// Function use to Save Records to File After Deleting the Record of User Choice. void deleteFile() { try { FileOutputStream fos = new FileOutputStream("Bank.dat"); DataOutputStream dos = new DataOutputStream(fos); if (records != null) { for (int i = 0; i < total; i++) { for (int r = 0; r < 6; r++) { dos.writeUTF(records[i][r]); if (records[i][r] == null) break; } } JOptionPane.showMessageDialog( this, "Record has been Deleted Successfuly.", "BankSystem - Record Deleted", JOptionPane.PLAIN_MESSAGE); txtClear(); } else { } dos.close(); fos.close(); } catch (IOException ioe) { JOptionPane.showMessageDialog( this, "There are Some Problem with File", "BankSystem - Problem", JOptionPane.PLAIN_MESSAGE); } }
public static void writeLogFile(String descript, String filename) { File file; FileOutputStream outstream; // BufferedWriter outstream; Date time = new Date(); long bytes = 30000000; try { // Get log file String logfile = "C:\\" + filename + ".txt"; file = new File(logfile); boolean exists = file.exists(); if (!exists) { // create a new, empty node file try { file = new File(logfile); boolean success = file.createNewFile(); } catch (IOException e) { System.out.println("Create Event Log file failed!"); } } try { descript = descript + "\n"; outstream = new FileOutputStream(file, true); for (int i = 0; i < descript.length(); ++i) { outstream.write((byte) descript.charAt(i)); } outstream.close(); } catch (IOException e) { } } catch (java.lang.Exception e) { } }
public void saveState(String extension) { String directory = (cartridge.romFileName + extension); try { FileOutputStream fl = new FileOutputStream(directory); DataOutputStream sv = new DataOutputStream(fl); saveData(sv, directory); // write battery ram cartridge.saveData(sv, directory); // write graphic memory graphicsChip.saveData(sv, directory); // write io state ioHandler.saveData(sv, directory); // stats.printStats(); sv.close(); fl.close(); } catch (FileNotFoundException e) { System.out.println("Dmgcpu.saveState: Could not open file " + directory); System.out.println("Error Message: " + e.getMessage()); System.exit(-1); } catch (IOException e) { System.out.println("Dmgcpu.saveState: Could not write to file " + directory); System.out.println("Error Message: " + e.getMessage()); System.exit(-1); } System.out.println("Saved stage!"); }
public static void saveJPG(Image img, String s) { BufferedImage bi = new BufferedImage(img.getWidth(null), img.getHeight(null), BufferedImage.TYPE_INT_RGB); Graphics2D g2 = bi.createGraphics(); g2.drawImage(img, null, null); FileOutputStream out = null; try { out = new FileOutputStream(s); } catch (java.io.FileNotFoundException io) { System.out.println("File Not Found"); } JPEGImageEncoder encoder = JPEGCodec.createJPEGEncoder(out); JPEGEncodeParam param = encoder.getDefaultJPEGEncodeParam(bi); param.setQuality(0.5f, false); encoder.setJPEGEncodeParam(param); try { encoder.encode(bi); out.close(); } catch (java.io.IOException io) { System.out.println("IOException"); } }
private void saveBin() { fileChooser.resetChoosableFileFilters(); fileChooser.addChoosableFileFilter(binFilter); fileChooser.setFileFilter(binFilter); if (fileChooser.showSaveDialog(frame) == JFileChooser.APPROVE_OPTION) { try { File file = fileChooser.getSelectedFile(); if (fileChooser.getFileFilter() == binFilter && !binFilter.accept(file)) { file = new File(file.getAbsolutePath() + binFilter.getExtensions()[0]); } if (file.exists()) { if (JOptionPane.showConfirmDialog( frame, "File exists. Overwrite?", "Confirm", JOptionPane.YES_NO_OPTION) != JOptionPane.YES_OPTION) { return; } } FileOutputStream output = new FileOutputStream(file); for (char i : binary) { output.write(i & 0xff); output.write((i >> 8) & 0xff); } output.close(); } catch (IOException e1) { JOptionPane.showMessageDialog( frame, "Unable to open file", "Error", JOptionPane.ERROR_MESSAGE); e1.printStackTrace(); } } }
