/**
   * Joins array elements to string.
   *
   * @param arr Array.
   * @return String.
   */
  @Nullable
  public static String compactArray(Object[] arr) {
    if (arr == null || arr.length == 0) return null;

    String sep = ", ";

    StringBuilder sb = new StringBuilder();

    for (Object s : arr) sb.append(s).append(sep);

    if (sb.length() > 0) sb.setLength(sb.length() - sep.length());

    return U.compact(sb.toString());
  }
Esempio n. 2
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 // pretty print Matrix(2D array of doubles)
 public static String pprint(double[][] arr,DecimalFormat dformat) {
   int colDim = 0;
   for( double[] line : arr )
     colDim = Math.max(colDim, line.length);
   StringBuilder sb = new StringBuilder();
   int max_width = 0;
   int[] ilengths = new int[colDim];
   Arrays.fill(ilengths, -1);
   for( double[] line : arr ) {
     for( int c = 0; c < line.length; ++c ) {
       double d = line[c];
       String dStr = dformat.format(d);
       if( dStr.indexOf('.') == -1 ) dStr += ".0";
       ilengths[c] = Math.max(ilengths[c], dStr.indexOf('.'));
       int prefix = (d >= 0 ? 1 : 2);
       max_width = Math.max(dStr.length() + prefix, max_width);
     }
   }
   for( double[] line : arr ) {
     for( int c = 0; c < line.length; ++c ) {
       double d = line[c];
       String dStr = dformat.format(d);
       if( dStr.indexOf('.') == -1 ) dStr += ".0";
       for( int x = dStr.indexOf('.'); x < ilengths[c] + 1; ++x )
         sb.append(' ');
       sb.append(dStr);
       if( dStr.indexOf('.') == -1 ) sb.append('.');
       for( int i = dStr.length() - Math.max(0, dStr.indexOf('.')); i <= 5; ++i )
         sb.append('0');
     }
     sb.append("\n");
   }
   return sb.toString();
 }
  /**
   * Returns compact class host.
   *
   * @param obj Object to compact.
   * @return String.
   */
  @Nullable
  public static Object compactObject(Object obj) {
    if (obj == null) return null;

    if (obj instanceof Enum) return obj.toString();

    if (obj instanceof String || obj instanceof Boolean || obj instanceof Number) return obj;

    if (obj instanceof Collection) {
      Collection col = (Collection) obj;

      Object[] res = new Object[col.size()];

      int i = 0;

      for (Object elm : col) res[i++] = compactObject(elm);

      return res;
    }

    if (obj.getClass().isArray()) {
      Class<?> arrType = obj.getClass().getComponentType();

      if (arrType.isPrimitive()) {
        if (obj instanceof boolean[]) return Arrays.toString((boolean[]) obj);
        if (obj instanceof byte[]) return Arrays.toString((byte[]) obj);
        if (obj instanceof short[]) return Arrays.toString((short[]) obj);
        if (obj instanceof int[]) return Arrays.toString((int[]) obj);
        if (obj instanceof long[]) return Arrays.toString((long[]) obj);
        if (obj instanceof float[]) return Arrays.toString((float[]) obj);
        if (obj instanceof double[]) return Arrays.toString((double[]) obj);
      }

      Object[] arr = (Object[]) obj;

      int iMax = arr.length - 1;

      StringBuilder sb = new StringBuilder("[");

      for (int i = 0; i <= iMax; i++) {
        sb.append(compactObject(arr[i]));

        if (i != iMax) sb.append(", ");
      }

      sb.append("]");

