Example #1
0
 public static boolean download(
     URL url, String file, int prefix, int totalFilesize, IProgressUpdater updater) {
   File fFile = new File(new File(file).getParentFile().getPath());
   if (!fFile.exists()) fFile.mkdirs();
   boolean downloaded = true;
   BufferedInputStream in = null;
   FileOutputStream out = null;
   BufferedOutputStream bout = null;
   try {
     int count;
     int totalCount = 0;
     byte data[] = new byte[BUFFER];
     in = new BufferedInputStream(url.openStream());
     out = new FileOutputStream(file);
     bout = new BufferedOutputStream(out);
     while ((count = in.read(data, 0, BUFFER)) != -1) {
       bout.write(data, 0, count);
       totalCount += count;
       if (updater != null) updater.update(prefix + totalCount, totalFilesize);
     }
   } catch (Exception e) {
     e.printStackTrace();
     Utils.logger.log(Level.SEVERE, "Download error!");
     downloaded = false;
   } finally {
     try {
       close(in);
       close(bout);
       close(out);
     } catch (Exception e) {
       e.printStackTrace();
     }
   }
   return downloaded;
 }
Example #2
0
  /*
  	-- This is a helper methid to run the morph files
  */
  private static void runMorphDataSet() throws Exception {

    String morph_directory =
        "../../thesis-datasets/morph/"; // directory where all the morph code is stored
    File d = new File(morph_directory);
    // get all the files from a directory
    File[] fList = d.listFiles();
    List<String> dir_list = new ArrayList<String>();
    for (File file : fList) {
      if (file.isDirectory()) {
        dir_list.add(file.getName());
      }
    }
    for (String dir : dir_list) {
      directory = morph_directory + dir + "/";
      System.out.println("Running TDDD " + directory);
      ReadFile.readFile(directory, fileList); // read the two files
      System.out.println(fileList.get(0) + " " + fileList.get(1));
      preliminaryStep(directory);
      startCDC();
      fileList.clear();
      fileArray.clear();
      hashed_File_List.clear();
    }
  }
 public void delete() {
   if (delfile != null) {
     this.getInsertDB().delShareFile(this.delfile);
     String realpath = ServletActionContext.getRequest().getRealPath(inputPath);
     File file = new File(realpath + "\\" + delfile);
     if (file != null) {
       file.delete();
     }
   }
 }
Example #4
0
 public static String loadStringFromFile(String filename) {
   String line = "";
   File file = new File(filename);
   if (!file.exists()) return line;
   try {
     BufferedReader reader = new BufferedReader(new FileReader(file));
     line = reader.readLine();
     reader.close();
   } catch (Exception e) {
     e.printStackTrace();
   }
   return line;
 }
Example #5
0
 /** @param args */
 public static void main(String[] args) throws Exception {
   File file = new File("input.txt");
   if (file.exists()) {
     System.setIn(new BufferedInputStream(new FileInputStream("input.txt")));
   }
   out = System.out;
   bw = new BufferedWriter(new PrintWriter(out));
   // sc =  new Scanner(System.in);
   br = new BufferedReader(new InputStreamReader(System.in));
   C231 t = new C231();
   t.solve();
   bw.close();
 }
 /**
  * Takes a line and looks for an archive group tag. If one is found, the information from the tag
  * is returned as an <CODE>ArchiveGroup</CODE>. If a tag is found, the data in the tag is stored
  * in the <CODE>HashMap</CODE> provided.
  *
  * @param currentLine The line in which to look for the archive tag.
  * @param template The <CODE>Template</CODE> to which the <CODE>ArchiveGroup</CODE> belongs.
  * @return The archive request tag data as an instance of <CODE>ArchiveGroup</CODE>, <CODE>null
  *     </CODE> if the line passed in does not contain an arFile tag.
  */
 private ArchiveGroup parseArchiveGroupTag(String currentLine, Template template) {
   ArchiveGroup archiveTag;
   Matcher currentMatcher = archiveRequestPattern.matcher(currentLine);
   if (currentMatcher.find()) {
     String fileName = currentMatcher.group(1);
     archiveTag = template.getArchiveGroup(fileName);
     if (archiveTag == null) {
       File groupFile = new File(fileName);
       archiveTag = new ArchiveGroup(groupFile.getParent(), groupFile.getName());
       template.addArchiveGroup(archiveTag);
     }
   } else archiveTag = null;
   return archiveTag;
 }
Example #7
0
 /**
  * @param aFile
  * @throws IOException
  */
 public Elf(final File aFile) throws IOException {
   try {
     this.efile = new ERandomAccessFile(aFile, "r");
     this.ehdr = new ElfHeader(this.efile);
     this.file = aFile.getAbsolutePath();
   } finally {
     if (this.ehdr == null) {
       dispose();
     }
   }
 }
Example #8
0
  public static void extract(String zipFile, String newPath, boolean overwrite)
      throws ZipException, IOException {
    File file = new File(zipFile);