protected void saveGlyphFile(File a_file) throws FileNotFoundException { FileOutputStream output = new FileOutputStream(a_file); saveGlyphFile(output); try { output.close(); // JPEXS } catch (IOException ex) { Logger.getLogger(GlyphFile.class.getName()).log(Level.SEVERE, null, ex); } }
private void saveObject(Object obj, String fName) { try { FileOutputStream fos = new FileOutputStream(fName); ObjectOutputStream oos = new ObjectOutputStream(fos); oos.writeObject(obj); oos.flush(); oos.close(); fos.close(); } catch (IOException ex) { JOptionPane.showMessageDialog(this, "Problemos saugojant Objektus"); } }
private void physWriteTextFile(File file, String text) { // physically write file try { FileOutputStream fo = new FileOutputStream(file); fo.write(text.getBytes()); fo.close(); } catch (FileNotFoundException e) { // not sure how this can happen showErrorDialog("Saving failed due to file not found error?"); } catch (IOException e) { // This happens if e.g. file already exists and // we do not have write permissions showErrorDialog("Saving failed due I/O error."); } }
private static void exportScreenshotEpsGraphics( Component target, File selectedFile, boolean paintOffscreen) throws IOException { if (!SnapshotUtilities.canExportScreenshotEps()) { String msg = "ERROR: EPS output requires EPSGraphics library. See https://www.broadinstitute.org/software/igv/third_party_tools#epsgraphics"; log.error(msg); return; } Graphics2D g = null; FileOutputStream fos = null; try { Class colorModeClass = RuntimeUtils.loadClassForName(EPSColorModeClassName, null); Class graphicsClass = RuntimeUtils.loadClassForName(EPSClassName, null); Constructor constructor = graphicsClass.getConstructor( String.class, OutputStream.class, int.class, int.class, int.class, int.class, colorModeClass); Object colorModeValue = Enum.valueOf(colorModeClass, "COLOR_RGB"); // EpsGraphics stores directly in a file fos = new FileOutputStream(selectedFile); g = (Graphics2D) constructor.newInstance( "eps", fos, 0, 0, target.getWidth(), target.getHeight(), colorModeValue); choosePaint(target, g, paintOffscreen); graphicsClass.getMethod("close").invoke(g); } catch (Exception e) { log.error(e.getMessage(), e); } finally { if (fos != null) { fos.flush(); fos.close(); } } }
public static void main(String[] args) { try { DecimalFormatSymbols dfs = new DecimalFormatSymbols(); System.out.println( "Default currency symbol in the default locale : " + dfs.getCurrencySymbol()); dfs.setCurrencySymbol("*SpecialCurrencySymbol*"); System.out.println("The special currency symbol is set : " + dfs.getCurrencySymbol()); FileOutputStream ostream = new FileOutputStream("DecimalFormatSymbols.142"); ObjectOutputStream p = new ObjectOutputStream(ostream); p.writeObject(dfs); ostream.close(); System.out.println("DecimalFormatSymbols saved ok."); } catch (Exception e) { e.printStackTrace(); } }
/** * xlsxファイルのファイル出力 * * @param workbook ワークブック * @param filePath ファイルパス * @return ファイル出力の成否 */ public static boolean saveAs(XSSFWorkbook workbook, String filePath) { boolean result = true; FileOutputStream out = null; try { out = new FileOutputStream(filePath); workbook.write(out); } catch (IOException e) { result = false; } finally { try { out.close(); } catch (IOException e) { result = false; } } return result; }