      return sb.toString();
    }

    return U.compact(obj.getClass().getName());
  }
 public String getClasspath() {
   final StringBuilder sb = new StringBuilder();
   boolean firstPass = true;
   final Enumeration<File> componentEnum = this.pathComponents.elements();
   while (componentEnum.hasMoreElements()) {
     if (!firstPass) {
       sb.append(System.getProperty("path.separator"));
     } else {
       firstPass = false;
     }
     sb.append(componentEnum.nextElement().getAbsolutePath());
   }
   return sb.toString();
 }
Esempio n. 5
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 /** Prints entry information. */
 void printEntry(ZipEntry e) throws IOException {
   if (vflag) {
     StringBuilder sb = new StringBuilder();
     String s = Long.toString(e.getSize());
     for (int i = 6 - s.length(); i > 0; --i) {
       sb.append(' ');
     }
     sb.append(s).append(' ').append(new Date(e.getTime()).toString());
     sb.append(' ').append(e.getName());
     output(sb.toString());
   } else {
     output(e.getName());
   }
 }
Esempio n. 6
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 public static String calculateCrc32(String source) {
   CRC32 crc32 = new CRC32();
   Adler32 adler32 = new Adler32();
   adler32.update(source.getBytes());
   System.out.println(adler32.getValue());
   crc32.update(source.getBytes());
   StringBuilder builder = new StringBuilder(8);
   System.out.println(crc32.getValue());
   System.out.println(Long.toHexString(crc32.getValue()));
   builder.append(Long.toHexString(crc32.getValue()));
   if (builder.length() < 8) {
     builder.append(CHAR_TEMPLATE, 0, 8 - builder.length());
   }
   System.out.println(builder.toString());
   return builder.toString();
 }
Esempio n. 7
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 public BSONTest() {
   for (int x = 8; x < 2048; x *= 2) {
     StringBuilder buf = new StringBuilder();
     while (buf.length() < x) buf.append(x);
     _data.add(buf.toString());
   }
 }
Esempio n. 8
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  public static String sampleToString(int[] val, int max) {
    if (val == null || val.length < max) return Arrays.toString(val);

    StringBuilder b = new StringBuilder();
    b.append('[');
    max -= 10;
    int valMax = val.length -1;
    for (int i = 0; ; i++) {
        b.append(val[i]);
        if (i == max) {
          b.append(", ...");
          i = val.length - 10;
        }
        if ( i == valMax) {
          return b.append(']').toString();
        }
        b.append(", ");
    }
  }
Esempio n. 9
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 @Test
 public void testOBBig1() {
   BasicOutputBuffer a = new BasicOutputBuffer();
   StringBuilder b = new StringBuilder();
   for (String x : _data) {
     a.write(x.getBytes());
     b.append(x);
   }
   assertEquals(a.asString(), b.toString());
 }
Esempio n. 10
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 public static String getNextName(String base) {
   StringBuilder sb = new StringBuilder();
   sb.append(base);
   sb.append(nextEntryNumber++);
   return sb.toString();
 }
Esempio n. 11
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  /* -------------------------------------------------------------------------------------------------------
  This method:

  	This method:
  	--	Takes in three paramters:
  		1. array - this is the byte array that actually holds the document contents
  		2. md5Hases - holds the entire hash values of the document
  		3. Divisor1/Divisor2/divisor3... - main and back up divisors
  		5. The remainder we are looking for
  		6/7. min/max boundaries

  	-- We will start running the karb rabin algorithm
  	-- We will find the boundaries using mod values and once they equal the mod value we have stored
  	-- we also have the divsor2/3 .. which are backup divisors. If we don't find a boundary by the divisor1 once we hit the maxBoundary
  	-- we will see if we have one with divisor2, if not, then we will see if we have one with divisor3 and so on
  	-- We will hash everything in that hash boundary and store it
  -------------------------------------------------------------------------------------------------------- */
  private static void runTddd(
      byte[] array,
      ArrayList<Long> md5Hashes,
      long divisor1,
      long divisor2,
      long divisor3,
      long remainder,
      long minBoundary,
      long maxBoundary) {
    int documentStart = 0; // used to keep track of where the boundaries are
    boolean match = false; // used to ck if we encountered a match
    int backUpBreakPoint = -1; // used to store the backup breakpoint
    int secondBackUpBreakPoint = -1; // used with the divisor3
    StringBuilder builder = new StringBuilder();
    int i = documentStart + (int) minBoundary - 1; // so we start at the minimum
    // loop through all the values in the document
    for (; i < md5Hashes.size() - 1; ++i) {
      // if ((i - documentStart + 1) < minBoundary) //  if the size of this boundary is less than
      // the min, continue looping
      // 	continue;
      /*-----------------------------------------------------------------
      	- If the mod of this equals the modvalue we defined, then
      	- this is a boundary
      ------------------------------------------------------------------*/