    ZipFile zip = new ZipFile(file);

    new File(newPath).mkdir();
    Enumeration<? extends ZipEntry> zipFileEntries = zip.entries();

    // Process each entry
    while (zipFileEntries.hasMoreElements()) {
      // grab a zip file entry
      ZipEntry entry = (ZipEntry) zipFileEntries.nextElement();
      String currentEntry = entry.getName();
      File destFile = new File(newPath, currentEntry);
      // destFile = new File(newPath, destFile.getName());
      File destinationParent = destFile.getParentFile();

      // create the parent directory structure if needed
      destinationParent.mkdirs();

      if (!entry.isDirectory()) {
        if (!overwrite && destFile.exists()) continue;
        BufferedInputStream is = new BufferedInputStream(zip.getInputStream(entry));
        int currentByte;
        // establish buffer for writing file
        byte data[] = new byte[BUFFER];

        // write the current file to disk
        FileOutputStream fos = new FileOutputStream(destFile);
        BufferedOutputStream dest = new BufferedOutputStream(fos, BUFFER);

        // read and write until last byte is encountered
        while ((currentByte = is.read(data, 0, BUFFER)) != -1) {
          dest.write(data, 0, currentByte);
        }
        close(dest);
        close(is);
      }
    }
  }
Example #9
0
  /*
  	- This method is used has a helper method to run the algo for the archive dataset
  	- Note the archive set has multiple directories ( one for each url )
  	- So Read all of the directories in first and for each directory run the code
  */
  private static void runArchiveSet() throws Exception {

    System.out.println("Running TDDD archive");
    directory = "../../thesis-datasets/datasets2/";
    File file = new File(directory);
    String[] directory_list =
        file.list(
            new FilenameFilter() {
              @Override
              public boolean accept(File current, String name) {
                return new File(current, name).isDirectory(); // make sure its a directory
              }
            });

    int totalRuns = 0; // used to avg the runs in the end
    int total_iter_count =
        0; // this is used check how many times we will iterate through the data so we can make an
           // array of that size
    for (int i = startBoundary; i <= endBoundary; i += increment) total_iter_count++;

    // System.out.println(Arrays.toString(directory_list));
    int sets = 0;
    // make the arrays to hold the respecitve info for the different verions\
    // run it simulateounsly to speed the from the program!
    double[] block_size_list_last_year = new double[total_iter_count];
    double[] ratio_size_list_last_year = new double[total_iter_count];

    double[] block_size_list_six_month = new double[total_iter_count];
    double[] ratio_size_list__six_month = new double[total_iter_count];

    double[] block_size_list_two_year = new double[total_iter_count];
    double[] ratio_size_list_two_year = new double[total_iter_count];

    int current = 0;
    int six_month = 2;
    int last_year = 1;
    int two_year = 3;
    // loop through and run the cdc for each directory
    for (String dir : directory_list) {

      ReadFile.readFile(directory + dir, fileList); // read all the files in this directory
      preliminaryStep(directory + dir + "/"); // call the preliminaryStep on all the files

      totalRuns++;

      totalSize =
          fileArray.get(current)
              .length; // get the length of the file we will be running it against!