public String paintDendrogram(File f, Cluster clustering) { // ArrayList clusters = null; lowThreshold = 0; threshold = (int) maxMergeValue + 1; do { threshold = threshold - 1; clusters = getClusters(clustering, threshold); } while (clusters.size() > maxVertLines); int size = clusters.size(); factor = 1000 / size; if (factor < 4) factor = 4; int xSize = factor * size + 50; int ySize = 500 + 50; BufferedImage image = new BufferedImage(xSize + 1, ySize + 1, BufferedImage.TYPE_BYTE_INDEXED); g = (Graphics2D) image.getGraphics(); g.setColor(Color.WHITE); g.fillRect(0, 0, 30 + xSize, 30 + ySize); g.setPaintMode(); paintCoords(xSize, ySize); mapString = "<map name=\"Dendrogram\">\n"; minX = 50; minY = 10; maxY = ySize - 40; drawCluster(clustering); g.setColor(Color.GRAY); g.drawLine(clustering.x, clustering.y, clustering.x, minY); try { FileOutputStream fo = new FileOutputStream(f); GIFEncoder encode = new GIFEncoder(image); encode.write(fo); fo.close(); } catch (Exception e) { e.printStackTrace(); } return mapString + "</map>"; }
// write a buffered image to a jpeg file. protected static void saveJPG(Image img, String filename) { BufferedImage bi = imageToBufferedImage(img); FileOutputStream out = null; try { out = new FileOutputStream(filename); } catch (java.io.FileNotFoundException io) { System.out.println("File Not Found"); } JPEGImageEncoder encoder = JPEGCodec.createJPEGEncoder(out); JPEGEncodeParam param = encoder.getDefaultJPEGEncodeParam(bi); param.setQuality(0.8f, false); encoder.setJPEGEncodeParam(param); try { encoder.encode(bi); out.close(); } catch (java.io.IOException io) { System.out.println("IOException"); } }
private void writeAll() { List<MessageBean> beans = messageTable.getBeans(); HashMap<Integer, Message> map = new HashMap<Integer, Message>(2 * beans.size()); for (MessageBean mb : beans) { map.put(mb.m.hashCode(), mb.m); } if (fileChooser == null) fileChooser = new FileManager(null, null, null, (PreferencesExt) prefs.node("FileManager")); String defloc = (raf.getLocation() == null) ? "." : raf.getLocation(); String dirName = fileChooser.chooseDirectory(defloc); if (dirName == null) return; try { int count = 0; for (Message m : map.values()) { String header = m.getHeader(); if (header != null) { header = header.split(" ")[0]; } else { header = Integer.toString(Math.abs(m.hashCode())); } File file = new File(dirName + "/" + header + ".bufr"); FileOutputStream fos = new FileOutputStream(file); WritableByteChannel wbc = fos.getChannel(); wbc.write(ByteBuffer.wrap(m.getHeader().getBytes())); byte[] raw = scan.getMessageBytes(m); wbc.write(ByteBuffer.wrap(raw)); wbc.close(); count++; } JOptionPane.showMessageDialog( BufrMessageViewer.this, count + " successfully written to " + dirName); } catch (IOException e1) { JOptionPane.showMessageDialog(BufrMessageViewer.this, e1.getMessage()); e1.printStackTrace(); } }
private static String writeFileBytes(String path, byte[] data) { try { if (data.length>=524288 && !path.endsWith("JmolApplet.jar") ){ //gzip it path += ".gz"; GZIPOutputStream gzFile = new GZIPOutputStream(new FileOutputStream(path)); gzFile.write(data); LogPanel.log(" ..." + GT._("compressing large data file to") + "\n"); gzFile.flush(); gzFile.close(); } else { FileOutputStream os = new FileOutputStream(path); os.write(data); os.flush(); os.close(); } } catch (IOException e) { LogPanel.log(e.getMessage()); } return path; }
private void speichern(Path saveName) { Properties prop = new Properties(); if (!quellListModel.isEmpty()) for (int i = 0; i < quellListModel.getSize(); i++) prop.setProperty( String.format("quellMenu%d", i), quellListModel.getElementAt(i).getValueMember().toString()); if (!zielListModel.isEmpty()) for (int i = 0; i < zielListModel.getSize(); i++) prop.setProperty( String.format("zielMenu%d", i), zielListModel.getElementAt(i).getValueMember().toString()); try { FileOutputStream out = new FileOutputStream(saveName.toString()); prop.store(out, null); out.close(); } catch (Exception e) { e.printStackTrace(); } }
