFormat.format( AUTHOR_SUMMARY_NODE, new String[] { author, Integer.toString(getAuthorLogEntriesCount(author)), Integer.toString(getAuthorLogEntriesPercent(author)) })); } out.println(CHANGES_END_NODE); out.println(SUMMARY_END_NODE); }
@Override public synchronized String toString() { return STAND_ALONE_ENTRY_FORMAT.format( new Object[] { query == null ? "TOTALS" : query, numQueries, (queriesPrepared - queriesCompiled) / (double) queriesPrepared, queryTime, queryCompilationTime, queryPreparationTime, queryRunTime, queryTime * 1000 / numQueries, queriesCompiled == 0 ? 0 : queryCompilationTime * 1000 / queriesCompiled, queriesPrepared == 0 ? 0 : queryPreparationTime * 1000 / queriesPrepared, queriesRun == 0 ? 0 : queryRunTime * 1000 / queriesRun }); }
public synchronized String toString(int maxCountLength, double totalDuration) { String formattedCount = String.format("%" + maxCountLength + "s", COUNT_FORMAT.format(numQueries)); return FULL_ENTRY_FORMAT.format( new Object[] { query == null ? "TOTALS" : query, formattedCount, (queriesPrepared - queriesCompiled) / (double) queriesPrepared, queryTime, queryCompilationTime, queryPreparationTime, queryRunTime, queryTime * 1000 / numQueries, queriesCompiled == 0 ? 0 : queryCompilationTime * 1000 / queriesCompiled, queriesPrepared == 0 ? 0 : queryPreparationTime * 1000 / queriesPrepared, queriesRun == 0 ? 0 : queryRunTime * 1000 / queriesRun, queryTime / totalDuration }); }
public String getDayUrl(int dayOfWeek) { String part = ""; switch (dayOfWeek) { case Calendar.MONDAY: part = "pondeli"; break; case Calendar.TUESDAY: part = "utery"; break; case Calendar.WEDNESDAY: part = "streda"; break; case Calendar.THURSDAY: part = "ctvrtek"; break; case Calendar.FRIDAY: part = "patek"; break; } return MessageFormat.format("{0}/{1}", urlPrefix, part); }
private String stats() { String minString, averageString, maxString, totalString, deviationString; // compute string representing stats values if (valueCount == 0) { minString = "0"; averageString = "0"; maxString = "0"; totalString = "0"; deviationString = "0"; } else { minString = ((long) (minValue / outputFactor)) + ""; maxString = ((long) (maxValue / outputFactor)) + ""; totalString = ((long) (totalCount / outputFactor)) + ""; if (minValue == maxValue) { averageString = minString; deviationString = "0"; } else { double average = totalCount / valueCount / outputFactor; double deviation = sqrt((totalCount2 / valueCount) - average * average); averageString = Double.toString(average); deviationString = Double.toString(deviation); } } // return stats values according to format String[] args = new String[] { averageString, valueCount + "", deviationString, minString, maxString, nullCount + "", totalString }; return outputFormat.format(args); }
private void writeChanges(PrintWriter out) { List<String> authors = getAuthors(); for (String author : authors) { List<LogEntry> logEntries = getOrderedAuthorLogEntries(author); if (logEntries == null || logEntries.isEmpty()) { continue; } out.println( MessageFormat.format( AUTHOR_START_NODE, new String[] { author, Integer.toString(getAuthorLogEntriesCount(author)), Integer.toString(logEntries.size()) })); for (LogEntry logEntry : logEntries) { writeLogEntry(out, logEntry); } out.println(AUTHOR_END_NODE); } }
