public static void main(String[] args) {
try {
BufferedReader br1 =
new BufferedReader(new InputStreamReader(new FileInputStream(args[0]), "UTF-8"));
BufferedReader br2 =
new BufferedReader(new InputStreamReader(new FileInputStream(args[1]), "UTF-8"));
OutputStreamWriter out = new OutputStreamWriter(new FileOutputStream("merge.txt"), "UTF-8");
String cell1 = br1.readLine();
String cell2 = br2.readLine();
while (cell1 != null && cell2 != null) {
String merge = cell1 + "\t" + cell2;
System.out.println(merge);
out.write(merge);
out.write("\n");
out.flush();
cell1 = br1.readLine();
cell2 = br2.readLine();
}
} catch (Exception e) {
e.printStackTrace();
}
}
public void flush() throws IOException {
if (!dirty) return;
FileOutputStream fos = null;
OutputStreamWriter osw = null;
try {
fos = new FileOutputStream(filePath);
osw = new OutputStreamWriter(fos, charset);
// 全局数据
for (Line l : globalLines) {
osw.write(l.toString());
osw.write('\n');
}
// 各个块
for (Sector s : sectors) {
osw.write(s.toString());
}
dirty = false;
} finally {
// XXX 因为stream之间有一定的依赖顺序,必须按照一定的顺序关闭流
if (osw != null) osw.close();
if (fos != null) fos.close();
}
}
private void sendMSG(String msg) throws IOException {
try {
out.write(msg);
out.flush();
} catch (IOException ioe) {
throw (ioe);
}
}
public void show(OutputStreamWriter out) throws IOException {
out.write("<H2>Current Time:</H2>");
Calendar c = new GregorianCalendar();
out.write("<CENTER><H3><FONT color=\"blue\">");
out.write(c.getTime().toString());
out.write("</FONT></H3></CENTER><HR>");
out.write("<P><A HREF=\"demo.html\">Return to the home page.</A>");
}
public void Connect() throws IOException {
try {
InetAddress addr = InetAddress.getByName(server);
Socket socket = new Socket(addr, port);
in = new InputStreamReader(socket.getInputStream());
out = new OutputStreamWriter(socket.getOutputStream());
char c[] = new char[LINE_LENGTH];
boolean authed = false;
while (true) {
if (in.read(c) > 0) {
String msg = new String(c).trim();
if (!authed) {
if (msg.endsWith("No Ident response")) {
System.out.println("...sending identity...");
out.write(String.format("NICK %s\r\n", nickname));
out.write(String.format("USER %s %s %s :s\r\n", nickname, host, server, realname));
out.flush();
authed = true;
for (IRCAuthListener a : authListeners) {
a.afterAuthentication(this);
}
}
}
if (msg.startsWith("PING")) {
System.out.println("Sending pong...");
out.write("PONG\r\n");
out.flush();
}
for (IRCRawDataListener d : rawDataListeners) {
d.processRawData(this, msg);
}
c = new char[LINE_LENGTH];
} else {
System.out.println("Oops, if you see this we just got kicked or connection timed out...");
break;
}
}
} catch (IOException ioe) {
throw (ioe);
}
}
private Object request(
String url, boolean post, Hashtable params, boolean basicAuth, boolean processOutput)
throws Exception {
HttpConnection conn = null;
Writer writer = null;
InputStream is = null;
try {
if (!post && (params != null)) {
ByteArrayOutputStream baos = new ByteArrayOutputStream();
OutputStreamWriter osw = new OutputStreamWriter(baos, this.encoding);
