public void setup() {
    Vector employees = getSomeEmployees();
    // Bug 223005: Verify that we have at least 1 employee with the required field length otherwise
    // an EclipseLinkException will be thrown
    Employee emp = getEmployeeWithRequiredNameLength(employees, MIN_FIRSTNAME_LENGTH, getName());

    String partialFirstName = "%" + emp.getFirstName().substring(0, 3) + "%";

    ReadAllQuery raq = new ReadAllQuery();
    raq.setReferenceClass(Employee.class);

    Vector parameters = new Vector();
    parameters.add(partialFirstName);

    ExpressionBuilder eb = new ExpressionBuilder();
    Expression whereClause = eb.get("firstName").like(partialFirstName);
    raq.setSelectionCriteria(whereClause);
    employees = (Vector) getSession().executeQuery(raq);

    String ejbqlString = "SELECT OBJECT(emp) FROM Employee emp WHERE emp.firstName LIKE ?1";

    setEjbqlString(ejbqlString);
    setOriginalOject(employees);
    setArguments(parameters);

    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    setArgumentNames(myArgumentNames);

    super.setup();
  }
  public void setup() {
    Employee emp1;
    Employee emp2;
    Employee emp3;
    emp1 = (Employee) getSomeEmployees().firstElement();
    emp2 = (Employee) getSomeEmployees().elementAt(1);
    emp3 = (Employee) getSomeEmployees().elementAt(2);

    ExpressionBuilder builder = new ExpressionBuilder();

    Vector idVector = new Vector();
    idVector.add(emp1.getId());
    idVector.add(emp2.getId());
    idVector.add(emp3.getId());

    Expression whereClause = builder.get("id").notIn(idVector);

    ReadAllQuery raq = new ReadAllQuery();
    raq.setReferenceClass(Employee.class);
    raq.setSelectionCriteria(whereClause);

    setOriginalOject(getSession().executeQuery(raq));
    getSession().getIdentityMapAccessor().initializeAllIdentityMaps();

    String ejbqlString = "SELECT OBJECT(emp) FROM Employee emp WHERE emp.id NOT IN (";
    ejbqlString = ejbqlString + emp1.getId().toString() + ", ";
    ejbqlString = ejbqlString + emp2.getId().toString() + ", ";
    ejbqlString = ejbqlString + emp3.getId().toString();
    ejbqlString = ejbqlString + ")";

    setEjbqlString(ejbqlString);

    super.setup();
  }
  /** INTERNAL: Transform the object-level value into a database-level value */
  public Object getFieldValue(Object objectValue, AbstractSession session) {
    DatabaseMapping mapping = getMapping();
    Object fieldValue = objectValue;
    if ((mapping != null)
        && (mapping.isDirectToFieldMapping() || mapping.isDirectCollectionMapping())) {
      // CR#3623207, check for IN Collection here not in mapping.
      if (objectValue instanceof Collection) {
        // This can actually be a collection for IN within expressions... however it would be better
        // for expressions to handle this.
        Collection values = (Collection) objectValue;
        Vector fieldValues = new Vector(values.size());
        for (Iterator iterator = values.iterator(); iterator.hasNext(); ) {
          Object value = iterator.next();
          if (!(value instanceof Expression)) {
            value = getFieldValue(value, session);
          }
          fieldValues.add(value);
        }
        fieldValue = fieldValues;
      } else {
        if (mapping.isDirectToFieldMapping()) {
          fieldValue = ((AbstractDirectMapping) mapping).getFieldValue(objectValue, session);
        } else if (mapping.isDirectCollectionMapping()) {
          fieldValue = ((DirectCollectionMapping) mapping).getFieldValue(objectValue, session);
        }
      }
    }

