@Test
  public void shouldReturnUnparsableClassIfErrorOccursWhileParsing() {
    ClassParser parser = mock(ClassParser.class);
    when(parser.getClass("MyClassName")).thenThrow(new RuntimeException(new NotFoundException("")));

    builder = new JavaClassBuilder(parser);

    Assert.assertThat(builder.createClass("MyClassName"), instanceOf(UnparsableClass.class));
  }
  private DbJVPackage importJarFile(
      File jarFile,
      DbJVPackage topMostPackage,
      Controller controller,
      int startJobDone,
      int endJobDone)
      throws DbException {
    DbJVClass dbClass;
    String filename = jarFile.getName();

    try {
      ZipFile zip = new ZipFile(jarFile);
      int i = 0, nb = zip.size();
      int span = endJobDone - startJobDone;

      for (Enumeration<?> e = zip.entries(); e.hasMoreElements(); ) {
        int jobDone = startJobDone + (i * span) / nb;

        ZipEntry entry = (ZipEntry) e.nextElement();
        String entryName = entry.getName();
        int idx = entryName.lastIndexOf('.');
        String ext = (idx == -1) ? null : entryName.substring(idx + 1);
        if ("class".equals(ext)) {
          InputStream is = zip.getInputStream(entry);

          ClassParser parser = new ClassParser(is, filename);
          JavaClass claz = parser.parse();
          dbClass = importClass(claz, controller);

          if (dbClass != null) {
            DbJVPackage pack = (DbJVPackage) dbClass.getCompositeOfType(DbJVPackage.metaClass);
            topMostPackage = findTopMostPackage(topMostPackage, pack);
            addToImportedPackage(pack);
          } // end if
        } // end if

        // check job done
        controller.checkPoint(jobDone);
        i++;

        // stop to reverse engineer if user has cancelled
        boolean finished = controller.isFinalState();
        if (finished) {
          break;
        }
      } // end for

      zip.close();

    } catch (IOException ex) {
      controller.println(ex.toString());
      dbClass = null;
    }

    return topMostPackage;
  } // end importClassFile()
  private DbJVClass importClassFile(String filename, Controller controller) throws DbException {
    DbJVClass dbClass;

    try {
      ClassParser parser = new ClassParser(filename);
      JavaClass claz = parser.parse();
      dbClass = importClass(claz, controller);

    } catch (IOException ex) {
      controller.println(ex.toString());
      dbClass = null;
    }

    return dbClass;
  } // end importClassFile()
  /**
   * Given another class, return a transformed version of the class which replaces specified calls
   * with alternative static implementations
   */
  public byte[] transform(
      ClassLoader loader,
      String className,
      Class<?> classBeingRedefined,
      ProtectionDomain protectionDomain,
      byte[] classfileBuffer)
      throws IllegalClassFormatException {

    // debug = className.equals ("chicory/Test");

    String fullClassName = className.replace("/", ".");

    debug_transform.log("In Transform: class = %s%n", className);

    // Don't instrument boot classes.  We only want to instrument
    // user classes classpath.
    // Most boot classes have the null loader,
    // but some generated classes (such as those in sun.reflect) will
    // have a non-null loader.  Some of these have a null parent loader,
    // but some do not.  The check for the sun.reflect package is a hack
    // to catch all of these.  A more consistent mechanism to determine
    // boot classes would be preferrable.
    if (loader == null) {
      debug_transform.log("ignoring system class %s, class loader == null", fullClassName);
      return (null);
    } else if (loader.getParent() == null) {
      debug_transform.log("ignoring system class %s, parent loader == null\n", fullClassName);
      return (null);
    } else if (fullClassName.startsWith("sun.reflect")) {
      debug_transform.log("ignoring system class %s, in sun.reflect package", fullClassName);
      return (null);
    } else if (fullClassName.startsWith("com.sun")) {
      System.out.printf("Class from com.sun package %s with nonnull loaders\n", fullClassName);
    }

    // Don't intrument our code
    if (className.startsWith("randoop.")) {
      debug_transform.log("Not considering randoop class %s%n", fullClassName);
      return (null);
    }

    // Look for match with specified regular expressions for class
    method_map = null;
    debug_class = false;
    for (MethodMapInfo mmi : map_list) {
      if (mmi.class_regex.matcher(className).matches()) {
        if (false && className.startsWith("RandoopTest")) debug_class = true;
        if (debug_class)
          System.out.printf("Classname %s matches re %s%n", className, mmi.class_regex);
        method_map = mmi.map;
        break;
      }
    }
    if (method_map == null) return null;

    debug_transform.log(
        "transforming class %s, loader %s - %s%n", className, loader, loader.getParent());