this.encodeParams(params, osw);
osw.flush();
osw.close();
osw = null;
url += "?" + new String(baos.toByteArray(), this.encoding);
baos = null;
}
conn = (HttpConnection) Connector.open(url);
conn.setRequestMethod(post ? HttpConnection.POST : HttpConnection.GET);
if (basicAuth) {
if (!this.areCredentialsSet()) throw new Exception("Credentials are not set");
String token = base64Encode((this.user + ":" + this.pass).getBytes(this.encoding));
conn.setRequestProperty("Authorization", "Basic " + token);
}
if (post && (params != null)) {
OutputStream os = conn.openOutputStream();
writer = new OutputStreamWriter(os, this.encoding);
this.encodeParams(params, writer);
writer.flush();
writer.close();
os = null;
writer = null;
}
int code = conn.getResponseCode();
if ((code != 200) && (code != 302))
throw new Exception("Unexpected response code " + code + ": " + conn.getResponseMessage());
is = conn.openInputStream();
if (processOutput) {
synchronized (this.json) {
return this.json.parse(is);
}
} else {
this.pump(is, System.out, 1024);
return null;
}
} finally {
if (writer != null) writer.close();
if (is != null) is.close();
if (conn != null) conn.close();
}
}
public void end() throws Exception {
FunMessage.Builder fm = FunMessage.newBuilder().setGameId(gameId).setFunScore(rate());
URL url = new URL("http://localhost:5000/gameFinish");
URLConnection urlCon = url.openConnection();
urlCon.setDoOutput(true);
OutputStreamWriter wr = new OutputStreamWriter(urlCon.getOutputStream());
wr.write("rating=");
wr.flush();
fm.build().writeTo(urlCon.getOutputStream());
urlCon.getOutputStream().close();
// No network I/O happens until you ask for feedback apparently
urlCon.getInputStream();
}
@Override
public void run() {
// long startTime = System.nanoTime();
synchronized (configFile) {
if (pendingDiskWrites.get() > 1) {
// Writes can be skipped, because they are stored in a queue (in the executor).
// Only the last is actually written.
pendingDiskWrites.decrementAndGet();
// LOGGER.log(Level.INFO, configFile + " skipped writing in " + (System.nanoTime() -
// startTime) + " nsec.");
return;
}
try {
Files.createParentDirs(configFile);
if (!configFile.exists()) {
try {
LOGGER.log(Level.INFO, tl("creatingEmptyConfig", configFile.toString()));
if (!configFile.createNewFile()) {
LOGGER.log(Level.SEVERE, tl("failedToCreateConfig", configFile.toString()));
return;
}
} catch (IOException ex) {
LOGGER.log(Level.SEVERE, tl("failedToCreateConfig", configFile.toString()), ex);
return;
}
}
final FileOutputStream fos = new FileOutputStream(configFile);
try {
final OutputStreamWriter writer = new OutputStreamWriter(fos, UTF8);
try {
writer.write(data);
} finally {
writer.close();
}
} finally {
fos.close();
}
} catch (IOException e) {
LOGGER.log(Level.SEVERE, e.getMessage(), e);
} finally {
// LOGGER.log(Level.INFO, configFile + " written to disk in " + (System.nanoTime() -
// startTime) + " nsec.");
pendingDiskWrites.decrementAndGet();
}
}
}
/**
* Writes the XML Declaration and the opening RDF tag to the print Writer. Encoding attribute is
* specified as the encoding argument.