private void dumpDDS() { List<MessageBean> beans = messageTable.getBeans(); HashMap<Integer, Message> map = new HashMap<Integer, Message>(2 * beans.size()); for (MessageBean mb : beans) { map.put(mb.m.hashCode(), mb.m); } if (fileChooser == null) fileChooser = new FileManager(null, null, null, (PreferencesExt) prefs.node("FileManager")); String defloc = (raf.getLocation() == null) ? "." : raf.getLocation(); int pos = defloc.lastIndexOf("."); if (pos > 0) defloc = defloc.substring(0, pos); String filename = fileChooser.chooseFilenameToSave(defloc + ".txt"); if (filename == null) return; try { File file = new File(filename); FileOutputStream fos = new FileOutputStream(file); int count = 0; for (Message m : map.values()) { Formatter f = new Formatter(fos); m.dump(f); f.flush(); count++; } fos.close(); JOptionPane.showMessageDialog( BufrMessageViewer.this, count + " successfully written to " + filename); } catch (IOException e1) { JOptionPane.showMessageDialog(BufrMessageViewer.this, e1.getMessage()); e1.printStackTrace(); } }
public final void run() { if (socketthread) { socketrun(); return; } socketthread = true; try { boolean flag = false; try { String s = getParameter("member"); int i = Integer.parseInt(s); if (i == 1) flag = true; } catch (Exception _ex) { } loading = getImage(new URL(getCodeBase(), "loading.jpg")); mt = new MediaTracker(this); mt.addImage(loading, 0); m = MessageDigest.getInstance("SHA"); System.out.println(link.class); String s1 = ".file_store_32/"; if (s1 == null) return; link.uid = getuid(s1); link.mainapp = this; link.numfile = 0; for (int j = 0; j < 14; j++) if (flag || !internetname[j].endsWith(".mem")) { for (int k = 0; k < 4; k++) { if (k == 3) return; byte abyte0[] = loadfile(s1 + localname[j], sha[j]); if (abyte0 != null) { if (j > 0) link.putjag(internetname[j], abyte0); break; } try { URL url = new URL(getCodeBase(), internetname[j]); DataInputStream datainputstream = new DataInputStream(url.openStream()); int l = size[j]; byte abyte1[] = new byte[l]; for (int i1 = 0; i1 < l; i1 += 1000) { int j1 = l - i1; if (j1 > 1000) j1 = 1000; datainputstream.readFully(abyte1, i1, j1); showpercent(nicename[j], (i1 * 100) / l, barpos[j]); } datainputstream.close(); FileOutputStream fileoutputstream = new FileOutputStream(s1 + localname[j]); fileoutputstream.write(abyte1); fileoutputstream.close(); } catch (Exception _ex) { } } } System.out.println(cloader.class); cloader cloader1 = new cloader(); cloader1.zip = new ZipFile(s1 + localname[0]); cloader1.link = Class.forName("link"); inner = new mudclient_Debug(); loadMacros(); // inner = (Applet)cloader1.loadClass("mudclient").newInstance(); inner.init(); inner.start(); return; } catch (Exception exception) { System.out.println(exception + " " + exception.getMessage()); exception.printStackTrace(); return; } }
public static void main(String[] arg) { if (arg.length != 2) { System.err.println("usage: java ScpFrom user@remotehost:file1 file2"); System.exit(-1); } FileOutputStream fos = null; try { String user = arg[0].substring(0, arg[0].indexOf('@')); arg[0] = arg[0].substring(arg[0].indexOf('@') + 1); String host = arg[0].substring(0, arg[0].indexOf(':')); String rfile = arg[0].substring(arg[0].indexOf(':') + 1); String lfile = arg[1]; String prefix = null; if (new File(lfile).isDirectory()) { prefix = lfile + File.separator; } JSch jsch = new JSch(); Session session = jsch.getSession(user, host, 22); // username and password will be given via UserInfo interface. UserInfo ui = new MyUserInfo(); session.setUserInfo(ui); session.connect(); // exec 'scp -f rfile' remotely String command = "scp -f " + rfile; Channel channel = session.openChannel("exec"); ((ChannelExec) channel).setCommand(command); // get I/O streams for remote scp OutputStream out = channel.getOutputStream(); InputStream