    return fieldValue;
  }
 /** INTERNAL: */
 protected Vector<DatabaseField> getVectorOfFieldsToGenerate(int operation, DatabaseTable table) {
   if (this.main[operation][ALL] == null) {
     return null;
   }
   if (this.tableToFieldsForGenerationMap == null) {
     // the method is called for the first time
     tableToFieldsForGenerationMap = new HashMap[NUM_OPERATIONS];
   }
   if (this.tableToFieldsForGenerationMap[operation] == null) {
     // the method is called for the first time for this operation
     this.tableToFieldsForGenerationMap[operation] = new HashMap();
   }
   Vector<DatabaseField> fieldsForGeneration =
       this.tableToFieldsForGenerationMap[operation].get(table);
   if (fieldsForGeneration == null) {
     // the method is called for the first time for this operation and this table
     fieldsForGeneration = new NonSynchronizedVector();
     Iterator it = this.main[operation][ALL].iterator();
     while (it.hasNext()) {
       DatabaseField field = (DatabaseField) it.next();
       if (field.getTable().equals(table)) {
         fieldsForGeneration.add(field);
       }
     }
     this.tableToFieldsForGenerationMap[operation].put(table, fieldsForGeneration);
   }
   return fieldsForGeneration;
 }
 /**
  * INTERNAL: Convert all the class-name-based settings in this InheritancePolicy to actual
  * class-based settings. This method is used when converting a project that has been built with
  * class names to a project with classes. It will also convert referenced classes to the versions
  * of the classes from the classLoader.
  */
 public void convertClassNamesToClasses(ClassLoader classLoader) {
   Vector newParentInterfaces = new Vector();
   for (Iterator iterator = getParentInterfaceNames().iterator(); iterator.hasNext(); ) {
     String interfaceName = (String) iterator.next();
     Class interfaceClass = null;
     try {
       if (PrivilegedAccessHelper.shouldUsePrivilegedAccess()) {
         try {
           interfaceClass =
               (Class)
                   AccessController.doPrivileged(
                       new PrivilegedClassForName(interfaceName, true, classLoader));
         } catch (PrivilegedActionException exception) {
           throw ValidationException.classNotFoundWhileConvertingClassNames(
               interfaceName, exception.getException());
         }
       } else {
         interfaceClass =
             org.eclipse.persistence.internal.security.PrivilegedAccessHelper.getClassForName(
                 interfaceName, true, classLoader);
       }
     } catch (ClassNotFoundException exc) {
       throw ValidationException.classNotFoundWhileConvertingClassNames(interfaceName, exc);
     }
     newParentInterfaces.add(interfaceClass);
   }
   this.parentInterfaces = newParentInterfaces;
 }
  public static BinaryOperatorWithParameterTest
      getNumericParameterDivideTestWithBracketsAfterComparison() {
    BinaryOperatorWithParameterTest theTest = new BinaryOperatorWithParameterTest();
    theTest.setName("Divide with parameter test with brackets after comparison");

    String parameterName = "amountToDivide";
    theTest.setExpressionParameters(new Vector());
    theTest.getExpressionParameters().add(parameterName);

    ExpressionBuilder builder = new ExpressionBuilder();
    Expression whereClause =
        ExpressionBuilder.fromConstant(new Integer(20000), builder)
            .greaterThan(
                ExpressionMath.divide(
                    builder.get("salary"), (builder.getParameter(parameterName))));
    theTest.setOriginalObjectExpression(whereClause);

    String ejbqlString = "SELECT OBJECT(emp) FROM Employee emp WHERE 20000 > (emp.salary / ?1)";

    theTest.setEjbqlString(ejbqlString);
    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    theTest.setArgumentNames(myArgumentNames);

    theTest.setArguments(new Vector());
    theTest.getArguments().addElement(new Integer(2));

    return theTest;
  }
  public static BinaryOperatorWithParameterTest getNumericParameterDivideTest() {
    BinaryOperatorWithParameterTest theTest = new BinaryOperatorWithParameterTest();
    theTest.setName("Divide with parameter test");

    String parameterName = "amountToDivide";
    theTest.setExpressionParameters(new Vector());
    theTest.getExpressionParameters().add(parameterName);

    ExpressionBuilder builder = new ExpressionBuilder();
    Expression whereClause =
        ExpressionMath.divide(builder.get("salary"), (builder.getParameter(parameterName)))
            .lessThanEqual(20000);
    theTest.setOriginalObjectExpression(whereClause);

    String ejbqlString = "SELECT OBJECT(emp) FROM Employee emp WHERE emp.salary / ?1 <= 20000";

    theTest.setEjbqlString(ejbqlString);
    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    theTest.setArgumentNames(myArgumentNames);

    theTest.setArguments(new Vector());
    theTest.getArguments().addElement(new Integer(2));

    return theTest;
  }
  public static BinaryOperatorWithParameterTest
      getNumericParameterMultiplyTestWithBracketsBeforeComparison() {
    BinaryOperatorWithParameterTest theTest = new BinaryOperatorWithParameterTest();
    theTest.setName("Multiply with parameter test with brackets before comparison");

