List of usage examples for java.nio ByteBuffer put
public ByteBuffer put(ByteBuffer src)
From source file:CTmousetrack.java
public static void main(String[] args) { String outLoc = new String("." + File.separator + "CTdata"); // Location of the base output data folder; only used when writing out CT data to a local folder String srcName = "CTmousetrack"; // name of the output CT source long blockPts = 10; // points per block flush long sampInterval = 10; // time between sampling updates, msec double trimTime = 0.0; // amount of data to keep (trim time), sec boolean debug = false; // turn on debug? // Specify the CT output connection CTWriteMode writeMode = CTWriteMode.LOCAL; // The selected mode for writing out CT data String serverHost = ""; // Server (FTP or HTTP/S) host:port String serverUser = ""; // Server (FTP or HTTPS) username String serverPassword = ""; // Server (FTP or HTTPS) password // For UDP output mode DatagramSocket udpServerSocket = null; InetAddress udpServerAddress = null; String udpHost = ""; int udpPort = -1; // Concatenate all of the CTWriteMode types String possibleWriteModes = ""; for (CTWriteMode wm : CTWriteMode.values()) { possibleWriteModes = possibleWriteModes + ", " + wm.name(); }/*from w w w.j av a 2 s . c om*/ // Remove ", " from start of string possibleWriteModes = possibleWriteModes.substring(2); // // Argument processing using Apache Commons CLI // // 1. Setup command line options Options options = new Options(); options.addOption("h", "help", false, "Print this message."); options.addOption(Option.builder("o").argName("base output dir").hasArg().desc( "Base output directory when writing data to local folder (i.e., this is the location of CTdata folder); default = \"" + outLoc + "\".") .build()); options.addOption(Option.builder("s").argName("source name").hasArg() .desc("Name of source to write data to; default = \"" + srcName + "\".").build()); options.addOption(Option.builder("b").argName("points per block").hasArg() .desc("Number of points per block; UDP output mode will use 1 point/block; default = " + Long.toString(blockPts) + ".") .build()); options.addOption(Option.builder("dt").argName("samp interval msec").hasArg() .desc("Sampling period in msec; default = " + Long.toString(sampInterval) + ".").build()); options.addOption(Option.builder("t").argName("trim time sec").hasArg().desc( "Trim (ring-buffer loop) time (sec); this is only used when writing data to local folder; specify 0 for indefinite; default = " + Double.toString(trimTime) + ".") .build()); options.addOption( Option.builder("w").argName("write mode").hasArg() .desc("Type of write connection; one of " + possibleWriteModes + "; all but UDP mode write out to CT; default = " + writeMode.name() + ".") .build()); options.addOption(Option.builder("host").argName("host[:port]").hasArg() .desc("Host:port when writing via FTP, HTTP, HTTPS, UDP.").build()); options.addOption(Option.builder("u").argName("username,password").hasArg() .desc("Comma-delimited username and password when writing to CT via FTP or HTTPS.").build()); options.addOption("x", "debug", false, "Enable CloudTurbine debug output."); // 2. Parse command line options CommandLineParser parser = new DefaultParser(); CommandLine line = null; try { line = parser.parse(options, args); } catch (ParseException exp) { // oops, something went wrong System.err.println("Command line argument parsing failed: " + exp.getMessage()); return; } // 3. Retrieve the command line values if (line.hasOption("help")) { // Display help message and quit HelpFormatter formatter = new HelpFormatter(); formatter.setWidth(120); formatter.printHelp("CTmousetrack", "", options, "NOTE: UDP output is a special non-CT output mode where single x,y points are sent via UDP to the specified host:port."); return; } outLoc = line.getOptionValue("o", outLoc); if (!outLoc.endsWith("\\") && !outLoc.endsWith("/")) { outLoc = outLoc + File.separator; } // Make sure the base output folder location ends in "CTdata" if (!outLoc.endsWith("CTdata\\") && !outLoc.endsWith("CTdata/")) { outLoc = outLoc + "CTdata" + File.separator; } srcName = line.getOptionValue("s", srcName); blockPts = Long.parseLong(line.getOptionValue("b", Long.toString(blockPts))); sampInterval = Long.parseLong(line.getOptionValue("dt", Long.toString(sampInterval))); trimTime = Double.parseDouble(line.getOptionValue("t", Double.toString(trimTime))); // Type of output connection String writeModeStr = line.getOptionValue("w", writeMode.name()); boolean bMatch = false; for (CTWriteMode wm : CTWriteMode.values()) { if (wm.name().toLowerCase().equals(writeModeStr.toLowerCase())) { writeMode = wm; bMatch = true; } } if (!bMatch) { System.err.println("Unrecognized write mode, \"" + writeModeStr + "\"; write mode must be one of " + possibleWriteModes); System.exit(0); } if (writeMode != CTWriteMode.LOCAL) { // User must have specified the host // If FTP or HTTPS, they may also specify username/password serverHost = line.getOptionValue("host", serverHost); if (serverHost.isEmpty()) { System.err.println( "When using write mode \"" + writeModeStr + "\", you must specify the server host."); System.exit(0); } if (writeMode == CTWriteMode.UDP) { // Force blockPts to be 1 blockPts = 1; // User must have specified both host and port int colonIdx = serverHost.indexOf(':'); if ((colonIdx == -1) || (colonIdx >= serverHost.length() - 1)) { System.err.println( "For UDP output mode, both the host and port (<host>:<port>)) must be specified."); System.exit(0); } udpHost = serverHost.substring(0, colonIdx); String udpPortStr = serverHost.substring(colonIdx + 1); try { udpPort = Integer.parseInt(udpPortStr); } catch (NumberFormatException nfe) { System.err.println("The UDP port must be a positive integer."); System.exit(0); } } if ((writeMode == CTWriteMode.FTP) || (writeMode == CTWriteMode.HTTPS)) { String userpassStr = line.getOptionValue("u", ""); if (!userpassStr.isEmpty()) { // This string should be comma-delimited username and password String[] userpassCSV = userpassStr.split(","); if (userpassCSV.length != 2) { System.err.println("When specifying a username and password for write mode \"" + writeModeStr + "\", separate the username and password by a comma."); System.exit(0); } serverUser = userpassCSV[0]; serverPassword = userpassCSV[1]; } } } debug = line.hasOption("debug"); System.err.println("CTmousetrack parameters:"); System.err.println("\toutput mode = " + writeMode.name()); if (writeMode == CTWriteMode.UDP) { System.err.println("\twrite to " + udpHost + ":" + udpPort); } else { System.err.println("\tsource = " + srcName); System.err.println("\ttrim time = " + trimTime + " sec"); } System.err.println("\tpoints per block = " + blockPts); System.err.println("\tsample interval = " + sampInterval + " msec"); try { // // Setup CTwriter or UDP output // CTwriter ctw = null; CTinfo.setDebug(debug); if (writeMode == CTWriteMode.LOCAL) { ctw = new CTwriter(outLoc + srcName, trimTime); System.err.println("\tdata will be written to local folder \"" + outLoc + "\""); } else if (writeMode == CTWriteMode.FTP) { CTftp ctftp = new CTftp(srcName); try { ctftp.login(serverHost, serverUser, serverPassword); } catch (Exception e) { throw new IOException( new String("Error logging into FTP server \"" + serverHost + "\":\n" + e.getMessage())); } ctw = ctftp; // upcast to CTWriter System.err.println("\tdata will be written to FTP server at " + serverHost); } else if (writeMode == CTWriteMode.HTTP) { // Don't send username/pw in HTTP mode since they will be unencrypted CThttp cthttp = new CThttp(srcName, "http://" + serverHost); ctw = cthttp; // upcast to CTWriter System.err.println("\tdata will be written to HTTP server at " + serverHost); } else if (writeMode == CTWriteMode.HTTPS) { CThttp cthttp = new CThttp(srcName, "https://" + serverHost); // Username/pw are optional for HTTPS mode; only use them if username is not empty if (!serverUser.isEmpty()) { try { cthttp.login(serverUser, serverPassword); } catch (Exception e) { throw new IOException(new String( "Error logging into HTTP server \"" + serverHost + "\":\n" + e.getMessage())); } } ctw = cthttp; // upcast to CTWriter System.err.println("\tdata will be written to HTTPS server at " + serverHost); } else if (writeMode == CTWriteMode.UDP) { try { udpServerSocket = new DatagramSocket(); } catch (SocketException se) { System.err.println("Error creating socket for UDP:\n" + se); System.exit(0); } try { udpServerAddress = InetAddress.getByName(udpHost); } catch (UnknownHostException uhe) { System.err.println("Error