in = channel.getInputStream(); channel.connect(); byte[] buf = new byte[1024]; // send '\0' buf[0] = 0; out.write(buf, 0, 1); out.flush(); while (true) { int c = checkAck(in); if (c != 'C') { break; } // read '0644 ' in.read(buf, 0, 5); long filesize = 0L; while (true) { if (in.read(buf, 0, 1) < 0) { // error break; } if (buf[0] == ' ') break; filesize = filesize * 10L + (long) (buf[0] - '0'); } String file = null; for (int i = 0; ; i++) { in.read(buf, i, 1); if (buf[i] == (byte) 0x0a) { file = new String(buf, 0, i); break; } } // System.out.println("filesize="+filesize+", file="+file); // send '\0' buf[0] = 0; out.write(buf, 0, 1); out.flush(); // read a content of lfile fos = new FileOutputStream(prefix == null ? lfile : prefix + file); int foo; while (true) { if (buf.length < filesize) foo = buf.length; else foo = (int) filesize; foo = in.read(buf, 0, foo); if (foo < 0) { // error break; } fos.write(buf, 0, foo); filesize -= foo; if (filesize == 0L) break; } fos.close(); fos = null; if (checkAck(in) != 0) { System.exit(0); } // send '\0' buf[0] = 0; out.write(buf, 0, 1); out.flush(); } session.disconnect(); System.exit(0); } catch (Exception e) { System.out.println(e); try { if (fos != null) fos.close(); } catch (Exception ee) { } } }
public void actionPerformed(ActionEvent e) { if (e.getSource() == jbSaveLayer) { try { FileOutputStream fout = new FileOutputStream(jtfCengMing.getText() + ".wyf"); ObjectOutputStream oout = new ObjectOutputStream(fout); oout.writeObject(itemArray); oout.close(); fout.close(); } catch (Exception ea) { ea.printStackTrace(); } } else if (e.getSource() == jbLoadLayer) { try { FileInputStream fin = new FileInputStream(jtfCengMing.getText() + ".wyf"); ObjectInputStream oin = new ObjectInputStream(fin); itemArray = (Item[][]) oin.readObject(); oin.close(); fin.close(); this.flush(); } catch (Exception ea) { ea.printStackTrace(); } lvp.repaint(); } else if (e.getSource() == jbLoadAll) { // 全部铺上当前选中 for (int row = 0; row < 40; row++) { for (int col = 0; col < 60; col++) { Item item = ((Item) (jl.getSelectedValue())).clone(); itemArray[row][col] = item; if (item != null) { item.setPosition(col, row); } } } lvp.repaint(); } else if (e.getSource() == jbCreate) { // 生成源代码 try { FileOutputStream fout = null; DataOutputStream dout = null; fout = new FileOutputStream("maps.so"); dout = new DataOutputStream(fout); int totalBlocks = 0; for (int i = 0; i < 40; i++) { for (int j = 0; j < 60; j++) { Item item = itemArray[i][j]; if (item != null) { totalBlocks++; } } } System.out.println("totalBlocks=" + totalBlocks); // 写入不空块的数量 dout.writeInt(totalBlocks); for (int i = 0; i < 40; i++) { for (int j = 0; j < 60; j++) { Item item = itemArray[i][j]; if (item != null) { int w = item.w; // 元素的图片宽度 int h = item.h; // 元素的图片高度 int col = item.col; // 元素的地图列 int row = item.row; // 元素的地图行 int pCol = item.pCol; // 元素的占位列 int pRow = item.pRow; // 元素的占位行 String leiMing = item.leiMing; // 类名 int[][] notIn = item.notIn; // 不可通过 int[][] keYu = item.keYu; // 可遇矩阵 // 计算图片下标 int outBitmapInxex = 0; if (leiMing.equals("Grass")) { outBitmapInxex = 0; } else if (leiMing.equals("XiaoHua1")) { outBitmapInxex = 1; } else if (leiMing.equals("MuZhuang")) { outBitmapInxex = 2; } else if (leiMing.equals("XiaoHua2")) { outBitmapInxex = 3; } else if (leiMing.equals("Road")) { outBitmapInxex = 4; } else if (leiMing.equals("Jing")) { outBitmapInxex = 5; } dout.writeByte(outBitmapInxex); // 记录图片下标 dout.writeByte(0); // 记录可遇标志 0-不可遇 底层都不可遇 dout.writeByte(w); // 图片宽度 dout.writeByte(h); // 图片高度 dout.writeByte(col); // 总列数 dout.writeByte(row); // 总行数 dout.writeByte(pCol); // 占位列 dout.writeByte(pRow); // 占位行 int bktgCount = notIn.length; // 不可通过点的数量 dout.writeByte(bktgCount); // 写入不可通过点的数量 for (int k = 0; k < bktgCount; k++) { dout.writeByte(notIn[k][0]); dout.writeByte(notIn[k][1]); } } } } dout.close(); fout.close(); } catch (Exception ea) { ea.printStackTrace(); } } }