    // Parse the bytes of the classfile, die on any errors
    JavaClass c = null;
    ClassParser parser = new ClassParser(new ByteArrayInputStream(classfileBuffer), className);
    try {
      c = parser.parse();
    } catch (Exception e) {
      throw new RuntimeException("Unexpected error", e);
    }

    try {
      // Get the class information
      ClassGen cg = new ClassGen(c);
      ifact = new InstructionFactory(cg);

      map_calls(cg, className, loader);

      JavaClass njc = cg.getJavaClass();
      if (debug) njc.dump("/tmp/ret/" + njc.getClassName() + ".class");

      if (true) {
        return (cg.getJavaClass().getBytes());
      } else {
        debug_transform.log("not including class %s (filtered out)", className);
        return null;
      }

    } catch (Throwable e) {
      out.format("Unexpected error %s in transform", e);
      e.printStackTrace();
      return (null);
    }
  }
  /**
   * Adds all the constants found in the given class into the given ConstantSet, and returns it.
   *
   * @see #getConstants(String)
   */
  public static ConstantSet getConstants(String classname, ConstantSet result) {

    ClassParser cp;
    JavaClass jc;
    try {
      String classfileBase = classname.replace('.', '/');
      InputStream is = ClassPath.SYSTEM_CLASS_PATH.getInputStream(classfileBase, ".class");
      cp = new ClassParser(is, classname);
      jc = cp.parse();
    } catch (java.io.IOException e) {
      throw new Error("IOException while reading '" + classname + "': " + e.getMessage());
    }
    result.classname = jc.getClassName();

    // Get all of the constants from the pool
    ConstantPool constant_pool = jc.getConstantPool();
    for (Constant c : constant_pool.getConstantPool()) {
      // System.out.printf ("*Constant = %s%n", c);
      if (c == null
          || c instanceof ConstantClass
          || c instanceof ConstantFieldref
          || c instanceof ConstantInterfaceMethodref
          || c instanceof ConstantMethodref
          || c instanceof ConstantNameAndType
          || c instanceof ConstantUtf8) {
        continue;
      }
      if (c instanceof ConstantString) {
        result.strings.add((String) ((ConstantString) c).getConstantValue(constant_pool));
      } else if (c instanceof ConstantDouble) {
        result.doubles.add((Double) ((ConstantDouble) c).getConstantValue(constant_pool));
      } else if (c instanceof ConstantFloat) {
        result.floats.add((Float) ((ConstantFloat) c).getConstantValue(constant_pool));
      } else if (c instanceof ConstantInteger) {
        result.ints.add((Integer) ((ConstantInteger) c).getConstantValue(constant_pool));
      } else if (c instanceof ConstantLong) {
        result.longs.add((Long) ((ConstantLong) c).getConstantValue(constant_pool));
      } else {
        throw new RuntimeException("Unrecognized constant of type " + c.getClass() + ": " + c);
      }
    }

    ClassGen gen = new ClassGen(jc);
    ConstantPoolGen pool = gen.getConstantPool();

    // Process the code in each method looking for literals
    for (Method m : jc.getMethods()) {
      MethodGen mg = new MethodGen(m, jc.getClassName(), pool);
      InstructionList il = mg.getInstructionList();
      if (il == null) {
        // System.out.println("No instructions for " + mg);
      } else {
        for (Instruction inst : il.getInstructions()) {
          switch (inst.getOpcode()) {

              // Compare two objects, no literals
            case Constants.IF_ACMPEQ:
            case Constants.IF_ACMPNE:
              break;

              // These instructions compare the integer on the top of the stack
              // to zero.  There are no literals here (except 0)
            case Constants.IFEQ:
            case Constants.IFNE:
            case Constants.IFLT:
            case Constants.IFGE:
            case Constants.IFGT:
            case Constants.IFLE:
              {
                break;
              }

              // Instanceof pushes either 0 or 1 on the stack depending on whether
              // the object on top of stack is of the specified type.
              // If were interested in class literals, this would be interesting
            case Constants.INSTANCEOF:
              break;

              // Duplicates the item on the top of stack.  No literal.
            case Constants.DUP:
              {
                break;
              }

              // Duplicates the item on the top of the stack and inserts it 2
              // values down in the stack.  No literals
            case Constants.DUP_X1:
              {
                break;
              }