public static String getTimeShow(String dateString) { Date thenDate = stringToDate(dateString); Calendar then = Calendar.getInstance(); then.setTime(thenDate); Calendar current = Calendar.getInstance(); long differ = current.getTimeInMillis() - then.getTimeInMillis(); if (differ < 0) { return "Milai"; } else { if (differ >= 0L && differ < 300000L) { return "Just now"; } if (differ >= 300000L && differ < 10800000L) { return MessageFormat.format("{0}:{1}", then.get(Calendar.HOUR), then.get(Calendar.MINUTE)); } if (then.get(Calendar.YEAR) != current.get(Calendar.YEAR)) { return MessageFormat.format( "{0}/{1}/{2}", then.get(Calendar.YEAR) - 2000, then.get(Calendar.MONTH), then.get(Calendar.DATE)); } if (current.get(Calendar.DAY_OF_YEAR) - then.get(Calendar.DAY_OF_YEAR) == 1) { return "Yesterday"; } if (then.get(Calendar.MONTH) != current.get(Calendar.MONTH)) { MDebug.log("[DATE]" + then.get(Calendar.DATE)); return MessageFormat.format( "{0}/{1}/{2}", then.get(Calendar.YEAR) - 2000, then.get(Calendar.MONTH), then.get(Calendar.DAY_OF_MONTH)); } int dayDiff = current.get(Calendar.DAY_OF_MONTH) - then.get(Calendar.DAY_OF_MONTH); if (dayDiff > 7) { return MessageFormat.format( "{0}/{1}/{2}", then.get(Calendar.YEAR) - 2000, then.get(Calendar.MONTH), then.get(Calendar.DATE)); } else { if (dayDiff == 0) { int hour = then.get(Calendar.HOUR); if (0 <= hour && hour < 5) { return "MidNight"; } else if (5 <= hour && hour < 12) { return "BeforeNoon"; } else if (12 <= hour && hour < 19) { return "AfterNoon"; } else if (19 <= hour && hour != 0) { return "Night"; } } if (current.get(Calendar.WEEK_OF_MONTH) == then.get(Calendar.WEEK_OF_MONTH)) { return getDayString(then.get(Calendar.DAY_OF_WEEK)); } else { return MessageFormat.format( "{0}/{1}/{2}", then.get(Calendar.YEAR) - 2000, then.get(Calendar.MONTH), then.get(Calendar.DATE)); } } } }
private void throwException(String operation, DataElement element) { throw new IllegalArgumentException( MessageFormat.format( TEMPLATE, new Object[] {operation, element, this.getClass().getName()})); }
public int doEndTag() throws JspException { String pattern = this.pattern; ResourceBundle bundle = null; // get pattern from bundle if (pattern == null) { String prefix = null; bundle = this.bundle; if (bundle == null) { BundleTag bundleTag = (BundleTag) findAncestorWithClass(this, BundleTag.class); if (bundleTag != null) { bundle = bundleTag.getBundle(); prefix = bundleTag.getPrefix(); } } if (bundle == null) { bundle = I18nUtil.findBundle(pageContext); } // get message try { pattern = bundle.getString(prefix != null ? prefix + this.key : this.key); } catch (Exception e) { pattern = "???" + this.key + "???"; } } // format message String message = pattern; if ((this.pattern != null || bundle != null) && this.params.size() != 0) { // set timezone on formatters TimeZone timeZone = null; TimeZoneTag timeZoneTag = (TimeZoneTag) findAncestorWithClass(this, TimeZoneTag.class); if (timeZoneTag != null) timeZone = timeZoneTag.getTimeZone(); if (timeZone == null) timeZone = I18nUtil.findTimeZone(pageContext); MessageFormat formatter = new MessageFormat(pattern, I18nUtil.findLocale(pageContext)); for (Format format : formatter.getFormatsByArgumentIndex()) { if (format != null && format instanceof DateFormat) { ((DateFormat) format).setTimeZone(timeZone); } } // now format! message = formatter.format(getParams()); } // output text if (this.var == null) { try { pageContext.getOut().print(message); } catch (IOException e) { throw new JspException(e); } } // store result else { pageContext.setAttribute(this.var, message, this.scope); } // clear old state this.pattern = null; this.bundle = null; this.key = null; this.var = null; this.scope = PageContext.PAGE_SCOPE; // continue with page return EVAL_PAGE; }