*
* @param out PrintWriter
* @throws IOException
*/
protected void writeHeader(OutputStreamWriter out) throws IOException {
// validate
if (out != null) {
// wrapper for output stream writer (enable autoflushing)
PrintWriter writer = new PrintWriter(out, true);
// get encoding from the Encoding map
String encoding = EncodingMap.getJava2IANAMapping(out.getEncoding());
// only insert encoding if there is a value
if (encoding != null) {
// print opening tags <?xml version="1.0" encoding=*encoding*?>
writer.println("<?xml version=\"1.0\" encoding=\"" + encoding + "\"?>");
} else {
// print opening tags <?xml version="1.0"?>
writer.println("<?xml version=\"1.0\"?>");
}
// print the Entities
this.writeXMLEntities(writer);
// print the opening RDF tag (including namespaces)
this.writeRDFHeader(writer);
} else {
throw new IllegalArgumentException("Cannot write to null Writer.");
}
}
protected void writeParseTree(String filename, AST ast) {
try {
PrintStream stream = new PrintStream(new FileOutputStream(filename));
stream.println("<?xml version=\"1.0\"?>");
stream.println("<document>");
OutputStreamWriter writer = new OutputStreamWriter(stream);
if (ast != null) {
((CommonAST) ast).xmlSerialize(writer);
}
writer.flush();
stream.println("</document>");
writer.close();
} catch (IOException e) {
}
}
private static void writePatchesToFile(
final Project project,
final String path,
final List<FilePatch> remainingPatches,
CommitContext commitContext) {
OutputStreamWriter writer;
try {
writer = new OutputStreamWriter(new FileOutputStream(path), CharsetToolkit.UTF8_CHARSET);
try {
UnifiedDiffWriter.write(project, remainingPatches, writer, "\n", commitContext);
} finally {
writer.close();
}
} catch (IOException e) {
LOG.error(e);
}
}
public String getBody(String url, String text, LinkedHashMap header) {
if (text != null && text.length() > 0) {
File tmpFile = new File("/tmp/aa");
OutputStreamWriter out = null;
try {
// write the input
out = new OutputStreamWriter(new FileOutputStream(tmpFile), "UTF8");
out.write(text);
out.close();
// run TextPro
String[] CONFIG = {"TEXTPRO=" + TEXTPRO_PATH, "PATH=" + "/usr/bin/" + ":."};
String[] cmd = {
"/bin/tcsh",
"-c",
"perl " + TEXTPRO_PATH + "/textpro.pl -l eng -c token+pos+lemma+sentence -y " + tmpFile
};
Process process = run(cmd, CONFIG);
process.waitFor();
// read the TextPro's output
BufferedReader txpFile =
new BufferedReader(
new InputStreamReader(new FileInputStream(tmpFile.getCanonicalPath() + ".txp")));
StringBuilder result = new StringBuilder();
String line;
while ((line = txpFile.readLine()) != null) {
if (!line.startsWith("# FILE:")) {
result.append(line).append("\n");
}
}
txpFile.close();
return result.toString();
} catch (UnsupportedEncodingException e) {
e.printStackTrace();
} catch (FileNotFoundException e) {
e.printStackTrace();
} catch (IOException e) {
e.printStackTrace();
} catch (InterruptedException e) {
e.printStackTrace();
}
}
return "";
}
protected Document encrypt(Document doc) throws GeneralSecurityException, IOException {
ByteArrayOutputStream os = new ByteArrayOutputStream();
OutputStreamWriter writer = new OutputStreamWriter(os);
XMLOutputter out = new XMLOutputter(Format.getPrettyFormat());
out.output(doc, writer);
writer.close();
byte[] crypt = dodes(os.toByteArray(), Cipher.ENCRYPT_MODE);
Document secureDoc = new Document();
Element root = new Element(PROTECTED_QBEAN);
secureDoc.setRootElement(root);
Element secureData = new Element("data");
root.addContent(secureData);
secureData.setText(ISOUtil.hexString(crypt));
return secureDoc;
}
/**
* Create the directory path for the file to be generated, construct FileOutputStream and
* OutputStreamWriter depending upon docencoding.
*
* @param path The directory path to be created for this file.
* @param filename File Name to which the PrintWriter will do the Output.
* @param docencoding Encoding to be used for this file.
* @exception IOException Exception raised by the FileWriter is passed on to next level.
* @exception UnSupportedEncodingException Exception raised by the OutputStreamWriter is passed on
* to next level.
* @return Writer Writer for the file getting generated.