              // Duplicates either the top 2 category 1 values or a single
              // category 2 value and inserts it 2 or 3 values down on the
              // stack.
            case Constants.DUP2_X1:
              {
                break;
              }

              // Duplicate either one category 2 value or two category 1 values.
            case Constants.DUP2:
              {
                break;
              }

              // Dup the category 1 value on the top of the stack and insert it either
              // two or three values down on the stack.
            case Constants.DUP_X2:
              {
                break;
              }

            case Constants.DUP2_X2:
              {
                break;
              }

              // Pop instructions discard the top of the stack.
            case Constants.POP:
              {
                break;
              }

              // Pops either the top 2 category 1 values or a single category 2 value
              // from the top of the stack.
            case Constants.POP2:
              {
                break;
              }

              // Swaps the two category 1 types on the top of the stack.
            case Constants.SWAP:
              {
                break;
              }

              // Compares two integers on the stack
            case Constants.IF_ICMPEQ:
            case Constants.IF_ICMPGE:
            case Constants.IF_ICMPGT:
            case Constants.IF_ICMPLE:
            case Constants.IF_ICMPLT:
            case Constants.IF_ICMPNE:
              {
                break;
              }

              // Get the value of a field
            case Constants.GETFIELD:
              {
                break;
              }

              // stores the top of stack into a field
            case Constants.PUTFIELD:
              {
                break;
              }

              // Pushes the value of a static field on the stack
            case Constants.GETSTATIC:
              {
                break;
              }

              // Pops a value off of the stack into a static field
            case Constants.PUTSTATIC:
              {
                break;
              }

              // pushes a local onto the stack
            case Constants.DLOAD:
            case Constants.DLOAD_0:
            case Constants.DLOAD_1:
            case Constants.DLOAD_2:
            case Constants.DLOAD_3:
            case Constants.FLOAD:
            case Constants.FLOAD_0:
            case Constants.FLOAD_1:
            case Constants.FLOAD_2:
            case Constants.FLOAD_3:
            case Constants.ILOAD:
            case Constants.ILOAD_0:
            case Constants.ILOAD_1:
            case Constants.ILOAD_2:
            case Constants.ILOAD_3:
            case Constants.LLOAD:
            case Constants.LLOAD_0:
            case Constants.LLOAD_1:
            case Constants.LLOAD_2:
            case Constants.LLOAD_3:
              {
                break;
              }

              // Pops a value off of the stack into a local
            case Constants.DSTORE:
            case Constants.DSTORE_0:
            case Constants.DSTORE_1:
            case Constants.DSTORE_2:
            case Constants.DSTORE_3:
            case Constants.FSTORE:
            case Constants.FSTORE_0:
            case Constants.FSTORE_1:
            case Constants.FSTORE_2:
            case Constants.FSTORE_3:
            case Constants.ISTORE:
            case Constants.ISTORE_0:
            case Constants.ISTORE_1:
            case Constants.ISTORE_2:
            case Constants.ISTORE_3:
            case Constants.LSTORE:
            case Constants.LSTORE_0:
            case Constants.LSTORE_1:
            case Constants.LSTORE_2:
            case Constants.LSTORE_3:
              {
                break;
              }

              // Push a value from the runtime constant pool.  We'll get these
              // values when processing the constant pool itself
            case Constants.LDC:
            case Constants.LDC_W:
            case Constants.LDC2_W:
              {
                break;
              }

              // Push the length of an array on the stack
            case Constants.ARRAYLENGTH:
              {
                break;
              }

              // Push small constants (-1..5) on the stack.  These literals are
              // too common to bother mentioning
            case Constants.DCONST_0:
            case Constants.DCONST_1:
            case Constants.FCONST_0:
            case Constants.FCONST_1:
            case Constants.FCONST_2:
            case Constants.ICONST_0:
            case Constants.ICONST_1:
            case Constants.ICONST_2:
            case Constants.ICONST_3:
            case Constants.ICONST_4:
            case Constants.ICONST_5:
            case Constants.ICONST_M1:
            case Constants.LCONST_0:
            case Constants.LCONST_1:
              {
                break;
              }

            case Constants.BIPUSH:
            case Constants.SIPUSH:
              {
                ConstantPushInstruction cpi = (ConstantPushInstruction) inst;
                result.ints.add((Integer) cpi.getValue());
                break;
              }