private void _displayImgInFrame() { final JFrame frame = new JFrame("Google Static Map"); GUIUtils.setAppIcon(frame, "71.png"); // frame.setDefaultCloseOperation(DISPOSE_ON_CLOSE); JLabel imgLbl = new JLabel(new ImageIcon(_img)); imgLbl.setToolTipText( MessageFormat.format( "<html>Image downloaded from URI<br>size: w={0}, h={1}</html>", _img.getWidth(), _img.getHeight())); GUIUtils.centerOnScreen(frame); frame.setVisible(true); frame.setContentPane(imgLbl); frame.pack(); frame.setResizable(false); imgLbl.addMouseListener( new MouseListener() { public void mouseClicked(MouseEvent e) {} public void mousePressed(MouseEvent e) { System.out.println("Mouse Listener: Mouse Clicked!"); mapIsUp = 1; sentX = 0.00; clickX = e.getX(); // Latitude clickY = e.getY(); // Longitude if ((clickX < (_img.getWidth() / 2)) && (clickY < (_img.getHeight() / 2))) { // 1st quadrant positive values sentX = Double.parseDouble(ttfLati.getText()) + (((-1 * (_img.getWidth() / 2)) + clickX) * pixelX); // Add to latitude sentY = Double.parseDouble(ttfLongi.getText()) + (((_img.getHeight() / 2) - clickY) * pixelY); // Add to Longitude System.out.println("Top left"); } else if ((clickX > (_img.getWidth() / 2)) && (clickY > (_img.getHeight() / 2))) { // 2nd quadrant negative values sentX = Double.parseDouble(ttfLati.getText()) + (((-1 * (_img.getHeight() / 2)) + clickX) * pixelX); sentY = Double.parseDouble(ttfLongi.getText()) + (((_img.getHeight() / 2) - clickY) * pixelY); System.out.println("Bottom Right"); } else if ((clickX < (_img.getWidth() / 2)) && (clickY > (_img.getHeight() / 2))) { // 3rd quadrant 1 positive 1 negative sentX = Double.parseDouble(ttfLati.getText()) + (((-1 * (_img.getWidth() / 2)) + clickX) * pixelX); sentY = Double.parseDouble(ttfLongi.getText()) + (((_img.getHeight() / 2) - clickY) * pixelY); System.out.println("Bottom Left"); } else { // 3rd quadrant 1 positive 1 negative sentX = Double.parseDouble(ttfLati.getText()) + (((-1 * (_img.getHeight() / 2)) + clickX) * pixelX); sentY = Double.parseDouble(ttfLongi.getText()) + (((_img.getHeight() / 2) - clickY) * pixelY); System.out.println("Top Right"); } BigDecimal toCoordsX = new BigDecimal(sentX); BigDecimal toCoordsY = new BigDecimal(sentY); sentX = (toCoordsX.setScale(6, BigDecimal.ROUND_HALF_UP)) .doubleValue(); // allows values of up to 6 decimal places sentY = (toCoordsY.setScale(6, BigDecimal.ROUND_HALF_UP)).doubleValue(); getCoords = sentX + " " + sentY; ttfLati.setText(Double.toString(sentX)); ttfLongi.setText(Double.toString(sentY)); System.out.println("... saving Coordinates"); saveLocation( getCoords); // pass getCoords through saveLocation. this string is appended to the // savedLocations file. System.out.println("... savedCoordinates"); // Update the Locations ComboBox with new additions ttfSave.removeAllItems(); // re-populate the ComboBox System.out.println("removed items"); getSavedLocations(); // run through file to get all locations for (int i = 0; i < loc.size(); i++) ttfSave.addItem(loc.get(i)); System.out.println("update combobox"); mapIsUp = 0; frame.dispose(); // closes window startTaskAction(); // pops up a new window } public void saveLocation(String xy) { BufferedWriter f = null; // created a bufferedWriter object try { f = new BufferedWriter( new FileWriter( "savedLocations.txt", true)); // evaluated true if file has not been created yet f.write(xy); // append passed coordinates and append to file if exists f.newLine(); f.flush(); } catch (IOException ioe) { ioe.printStackTrace(); } finally { // close the file if (f != null) { try { f.close(); } catch (IOException e) { // any error, catch exception System.err.println("Error: " + e.getMessage()); } } } } public void mouseReleased(MouseEvent e) {} public void mouseEntered(MouseEvent e) {} public void mouseExited(MouseEvent e) {} }); }