* @see java.io.FileOutputStream
* @see java.io.OutputStreamWriter
*/
public static Writer genWriter(
Configuration configuration, String path, String filename, String docencoding)
throws IOException, UnsupportedEncodingException {
FileOutputStream fos;
if (path != null) {
DirectoryManager.createDirectory(configuration, path);
fos = new FileOutputStream(((path.length() > 0) ? path + File.separator : "") + filename);
} else {
fos = new FileOutputStream(filename);
}
if (docencoding == null) {
OutputStreamWriter oswriter = new OutputStreamWriter(fos);
docencoding = oswriter.getEncoding();
return oswriter;
} else {
return new OutputStreamWriter(fos, docencoding);
}
}
/** Utility method to write a migrations file */
public static void writeMigrationsFile(ConfigManagerMigrations m, File f) {
OutputStreamWriter r = null;
try {
r = new OutputStreamWriter(new FileOutputStream(f));
XStream x = createXStream();
String config = x.toXML(m);
r.write(config);
} catch (Exception ex) {
ex.printStackTrace();
} finally {
if (r != null) {
try {
r.flush();
r.close();
} catch (IOException e) {
e.printStackTrace();
}
}
}
}
public void replaceVariable() throws IOException {
Closer closer = Closer.create();
try {
FileReader fReader = new FileReader();
List<String> content = fReader.getContent(FictionURL);
Properties indexOrderProperties = getIndexOrder();
List<String> natureOrderList = getNatureOrder(propertiesURL);
List<String> charOrderList = getCharOrder(natureOrderList);
Pattern p = Pattern.compile("\\$(\\w+)\\((\\d+)\\)");
OutputStreamWriter streamWriter =
closer.register(new OutputStreamWriter(new FileOutputStream("result.txt"), "UTF-8"));
for (String tempStr : content) {
Matcher m = p.matcher(tempStr);
while (m.find()) {
String orderName = m.group(1);
String num = m.group(2);
int listSize = natureOrderList.size();
if (orderName.equals("natureOrder"))
tempStr = tempStr.replace(m.group(), natureOrderList.get(Integer.parseInt(num)));
else if (orderName.equals("charOrder"))
tempStr = tempStr.replace(m.group(), charOrderList.get(Integer.parseInt(num)));
else if (orderName.equals("charOrderDESC"))
// 倒序为正序下标为:下标位置(集合总数-1)-倒序位置
tempStr =
tempStr.replace(m.group(), charOrderList.get(listSize - 1 - Integer.parseInt(num)));
else if (orderName.equals("indexOrder")) {
if (indexOrderProperties.getProperty(num) != null)
tempStr = tempStr.replace(m.group(), indexOrderProperties.getProperty(num));
else tempStr = tempStr.replace(m.group(), "null");
}
}
streamWriter.write(tempStr + "\n");
System.out.println(tempStr);
}
} finally {
closer.close();
}
}
private static void writeToFile(@NotNull final String path, @NotNull final String json) {
final File file = new File(path);
try {
final FileOutputStream fileOutputStream = new FileOutputStream(file);
final OutputStreamWriter writer =
new OutputStreamWriter(fileOutputStream, Charset.forName("UTF-8").newEncoder());
try {
writer.write(json);
} catch (IOException e) {
LOG.error(e);
} finally {
try {
writer.close();
fileOutputStream.close();
} catch (IOException e) {
LOG.error(e);
}
}
} catch (FileNotFoundException e) {
LOG.error(e);
}
}
/**
* Executes a command as {@code user}. Saves the stdout/stderr in the corresponding fields and
* returns the return code of the child process.
*
* @param cmd The command to execute
* @param data The data to send to the stdin of the process
* @param timelimt How many seconds the command can run
* @param memlimit How many megabytes the command can use
*/
private int exec(String cmdS, String data, int timelimit, int memlimit) throws Exception {
ArrayList<String> cmd = new ArrayList<String>(cmdPrefix);
cmd.add("-m");
cmd.add("" + memlimit);
cmd.add("-c");
cmd.add("" + timelimit);
cmd.add("-w");
cmd.add("" + (3 * timelimit + 1));
cmd.add("-x");
cmd.add(cmdS);
String tmp = "";
for (String cs : cmd) tmp += " \"" + cs + "\"";
log.fine("exec " + tmp);
ProcessBuilder pb = new ProcessBuilder(cmd);
pb.directory(workDir);
Process p = pb.start();
OutputStreamWriter writer = new OutputStreamWriter(p.getOutputStream());
StreamReader rOut = new StreamReader(p.getInputStream());
StreamReader rErr = new StreamReader(p.getErrorStream());
rOut.start();
rErr.start();
// TODO I think this may block for big tests. Check and Fix.