      // run it against six month
      startCDC(
          block_size_list_six_month,
          ratio_size_list__six_month,
          fileArray.get(current),
          fileArray.get(six_month),
          hashed_File_List.get(current),
          hashed_File_List.get(six_month));

      // run it against last year
      startCDC(
          block_size_list_last_year,
          ratio_size_list_last_year,
          fileArray.get(current),
          fileArray.get(last_year),
          hashed_File_List.get(current),
          hashed_File_List.get(last_year));

      // run it against 2
      startCDC(
          block_size_list_two_year,
          ratio_size_list_two_year,
          fileArray.get(current),
          fileArray.get(two_year),
          hashed_File_List.get(current),
          hashed_File_List.get(two_year));

      // // clear the fileList and hashed_file_list array
      fileArray.clear();
      hashed_File_List.clear();
      fileList.clear();

      // if (Double.isNaN(ratio_size_list[0])){
      // 	System.out.println(sets+" "+Arrays.toString(ratio_size_list));
      // 	test = true;
      // 	break;
      // }
      if (sets % 200 == 0) System.out.println(sets);
      ++sets;
    } // end of directory list for loop

    // now output the avged value for all the runs
    // System.out.println(Arrays.toString(ratio_size_list));
    System.out.println("Printing six_month");
    int index = 0;
    for (int i = startBoundary; i <= endBoundary; i += increment) {
      // avg out the outputs
      double blockSize = block_size_list_six_month[index] / (double) totalRuns;
      double ratio = ratio_size_list__six_month[index] / (double) totalRuns;
      System.out.println(i + " " + i / 2 + 1 + " " + i / 4 + 1 + " " + blockSize + " " + ratio);
      index++;
    }
    System.out.println("Printing last year");
    index = 0;
    for (int i = startBoundary; i <= endBoundary; i += increment) {
      double blockSize = block_size_list_last_year[index] / (double) totalRuns;
      double ratio = ratio_size_list_last_year[index] / (double) totalRuns;
      System.out.println(i + " " + blockSize + " " + ratio);
      index++;
    }

    System.out.println("Printing two year");
    index = 0;
    for (int i = startBoundary; i <= endBoundary; i += increment) {
      double blockSize = block_size_list_two_year[index] / (double) totalRuns;
      double ratio = ratio_size_list_two_year[index] / (double) totalRuns;
      System.out.println(i + " " + blockSize + " " + ratio);
      index++;
    }
  }
Example #10
0
 public static void deleteIfExists(File file) {
   if (file.exists()) file.delete();
 }
Example #11
0
 public static void deleteDirectory(File f) throws IOException {
   if (f.isDirectory()) {
     for (File c : f.listFiles()) deleteDirectory(c);
   }
   if (!f.delete()) throw new FileNotFoundException("Failed to delete file: " + f);
 }
  private static String createUnifiedRefFile(String prefix, int numFiles) throws Exception {
    if (numFiles < 2) {
      println(
          "Warning: createUnifiedRefFile called with numFiles = " + numFiles + "; doing nothing.");
      return prefix;
    } else {
      File checker;
      checker = new File(prefix + "1");

      if (!checker.exists()) {
        checker = new File(prefix + ".1");
        if (!checker.exists()) {
          println("Can't find reference files.");
          System.exit(50);
        } else {
          prefix = prefix + ".";
        }
      }

      String outFileName;
      if (prefix.endsWith(".")) {
        outFileName = prefix + "all";
      } else {
        outFileName = prefix + ".all";
      }

      PrintWriter outFile = new PrintWriter(outFileName);

      BufferedReader[] inFile = new BufferedReader[numFiles];

      int nextIndex;
      checker = new File(prefix + "0");
      if (checker.exists()) {
        nextIndex = 0;
      } else {
        nextIndex = 1;
      }
      int lineCount = countLines(prefix + nextIndex);

      for (int r = 0; r < numFiles; ++r) {
        if (countLines(prefix + nextIndex) != lineCount) {
          println("Line count mismatch in " + (prefix + nextIndex) + ".");
          System.exit(60);
        }
        inFile[r] = new BufferedReader(new FileReader(prefix + nextIndex));
        ++nextIndex;
      }

      String line;

      for (int i = 0; i < lineCount; ++i) {
        for (int r = 0; r < numFiles; ++r) {
          line = inFile[r].readLine();
          outFile.println(line);
        }
      }

      outFile.close();

      for (int r = 0; r < numFiles; ++r) {
        inFile[r].close();
      }

      return outFileName;
    }
  } // createUnifiedRefFile(String prefix, int numFiles)
 private static boolean fileExists(String fileName) {
   File checker = new File(fileName);
   return checker.exists();
 }
  private static void processArgsAndInitialize(String[] args) throws Exception {
    EvaluationMetric.set_knownMetrics();