/** * Parse the section file and fill in the Dbase. * * @return Success code */ public void parse() throws Exception { JOAParameter tempProperties[] = new JOAParameter[100]; FileInputStream in = null; DataInputStream inData = null; short inShort = 0; long bytesRead = 0; long bytesInFile = mFile.length(); short[] sarray = new short[1]; int mTotalStns = 0; EPSProgressDialog mProgress = new EPSProgressDialog(new Frame(), mProgressStr, Color.blue); mProgress.setVisible(true); // Get an epic key database specific to JOA EPIC_Key_DB mEpicKeyDB = new EPIC_Key_DB("joa_epic.key"); // Get an epic key database specific to JOA EPIC_Key_DB mOrigEpicKeyDB = new EPIC_Key_DB("epic.key"); // create a vector for temporary storage of the dbases Vector dBases = new Vector(100); try { in = new FileInputStream(mFile); BufferedInputStream bis = new BufferedInputStream(in, 1000000); inData = new DataInputStream(bis); // read version short vers = inData.readShort(); bytesRead += 2; if (vers < 2) { FileImportException fiex = new FileImportException(); String errStr = "Invalid version for a JOA binary file"; fiex.setErrorType(errStr); throw fiex; } // read number of bytes in file description string inShort = inData.readShort(); bytesRead += 2; // read the file description String byte buf[] = new byte[inShort]; inData.read(buf, 0, inShort); String fileDescrip = new String(buf); bytesRead += inShort; // create a new open file object JOADataFile of = new JOADataFile(fileDescrip); // read the number of sections int numSections = inData.readShort(); bytesRead += 2; // read each section JOASection sech; int ord = 0; for (int s = 0; s < numSections; s++) { mProgress.setPercentComplete(100.0 * ((double) bytesRead / (double) bytesInFile)); // read the section header inShort = inData.readShort(); bytesRead += 2; byte buf1[] = new byte[inShort]; inData.read(buf1, 0, inShort); String sectionDescrip = new String(buf1); bytesRead += inShort; // read the ship code byte bufsc[] = new byte[2]; bufsc[0] = inData.readByte(); bufsc[1] = inData.readByte(); String shipCode = new String(bufsc); bytesRead += 2; // read num casts int numCasts = inData.readShort(); bytesRead += 2; // read num parameters int numVars = inData.readShort(); bytesRead += 2; // quality code int qcStd = 1; if (vers == 4) { qcStd = inData.readShort(); bytesRead += 2; } // create a new section of.mNumSections++; sech = new JOASection(of.mNumSections, sectionDescrip, shipCode, numCasts, numVars); if (vers == 2) { // read the properties byte bufv[] = new byte[4]; for (int p = 0; p < numVars; p++) { // parameter name inData.read(bufv, 0, 4); String tempVar = new String(bufv); bytesRead += 4; // units inShort = inData.readShort(); bytesRead += 2; String units = null; if (inShort > 0) { byte buf11[] = new byte[inShort]; inData.read(buf11, 0, inShort); units = new String(buf11); bytesRead += inShort; } // convert varnames to UC tempVar.toUpperCase(); // create new property tempProperties[p] = new JOAParameter(tempVar, units); // add this property to the section property list if (tempProperties[p].mUnits == null) { tempProperties[p].mUnits = EPS_Util.paramNameToJOAUnits(false, tempProperties[0].mVarLabel); } if (tempProperties[p].mUnits == null) { tempProperties[p].mUnits = new String("na"); } tempProperties[p].mCastOrObs = EPSConstants.ALL_OBS; // read the actual scale int actScale = inData.readShort(); bytesRead += 2; if (actScale != 0) tempProperties[p].mActScale = 1.0 / (double) actScale; else tempProperties[p].mActScale = 1.0; // read the actual origin int actOrigin = inData.readShort(); tempProperties[p].mActOrigin = (double) actOrigin * tempProperties[p].mActScale; // read reverse y int reverseY = inData.readShort(); bytesRead += 2; if (reverseY == 0) tempProperties[p].mReverseY = false; else tempProperties[p].mReverseY = true; tempProperties[p].mWasCalculated = false; } } else { // read the properties String tempVar = null; for (int p = 0; p < numVars; p++) { // length of parameter name inShort = inData.readShort(); bytesRead += 2; // parameter name if (inShort > 0) { byte buf13[] = new byte[inShort]; inData.read(buf13, 