// send and receive data "in parallel"
writer.write(data);
writer.flush();
writer.close();
rOut.join();
rErr.join();
stdout = rOut.result;
stderr = rErr.result;
if (rOut.exception != null) throw rOut.exception;
if (rErr.exception != null) throw rErr.exception;
// log.finer("out: " + stdout);
// log.finer("err: " + stderr);
// log.finer("done exec");
return p.waitFor();
}
private static void writePost(Collection<Connection.KeyVal> data, OutputStream outputStream)
throws IOException {
OutputStreamWriter w = new OutputStreamWriter(outputStream, DataUtil.defaultCharset);
boolean first = true;
for (Connection.KeyVal keyVal : data) {
if (!first) w.append('&');
else first = false;
w.write(URLEncoder.encode(keyVal.key(), DataUtil.defaultCharset));
w.write('=');
w.write(URLEncoder.encode(keyVal.value(), DataUtil.defaultCharset));
}
w.close();
}
@Override
public void write(OutputStream out) throws IOException {
OutputStreamWriter writer = new OutputStreamWriter(out, UTF8);
this.write(writer);
writer.flush();
}
public void doPost(HttpServletRequest request, HttpServletResponse response)
throws ServletException, IOException {
// set the response
Shepherd myShepherd = new Shepherd();
Vector rEncounters = new Vector();
// setup data dir
String rootWebappPath = getServletContext().getRealPath("/");
File webappsDir = new File(rootWebappPath).getParentFile();
File shepherdDataDir = new File(webappsDir, CommonConfiguration.getDataDirectoryName());
// if(!shepherdDataDir.exists()){shepherdDataDir.mkdir();}
File encountersDir = new File(shepherdDataDir.getAbsolutePath() + "/encounters");
// if(!encountersDir.exists()){encountersDir.mkdir();}
// set up the files
String gisFilename = "geneGIS_export_" + request.getRemoteUser() + ".csv";
File gisFile = new File(encountersDir.getAbsolutePath() + "/" + gisFilename);
myShepherd.beginDBTransaction();
try {
// set up the output stream
FileOutputStream fos = new FileOutputStream(gisFile);
OutputStreamWriter outp = new OutputStreamWriter(fos);
try {
EncounterQueryResult queryResult =
EncounterQueryProcessor.processQuery(
myShepherd, request, "year descending, month descending, day descending");
rEncounters = queryResult.getResult();
int numMatchingEncounters = rEncounters.size();
// build the CSV file header
StringBuffer locusString = new StringBuffer("");
int numLoci = 2; // most covered species will be loci
try {
numLoci = (new Integer(CommonConfiguration.getProperty("numLoci"))).intValue();
} catch (Exception e) {
System.out.println("numPloids configuration value did not resolve to an integer.");
e.printStackTrace();
}
for (int j = 0; j < numLoci; j++) {
locusString.append(",Locus" + (j + 1) + " A1,Locus" + (j + 1) + " A2");
}
// out.println("<html><body>");
// out.println("Individual ID,Other ID 1,Date,Time,Latitude,Longitude,Area,Sub
// Area,Sex,Haplotype"+locusString.toString());
outp.write(
"Individual ID,Other ID 1,Date,Time,Latitude,Longitude,Area,Sub Area,Sex,Haplotype"
+ locusString.toString()
+ "\n");
for (int i = 0; i < numMatchingEncounters; i++) {
Encounter enc = (Encounter) rEncounters.get(i);
String assembledString = "";
if (enc.getIndividualID() != null) {
assembledString += enc.getIndividualID();
}
if (enc.getAlternateID() != null) {
assembledString += "," + enc.getAlternateID();
} else {
assembledString += ",";
}
String dateString = ",";
if (enc.getYear() > 0) {
dateString += enc.getYear();
if (enc.getMonth() > 0) {
dateString += ("-" + enc.getMonth());
if (enc.getDay() > 0) {
dateString += ("-" + enc.getDay());
