Exemple #1
1
 public static void verifyCommand(
     String args[],
     @SuppressWarnings("unused") String help,
     Pattern[] patterns,
     int low,
     int high) {
   String message = "";
   if (args.length > high) {
     message = "too many arguments";
   } else if (args.length < low) {
     message = "too few arguments";
   } else {
     for (int i = 0; patterns != null && i < patterns.length && i < args.length; i++) {
       if (patterns[i] != null) {
         Matcher m = patterns[i].matcher(args[i]);
         if (!m.matches())
           message +=
               String.format(
                   "Argument %s (%s) does not match %s%n", i, args[i], patterns[i].pattern());
       }
     }
   }
   if (message.length() != 0) {
     StringBuilder sb = new StringBuilder();
     String del = "${";
     for (String arg : args) {
       sb.append(del);
       sb.append(arg);
       del = ";";
     }
     sb.append("}, is not understood. ");
     sb.append(message);
     throw new IllegalArgumentException(sb.toString());
   }
 }
 public static String removePrimerLR(String pname) {
   Matcher m = primerLRPattern.matcher(pname);
   if (!m.matches()) {
     throw new IllegalArgumentException(pname);
   }
   return m.group(1);
 }
 public static String getChrom(String chromName) {
   Matcher m = chromPattern.matcher(chromName);
   if (!m.matches()) {
     return chromName;
   }
   return m.group(1);
 }
  private static String expand(String str) {
    if (str == null) {
      return null;
    }

    StringBuilder result = new StringBuilder();
    Pattern re = Pattern.compile("^(.*?)\\$\\{([^}]*)\\}(.*)");
    while (true) {
      Matcher matcher = re.matcher(str);
      if (matcher.matches()) {
        result.append(matcher.group(1));
        String property = matcher.group(2);
        if (property.equals("/")) {
          property = "file.separator";
        }
        String value = System.getProperty(property);
        if (value != null) {
          result.append(value);
        }
        str = matcher.group(3);
      } else {
        result.append(str);
        break;
      }
    }
    return result.toString();
  }
  public static void main(String[] args) throws IOException {
    // Get input html
    StringBuffer sb = new StringBuffer();
    BufferedReader in = new BufferedReader(new InputStreamReader(System.in));
    for (String str = in.readLine(); str != null; str = in.readLine()) {
      sb.append("\n" + str);
    }
    String html = sb.toString();

    // Match all the questions
    Matcher matcher =
        Pattern.compile(
                "<\\s*div\\s+class\\s*=\\s*\"question-summary\"\\s*id\\s*=\\s*\"question-summary-(?<id>\\d+)\"\\s*>"
                    + ".*?<\\s*div\\s+class\\s*=\\s*\"summary\"\\s*>"
                    + ".*?<\\s*a\\s+.*?class\\s*=\\s*\"question-hyperlink\"\\s*>"
                    + "(?<title>.*?)"
                    + "</\\s*a\\s*>.*?<\\s*div\\s+class\\s*=\\s*\"user-action-time\"\\s*>"
                    + ".*?<\\s*span\\s+.*?>(?<time>.*?)</\\s*span\\s*>",
                Pattern.CASE_INSENSITIVE | Pattern.DOTALL)
            .matcher(html);

