This little badboy allows you to communicate with your database without writing a single line of SQL in your
application.
While this library may not offer the most fancy and crazy features, that is not what it is intended for. It was created
to be lightweight and meant for a quick and simple access to your database. As of now, MySQL is the supported dialect.
Feature requests are always welcome. Just open an issue. Also, if my documentation is missing something or unclear, please let me know.
If you are completely lost or have no idea how to use this library (or both), feel free to contact me. I would be happy to assist you with any problems you might have.
Please note: This is a Java 11 library. Make sure you have Java 11 installed when using this library. This library
is not suitable for projects requiring complex SQL queries, although it does offer some advanced features.
It is meant for projects which want to interact with their database in a simple, but easy way, without bloating the
source code with SQL queries.
POJOs imitate tables on the database where every field in the POJO is equivalent to a table column. Every class has a corresponding service class, which acts as a data service and interacts with the database. It is possible to define custom methods in the respective service classes to retrieve specific data. The service classes will fill the POJO with values from the database using a default mapper. The mapping functionality is explained further down.
Enough said. Let's get you set up.
Include the Maven artifact:
<dependency>
<groupId>com.github.collinalpert</groupId>
<artifactId>java2db</artifactId>
<version>6.1.0</version>
</dependency>Or include the JAR in your project.
- BREAKING CHANGE: To comply more with the intended nature of this project, it being suited for smaller projects,
constructs like
BaseEntityand the return type of the.count()method have been converted toints. Please make sure to update your application to work withintsinstead oflongs. - BREAKING CHANGE: Each service now manages its own database connection, so it is possible to connect different services to different databases within one application.
- BREAKING CHANGE: Order by operations have been rewritten. See the Order By section.
- Group by operation is now possible
- More Java methods in queries available (DATE(), LENGTH() etc.)
- SQL functions are available by wrapping a method from the
SqlFunctionsclass (sum(), min(), max()) around the desired property. - Operations like
.toList()or.toStream()are now also possible on queries which promise only one result.
Let's say we have a database with two tables that have the following structure:
gender
    id
    code
    description
    isBinary
person
    id
    name
    age
    genderId (foreign key to id column of gender)
Then we would need two POJOs:
@TableName("gender")
public class Gender extends BaseEntity {
// BaseEntity gives us the id field.
// We need to add the rest.
private String code;
private String description;
private boolean isBinary;
// Getters and setters...
}@TableName("person")
public class Person extends BaseEntity {
// BaseEntity gives us the id field.
// We need to add the rest.
private String name;
private int age;
private int genderId;
// When annotating a field with the @ForeignKeyEntity attribute,
// you are telling Java2DB that this is a POJO that depicts the
// foreign key relationship. It will be automatically filled with the according value.
// Adding this sort of field is completely optional.
@ForeignKeyEntity("genderId")
private Gender gender;
// Getters and setters...
// Note that it is not suggested for foreign key POJOs to have setters.
// They are effectively useless since they are only retrieved from the database.
}Every POJO must extend BaseEntity and have an empty or default constructor.
The class BaseEntity overrides the equals and hashCode methods using the id. Override them in your entity
classes if you need different behavior.
If you want to have a field in your POJO that should be ignored by Java2DB, you can apply the Ignore attribute or
the transient modifier to the specific field.
Then we can go ahead and create the service classes:
public class GenderService extends BaseService<Gender> {
}public class PersonService extends BaseService<Person> {
public List<Person> getAdults() {
return getMultiple(p -> p.getAge() >= 18).orderBy(Person::getName).toList();
}
}Every service must extend BaseService.
That's it! Now we can get data from the database using the services using simple methods like getById and so on.
As you can see from the example, custom methods can be defined in the respective service using the getSingle
or getMultiple methods provided by the BaseService.
The last thing you need to do is give Java2DB access to your database. You do this by passing
a ConnectionConfiguration object into each service, thus telling it how to access your database.
Every service class has support for creating a single as well as multiple entities at once on the database.