0, inShort); tempVar = new String(buf13); bytesRead += inShort; } // units inShort = inData.readShort(); bytesRead += 2; String units = null; if (inShort > 0) { byte buf11[] = new byte[inShort]; inData.read(buf11, 0, inShort); units = new String(buf11); bytesRead += inShort; } // convert varnames to UC tempVar = tempVar.toUpperCase(); // create new property tempProperties[p] = new JOAParameter(tempVar, units); // add this property to the section property list if (tempProperties[p].mUnits == null) { tempProperties[p].mUnits = EPS_Util.paramNameToJOAUnits(false, tempProperties[0].mVarLabel); } if (tempProperties[p].mUnits == null) { tempProperties[p].mUnits = new String("na"); } tempProperties[p].mCastOrObs = EPSConstants.ALL_OBS; // read the actual scale int actScale = inData.readShort(); bytesRead += 2; if (actScale != 0) tempProperties[p].mActScale = 1.0 / (double) actScale; else tempProperties[p].mActScale = 1.0; // read the actual origin int actOrigin = inData.readShort(); tempProperties[p].mActOrigin = (double) actOrigin * tempProperties[p].mActScale; // read reverse y int reverseY = inData.readShort(); bytesRead += 2; if (reverseY == 0) tempProperties[p].mReverseY = false; else tempProperties[p].mReverseY = true; tempProperties[p].mWasCalculated = false; } } // read the cast headers for (int c = 0; c < numCasts; c++) { // read station number inShort = inData.readShort(); bytesRead += 2; byte bufx[] = new byte[inShort]; inData.read(bufx, 0, inShort); String stnNum = new String(bufx); bytesRead += inShort; // read cast number int castNum = inData.readShort(); bytesRead += 2; double myLat = 0.0; double myLon = 0.0; if (vers == 2) { // read latitude/lon int lat = inData.readInt(); bytesRead += 4; int lon = inData.readInt(); bytesRead += 4; myLat = lat * 0.001; myLon = lon * 0.001; } else if (vers > 2) { // read latitude/lon myLat = inData.readDouble(); bytesRead += 8; myLon = inData.readDouble(); bytesRead += 4; } // read number of bottles int numBottles = inData.readShort(); bytesRead += 2; // read the date int year = inData.readInt(); bytesRead += 4; int month = inData.readInt(); bytesRead += 4; int day = inData.readInt(); bytesRead += 4; int hour = inData.readInt(); bytesRead += 4; double min = inData.readDouble(); bytesRead += 8; // read bottom int bottomdbar = inData.readInt(); // read station quality int stnQual = inData.readShort(); bytesRead += 2; ord++; JOAStation sh = new JOAStation( ord, shipCode, stnNum, castNum, myLat, myLon, numBottles, year, month, day, hour, min, bottomdbar, stnQual); sech.mStations.addElement(sh); sh.setType("JOA BOTTLE"); // make a DBase object Dbase db = new Dbase(); // add the global attributes db.addEPSAttribute( "CRUISE", EPCHAR, sech.mSectionDescription.length(), sech.mSectionDescription); db.addEPSAttribute("CAST", EPCHAR, sh.mStnNum.length(), sh.mStnNum); sarray[0] = (short) sh.mBottomDepthInDBARS; db.addEPSAttribute("WATER_DEPTH", EPSHORT, 1, sarray); db.addEPSAttribute("DATA_ORIGIN", EPCHAR, sech.mShipCode.length(), sech.mShipCode); String dType = sh.getType(); if (dType == null) dType = "UNKN"; db.addEPSAttribute("DATA_TYPE", EPCHAR, dType.length(), dType); sarray[0] = (short) stnQual; db.addEPSAttribute("STN_QUALITY", EPSHORT, 1, sarray); db.setDataType("JOA BOTTLE"); // add to temporary collection dBases.addElement(db); } int start = mTotalStns; int end = sech.mStations.size() + mTotalStns; for (int sc = start; sc < end; sc++) { mProgress.setPercentComplete(100.0 * ((double) bytesRead / (double) bytesInFile)); // get a dBase Dbase db = (Dbase) dBases.elementAt(sc); // get a station JOAStation sh = (JOAStation) sech.mStations.elementAt(sc - start); // create an array of arrays to store the data double[][] va = new