    // Output the information
    while (matcher.find()) {
      String id = matcher.group("id");
      String title = matcher.group("title");
      String time = matcher.group("time");
      System.out.println(id + ";" + title + ";" + time);
    }
  }
 /**
  * Takes a line and looks for an archive request tag. If one is found, the information from the
  * tag is returned as an <CODE>ArchiveRequest</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 group The <CODE>ArchiveGroup</CODE> to which to add the <CODE>ArchiveRequest</CODE>. Can
  *     be <CODE>null</CODE>.
  * @param template The <CODE>Template</CODE> to which the <CODE>ArchiveRequest</CODE> belongs.
  * @return The archive request tag data as an instance of <CODE>ArchiveRequest</CODE>, <CODE>null
  *     </CODE> if the line passed in does not contain an arFile tag.
  */
 private ArchiveRequest parseArchiveRequestTag(
     String currentLine, ArchiveGroup group, Template template) {
   ArchiveRequest archiveTag;
   Matcher currentMatcher = archiveRequestPattern.matcher(currentLine);
   if (currentMatcher.find()) {
     String fileName = currentMatcher.group(1);
     archiveTag = template.getArchiveRequest(fileName);
     if (archiveTag == null) {
       archiveTag = new ArchiveRequest(fileName);
       template.addArchiveRequest(archiveTag);
     }
     if (group != null) {
       // Creating a new request object because the requests
       // in the groups flagged as not in database will mean the
       // group - request association is not in database. Requests
       // in the archiveRequests map flagged as not in database
       // means the request record is not there.
       String requestFileName = archiveTag.getFileName();
       String requestFileLocation = archiveTag.getFileLocation();
       ArchiveRequest groupRequest = new ArchiveRequest(requestFileLocation, requestFileName);
       group.addArchiveRequest(groupRequest);
     }
   } else archiveTag = null;
   return archiveTag;
 }
 /**
  * Get the noun and verb <roots> (i.e. 'the highest' synsets in WordNet) from the particular
  * 'icfile' (Information Content) that you are applying. Store a noun <root>: a synset offset
  * number of type Integer in nounroots: an ArrayList<Integer> defined in the constructor of this
  * class. Store a verb <root>: a synset offset number of type Integer in verbroots: an
  * ArrayList<Integer> defined in the constructor of this class.
  *
  * <p>An example line in an 'icfile', showing a noun <root>: 1740n 128767 ROOT
  */
 private void getRoots() {
   Pattern pn = Pattern.compile("[0-9]+n [0-9]+ ROOT"); // find noun <root>
   Pattern pv = Pattern.compile("[0-9]+v [0-9]+ ROOT"); // find verb <root>
   Matcher m = null;
   String root = "";
   try {
     BufferedReader in = new BufferedReader(new FileReader(icfile));
     String line;
     while ((line = in.readLine()) != null) {
       // nouns
       m = pn.matcher(line);
       if (m.matches()) {
         root = (line.split("\\s")[0]).split("n")[0]; // !!! double split !!!
         nounroots.add(Integer.parseInt(root));
       }
       // verbs
       m = pv.matcher(line);
       if (m.matches()) {
         root = (line.split("\\s")[0]).split("v")[0]; // !!! double split !!!
         verbroots.add(Integer.parseInt(root));
       }
     }
     in.close();
   } catch (IOException e) {
     e.printStackTrace();
   }
 }
  public boolean isPresent2(String patternStr) {
    Pattern p = Pattern.compile(patternStr);
    Matcher m = p.matcher(string2);
    boolean b = m.matches();

    return b;
  }
Exemple #9
0
 public FileVisitResult preVisitDirectory(Path dir, BasicFileAttributes attrs)
     throws IOException {
   if (m != null) m.reset(root.relativize(dir).toString());
   return m == null || m.matches() || m.hitEnd()
       ? FileVisitResult.CONTINUE
       : FileVisitResult.SKIP_SUBTREE;
 }
Exemple #10
0
  public static void main(String[] args) {
    String inputStr = null;
    BufferedReader reader = new BufferedReader(new InputStreamReader(System.in));

    try {
      while ((inputStr = reader.readLine()) != null) {
        inputStr = inputStr.trim();

        if (DEST_MATCHER.reset(inputStr).matches()) {
          System.out.println("Destination field!\n");
        } else if (SOURCE_MATCHER.reset(inputStr).matches()) {
          System.out.println("Source field!\n");
        } else if (STRING_MATCHER.reset(inputStr).matches()) {
          System.out.println("String literal!\n");
        } else if (VAR_MATCHER.reset(inputStr).matches()) {
          System.out.println("Variable!\n");
        } else if (NUM_MATCHER.reset(inputStr).matches()) {
          System.out.println("Number!\n");
        } else {
          System.out.println("Huh???\n");
        }
      }
    } catch (Exception ioe) {
      System.out.println("Exception: " + ioe.toString());
      ioe.printStackTrace();
    }
  }
Exemple #11
0
  private InstanceList readFile() throws IOException {