When creating a single entity, the id created for it on the database will also be set in the entity. Check out the
different create methods provided by your service class. To achieve asynchronous behavior, please read
the Asynchronous operations section.
The BaseService provides a createQuery method which allows you to manually build a query and then execute it with
the toList, toStream, toArray or toMap methods. You should only need this approach seldom.
Much rather, use the getSingle or getMultiple methods. getMultiple returns an EntityQuery object with a
preconfigured WHERE condition and then allows you to chain some additional query options. As of the
current EntityQuery version, WHERE, LIMIT, ORDER BY and GROUP BY are supported. Effectively, the
calls createQuery().where(predicate) and getMultiple(predicate) are the same. The latter is recommended.
As previously mentioned, to execute the query and retrieve a result, use the toList, toStream, toArray or toMap
methods.
As shown in the example above, you can automatically join a table using the @ForeignKeyEntity annotation. You also
have the option to specify which type of join to use when joining. If you would like only a specific column to be
joined, say, the code field of the gender table, you can additionally specify the @ForeignKeyPath annotation.
Every service class has support for updating a single as well as multiple entities at once on the database. Check out
the different update methods provided by your service class. To achieve asynchronous behavior, please read
the Asynchronous operations section. To reduce overhead, there is also an update which
changes the value for a single column. An example would look something like this:
service.update(entity.getId(), Person::getAge, 25). This would change a specific person's age to 25.
Every service class has support for deleting a single as well as multiple entities at once on the database. To achieve
asynchronous behavior, please read the Asynchronous operations section. Check out the
different delete methods provided by your service class. To include support for soft-deletion, please read
the Common structures section.
ORDER BY clauses changed in version 6.0.0. Now, there are two methods you are able to use on Querables.
The orderBy method sets the ORDER BY clause for the statement. The thenBy method adds a column to this clause. Note,
that when calling orderBy, it overwrites the previously set clause, so make sure you use only thenBy after
calling orderBy.
Both methods also accept multiple columns. If you supply more than one column to either method, they will be coalesced (
using the COALESCE function), meaning the first column which is not null will be taken into account.
It is also possible to achieve LIKE operations using the String startsWith, endsWith and contains methods in a
predicate. This, in the context of the PersonService from the example, would look something like this:
getMultiple(p -> person.getName().startsWith("A"));. The generated WHERE clause would
be where `person`.name LIKE 'A%'.
It is possible to use some more Java methods to modify the generated SQL. The following are supported:
String.length==>LENGTH(`person`.`name`)LocalTime.getSecond/LocalDateTime.getSecond==>SECOND(`person`.`date`)LocalTime.getMinute/LocalDateTime.getMinute==>MINUTE(`person`.`date`)LocalTime.getHour/LocalDateTime.getHour==>HOUR(`person`.`date`)LocalDate.getDayOfWeek/LocalDateTime.getDayOfWeek==>DAYOFWEEK(`person`.`date`)LocalDate.getDayOfMonth/LocalDateTime.getDayOfMonth==>DAY(`person`.`date`)LocalDate.getDayOfYear/LocalDateTime.getDayOfYear==>DAYOFYEAR(`person`.`date`)LocalDate.getMonthValue/LocalDateTime.getMonthValue==>MONTH(`person`.`date`)(beware not to use the.getMonthmethod).LocalDate.getYear/LocalDateTime.getYear==>YEAR(`person`.`date`)
If you require any other methods, just open an issue or add it yourself in the lambda2sql repository.
For counting functionality, the BaseService provides a count method. You can use it to either count all rows in a
table, or to count all rows which match a certain condition. E.g. personService.count() would return the total number
of people while personService.count(person -> person.getAge() >= 50) would return the amount of people that are of age
50 and older in your table.
To get the maximal or minimal value from a table, the BaseService provides the max() and min() methods.