    String parameterName = "amountToMultiply";
    theTest.setExpressionParameters(new Vector());
    theTest.getExpressionParameters().add(parameterName);

    ExpressionBuilder builder = new ExpressionBuilder();
    Expression whereClause =
        ExpressionMath.multiply(builder.get("salary"), (builder.getParameter(parameterName)))
            .lessThanEqual(100000);
    theTest.setOriginalObjectExpression(whereClause);

    String ejbqlString = "SELECT OBJECT(emp) FROM Employee emp WHERE (emp.salary * ?1) <= 100000";

    theTest.setEjbqlString(ejbqlString);
    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    theTest.setArgumentNames(myArgumentNames);

    theTest.setArguments(new Vector());
    theTest.getArguments().addElement(new Integer(2));

    return theTest;
  }
  protected void test() {
    for (int i = 0; i <= 1; i++) {
      getSession().getPlatform().setShouldBindAllParameters(i != 0);
      for (int j = 0; j <= 2; j++) {
        query = new ReadAllQuery(Employee.class);
        ExpressionBuilder builder = new ExpressionBuilder();
        Vector vExp = new Vector(2);
        vExp.add(builder.getParameter("p1"));
        query.addArgument("p1");
        vExp.add(builder.getParameter("p2"));
        query.addArgument("p2");
        Expression exp = builder.get("id").in(vExp);
        query.setSelectionCriteria(exp);

        switch (j) {
          case 0:
            // nothing to do - just test the default:
            // query.bindAllParameters == Undefined
            break;
          case 1:
            // query.bindAllParameters == False
            query.setShouldBindAllParameters(false);
            break;
          case 2:
            // query.bindAllParameters == True
            query.setShouldBindAllParameters(true);
            break;
        }

        // clear the writer's buffer
        ((StringWriter) getSession().getLog()).getBuffer().setLength(0);
        try {
          getSession().executeQuery(query, v);
        } catch (DatabaseException e) {
          throw new TestProblemException("executeQuery threw DatabaseException");
        }
        if (shouldBind() != wasBound()) {
          return;
        }
      }
    }
  }
  public void setup() {
    // Get the baseline employees for the verify
    Employee emp = (Employee) getSomeEmployees().firstElement();

    String parameterName = "firstName";
    ExpressionBuilder builder = new ExpressionBuilder();
    Expression whereClause = builder.get("firstName").equal(builder.getParameter(parameterName));

    ReadAllQuery raq = new ReadAllQuery();
    raq.setReferenceClass(Employee.class);
    raq.setSelectionCriteria(whereClause);
    raq.addArgument(parameterName);

    Vector parameters = new Vector();
    parameters.add(emp.getFirstName());

    Vector employees = (Vector) getSession().executeQuery(raq, parameters);

    emp = (Employee) employees.firstElement();

    // Set up the EJBQL using the retrieved employees
    String ejbqlString = "SELECT OBJECT(emp) FROM Employee emp WHERE ";
    ejbqlString = ejbqlString + "?1 = emp.firstName ";

    setEjbqlString(ejbqlString);
    setOriginalOject(employees);

    setArguments(parameters);

    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    setArgumentNames(myArgumentNames);

    // Finish the setup
    super.setup();
  }
 /**
  * Verify that the query ran successfully, and that the number of objects returned matches the
  * number of managed employees.
  */
 protected void verify() throws Exception {
   Vector params = new Vector();
   params.add(someManager.getId()); // numberOfManagedEmployees
   try {
     Vector results = (Vector) getSession().executeQuery(query, params);
     if (!(numberOfManagedEmployees == results.size())) {
       throw new TestErrorException(
           results.size()
               + " objects were read from the database, but originially there were, "
               + numberOfManagedEmployees
               + ".");
     }
   } catch (org.eclipse.persistence.exceptions.DatabaseException e) {
     throw new TestErrorException(
         "Custom SQL subquery with parameters failed with a DatabaseException.");
   }
 }
  public static BinaryOperatorWithParameterTest
      getNumericTwoParameterMultipleOperatorsWithBracketsAroundMultiply() {
    BinaryOperatorWithParameterTest theTest = new BinaryOperatorWithParameterTest();
    theTest.setName("Multiple operators with two parameters with brackets around multiply");