    String NL = System.getProperty("line.separator");
    Scanner scanner = new Scanner(new FileInputStream(fileName), encoding);

    ArrayList<Pipe> pipeList = new ArrayList<Pipe>();
    pipeList.add(new CharSequence2TokenSequence(Pattern.compile("\\p{L}\\p{L}+")));
    pipeList.add(new TokenSequence2FeatureSequence());

    InstanceList testing = new InstanceList(new SerialPipes(pipeList));

    try {
      while (scanner.hasNextLine()) {

        String text = scanner.nextLine();
        text = text.replaceAll("\\x0d", "");

        Pattern patten = Pattern.compile("^(.*?),(.*?),(.*)$");
        Matcher matcher = patten.matcher(text);

        if (matcher.find()) {
          docIds.add(matcher.group(1));
          testing.addThruPipe(new Instance(matcher.group(3), null, "test instance", null));
        }
      }
    } finally {
      scanner.close();
    }

    return testing;
  }
Exemple #12
0
  /**
   * Get dependencies of a source file.
   *
   * @param path The canonical path of source file.
   * @return Path of dependencies.
   */
  private ArrayList<String> getDependencies(String path) {
    if (!dependenceMap.containsKey(path)) {
      ArrayList<String> dependencies = new ArrayList<String>();
      Matcher m = PATTERN_REQUIRE.matcher(read(path, charset));

      while (m.find()) {
        // Decide which root path to use.
        // Path wrapped in <> is related to root path.
        // Path wrapped in "" is related to parent folder of the source file.
        String root = null;

        if (m.group(1).equals("<")) {
          root = this.root;
        } else {
          root = new File(path).getParent();
        }

        // Get path of required file.
        String required = m.group(2);

        File f = new File(root, required);

        if (f.exists()) {
          dependencies.add(canonize(f));
        } else {
          App.exit("Cannot find required file " + required + " in " + path);
        }
      }

      dependenceMap.put(path, dependencies);
    }

    return dependenceMap.get(path);
  }
Exemple #13
0
 @Override
 public void actionPerformed(ActionEvent e) {
   if (td.getTabCount() > 0) {
     TextDocument ta = (TextDocument) td.getComponentAt(td.getSelectedIndex());
     Pattern pn = Pattern.compile(tf1.getText());
     Matcher mt = pn.matcher(ta.getText());
     if (e.getSource() == jb2) { // 取代
       ta.setText(mt.replaceAll(tf2.getText()));
     } else if (e.getSource() == jb1) { // 尋找
       Highlighter hl = ta.getHighlighter();
       hl.removeAllHighlights();
       while (mt.find()) {
         try {
           hl.addHighlight(
               mt.start(), mt.end(), new DefaultHighlighter.DefaultHighlightPainter(null));
         } catch (Exception ex) {
         }
       } // 開啟及關閉介面
     } else if (e.getSource() == replace_searchMenuItem) {
       System.out.println("Replace/Search is show:" + !show);
       if (show) {
         getContentPane().remove(jp);
         show = false;
       } else {
         getContentPane().add(jp, BorderLayout.SOUTH);
         show = true;
       }
       validate(); // 刷新容器
     }
   } else if (e.getSource() == replace_searchMenuItem) {
     JOptionPane.showMessageDialog(
         null, "尚無檔案,無法使用!", "Repace/Search error", JOptionPane.ERROR_MESSAGE);
   }
 }
 public String getArtifactIdFromCoord(String coord) {
   Matcher m = COORD_P.matcher(coord);
   if (m.matches()) {
     return m.group(2);
   } else {
     return null;
   }
 }
Exemple #15
0
 public FileVisitResult visitFile(Path file, BasicFileAttributes attrs) throws IOException {
   if (attrs.isRegularFile()) {
     if (m != null) m.reset(root.relativize(file).toString());
     if (m == null || m.matches())
       futures.add(exec.submit(new FileLoader(root, file, blocSize)));
   }
   return FileVisitResult.CONTINUE;
 }
 public BasicSpellChecker(String file) throws IOException {
   BufferedReader in = new BufferedReader(new FileReader(file));
   Pattern p = Pattern.compile("\\w+");
   for (String temp = ""; temp != null; temp = in.readLine()) {
     Matcher m = p.matcher(temp.toLowerCase());
     while (m.find())
       nWords.put((temp = m.group()), nWords.containsKey(temp) ? nWords.get(temp) + 1 : 1);
   }
   in.close();
 }
  // todo: give options for document splitting. A line or the whole file or
  // sentence splitting as now
  public Iterator<List<IN>> getIterator(Reader r) {
    Tokenizer<IN> tokenizer = tokenizerFactory.getTokenizer(r);
    // PTBTokenizer.newPTBTokenizer(r, false, true);
    List<IN> words = new ArrayList<IN>();
    IN previous = tokenFactory.makeToken();
    StringBuilder prepend = new StringBuilder();