}
}
}
assembledString += dateString;
String timeString = ",";
if (enc.getHour() > -1) {
timeString += enc.getHour() + ":" + enc.getMinutes();
}
assembledString += timeString;
if ((enc.getDecimalLatitude() != null) && (enc.getDecimalLongitude() != null)) {
assembledString += "," + enc.getDecimalLatitude();
assembledString += "," + enc.getDecimalLongitude();
} else {
assembledString += ",,";
}
assembledString += "," + enc.getVerbatimLocality();
assembledString += "," + enc.getLocationID();
assembledString += "," + enc.getSex();
// find and print the haplotype
String haplotypeString = ",";
if (enc.getHaplotype() != null) {
haplotypeString += enc.getHaplotype();
}
// find and print the ms markers
String msMarkerString = "";
List<TissueSample> samples = enc.getTissueSamples();
int numSamples = samples.size();
boolean foundMsMarkers = false;
for (int k = 0; k < numSamples; k++) {
if (!foundMsMarkers) {
TissueSample t = samples.get(k);
List<GeneticAnalysis> analyses = t.getGeneticAnalyses();
int aSize = analyses.size();
for (int l = 0; l < aSize; l++) {
GeneticAnalysis ga = analyses.get(l);
if (ga.getAnalysisType().equals("MicrosatelliteMarkers")) {
foundMsMarkers = true;
MicrosatelliteMarkersAnalysis ga2 = (MicrosatelliteMarkersAnalysis) ga;
List<Locus> loci = ga2.getLoci();
int localLoci = loci.size();
for (int m = 0; m < localLoci; m++) {
Locus locus = loci.get(m);
if (locus.getAllele0() != null) {
msMarkerString += "," + locus.getAllele0();
} else {
msMarkerString += ",";
}
if (locus.getAllele1() != null) {
msMarkerString += "," + locus.getAllele1();
} else {
msMarkerString += ",";
}
}
}
}
}
}
// out.println("<p>"+assembledString+haplotypeString+msMarkerString+"</p>");
outp.write(assembledString + haplotypeString + msMarkerString + "\n");
}
outp.close();
outp = null;
// now write out the file
response.setContentType("text/csv");
response.setHeader("Content-Disposition", "attachment;filename=" + gisFilename);
ServletContext ctx = getServletContext();
// InputStream is = ctx.getResourceAsStream("/encounters/"+gisFilename);
InputStream is = new FileInputStream(gisFile);
int read = 0;
byte[] bytes = new byte[BYTES_DOWNLOAD];
OutputStream os = response.getOutputStream();
while ((read = is.read(bytes)) != -1) {
os.write(bytes, 0, read);
}
os.flush();
os.close();
} catch (Exception ioe) {
ioe.printStackTrace();
response.setContentType("text/html");
PrintWriter out = response.getWriter();
out.println(ServletUtilities.getHeader(request));
out.println(
"<html><body><p><strong>Error encountered</strong> with file writing. Check the relevant log.</p>");
out.println(
"<p>Please let the webmaster know you encountered an error at: EncounterSearchExportGeneGISFormat servlet</p></body></html>");
out.println(ServletUtilities.getFooter());
out.close();
outp.close();
outp = null;
}
} catch (Exception e) {
e.printStackTrace();
response.setContentType("text/html");
PrintWriter out = response.getWriter();
out.println(ServletUtilities.getHeader(request));
out.println("<html><body><p><strong>Error encountered</strong></p>");
out.println(
"<p>Please let the webmaster know you encountered an error at: EncounterSearchExportGeneGISFormat servlet</p></body></html>");
out.println(ServletUtilities.getFooter());
out.close();
}
myShepherd.rollbackDBTransaction();
myShepherd.closeDBTransaction();
}
public static void main(String... args) throws IOException {
OutputStreamWriter osw = new OutputStreamWriter(System.out);
osw.write("hello world\n");
}
public static void main(String[] args) {