    String parameterNameForDivide = "amountToDivide";
    String parameterNameForMultiply = "amountToMultiply";
    theTest.setExpressionParameters(new Vector());
    theTest.getExpressionParameters().add(parameterNameForDivide);
    theTest.getExpressionParameters().add(parameterNameForMultiply);

    ExpressionBuilder builder = new ExpressionBuilder();
    Expression whereClause =
        builder
            .get("salary")
            .greaterThan(
                ExpressionMath.subtract(
                    ExpressionMath.add(
                        ExpressionBuilder.fromConstant(new Integer(50000), builder), 10000),
                    ExpressionMath.divide(
                        ExpressionBuilder.fromConstant(new Integer(10000), builder),
                        ExpressionMath.multiply(
                            builder.getParameter(parameterNameForMultiply),
                            builder.getParameter(parameterNameForDivide)))));
    theTest.setOriginalObjectExpression(whereClause);

    String ejbqlString =
        "SELECT OBJECT(emp) FROM Employee emp WHERE emp.salary > (50000 + 10000 - 10000 / (?1 * ?2))";

    theTest.setEjbqlString(ejbqlString);
    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    myArgumentNames.add("2");
    theTest.setArgumentNames(myArgumentNames);

    theTest.setArguments(new Vector());
    theTest.getArguments().addElement(new Integer(2));
    theTest.getArguments().addElement(new Integer(5));

    return theTest;
  }
  public static BinaryOperatorWithParameterTest getNumericParameterLessThanEqualTest() {
    BinaryOperatorWithParameterTest theTest = new BinaryOperatorWithParameterTest();
    theTest.setName("Less than equal to with parameter test");

    String parameterName = "id";
    theTest.setExpressionParameters(new Vector());
    theTest.getExpressionParameters().add(parameterName);

    ExpressionBuilder builder = new ExpressionBuilder();
    Expression whereClause = builder.get("id").lessThanEqual(builder.getParameter(parameterName));
    theTest.setOriginalObjectExpression(whereClause);

    String ejbqlString = "SELECT OBJECT(emp) FROM Employee emp WHERE ";
    ejbqlString = ejbqlString + "emp.id <= ?1 ";

    theTest.setEjbqlString(ejbqlString);
    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    theTest.setArgumentNames(myArgumentNames);

    return theTest;
  }
  public static BinaryOperatorWithParameterTest
      getNumericTwoParameterMultipleOperatorsWithBracketsAroundPlusMinus() {
    BinaryOperatorWithParameterTest theTest = new BinaryOperatorWithParameterTest();
    theTest.setName("Multiple operators with two parameters with brackets around plus/minus");

    String parameterNameForDivide = "amountToDivide";
    String parameterNameForMultiply = "amountToMultiply";
    theTest.setExpressionParameters(new Vector());
    theTest.getExpressionParameters().add(parameterNameForDivide);
    theTest.getExpressionParameters().add(parameterNameForMultiply);

    ExpressionBuilder builder = new ExpressionBuilder();
    Expression whereClause =
        ExpressionMath.multiply(
                ExpressionMath.divide(
                    ExpressionMath.subtract(ExpressionMath.add(builder.get("salary"), 10), 20),
                    builder.getParameter(parameterNameForDivide)),
                builder.getParameter(parameterNameForMultiply))
            .greaterThanEqual(70000);
    theTest.setOriginalObjectExpression(whereClause);