    /*
     * This changes SGML tags into whitespace -- it should maybe be moved
     * elsewhere
     */
    while (tokenizer.hasNext()) {
      IN w = tokenizer.next();
      String word = w.get(CoreAnnotations.TextAnnotation.class);
      Matcher m = sgml.matcher(word);
      if (m.matches()) {

        String before = StringUtils.getNotNullString(w.get(CoreAnnotations.BeforeAnnotation.class));
        String after = StringUtils.getNotNullString(w.get(CoreAnnotations.AfterAnnotation.class));
        prepend.append(before).append(word);
        String previousTokenAfter =
            StringUtils.getNotNullString(previous.get(CoreAnnotations.AfterAnnotation.class));
        previous.set(AfterAnnotation.class, previousTokenAfter + word + after);
        // previous.appendAfter(w.word() + w.after());
      } else {

        String before = StringUtils.getNotNullString(w.get(CoreAnnotations.BeforeAnnotation.class));
        if (prepend.length() > 0) {
          w.set(BeforeAnnotation.class, prepend.toString() + before);
          // w.prependBefore(prepend.toString());
          prepend = new StringBuilder();
        }
        words.add(w);
        previous = w;
      }
    }

    List<List<IN>> sentences = wts.process(words);
    String after = "";
    IN last = null;
    for (List<IN> sentence : sentences) {
      int pos = 0;
      for (IN w : sentence) {
        w.set(PositionAnnotation.class, Integer.toString(pos));
        after = StringUtils.getNotNullString(w.get(CoreAnnotations.AfterAnnotation.class));
        w.remove(AfterAnnotation.class);
        last = w;
      }
    }
    if (last != null) {
      last.set(AfterAnnotation.class, after);
    }

    return sentences.iterator();
  }
  // remove non-word characters and everything after ":::" from the
  // program point name, leaving PackageName.ClassName.MethodName
  private static String cleanup_pptname(String pptname) {
    int index;
    if ((index = pptname.indexOf("(")) > 0) {
      pptname = pptname.substring(0, index);
    }

    if (pptname.endsWith(".")) pptname = pptname.substring(0, pptname.length() - 2);

    Matcher m = non_word_pattern.matcher(pptname);
    return m.replaceAll(".");
  }
Exemple #19
0
	void search() {
		int i=0;
		Matcher matcher=new Matcher(a,b);
		while (i<a.length-1) {
			int j=i;
			matcher.findBiggestMatchForFrom(i,j);
			
			findbiggestmatchfrom(i,j,0);

