private static Stream<Arguments> hostnamesProvider() {
        return Stream.of(Arguments.of("localhost", "127.0.0.1", "LOCALHOST"), Arguments.of("mycomputer.local", "mycomputer", "MYCOMPUTER"),
                Arguments.of("mycomputer.example.com", "mycomputer", "MYCOMPUTER"));
    }

    /* ---------------------------------------------------------------------
     * 1. Basic constructor validation

     *
     * @return wrapped address
     */
    public Object getAddress() {
        return this.addr;
    }

    /**
     * Return the hostname of this address such as "MYCOMPUTER".
     *
     * @return the hostname associated with the address
     */
    @Override
    public String getHostName() {
        if (this.addr instanceof NbtAddress) {

            "The format of the specified computer name is invalid.", "The pipe has been ended.",
            "The specified local group does not exist.",
            "Logon failure: the user has not been granted the requested logon type at this computer.",
            "The SAM database on the Windows NT Server does not have a computer account for this workstation trust relationship.",

            "The format of the specified computer name is invalid.", "The pipe has been ended.",
            "The specified local group does not exist.",
            "Logon failure: the user has not been granted the requested logon type at this computer.",
            "The SAM database on the Windows NT Server does not have a computer account for this workstation trust relationship.",

                Arguments.of(WinError.ERROR_REQ_NOT_ACCEP,
                        "No more connections can be made to this remote computer at this time because there are already as many connections as the computer can accept."),
                Arguments.of(WinError.ERROR_BAD_PIPE, "The pipe state is invalid."),
                Arguments.of(WinError.ERROR_PIPE_BUSY, "All pipe instances are busy."),

Asynchronous code just means that the language 💬 has a way to tell the computer / program 🤖 that at some point in the code, it 🤖 will have to wait for *something else* to finish somewhere else. Let's say that *something else* is called "slow-file" 📝.

So, during that time, the computer can go and do some other work, while "slow-file" 📝 finishes.

        addressArrayField.setAccessible(true);
        NbtAddress[] addresses = (NbtAddress[]) addressArrayField.get(response);

        // The name should be trimmed to "COMPUTER" without trailing spaces
        assertEquals("COMPUTER", addresses[0].hostName.name);
    }

    @Test
    void toString_shouldReturnFormattedString() {
        String result = response.toString();
        assertNotNull(result);

    double mean = values.next().doubleValue();
    while (values.hasNext()) {
      double value = values.next().doubleValue();
      count++;
      if (isFinite(value) && isFinite(mean)) {
        // Art of Computer Programming vol. 2, Knuth, 4.2.2, (15)
        mean += (value - mean) / count;
      } else {
        mean = calculateNewMeanNonFinite(mean, value);
      }
    }
    return mean;
  }

  /**

    long count = 1;
    double mean = checkFinite(values[0]);
    for (int index = 1; index < values.length; ++index) {
      checkFinite(values[index]);
      count++;
      // Art of Computer Programming vol. 2, Knuth, 4.2.2, (15)
      mean += (values[index] - mean) / count;
    }
    return mean;
  }

  /**

   *
   * <p><i>Notes:</i> This is an implementation of the algorithm for Lexicographical Permutations
   * Generation, described in Knuth's "The Art of Computer Programming", Volume 4, Chapter 7,
   * Section 7.2.1.2. The iteration order follows the lexicographical order. This means that the
   * first permutation will be in ascending order, and the last will be in descending order.
   *