              // Primitive Binary operators.
            case Constants.DADD:
            case Constants.DCMPG:
            case Constants.DCMPL:
            case Constants.DDIV:
            case Constants.DMUL:
            case Constants.DREM:
            case Constants.DSUB:
            case Constants.FADD:
            case Constants.FCMPG:
            case Constants.FCMPL:
            case Constants.FDIV:
            case Constants.FMUL:
            case Constants.FREM:
            case Constants.FSUB:
            case Constants.IADD:
            case Constants.IAND:
            case Constants.IDIV:
            case Constants.IMUL:
            case Constants.IOR:
            case Constants.IREM:
            case Constants.ISHL:
            case Constants.ISHR:
            case Constants.ISUB:
            case Constants.IUSHR:
            case Constants.IXOR:
            case Constants.LADD:
            case Constants.LAND:
            case Constants.LCMP:
            case Constants.LDIV:
            case Constants.LMUL:
            case Constants.LOR:
            case Constants.LREM:
            case Constants.LSHL:
            case Constants.LSHR:
            case Constants.LSUB:
            case Constants.LUSHR:
            case Constants.LXOR:
              break;

            case Constants.LOOKUPSWITCH:
            case Constants.TABLESWITCH:
              break;

            case Constants.ANEWARRAY:
            case Constants.NEWARRAY:
              {
                break;
              }

            case Constants.MULTIANEWARRAY:
              {
                break;
              }

              // push the value at an index in an array
            case Constants.AALOAD:
            case Constants.BALOAD:
            case Constants.CALOAD:
            case Constants.DALOAD:
            case Constants.FALOAD:
            case Constants.IALOAD:
            case Constants.LALOAD:
            case Constants.SALOAD:
              {
                break;
              }

              // Pop the top of stack into an array location
            case Constants.AASTORE:
            case Constants.BASTORE:
            case Constants.CASTORE:
            case Constants.DASTORE:
            case Constants.FASTORE:
            case Constants.IASTORE:
            case Constants.LASTORE:
            case Constants.SASTORE:
              break;

            case Constants.ARETURN:
            case Constants.DRETURN:
            case Constants.FRETURN:
            case Constants.IRETURN:
            case Constants.LRETURN:
            case Constants.RETURN:
              {
                break;
              }

              // subroutine calls.
            case Constants.INVOKESTATIC:
            case Constants.INVOKEVIRTUAL:
            case Constants.INVOKESPECIAL:
            case Constants.INVOKEINTERFACE:
              break;

              // Throws an exception.
            case Constants.ATHROW:
              break;

              // Opcodes that don't need any modifications.  Here for reference
            case Constants.ACONST_NULL:
            case Constants.ALOAD:
            case Constants.ALOAD_0:
            case Constants.ALOAD_1:
            case Constants.ALOAD_2:
            case Constants.ALOAD_3:
            case Constants.ASTORE:
            case Constants.ASTORE_0:
            case Constants.ASTORE_1:
            case Constants.ASTORE_2:
            case Constants.ASTORE_3:
            case Constants.CHECKCAST:
            case Constants.D2F: // double to float
            case Constants.D2I: // double to integer
            case Constants.D2L: // double to long
            case Constants.DNEG: // Negate double on top of stack
            case Constants.F2D: // float to double
            case Constants.F2I: // float to integer
            case Constants.F2L: // float to long
            case Constants.FNEG: // Negate float on top of stack
            case Constants.GOTO:
            case Constants.GOTO_W:
            case Constants.I2B: // integer to byte
            case Constants.I2C: // integer to char
            case Constants.I2D: // integer to double
            case Constants.I2F: // integer to float
            case Constants.I2L: // integer to long
            case Constants.I2S: // integer to short
            case Constants.IFNONNULL:
            case Constants.IFNULL:
            case Constants.IINC: // increment local variable by a constant
            case Constants.INEG: // negate integer on top of stack
            case Constants.JSR: // pushes return address on the stack,
            case Constants.JSR_W:
            case Constants.L2D: // long to double
            case Constants.L2F: // long to float
            case Constants.L2I: // long to int
            case Constants.LNEG: // negate long on top of stack
            case Constants.MONITORENTER:
            case Constants.MONITOREXIT:
            case Constants.NEW:
            case Constants.NOP:
            case Constants.RET: // this is the internal JSR return
              break;

              // Make sure we didn't miss anything
            default:
              throw new Error("instruction " + inst + " unsupported");
          }
        }
      }
    }
    return result;
  }