		}
	}
  public int getStatus() {
    if (status != null) {
      return status;
    }

    matcher = STATUS_PATTERN.matcher(firstLine);
    if (matcher.find()) {
      status = Integer.parseInt(matcher.group(1));
    }
    return status;
  }
 public static int[] decodePrimerName(String pname) {
   Matcher m = primerNamePattern.matcher(pname);
   if (!m.matches()) {
     throw new IllegalArgumentException(pname);
   }
   int[] a = new int[3];
   a[0] = Integer.parseInt(m.group(1));
   a[1] = Integer.parseInt(m.group(2));
   a[2] = Integer.parseInt(m.group(3));
   return a;
 }
  public String getResult() {
    if (result != null) {
      return result;
    }

    matcher = RESULT_PATTERN.matcher(firstLine);
    if (matcher.find()) {
      result = matcher.group(1);
    }
    return result;
  }
 /**
  * Converts a colour from #rrggbb to Java Color object.
  *
  * @param rgb String e.g. #ff00ee
  * @return Colour
  * @throws IllegalArgumentException If colour string is not valid
  */
 protected Color convertRgb(String rgb) throws IllegalArgumentException {
   // Get colour parameter
   Matcher m = REGEX_RGB.matcher(rgb);
   if (!m.matches()) {
     throw new IllegalArgumentException(
         "MathML invalid colour '" + rgb + "'; expected #rrggbb (lower-case)");
   }
   return new Color(
       Integer.parseInt(m.group(1), 16),
       Integer.parseInt(m.group(2), 16),
       Integer.parseInt(m.group(3), 16));
 }
  void findRemoveDirectives(boolean clean) {
    // if ( clean ) editor.startCompoundEdit();

    Sketch sketch = editor.getSketch();
    for (int i = 0; i < sketch.getCodeCount(); i++) {
      SketchCode code = sketch.getCode(i);
      String program = code.getProgram();
      StringBuffer buffer = new StringBuffer();

      Matcher m = pjsPattern.matcher(program);
      while (m.find()) {
        String mm = m.group();

        // TODO this urgently needs tests ..

        /* remove framing */
        mm = mm.replaceAll("^\\/\\*\\s*@pjs", "").replaceAll("\\s*\\*\\/\\s*$", "");
        /* fix multiline nice formatting */
        mm = mm.replaceAll("[\\s]*([^;\\s\\n\\r]+)[\\s]*,[\\s]*[\\n\\r]+", "$1,");
        /* fix multiline version without semicolons */
        mm = mm.replaceAll("[\\s]*([^;\\s\\n\\r]+)[\\s]*[\\n\\r]+", "$1;");
        mm = mm.replaceAll("\n", " ").replaceAll("\r", " ");

        // System.out.println(mm);

        if (clean) {
          m.appendReplacement(buffer, "");
        } else {
          String[] directives = mm.split(";");
          for (String d : directives) {
            // System.out.println(d);
            parseDirective(d);
          }
        }
      }

      if (clean) {
        m.appendTail(buffer);

        // TODO: not working!
        code.setProgram(buffer.toString());
        code.setModified(true);
      }
    }

    if (clean) {
      // editor.stopCompoundEdit();
      editor.setText(sketch.getCurrentCode().getProgram());
      sketch.setModified(false);
      sketch.setModified(true);
    }
  }
  protected static String getMethodName(Test test) {
    String className;
    String desc = test.toString();
    Matcher matcher = methodpattern.matcher(desc);
    if (matcher.matches()) {
      className = matcher.group(1);