    // set default values
    candFileName = "candidates.txt";
    candFileFormat = "plain";
    candRank = 1;
    refFileName = "references.txt";
    refsPerSen = 1;
    metricName = "BLEU";
    metricOptions = new String[2];
    metricOptions[0] = "4";
    metricOptions[1] = "closest";
    evaluateRefs = false;
    verbose = false;

    int i = 0;

    while (i < args.length) {
      String option = args[i];
      if (option.equals("-cand")) {
        candFileName = args[i + 1];
      } else if (option.equals("-format")) {
        candFileFormat = args[i + 1];
        if (!candFileFormat.equals("plain") && !candFileFormat.equals("nbest")) {
          println("candFileFormat must be either plain or nbest.");
          System.exit(10);
        }
      } else if (option.equals("-rank")) {
        candRank = Integer.parseInt(args[i + 1]);
        if (refsPerSen < 1) {
          println("Argument for -rank must be positive.");
          System.exit(10);
        }
      } else if (option.equals("-ref")) {
        refFileName = args[i + 1];
      } else if (option.equals("-rps")) {
        refsPerSen = Integer.parseInt(args[i + 1]);
        if (refsPerSen < 1) {
          println("refsPerSen must be positive.");
          System.exit(10);
        }
      } else if (option.equals("-m")) {
        metricName = args[i + 1];
        if (EvaluationMetric.knownMetricName(metricName)) {
          int optionCount = EvaluationMetric.metricOptionCount(metricName);
          metricOptions = new String[optionCount];
          for (int opt = 0; opt < optionCount; ++opt) {
            metricOptions[opt] = args[i + opt + 2];
          }
          i += optionCount;
        } else {
          println("Unknown metric name " + metricName + ".");
          System.exit(10);
        }
      }

      /*
            else if (option.equals("-m")) {
              metricName = args[i+1];
              if (!EvaluationMetric.knownMetricName(metricName)) { println("Unknown metric name " + metricName + "."); System.exit(10); }
              if (metricName.equals("BLEU")) {
                metricOptions = new String[2];
                metricOptions[0] = args[i+2];
                metricOptions[1] = args[i+3];
                i += 2;
              }
            }
      */
      else if (option.equals("-evr")) {
        int evr = Integer.parseInt(args[i + 1]);
        if (evr == 1) evaluateRefs = true;
        else if (evr == 0) evaluateRefs = false;
        else {
          println("evalRefs must be either 0 or 1.");
          System.exit(10);
        }
      } else if (option.equals("-v")) {
        int v = Integer.parseInt(args[i + 1]);
        if (v == 1) verbose = true;
        else if (v == 0) verbose = false;
        else {
          println("verbose must be either 0 or 1.");
          System.exit(10);
        }
      } else {
        println("Unknown option " + option);
        System.exit(10);
      }

      i += 2;
    } // while (i)

    if (refsPerSen > 1) {
      // the provided refFileName might be a prefix
      File dummy = new File(refFileName);
      if (!dummy.exists()) {
        refFileName = createUnifiedRefFile(refFileName, refsPerSen);
      }
    } else {
      checkFile(refFileName);
    }

    // initialize
    numSentences = countLines(refFileName) / refsPerSen;

    // read in reference sentences
    refSentences = new String[numSentences][refsPerSen];
    BufferedReader inFile_refs = new BufferedReader(new FileReader(refFileName));
    String line;

    for (i = 0; i < numSentences; ++i) {
      for (int r = 0; r < refsPerSen; ++r) {
        // read the rth reference translation for the ith sentence
        refSentences[i][r] = inFile_refs.readLine();
      }
    }

    inFile_refs.close();

    // set static data members for the EvaluationMetric class
    EvaluationMetric.set_numSentences(numSentences);
    EvaluationMetric.set_refsPerSen(refsPerSen);
    EvaluationMetric.set_refSentences(refSentences);

    // do necessary initialization for the evaluation metric
    evalMetric = EvaluationMetric.getMetric(metricName, metricOptions);

    println("Processing " + numSentences + " sentences...");
  } // processArgsAndInitialize(String[] args)