/** Define a host server */
String host = "localhost";
/** Define a port */
int port = 19999;
int port2 = 19990;
// int port3 = 19980;
StringBuffer instr = new StringBuffer();
String TimeStamp;
Parser parser = new Parser();
System.out.println("SocketClient initialized");
try {
// parsing
// DataStream ds =
// new PlainTextByLineDataStream(
// new FileReader(new File("input.txt")));
BufferedReader inputReader = new BufferedReader(new FileReader("input.txt"));
String sent;
while ((sent = inputReader.readLine()) != null) {
// String sentence = (String)ds.nextToken() + (char) 13;
String sentence = sent + (char) 13;
// System.out.println(str);
System.out.println("Parsing....");
Tree tree = parser.parse(sentence);
System.out.println(tree);
System.out.println("Extracting features...");
String srlIdentifier = "python srl-identifier.py " + '"' + tree + '"';
// System.out.println(srlIdentifier);
Runtime rr = Runtime.getRuntime();
Process pp = rr.exec(srlIdentifier);
BufferedReader brr = new BufferedReader(new InputStreamReader(pp.getInputStream()));
pp.waitFor();
BufferedReader reader = new BufferedReader(new FileReader("identifier.test"));
BufferedReader classifier = new BufferedReader(new FileReader("classifier.test"));
String line;
PrintWriter identifierOutput = new PrintWriter("identifier-output.txt");
PrintWriter classifierOutput = new PrintWriter("classifier-output.txt");
BufferedReader preds = new BufferedReader(new FileReader("pred.test"));
while ((line = reader.readLine()) != null) {
String pred = preds.readLine();
String features = line + (char) 13;
String classifierFeature = classifier.readLine() + (char) 13;
InetAddress address = InetAddress.getByName(host);
// Establish a socket connetion
Socket connection = new Socket(address, port);
Socket connection2 = new Socket(address, port2);
// Instantiate a BufferedOutputStream object
BufferedOutputStream bos = new BufferedOutputStream(connection.getOutputStream());
// Instantiate an OutputStreamWriter object with the optional character
// encoding.
//
OutputStreamWriter osw = new OutputStreamWriter(bos, "US-ASCII");
BufferedReader fromServer =
new BufferedReader(new InputStreamReader(connection.getInputStream()));
// Write across the socket connection and flush the buffer
osw.write(features);
osw.flush();
String identifierResponse = fromServer.readLine();
identifierOutput.println(identifierResponse);
BufferedOutputStream bos2 = new BufferedOutputStream(connection2.getOutputStream());
// Instantiate an OutputStreamWriter object with the optional character
// encoding.
//
OutputStreamWriter osw2 = new OutputStreamWriter(bos2, "US-ASCII");
BufferedReader fromServer2 =
new BufferedReader(new InputStreamReader(connection2.getInputStream()));
osw2.write(classifierFeature);
osw2.flush();
String ClassifierResponse = fromServer2.readLine();
classifierOutput.println(pred + ' ' + ClassifierResponse);
}
identifierOutput.close();
classifierOutput.close();
Runtime rlabeler = Runtime.getRuntime();
String srlClassifier = "python concept-formulator.py";
Process p = rlabeler.exec(srlClassifier);
BufferedReader br = new BufferedReader(new InputStreamReader(p.getInputStream()));
p.waitFor();
// System.out.println("here i am");
String line2;
while ((line2 = br.readLine()) != null) {
System.out.println(line2);
// while (br.ready())
// System.out.println(br.readLine());
}
}
} catch (Exception e) {
String cause = e.getMessage();
if (cause.equals("python: not found")) System.out.println("No python interpreter found.");
}
}