If you would not like to fetch an entire entity from the database, when building a query, you can project to a single
column by using the project() method. You then have option to choose the form in which the data should be fetched,
as you would normally specify when executing a built entity query. For example, we only want the names of all people older than 40 in the shape of an array. The corresponding statement would look something like this: personService.getMultiple(p -> p.getAge() > 40).project(Person::getName).toArray().
If you would like to check if a certain record exists in a table, you can use the any method provided by the BaseService.
Using the above example, the usages would look something like this: personService.any(person -> person.getName() == "Steve").
You can also check if a table has at least one row by calling personService.any().
To check if a column's values are unique in a table, use the hasDuplicates method provided by the BaseService. It will return true if there is at least one duplicate value and false if all the values are unique.
The DBConnection class offers the possibility to call a stored procedure and a function. Simply use
the callStoredProcedure or callFunction method, respectively and pass in the class you would like the result mapped
to. Using the @Ignore annotation or the transient modifier will also work with these kinds of calls. Please make
sure your class has an empty constructor.
As of version 4.0 it is possible to execute all the CRUD operations asynchronously. To use the asynchronous methods with
your service classes, the individual service class should inherit from the
AsyncBaseService. You wil find all the methods that the BaseService has plus every method with an Async suffix.
That is the asynchronous version.
The asynchronous versions of methods which have a return value, e.g. create, count or any, accept a Consumer
which defines an action for the value once it is computed asynchronously. If you do not wish to use the computed value,
the FunctionUtils class offers an empty() method, which returns an empty Consumer that just does nothing. Use this
as an argument in the asynchronous methods, when needed.
Let's suppose you are using a "mood" in which you have certain moods (happy, sad, mad, etc.) stored. Now, to describe
the mood of a person you would obviously reference this table via a foreign key and add the @ForeignKeyEntity
attribute to a POJO field you have defined for the "mood" table. For static tables, meaning tables which just contain
informational values e.g. statuses which do not change, you can define an enum to keep track of the values. That way a
complete entity is not always needed. Using the above example, it would look something like this:
// An enum representing used in combination with the @ForeignKeyEntity must implement IdentifiableEnum.
public enum MoodTypes implements IdentifiableEnum {
HAPPY(1), SAD(2), MAD(3);
private final int id;
MoodTypes(int id) {
this.id = id;
}
@Override
public long getId() {
return this.id;
}
}@TableName("person")
public class Person extends BaseEntity {
// All of the above fields.
private int moodId;
// You can still use the foreign key entity if you like,
// but it becomes sort of redundant as soon as you use the enum.
@ForeignKeyEntity("moodId")
private Mood mood;
// The enum value will be set to the value corresponding with the "moodId".
@ForeignKeyEntity("moodId")
private MoodTypes moodType;
}If you would like to use the database-set default value for POJO fields which are null when creating or modifying data on the database, you need to annotate the specific field with the DefaultIfNull annotation.
You then have the additional option to specify if this behavior should occur on create or update statements, or both.
When the annotation is specified, per default the default database value is used on create statements, but not on update ones.
If you always want Java2DB to use your database-default value, regardless if null or not, simply use the Default annotation.
To be able to target any column naming conventions, it is possible to explicitly tell Java2DB which table column a POJO field targets with the @ColumnName attribute. Simply apply the attribute to a field.
Note that when supplying a different name for a foreign key, the @ForeignKeyEntity annotation must still point to the name of the actual table's foreign key column. Here's an example in which the gender foreign key is not suffixed with "id" on the database:
@TableName("person")
public class Person extends BaseEntity {
private String name;
private int age;
//The "gender" field corresponds to the table column "genderId" on the database.
@ColumnName("genderId")
private long gender;
//The foreign key entity still refers to the actual column name.
@ForeignKeyEntity("genderId")
private Gender genderObject;
// Getters and setters...
}It is a currently known issue that using the getter of a deviated field (in this case the "gender" field) inside a query condition doesn't work. Please issue a feature request if this is absolutely needed.
Java2DB offers full support for default query constraints.