getting UDP server host address:\n" + uhe); System.exit(0); } } if (writeMode != CTWriteMode.UDP) { ctw.setBlockMode(blockPts > 1, blockPts > 1); ctw.autoFlush(0); // no autoflush ctw.autoSegment(1000); } // screen dims Dimension screenSize = Toolkit.getDefaultToolkit().getScreenSize(); double width = screenSize.getWidth(); double height = screenSize.getHeight(); // use Map for consolidated putData Map<String, Object> cmap = new LinkedHashMap<String, Object>(); // loop and write some output for (int i = 0; i < 1000000; i++) { // go until killed long currentTime = System.currentTimeMillis(); Point mousePos = MouseInfo.getPointerInfo().getLocation(); float x_pt = (float) (mousePos.getX() / width); // normalize float y_pt = (float) ((height - mousePos.getY()) / height); // flip Y (so bottom=0) if (writeMode != CTWriteMode.UDP) { // CT output mode ctw.setTime(currentTime); cmap.clear(); cmap.put("x", x_pt); cmap.put("y", y_pt); ctw.putData(cmap); if (((i + 1) % blockPts) == 0) { ctw.flush(); System.err.print("."); } } else { // UDP output mode // We force blockPts to be 1 for UDP output mode, i.e. we "flush" the data every time // Write the following data (21 bytes total): // header = "MOUSE", 5 bytes // current time, long, 8 bytes // 2 floats (x,y) 4 bytes each, 8 bytes int len = 21; ByteBuffer bb = ByteBuffer.allocate(len); String headerStr = "MOUSE"; bb.put(headerStr.getBytes("UTF-8")); bb.putLong(currentTime); bb.putFloat(x_pt); bb.putFloat(y_pt); // Might be able to use the following, but not sure: // byte[] sendData = bb.array(); byte[] sendData = new byte[len]; bb.position(0); bb.get(sendData, 0, len); DatagramPacket sendPacket = new DatagramPacket(sendData, sendData.length, udpServerAddress, udpPort); try { udpServerSocket.send(sendPacket); } catch (IOException e) { System.err.println("Test server caught exception trying to send data to UDP client:\n" + e); } System.err.print("."); } try { Thread.sleep(sampInterval); } catch (Exception e) { } ; } if (writeMode != CTWriteMode.UDP) { ctw.flush(); // wrap up } } catch (Exception e) { System.err.println("CTmousetrack exception: " + e); e.printStackTrace(); } }
From source file:edu.hawaii.soest.kilonalu.dvp2.DavisWxParser.java
public static void main(String[] args) { // Ensure we have a path to the binary file if (args.length != 1) { logger.info("Please provide the path to a file containing a binary LOOP packet."); System.exit(1);// w w w .jav a 2 s .c o m } else { try { // open and read the file File packetFile = new File(args[0]); FileInputStream fis = new FileInputStream(packetFile); FileChannel fileChannel = fis.getChannel(); ByteBuffer inBuffer = ByteBuffer.allocateDirect(8192); ByteBuffer packetBuffer = ByteBuffer.allocateDirect(8192); while (fileChannel.read(inBuffer) != -1 || inBuffer.position() > 0) { inBuffer.flip(); packetBuffer.put(inBuffer.get()); inBuffer.compact(); } fileChannel.close(); fis.close(); packetBuffer.put(inBuffer.get()); // create an instance of the parser, and report the field contents after parsing DavisWxParser davisWxParser = new DavisWxParser(packetBuffer); // Set up a simple logger that logs to the console PropertyConfigurator.configure(davisWxParser.getLogConfigurationFile()); logger.info("loopID: " + davisWxParser.getLoopID()); logger.info("barTrend: " + davisWxParser.getBarTrend()); logger.info("barTrendAsString: " + davisWxParser.getBarTrendAsString()); logger.info("packetType: " + davisWxParser.getPacketType()); logger.info("nextRecord: " + davisWxParser.getNextRecord()); logger.info("barometer: " + davisWxParser.getBarometer()); logger.info("insideTemperature: " + davisWxParser.getInsideTemperature()); logger.info("insideHumidity: " + davisWxParser.getInsideHumidity()); logger.info("outsideTemperature: " + davisWxParser.getOutsideTemperature()); logger.info("windSpeed: " + davisWxParser.getWindSpeed()); logger.info("tenMinuteAverageWindSpeed: " + davisWxParser.getTenMinuteAverageWindSpeed()); logger.info("windDirection: " + davisWxParser.getWindDirection()); logger.info( "extraTemperatures: " + Arrays.toString(davisWxParser.getExtraTemperatures())); logger.info( "soilTemperatures: " + Arrays.toString(davisWxParser.getSoilTemperatures())); logger.info( "leafTemperatures: " + Arrays.toString(davisWxParser.getLeafTemperatures())); logger.info("outsideHumidity: " + davisWxParser.getOutsideHumidity()); logger.info( "extraHumidities: " + Arrays.toString(davisWxParser.getExtraHumidities())); logger.info("rainRate: " + davisWxParser.getRainRate()); logger.info("uvRadiation: " + davisWxParser.getUvRadiation()); logger.info("solarRadiation: " + davisWxParser.getSolarRadiation()); logger.info("stormRain: " + davisWxParser.getStormRain()); logger.info("currentStormStartDate: " + davisWxParser.getCurrentStormStartDate()); logger.info("dailyRain: " + davisWxParser.getDailyRain()); logger.info("monthlyRain: " + davisWxParser.getMonthlyRain()); logger.info("yearlyRain: " + davisWxParser.getYearlyRain()); logger.info("dailyEvapoTranspiration: " + davisWxParser.getDailyEvapoTranspiration()); logger.info("monthlyEvapoTranspiration: " + davisWxParser.getMonthlyEvapoTranspiration()); logger.info("yearlyEvapoTranspiration: " + davisWxParser.getYearlyEvapoTranspiration()); logger.info("soilMoistures: " + Arrays.toString(davisWxParser.getSoilMoistures())); logger.info("leafWetnesses: " + Arrays.toString(davisWxParser.getLeafWetnesses())); logger.info("insideAlarm: " + davisWxParser.getInsideAlarm()); logger.info("rainAlarm: " + davisWxParser.getRainAlarm()); logger.info("outsideAlarms: " + davisWxParser.getOutsideAlarms()); logger.info("extraTemperatureHumidityAlarms: " + davisWxParser.getExtraTemperatureHumidityAlarms()); logger.info("soilLeafAlarms: " + davisWxParser.getSoilLeafAlarms()); logger.info("transmitterBatteryStatus: " + davisWxParser.getTransmitterBatteryStatus()); logger.info("consoleBatteryVoltage: " + davisWxParser.getConsoleBatteryVoltage()); logger.info("forecastIconValues: " + davisWxParser.getForecastAsString()); logger.info("forecastRuleNumber: " + davisWxParser.getForecastRuleNumberAsString()); logger.info("timeOfSunrise: " + davisWxParser.getTimeOfSunrise()); logger.info("timeOfSunset: " + davisWxParser.getTimeOfSunset()); logger.info("recordDelimiter: " + davisWxParser.getRecordDelimiterAsHexString()); logger.info("crcChecksum: " + davisWxParser.getCrcChecksum()); } catch (java.io.FileNotFoundException fnfe) { fnfe.printStackTrace(); } catch (java.io.IOException ioe) { ioe.printStackTrace(); } } }
From source file:Main.java
public static void putUnsignedByte(ByteBuffer bb, int value) { bb.put((byte) (value & 0xff)); }
From source file:Main.java
public static void writeBER32(ByteBuffer buffer, int value) { buffer.put((byte) ((value >> 21) | 0x80)); buffer.put((byte) ((value >> 14) | 0x80)); buffer.put((byte) ((value >> 7) | 0x80)); buffer.put((byte) (value & 0x7F)); }
From source file:Main.java
/** * //from www . j av a2 s . com * @param arr * @return */ public static final ByteBuffer createByteBuffer(byte[] arr) { int len = sizeofB(arr.length); ByteBuffer bb = ByteBuffer.allocateDirect(len); bb.order(ByteOrder.nativeOrder()); ByteBuffer fb = bb; fb.put(arr); fb.position(0); return fb; }
From source file:Main.java
public static ByteBuffer makeByteBuffer(byte[] i_arr) { ByteBuffer bb = ByteBuffer.allocateDirect(i_arr.length); bb.put(i_arr); bb.position(0);// w ww. j av a 2 s .com return bb; }
From source file:Main.java
static void putInt(final ByteBuffer buf, int value) { buf.put((byte) ((value >> 8) & 0xFF)); buf.put((byte) (value & 0xFF)); }
From source file:Main.java
public static byte[] getDHdataWithHash(byte[] hash, byte[] data) { int ost = (data.length + 20) % 16 > 0 ? 16 : 0; int size = ((20 + data.length) / 16) * 16 + ost; ByteBuffer buffer = ByteBuffer.allocate(size); buffer.put(hash); buffer.put(data);/*ww w. j ava2 s . c o m*/ byte[] rand = new byte[size - hash.length - data.length]; new Random().nextBytes(rand); buffer.put(rand); return buffer.array(); }
From source file:Main.java
/** * bytes tp chars/*from w ww . j a va2s. c o m*/ * * @param bytes * @return */ public static char[] getChars(byte[] bytes) { Charset cs = Charset.forName("UTF-8"); ByteBuffer bb = ByteBuffer.allocate(bytes.length); bb.put(bytes); bb.flip(); CharBuffer cb = cs.decode(bb); return cb.array(); }
From source file:Main.java
public static ByteBuffer buildByteBuffer(byte[] array) { ByteBuffer byteBuffer = ByteBuffer.allocateDirect(array.length); byteBuffer.put(array); byteBuffer.position(0);/*w w w. j a va 2 s. c om*/ return byteBuffer; }