Database Relationships

WORK IN PROGRESS

1. Retrieving and Building Objects

The cost of retrieving and building an object’s relationships far exceeds the cost of selecting the object. This is especially true for relationships where it would trigger the loading of every child through the relationship hierarchy. The solution to this issue is lazy fetching (lazy loading). Lazy fetching allows the fetching of a relationship to be deferred until it is accessed. This is important not only to avoid the database access, but also to avoid the cost of building the objects if they are not needed.

In JPA lazy fetching can be set on any relationship using the fetch attribute. The fetch can be set to either LAZY or EAGER as defined in the FetchType enum. The default fetch type is LAZY for all relationships except for OneToOne and ManyToOne, but in general it is a good idea to make every relationship LAZY. The EAGER default for OneToOne and ManyToOne is for implementation reasons (more easier to implement), not because it is a good idea.

We always use FetchType.LAZY, unless there is a very strong case to be made for FetchType.EAGER.

Note

Additional effort to use FetchType.LAZY does not count as a strong argument.

2. Relationships

A relationship is a reference from one object to another. In a relational database relationships are defined through foreign keys. The source row contains the primary key of the target row to define the relationship (and sometimes the inverse). A query must be performed to read the target objects of the relationship using the foreign key and primary key information. If there is a relationship to a collection of other objects, a Collection or array type is used to hold the contents of the relationship. In a relational database, collection relations are either defined by the target objects having a foreign key back to the source object’s primary key, or by having an intermediate join table to store the relationship (containing both objects’ primary keys).

In this section, we depict common entity relationships we use in Artemis and show some code snippets.

  • OneToOne A unique reference from one object to another. It is also inverse of itself. Example: one Complaint has a reference to one Result.

// Complaint.java
@OneToOne
@JoinColumn(unique = true)
private Result result;
  • OneToMany A Collection or Map of objects. It is the inverse of a ManyToOne relationship. Example: one Result has a list of Feedback elements. For ordered OneToMany relations see ordered collections.

// Result.java
@OneToMany(mappedBy = "result", cascade = CascadeType.ALL, orphanRemoval = true)
@OrderColumn
@JsonIgnoreProperties(value = "result", allowSetters = true)
@Cache(usage = CacheConcurrencyStrategy.NONSTRICT_READ_WRITE)
@JsonView(QuizView.Before.class)
private List<Feedback> feedbacks = new ArrayList<>();
  • ManyToOne A reference from one object to another. It is the inverse of an OneToMany relationship. Example: one Feedback has a reference to one Result.

// Feedback.java
@ManyToOne
@JsonIgnoreProperties("feedbacks")
private Result result;
  • ManyToMany A Collection or Map of objects. It is the inverse of itself. Example: one Exercise has a list of LearningGoal elements, one LearningGoal has list of Exercise elements. In other words: many exercises are connected to many learning goals and vice-versa.

// Exercise.java
@ManyToMany(mappedBy = "exercises")
public Set<LearningGoal> learningGoals = new HashSet<>();

// LearningGoal.java
@ManyToMany
@JoinTable(name = "learning_goal_exercise", joinColumns = @JoinColumn(name = "learning_goal_id", referencedColumnName = "id"), inverseJoinColumns = @JoinColumn(name = "exercise_id", referencedColumnName = "id"))
@JsonIgnoreProperties("learningGoals")
private Set<Exercise> exercises = new HashSet<>();

Warning

For OneToMany, ManyToOne, and ManyToMany relationships you must not forget to mark the associated elements with @JsonIgnoreProperties(). Without this, the object serialization process will be stuck in an endless loop and throw an error. For more information check out the examples listed above and see: Jackson and JsonIgnoreType.

2. Cascade Types

Entity relationships often depend on the existence of another entity — for example, the Result-Feedback relationship. Without the Result, the Feedback entity doesn’t have any meaning of its own. When we delete the Result entity, our Feedback entity should also get deleted. For more information see: jpa cascade types.

  • CascadeType.ALL Propagates all operations mentioned below from the parent object to the to child object.

// Result.java
@OneToMany(mappedBy = "result", cascade = CascadeType.ALL, orphanRemoval = true)
@OrderColumn
@JsonIgnoreProperties(value = "result", allowSetters = true)
@Cache(usage = CacheConcurrencyStrategy.NONSTRICT_READ_WRITE)
@JsonView(QuizView.Before.class)
private List<Feedback> feedbacks = new ArrayList<>();
  • CascadeType.PERSIST When persisting a parent entity, it also persists the child entities held in its fields. This cascade rule is helpful for relationships where the parent acts as a container to the child entity. If you do not use this, you have to ensure that you persist the child entity first, otherwise an error will be thrown. Example: The code below propagates the persist operation from parent AnswerCounter to child AnswerOption. When an AnswerCounter is persisted, its AnswerOption is persisted as well.

// AnswerCounter.java
@OneToOne(cascade = { CascadeType.PERSIST })
@JoinColumn(unique = true)
private AnswerOption answer;
  • CascadeType.MERGE If you merge the source entity (saved/updated/synchronized) to the database, the merge is cascaded to the target of the association. This rule applies to existing objects only. Use this type to always merge/synchronize the existing data in the table with the data in the object. Example below: whenever we merge a Result to the database, i.e. save the changes on the object, the Assessor object is also merged/saved.