    } else {
      className = desc;
    }

    return className;
  }
 /**
  * Returns an integer corresponding to the given experiment name. If the argument matches an
  * experiment name exactly, then that index is returned. Otherwise, the argument is treated as a
  * regexp, and the index of some experiment that matches it is returned.
  *
  * @param key The name, or regexp for the name, of the experiment to find.
  * @return The array index of the experiment, or -1 if not found.
  */
 public int findExperiment(String key) {
   if (exptIndices.containsKey(key)) {
     return exptIndices.get(key);
   }
   Pattern p = Pattern.compile(key);
   for (String k : exptIndices.keySet()) {
     Matcher m = p.matcher(k);
     if (m.matches()) {
       return exptIndices.get(k);
     }
   }
   return -1;
 }
 /**
  * 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;
 }
  public void testBaseUrl() throws Exception {
    sau1 = setupSimAu(simAuConfig(tempDirPath));
    createContent(sau1);
    crawlContent(sau1);
    CachedUrlSet cus1 = sau1.getAuCachedUrlSet();

    tempDirPath2 = getTempDir().getAbsolutePath() + File.separator;
    Configuration config2 = simAuConfig(tempDirPath2);
    config2.put("base_url", "http://anotherhost.org/");
    SimulatedArchivalUnit sau2 = setupSimAu(config2);
    createContent(sau2);
    crawlContent(sau2);
    CachedUrlSet cus2 = sau1.getAuCachedUrlSet();
    List urls1 = auUrls(sau1);
    List urls2 = auUrls(sau2);

    Pattern pat = Pattern.compile("http://([^/]+)(/.*)$");
    List<String> l1 = auUrls(sau1);
    List<String> l2 = auUrls(sau2);
    assertEquals(l1.size(), l2.size());
    for (int ix = 0; ix < l1.size(); ix++) {
      Matcher m1 = pat.matcher(l1.get(ix));
      assertTrue(m1.matches());
      Matcher m2 = pat.matcher(l2.get(ix));
      assertTrue(m2.matches());
      assertEquals("www.example.com", m1.group(1));
      assertEquals("anotherhost.org", m2.group(1));
      assertEquals(m1.group(2), m2.group(2));
    }
  }
Exemple #29
0
  public void run() {
    // each file is processed into a local hash table and then merged with the global results
    // this will cause much less contention on the global table, but still avoids a sequential
    // update
    Hashtable<String, Integer> local_results =
        new Hashtable<String, Integer>(WordCountJ.HASH_SIZE, WordCountJ.LF);
    // grab a file to work on
    String cf;
    while ((cf = files.poll()) != null) {
      try {
        BufferedReader input = new BufferedReader(new FileReader(cf));
        String text;
        // well go line-by-line... maybe this is not the fastest
        while ((text = input.readLine()) != null) {
          // parse words
          Matcher matcher = pattern.matcher(text);
          while (matcher.find()) {
            String word = matcher.group(1);
            if (local_results.containsKey(word)) {
              local_results.put(word, 1 + local_results.get(word));
            } else {
              local_results.put(word, 1);
            }
          }
        }
        input.close();
      } catch (Exception e) {
        System.out.println(" caught a " + e.getClass() + "\n with message: " + e.getMessage());
        return;
      }
      // merge local hashmap with shared one,could have a
      // seperate thread do this but that might be cheating

      Iterator<Map.Entry<String, Integer>> updates = local_results.entrySet().iterator();
      while (updates.hasNext()) {
        Map.Entry<String, Integer> kv = updates.next();
        String k = kv.getKey();
        Integer v = kv.getValue();
        synchronized (results) {
          if (results.containsKey(k)) {
            results.put(k, v + results.get(k));
          } else {
            results.put(k, v);
          }
        }
      }
      local_results.clear();
    }
  }
 private String htmlize(String msg) {
   StringBuilder sb = new StringBuilder();
   Pattern patMsgCat = Pattern.compile("\\[(.+?)\\].*");
   msg = msg.replace("&", "&amp;").replace("<", "&lt;").replace(">", "&gt;");
   for (String line : msg.split(lineSep)) {
     Matcher m = patMsgCat.matcher(line);
     String cls = "normal";
     if (m.matches()) {
       cls = m.group(1);
     }
     line = "<span class='" + cls + "'>" + line + "</span>";
     sb.append(line).append("<br>");
   }
   return sb.toString();
 }