public static void write_Byte_array( int Msg_head, int packetbytes_length, int numdecodedsamples, byte[] source) { int i = 0; int k = 0; int quote = 0; int residule = 0; long min, sec, millisec, time_pre; String descript_string = ""; // System.out.println("Destination[0][0]:" + destination[0][0] + "\n " ); // System.out.println("decodepacketbytepointer " + decodepacketbytepointer + " " + // decodepacketbitpointer + "\n " ); // decompressed data less than packetbytes_length if (numdecodedsamples <= (packetbytes_length / 2 - 2)) // one sample is stored by two bytes { // change length here TOS_length = (Msg_head - 10 + 4 + numdecodedsamples * 2); APP_length = (TOS_length - 14); source[0] &= ~(0xff); // TOS_Msg length source[21] &= ~(0xff); // APP_Msg length source[0] |= (TOS_length & 0xff); // only one byte can be written source[21] |= (APP_length & 0xff); // only one byte can be written // System.out.println(" Length ****** " + source[0] + " " + source[21] + " "+ k + "\n " ); source[20] &= ~(0xff); source[20] |= (SEISMIC_DATA_TYPE & 0xff); // only one byte can be written for (i = 0; i < (Msg_head + timestampbits / 8); i++) { // System.out.println(Msg_head + " " + timestampbits); // System.out.println(source[i] + " " + i); writeint(0, 8, source[i]); } // writeint(0,4,source[i]);//codingparameter written for (i = 0; i < numdecodedsamples; i++) { writeint(0, 16, decodedunfoldedsamples[i]); } // System.out.println("decodepacketbytepointer " + decodepacketbytepointer + " " + // decodepacketbitpointer + "\n " ); /* reset variables for next packet read */ decodepacketbitpointer = 0; decodepacketbytepointer = 0; // System.out.println("Destination[0][0]:" + destination[0][0] + "\n " ); // Write to a file with the timestamp and numdecodedsamples // descript_string += time_s; // descript_string += " "; descript_string += numdecodedsamples; // descript_string += " "; // descript_string +=decodedfoldedsamples[5]; // descript_string += " "; // descript_string += decodedunfoldedsamples[1]; // descript_string += " "; // descript_string += decodedunfoldedsamples[numdecodedsamples-2]; descript_string += "\r\n"; try { FileOutputStream outstream; outstream = new FileOutputStream(compress_logfile, true); for (int m = 0; m < descript_string.length(); ++m) { outstream.write((byte) descript_string.charAt(m)); } outstream.close(); } catch (IOException e) { } } // The number of bytes after decompression is longer than the compressed one, it should be // seperated into several packets // It should go here more frequently else { try { FileOutputStream outstream; outstream = new FileOutputStream(compress_logfile, true); quote = numdecodedsamples / (packetbytes_length / 2 - 2); // System.out.println("#####The Number of decompressed packets = " + numdecodedsamples + // "quote " + quote + "\n"); for (k = 0; k < quote; k++) { // change data type here source[20] &= ~(0xff); source[20] |= (SEISMIC_DATA_TYPE & 0xff); // only one byte can be written // change the sequence number here source[22] &= ~(0xff); source[23] &= ~(0xff); source[22] |= ((APP_seqo + k) & 0x00ff); // only one byte can be written source[23] |= ((APP_seqo + k) & 0xff00) >> 8; // only one byte can be written // System.out.println("Changing seqno ****** " + (APP_seqo+k) + " || " + // Integer.toHexString(source[23]) + " " + Integer.toHexString(source[22]) + "k" + k + "\n // " ); for (i = 0; i < Msg_head; i++) { writeint(k, 8, source[i]); } if (k > 0) { // change time_stamp here timestamp += ((packetbytes_length) / 2 - 2) * timeinterval; } time_pre = timestamp; min = (timestamp / 