double[sech.mNumVars][sh.mNumBottles]; int[][] qc = new int[sech.mNumVars][sh.mNumBottles]; short[] bqc = new short[sh.mNumBottles]; int presPos = 0; // read the bottles for (int b = 0; b < sh.mNumBottles; b++) { // read the bottle quality code bqc[b] = inData.readShort(); bytesRead += 2; for (int v = 0; v < sech.mNumVars; v++) { // store the position of the PRES variable if (tempProperties[v].mVarLabel.equals("PRES")) presPos = v; // get the measured parameter double dVarVal = EPSConstants.MISSINGVALUE; try { dVarVal = inData.readDouble(); } catch (IOException e) { FileImportException fiex = new FileImportException(); String errStr = "Error reading the parameter data. " + "\n" + "Bottle #" + b + " Parameter #" + v; fiex.setErrorType(errStr); throw fiex; } bytesRead += 8; // store the value in the multidimensional array va[v][b] = dVarVal; // get the quality flag short flag = (short) EPSConstants.MISSINGVALUE; try { flag = inData.readShort(); } catch (IOException e) { FileImportException fiex = new FileImportException(); String errStr = "Error reading the parameter quality code. " + "\n" + "Bottle #" + b + " Parameter #" + v; fiex.setErrorType(errStr); throw fiex; } bytesRead += 2; qc[v][b] = flag; } // for v } // for b // add the bottle quality codes as an attribute db.addEPSAttribute("BOTTLE_QUALITY_CODES", EPSHORT, sh.mNumBottles, bqc); // create the axes time = 0, depth = 1, lat = 2, lon = 3 Axis timeAxis = new Axis(); Axis zAxis = new Axis(); Axis latAxis = new Axis(); Axis lonAxis = new Axis(); // time axis timeAxis.setName("time"); timeAxis.setTime(true); timeAxis.setUnlimited(false); timeAxis.setAxisType(EPTAXIS); timeAxis.setLen(1); int hour = 0; if (sh.mHour != EPSConstants.MISSINGVALUE) hour = sh.mHour; double mins = 0; if (sh.mMinute != EPSConstants.MISSINGVALUE) mins = sh.mMinute; // make the time axis units String date = "days since "; int min = (int) mins; double fmin = mins - min; int secs = (int) (fmin * 60.0); double fsec = (fmin * 60.0) - secs; int msec = (int) (fsec * 1000.0); String fs = String.valueOf(fsec); fs = fs.substring(fs.indexOf(".") + 1, fs.length()).trim(); int f = 0; if (fs != null && fs.length() > 0) f = Integer.valueOf(fs).intValue(); // sprintf(time_string,"%04d-%02d-%02d %02d:%02d:%02d.%03d",yr,mon,day,hr,min,sec,f); String frmt = new String( "{0,number,####}-{1,number,00}-{2,number,00} {3,number,00}:{4,number,00}:{5,number,00}.{6,number,000}"); MessageFormat msgf = new MessageFormat(frmt); Object[] objs = { new Integer(sh.mYear), new Integer(sh.mMonth), new Integer(sh.mDay), new Integer(hour), new Integer(min), new Integer(secs), new Integer(f) }; StringBuffer out = new StringBuffer(); msgf.format(objs, out, null); String time_string = new String(out); date = date + time_string; timeAxis.addAttribute(0, "units", EPCHAR, date.length(), date); timeAxis.setUnits(date); GeoDate gd = null; try { gd = new GeoDate(sh.mMonth, sh.mDay, sh.mYear, hour, min, secs, msec); GeoDate[] ta = {gd}; MultiArray tma = new ArrayMultiArray(ta); timeAxis.setData(tma); db.setAxis(timeAxis); } catch (Exception ex) { GeoDate[] ta = {new GeoDate()}; MultiArray tma = new ArrayMultiArray(ta); timeAxis.setData(tma); db.setAxis(timeAxis); } // add the time axes variable EPSVariable var = new EPSVariable(); var.setOname("time"); var.setDtype(EPDOUBLE); var.setVclass(Double.TYPE); var.addAttribute(0, "units", EPCHAR, date.length(), date); var.setUnits(date); double[] vta = {0.0}; MultiArray vtma = new ArrayMultiArray(vta); try { var.setData(vtma); } catch (Exception ex) { } db.addEPSVariable(var); // z axis zAxis.setName("depth"); zAxis.setTime(false); zAxis.setUnlimited(false); zAxis.setLen(sh.mNumBottles); zAxis.setAxisType(EPZAXIS); zAxis.addAttribute(0, "FORTRAN_format", EPCHAR, 