// Result.java
@OneToOne(cascade = CascadeType.MERGE, fetch = FetchType.LAZY)
@JoinColumn(unique = false)
private User assessor;
  • CascadeType.REMOVE If the source entity is removed, the target of the association is also removed. Example below: propagates remove operation from parent Submission to child Result. When a Submission is deleted, the corresponding Result is also deleted.

// Submission.java
@OneToOne(mappedBy = "submission", fetch = FetchType.LAZY, cascade = CascadeType.REMOVE)
@JsonIgnoreProperties({ "submission", "participation" })
@JoinColumn(unique = true)
private Result result;
  • CascadeType.REFRESH If the source entity is refreshed, it cascades the refresh to the target of the association. This is used to refresh the data in the object and its associations. This is useful for cases where there is a change which needs to be synchronized FROM the database.

Not used in Artemis yet.

Best Practices

  • If you want to create a @OneToMany relationship or @ManyToMany relationship, first think about if it is important for the association to be ordered. If you do not need the association to be ordered, then always go for a Set instead of List. If you are unsure, start with a Set.

    • Unordered Collection: A Set comes with certain advantages such as ensuring that there are no duplicates and null values in your collection. There are also performance arguments to use a Set, especially for @ManyToMany relationships. For more information see this stackoverflow thread. E.g.:

      // Course.java
      @OneToMany(mappedBy = "course", fetch = FetchType.LAZY)
      @Cache(usage = CacheConcurrencyStrategy.NONSTRICT_READ_WRITE)
      @JsonIgnoreProperties("course")
      private Set<Exercise> exercises = new HashSet<>();
      
  • Ordered Collection: When you want to order the collection of objects of the relationship, then always use a List. It is important to note here that there is no inherent order in a database table. One could argue that you can use the id field for the ordering, but there are edge cases where this can lead to problems. Therefore, for a ordered collection, always annotate it with @OrderColumn. An order column indicates to hibernate that we want to order our collection based on a specific column of our data table. By default, the column name it expects is tablenameS_order. For ordered collections, we also recommend that you annotate them with CascadeType.ALL and orphanRemoval = true. E.g.:

    //Result.java
    @OneToMany(mappedBy = "result", cascade = CascadeType.ALL, orphanRemoval = true)
    @OrderColumn
    @JsonIgnoreProperties(value = "result", allowSetters = true)
    @Cache(usage = CacheConcurrencyStrategy.NONSTRICT_READ_WRITE)
    @JsonView(QuizView.Before.class)
    private List<Feedback> feedbacks = new ArrayList<>();
    

    Note

    Hibernate will take care of the ordering for you but you must create the order column in the database. This is not created automatically!

    With ordered collections, you have to be very careful with the way you persist the objects in the database. You must first persist the child object without a relation to the parent object. Then, you recreate the association and persist the parent object. Example of how to correctly persist objects in an ordered collection:

    // ProgrammingAssessmentService
    List<Feedback> savedFeedbacks = new ArrayList<>();
    result.getFeedbacks().forEach(feedback -> {
       // cut association to parent object
       feedback.setResult(null);
       // persist the child object without an association to the parent object. IMPORTANT: Use the object returned from the database!
       feedback = feedbackRepository.save(feedback);
       // restore the association to the parent object
       feedback.setResult(result);
       savedFeedbacks.add(feedback);
    });
    
    // set the association of the parent to its child objects which are now persisted in the database
    result.setFeedbacks(savedFeedbacks);
    // persist the parent object
    return resultRepository.save(result);
    

Solutions for known issues

  • org.hibernate.LazyInitializationException : could not initialize proxy no Session caused by fetchType.LAZY. You must explicitly load the associated object from the database before trying to access those. Example of how to eagerly fetch the feedbacks with the result:

// ResultRepository.java
@Query("select r from Result r left join fetch r.feedbacks where r.id = :resultId")
Optional<Result> findByIdWithEagerFeedbacks(@Param("resultId") Long id);
  • JpaSystemException: null index column for collection caused by @OrderColumn annotation:

There is a problem with the way you save the associated objects. You must follow this procedure:

  1. Save the child entity (e.g., Feedback) without connection to the parent entity (e.g., Result)

  2. Add back the connection of the child entity to the parent entity.

  3. Save the parent entity.

  4. Always use the returned value after saving the entity, see: feedback = feedbackRepository.save(feedback);

Note

For more information see ordered collections.

  • There are null values in your ordered collection: You must annotate the ordered collection with CascadeType.ALL and orphanRemoval = true. E.g:

    //Result.java
    @OneToMany(mappedBy = "result", cascade = CascadeType.ALL, orphanRemoval = true)
    @OrderColumn
    @JsonIgnoreProperties(value = "result", allowSetters = true)
    @Cache(usage = CacheConcurrencyStrategy.NONSTRICT_READ_WRITE)
    @JsonView(QuizView.Before.class)
    private List<Feedback> feedbacks = new ArrayList<>();