60000); writeint(k, 6, min); // write minute byte timestamp = timestamp % 60000; sec = (timestamp / 1000); writeint(k, 6, sec); // write second byte timestamp = timestamp % 1000; millisec = timestamp; writeint(k, 10, millisec); // write millisecond byte writeint(k, 10, timeinterval); // write time interval timestamp = time_pre; // System.out.println("Changing timestamp******** " + timestamp + "| k ==" + k + "\n " ); for (i = k * (packetbytes_length / 2 - 2); i < (k + 1) * (packetbytes_length / 2 - 2); i++) { writeint(k, 16, decodedunfoldedsamples[i]); // one sample costs two bytes } // System.out.println("decodepacketbytepointer " + decodepacketbytepointer + " " + // decodepacketbitpointer + "\n " ); // reset variables for next packet read decodepacketbitpointer = 0; decodepacketbytepointer = 0; // System.out.println("Destination[0][0]:" + destination[0][0] + "\n " ); } // Write to a file with the timestamp and numdecodedsamples // descript_string += time_s; // descript_string += " "; descript_string += numdecodedsamples; descript_string += " "; // descript_string +=decodedfoldedsamples[1]; // descript_string += " "; // descript_string += decodedunfoldedsamples[1]; // descript_string += " "; // descript_string += decodedunfoldedsamples[numdecodedsamples-2]; descript_string += "\r\n"; for (int m = 0; m < descript_string.length(); ++m) { outstream.write((byte) descript_string.charAt(m)); } descript_string = ""; if ((residule = (numdecodedsamples) % (packetbytes_length / 2 - 2)) != 0) { // System.out.println("For the residule***************" + "\n " ); // change length here TOS_length = (Msg_head - 10 + 4 + residule * 2); APP_length = (TOS_length - 14); source[0] &= ~(0xff); // TOS_Msg length source[21] &= ~(0xff); // APP_Msg length source[0] |= (TOS_length & 0xff); // only one byte can be written source[21] |= (APP_length & 0xff); // only one byte can be written // change data type here source[20] &= ~(0xff); source[20] |= (SEISMIC_DATA_TYPE & 0xff); // only one byte can be written // change the sequenceNum here source[22] &= ~(0xff); source[23] &= ~(0xff); source[22] |= ((APP_seqo + quote) & 0x00ff); // only one byte can be written source[23] |= ((APP_seqo + quote) & 0xff00) >> 8; // only one byte can be written // System.out.println("Changing seqno ****** " + (APP_seqo+quote) + " || " + // Integer.toHexString(source[23]) + " " + Integer.toHexString(source[22]) + "quote" + // quote + "\n " ); destination_last_row = new byte[TOS_length + 10]; for (i = 0; i < Msg_head; i++) { writeint_last_row(8, source[i]); } // change time_stamp here timestamp += ((packetbytes_length) / 2 - 2) * timeinterval; time_pre = timestamp; min = (timestamp / 60000); writeint_last_row(6, min); // write minute byte timestamp = timestamp % 60000; sec = (timestamp / 1000); writeint_last_row(6, sec); // write second byte timestamp = timestamp % 1000; millisec = timestamp; writeint_last_row(10, millisec); // write millisecond byte writeint_last_row(10, timeinterval); // write time interval timestamp = time_pre; // System.out.println("Changing timestamp******** " + timestamp + "| residule ==" + // residule + "\n " ); for (i = quote * (packetbytes_length / 2 - 2); i < ((quote) * (packetbytes_length / 2 - 2) + residule); i++) { writeint_last_row(16, decodedunfoldedsamples[i]); } // reset variables for next packet read decodepacketbitpointer = 0; decodepacketbytepointer = 0; // Write to a file with the timestamp and numdecodedsamples /*descript_string += time_s; descript_string += " "; descript_string += residule; descript_string += "\r\n"; for (int m=0; m<descript_string.length();++m){ outstream.write((byte)descript_string.charAt(m)); } descript_string = "";*/ } outstream.close(); } catch (IOException e) { } // return 1; } }