5, "f10.1"); zAxis.addAttribute(1, "units", EPCHAR, 4, "dbar"); zAxis.setUnits("dbar"); zAxis.setFrmt("f10.1"); // zAxis.addAttribute(2, "type", EPCHAR, 0, ""); sarray[0] = 1; zAxis.addAttribute(2, "epic_code", EPSHORT, 1, sarray); double[] za = new double[sh.mNumBottles]; for (int b = 0; b < sh.mNumBottles; b++) { za[b] = va[presPos][b]; } MultiArray zma = new ArrayMultiArray(za); zAxis.setData(zma); db.setAxis(zAxis); // add the z axes variables var = new EPSVariable(); var.setOname("depth"); var.setDtype(EPDOUBLE); var.setVclass(Double.TYPE); var.addAttribute(0, "FORTRAN_format", EPCHAR, 5, "f10.1"); var.addAttribute(1, "units", EPCHAR, 4, "dbar"); var.setUnits("dbar"); var.setFrmt("f10.1"); // var.addAttribute(2, "type", EPCHAR, 0, ""); sarray[0] = 1; var.addAttribute(2, "epic_code", EPSHORT, 1, sarray); MultiArray zvma = new ArrayMultiArray(za); try { var.setData(zvma); } catch (Exception ex) { } db.addEPSVariable(var); // lat axis latAxis.setName("latitude"); latAxis.setTime(false); latAxis.setUnlimited(false); latAxis.setLen(1); latAxis.setAxisType(EPYAXIS); latAxis.addAttribute(0, "FORTRAN_format", EPCHAR, 5, "f10.4"); latAxis.addAttribute(1, "units", EPCHAR, 7, "degrees"); latAxis.setUnits("degrees"); latAxis.setFrmt("f10.4"); // latAxis.addAttribute(2, "type", EPCHAR, 0, ""); sarray[0] = 500; latAxis.addAttribute(2, "epic_code", EPSHORT, 1, sarray); double lat = sh.mLat; double[] la = {lat}; MultiArray lma = new ArrayMultiArray(la); latAxis.setData(lma); db.setAxis(latAxis); // add the y axes variable var = new EPSVariable(); var.setOname("latitude"); var.setDtype(EPDOUBLE); var.setVclass(Double.TYPE); var.addAttribute(0, "FORTRAN_format", EPCHAR, 5, "f10.4"); var.addAttribute(1, "units", EPCHAR, 7, "degrees"); var.setUnits("degrees"); var.setFrmt("f10.4"); // var.addAttribute(2, "type", EPCHAR, 0, ""); sarray[0] = 500; var.addAttribute(2, "epic_code", EPSHORT, 1, sarray); MultiArray yvma = new ArrayMultiArray(la); try { var.setData(yvma); } catch (Exception ex) { } db.addEPSVariable(var); // lon axis lonAxis.setName("longitude"); lonAxis.setTime(false); lonAxis.setUnlimited(false); lonAxis.setLen(1); lonAxis.setAxisType(EPXAXIS); lonAxis.addAttribute(0, "FORTRAN_format", EPCHAR, 5, "f10.4"); lonAxis.addAttribute(1, "units", EPCHAR, 7, "degrees"); lonAxis.setUnits("degrees"); lonAxis.setFrmt("f10.4"); // lonAxis.addAttribute(2, "type", EPCHAR, 0, ""); sarray[0] = 502; lonAxis.addAttribute(2, "epic_code", EPSHORT, 1, sarray); double lon = sh.mLon; double[] lla = {lon}; lma = new ArrayMultiArray(lla); lonAxis.setData(lma); db.setAxis(lonAxis); // add the x axes variable var = new EPSVariable(); var.setOname("longitude"); var.setDtype(EPDOUBLE); var.setVclass(Double.TYPE); var.addAttribute(0, "FORTRAN_format", EPCHAR, 5, "f10.4"); var.addAttribute(1, "units", EPCHAR, 7, "degrees"); var.setUnits("degrees"); var.setFrmt("f10.4"); // var.addAttribute(2, "type", EPCHAR, 0, ""); sarray[0] = 502; var.addAttribute(2, "epic_code", EPSHORT, 1, sarray); MultiArray xvma = new ArrayMultiArray(lla); try { var.setData(xvma); } catch (Exception ex) { } db.addEPSVariable(var); // add the measured variables for (int v = 0; v < sech.mNumVars; v++) { // if (presPos == v) // continue; // create an array of measured EPSVariables for this database EPSVariable epsVar = new EPSVariable(); // initialize the new EPSVariables // look this variable up in JOA EPIC_Key. find matching entry in original EPIC Key String oname = tempProperties[v].mVarLabel; String sname = null; String lname = null; String gname = null; String units = null; String ffrmt = null; int keyID = -99; int type = -99; try { keyID = mEpicKeyDB.findKey(tempProperties[v].mVarLabel); Key key = mOrigEpicKeyDB.findKey(keyID); gname = key.getGname(); sname = key.getSname(); lname = key.getLname(); units = key.getUnits(); ffrmt = key.getFrmt(); type = key.getType(); } catch (Exception e) { lname = tempProperties[v].mVarLabel; gname = tempProperties[v].mVarLabel; sname = tempProperties[v].mVarLabel; units = tempProperties[v].mUnits; } // make a new variable epsVar = new EPSVariable(); epsVar.setOname(oname); epsVar.setSname(sname); epsVar.setLname(lname); epsVar.setGname(gname); epsVar.setDtype(EPDOUBLE); epsVar.setVclass(Double.TYPE); int numAttributes = 0; if (ffrmt != null) { epsVar.addAttribute(numAttributes++, "FORTRAN_format", EPCHAR, ffrmt.length(), ffrmt); epsVar.setFrmt(ffrmt); } if (units != null && units.length() > 0) { epsVar.addAttribute(numAttributes++, "units", EPCHAR, units.length(), units); epsVar.setUnits(units); } if (keyID >= 0) { sarray[0] = (short) type; // epsVar.addAttribute(numAttributes++, "type", EPSHORT, 1, sarray); } if (keyID >= 0) { sarray[0] = (short) keyID; epsVar.addAttribute(numAttributes++, "epic_code", EPSHORT, 1, sarray); } // add the quality code attribute String qcVar = oname + "_QC"; epsVar.addAttribute(numAttributes++, "OBS_QC_VARIABLE", EPCHAR, qcVar.length(), qcVar); // connect variable to axis epsVar.setDimorder(0, 0); epsVar.setDimorder(1, 1); epsVar.setDimorder(2, 2); epsVar.setDimorder(3, 3); epsVar.setT(timeAxis); epsVar.setZ(zAxis); epsVar.setY(latAxis); epsVar.setX(lonAxis); // set the data // create storage for the measured variables double[][][][] vaa = new double[1][sh.mNumBottles][1][1]; for (int b = 0; b < sh.mNumBottles; b++) { vaa[0][b][0][0] = va[v][b]; } MultiArray mdma = new ArrayMultiArray(vaa); try { epsVar.setData(mdma); } catch (Exception ex) { System.out.println("throwing"); } // add the variable to the database db.addEPSVariable(epsVar); // create the quality code variable epsVar = new EPSVariable(); epsVar.setOname(oname + "_QC"); epsVar.setSname(sname + "_QC"); epsVar.setLname(sname + "_QC"); epsVar.setGname(sname + "_QC"); epsVar.setDtype(EPSHORT); epsVar.setVclass(Short.TYPE); // connect variable to axis epsVar.setDimorder(0, 0); epsVar.setDimorder(1, 1); epsVar.setDimorder(2, 2); epsVar.setDimorder(3, 3); epsVar.setT(timeAxis); epsVar.setZ(zAxis); epsVar.setY(latAxis); epsVar.setX(lonAxis); // set the data // create storage for the qc variables short[][][][] qcaa = new short[1][sh.mNumBottles][1][1]; for (int b = 0; b < sh.mNumBottles; b++) { qcaa[0][b][0][0] = (short) qc[v][b]; } MultiArray qcma = new ArrayMultiArray(qcaa); try { epsVar.setData(qcma); } catch (Exception ex) { System.out.println("throwing"); } // add the qc variable to the database db.addEPSVariable(epsVar); } // for v } mTotalStns += numCasts; } // for sc // read the file comments StringBuffer sb = null; while (true) { try { // read continuation line inShort = inData.readShort(); bytesRead += 2; if (inShort == 1) { // read number of bytes in file description string inShort = inData.readShort(); bytesRead += 2; // read the file description String byte buf2[] = new byte[inShort]; inData.read(buf2, 0, inShort); String commentLine = new String(buf2); bytesRead += inShort; if (sb == null) sb = new StringBuffer(commentLine); else sb.append(commentLine); } } catch (IOException e) { break; } } // while true if (sb != null) { // make attributes for the comments mOwnerDBase.setDataComment(new String(sb)); } // make a sub database in the dbase mOwnerDBase.createSubEntries(mTotalStns, mFile.getName()); for (int d = 0; d < mTotalStns; d++) { Dbase db = (Dbase) dBases.elementAt(d); mOwnerDBase.addSubEntry(db); } mProgress.setPercentComplete(100.0); mProgress.setVisible(false); mProgress.dispose(); in.close(); } catch (IOException e) { mProgress.setVisible(false); mProgress.dispose(); throw e; } }