    String ejbqlString =
        "SELECT OBJECT(emp) FROM Employee emp WHERE (emp.salary + 10 - 20) / ?1 * ?2 >= 70000";

    theTest.setEjbqlString(ejbqlString);
    Vector myArgumentNames = new Vector();
    myArgumentNames.add("1");
    myArgumentNames.add("2");
    theTest.setArgumentNames(myArgumentNames);

    theTest.setArguments(new Vector());
    theTest.getArguments().addElement(new Integer(2));
    theTest.getArguments().addElement(new Integer(3));

    return theTest;
  }
  /**
   * INTERNAL: For CR#2456 if this is part of an objExp.equal(objExp), do not need to add additional
   * expressions to normalizer both times, and the foreign key join replaces the equal expression.
   */
  public Expression normalize(ExpressionNormalizer normalizer, Vector foreignKeyJoinPointer) {
    if (hasBeenNormalized()) {
      return this;
    }
    super.normalize(normalizer);

    setHasBeenNormalized(true);
    if ((getMapping() != null) && getMapping().isDirectToXMLTypeMapping()) {
      normalizer.getStatement().setRequiresAliases(true);
    }

    // Check if any joins need to be added.
    if (isAttribute()) {
      return this;
    }

    // If the mapping is 'ref' or 'structure', no join needed.
    if ((getMapping() != null)
        && (getMapping().isReferenceMapping() || getMapping().isStructureMapping())) {
      normalizer.getStatement().setRequiresAliases(true);
      return this;
    }

    // Compute if a distinct is required during normalization.
    if (shouldQueryToManyRelationship()
        && (!normalizer.getStatement().isDistinctComputed())
        && (!normalizer.getStatement().isAggregateSelect())) {
      normalizer.getStatement().useDistinct();
    }

    // Turn off DISTINCT if nestedTableMapping is used (not supported by Oracle 8.1.5).
    if ((getMapping() != null) && getMapping().isNestedTableMapping()) {
      // There are two types of nested tables, one used by clients, one used by mappings, do nothing
      // in the mapping case.
      if (!shouldQueryToManyRelationship()) {
        return this;
      }
      normalizer.getStatement().dontUseDistinct();
    }

    Expression mappingExpression = mappingCriteria();
    if (mappingExpression != null) {
      mappingExpression = mappingExpression.normalize(normalizer);
    }
    if (mappingExpression != null) {
      // If the join was an outer join we must not add the join criteria to the where clause,
      // if the platform prints the join in the from clause.
      if (shouldUseOuterJoin() && (getSession().getPlatform().isInformixOuterJoin())) {
        normalizer.getStatement().getOuterJoinExpressions().addElement(this);
        normalizer.getStatement().getOuterJoinedMappingCriteria().addElement(mappingExpression);
        normalizer.addAdditionalExpression(mappingExpression.and(additionalExpressionCriteria()));
        return this;
      } else if ((shouldUseOuterJoin() || isUsingOuterJoinForMultitableInheritance())
          && (!getSession().getPlatform().shouldPrintOuterJoinInWhereClause())) {
        if (shouldUseOuterJoin()) {
          normalizer.getStatement().getOuterJoinExpressions().addElement(this);
          normalizer.getStatement().getOuterJoinedMappingCriteria().addElement(mappingExpression);
          normalizer
              .getStatement()
              .getOuterJoinedAdditionalJoinCriteria()
              .addElement(additionalExpressionCriteriaMap());
          normalizer.getStatement().getDescriptorsForMultitableInheritanceOnly().add(null);
          return this;
        } else {
          if (isUsingOuterJoinForMultitableInheritance()) {
            normalizer.getStatement().getOuterJoinExpressions().addElement(null);
            normalizer.getStatement().getOuterJoinedMappingCriteria().addElement(null);
            normalizer
                .getStatement()
                .getOuterJoinedAdditionalJoinCriteria()
                .addElement(additionalExpressionCriteriaMap());
            normalizer
                .getStatement()
                .getDescriptorsForMultitableInheritanceOnly()
                .add(getMapping().getReferenceDescriptor());
            // fall through to the main case
          }
        }
      }

      // This must be added even if outer. Actually it should be converted to use a right outer
      // join, but that gets complex
      // so we do not support this current which is a limitation in some cases.
      if (foreignKeyJoinPointer != null) {
        // If this expression is right side of an objExp.equal(objExp), one
        // need not add additionalExpressionCriteria twice.
        // Also the join will replace the original objExp.equal(objExp).
        // For CR#2456.
        foreignKeyJoinPointer.add(mappingExpression);
      } else {
        normalizer.addAdditionalExpression(mappingExpression.and(additionalExpressionCriteria()));
      }
    }

    // For bug 2900974 special code for DirectCollectionMappings moved to printSQL.
    return this;
  }