This means you can tell Java2DB to execute a certain WHERE condition with every query that is executed on a specific table.
Here's an example: Say every query executed on the person table should only return people of age 18 and older and with an id greater than 0 (just because). This can be achieved adding query constraints using the QueryConstraints class.
In our case, this would look something like this:
public class Main {
public static void main(String[] args){
// register the services and all that
QueryConstraints.addConstraint(Person.class, person -> person.getAge() >= 18);
QueryConstraints.addConstraint(Person.class, person -> person.getId() >= 0);
// Now, every DQL query executed to the person table will contain these conditions.
}
}This is useful for cases where deleted records in a table are marked by an isDeleted flag (or something similar) and these records should never return in any query.
Of course, nothing prevents you from concatenating the predicates to something like this: QueryConstraints.addConstraint(Person.class, person -> person.getAge() >= 18 && person.getId() >= 0);
In case you are interested in pagination, Java2DB also offers support for that. Since I am assuming you already know what pagination is, when reading this section, I will not explain it.
To receive a PaginationResult, use one of the createPagination methods from the BaseService. The result will allow you to get a certain page. The database query will only be executed when you request a page, in order to minimize data transfer of data that might not be needed. It would be unnecessary to load all of the pages if only the first one will be viewed by the user.
You also have option to add caching to the pagination. To do this, simply add a cache expiry duration to the createPagination method and you will receive a CacheablePaginationResult. When getting pages which you have previously requested, they will be loaded from the cache, which can significantly reduce loading times. This will only happen as long as the expiry duration is not over yet.
After that, the page will be re-loaded from the database and loaded into the cache. Caching for pages will not work if the pages were fetched asynchronously.
You also have the option to invalidate/clear the caches and trigger a fresh reload the next time a page is requested.
In case you want to add an ORDER BY statement to your pagination queries, you can do this on the PaginationResult. This will effect the pages in an overlapping manner and not just each page separately.
If you still feel the need that you need to perform plain SQL queries, maybe because one of your queries is more complex or because this library is missing a feature (in which case, please let me know), this is still possible.
Using the DBConnection class, you can execute SQL queries and also receive a ResultSet which you can then work with. It spares you the hassle of manually creating a connection and preparing statements etc. Here's a basic example that executes a DML statement:
try (var connection = new DBConnection()) {
connection.update(Files.lines(Paths.get("path/to/file.sql")).collect(Collectors.joining()));
}
If you are trying to retrieve execute a more complex DQL statement and want a ResultSet, you can use the execute method from the DBConnection class.
Since there are some columns that are very common in database tables, Java2DB ships some base classes you can use in order to tackle some of the redundancy.
Entities modeling tables which feature a code and a description of some sort could benefit from using the BaseCodeAndDescriptionEntity in combination with the BaseCodeAndDescriptionService.
Entities modeling tables which feature support for "soft-deletion" could benefit from using the BaseDeletableEntity in combination with the BaseDeletableService.
These two extended options are also available in combination with each other.
- If you would not like your queries logged in the console, use the
DBConnection.LOG_QUERIES = false;statement on program start. - In case Java2DB can't establish a connection with your database, it will throw a
ConnectionFailedException. You can catch it and perform your own handling.
This is an advanced feature and completely optional.
You can define your own mappings by implementing the Mappable interface and registering your custom mapper with the IoC.registerMapper method. When you register a mapper, it will be used when mapping the database result into POJOs.
This feature is also optional and solely exists to promote good programming practice.
Only one instance of a data service is really needed in the life cycle of an application. It has no behavior that could change, since it only transfers data, nothing else.
Because of this, it is possible to register an instance of a service that can be retrieved at a later point in time and as many times as you want. Use the IoC.registerService method to do this. Using the above example, it would look something like this: IoC.registerService(Person.class, new PersonService());. Now that you have registered an instance of a service, you can retrieve it someplace in your application using the IoC.resolveService call. This will return the exact instance of the service you registered.