      if ((md5Hashes.get(i - 1) + md5Hashes.get(i) + md5Hashes.get(i + 1)) % divisor1
          == remainder) // ck if this equals the mod value
      {
        // Hash all the values in the range (documentStart,current(i))
        // Remember we only want to hash the original VALUES from the array that contains the
        // original
        // content of the file. Not the hash values in the md5Hash Array
        for (int j = documentStart; j <= i; ++j) {
          builder.append(array[j]); // store everything upto the current value
        }
        String original = builder.toString();
        // if the string is a perfect match ( hash and original string)
        if (HashClass.is_string_match(original, table)) // iinsert the hash in the table)
        coverage += i - documentStart + 1; // this is the amount of bytes we saved
        documentStart = i + 1; // set this as the beginning of the new boundary
        backUpBreakPoint = -1; // reset this
        secondBackUpBreakPoint = -1;
        numOfPieces++; // increment the num of pieces
        i = i + (int) minBoundary - 1; // skip all the way here
        builder.setLength(0); // reset the stringBuilder for the next round
      } else if ((md5Hashes.get(i - 1) + md5Hashes.get(i) + md5Hashes.get(i + 1)) % divisor2
          == remainder) { //  check if this is the backup point
        backUpBreakPoint = i; // this is the backup breakpoint
      } else if ((md5Hashes.get(i - 1) + md5Hashes.get(i) + md5Hashes.get(i + 1)) % divisor2
          == remainder) {
        secondBackUpBreakPoint = i; // set the second backup point
      }
      if ((i - documentStart + 1) >= maxBoundary) { // we have reached the maximum
        // ck if we have a backUpbreakpoint
        int point;
        if (backUpBreakPoint != -1) // if we do, set this as the boundary
        point = backUpBreakPoint;
        else if (secondBackUpBreakPoint != -1) {
          point = secondBackUpBreakPoint; // if we don't have a first break point, find the second
        } else point = i; // else this current value of i is the breakpoint

        // Hash all the values in the range (documentStart,current(i))
        // Remember we only want to hash the original VALUES from the array that contains the
        // original
        // content of the file. Not the hash values in the md5Hash Array
        for (int j = documentStart; j <= point; ++j) {
          builder.append(array[j]); // store everything upto the current value
        }
        String original = builder.toString();
        if (HashClass.is_string_match(original, table))
          coverage += point - documentStart + 1; // this is the amount of bytes we saved
        numOfPieces++; // increment the num of pieces
        documentStart = point + 1; // set this as the beginning of the new boundary
        backUpBreakPoint = -1; // reset this
        secondBackUpBreakPoint = -1; // reset the secondBackUp point
        i = point + (int) minBoundary - 1; // skip all the way here ;
        builder.setLength(0); // reset the stringBuilder for the next round
      }
    } // end of the for loop

    // -------------------------------------------------------------------------------------------
    //  we are missing the last boundary, so hash that last value
    //	We will also check against our values of the strings we already have, and if we encountered
    // this
    //	already, then we will simply increment the counter, otherwise we will insert it in the
    // hashtable
    //	and increase our miss counter
    // ----------------------------------------------------------------------------------------------
    for (int j = documentStart; j < array.length; ++j) {
      builder.append(array[j]);
    }
    // only compute hash and insert into our hashtable only if the string buffer isn't empty
    String original = builder.toString();
    if (HashClass.is_string_match(original, table))
      coverage += array.length - documentStart; // this is the amount of bytes we saved
    numOfPieces++; // increment the num of pieces
  } // end of the method