The simple, stupid random Java™ beans generator
Latest news
- 04/11/2019: Easy Random v4.1.0 is released! See what's new in the change log.
- 05/05/2019: Random Beans has been renamed to Easy Random and is now part of jeasy.org. Version 4.0.0 has been released! See what's new in the change log.
- 13/03/2019: Version 3.9.0 is out! Checkout what's new in the change log.
What is Easy Random ?
Easy Random is a library that generates random Java beans. You can think of it as an ObjectMother for the JVM. Let's say you have a class Person
and you want to generate a random instance of it, here we go:
EasyRandom easyRandom = new EasyRandom();
Person person = easyRandom.nextObject(Person.class);
The method EasyRandom#nextObject
is able to generate random instances of any given type.
What is this EasyRandom API?
The java.util.Random
API provides 7 methods to generate random data: nextInt()
, nextLong()
, nextDouble()
, nextFloat()
, nextBytes()
, nextBoolean()
and nextGaussian()
.
What if you need to generate a random String
? Or say a random instance of your domain object?
Easy Random provides the EasyRandom
API that extends java.util.Random
with a method called nextObject(Class type)
.
This method is able to generate a random instance of any arbitrary Java bean.
The EasyRandomParameters
class is the main entry point to configure EasyRandom
instances. It allows you to set all
parameters to control how random data is generated:
EasyRandomParameters parameters = new EasyRandomParameters()
.seed(123L)
.objectPoolSize(100)
.randomizationDepth(3)
.charset(forName("UTF-8"))
.timeRange(nine, five)
.dateRange(today, tomorrow)
.stringLengthRange(5, 50)
.collectionSizeRange(1, 10)
.scanClasspathForConcreteTypes(true)
.overrideDefaultInitialization(false)
.ignoreRandomizationErrors(true);
EasyRandom easyRandom = new EasyRandom(parameters);
For more details about these parameters, please refer to the configuration parameters section.
In most cases, default options are enough and you can use the default constructor of EasyRandom
.
Easy Random allows you to control how to generate random data through the org.jeasy.random.api.Randomizer
interface and makes it easy to exclude some fields from the object graph using a java.util.function.Predicate
:
EasyRandomParameters parameters = new EasyRandomParameters()
.randomize(String.class, () -> "foo")
.excludeField(named("age").and(ofType(Integer.class)).and(inClass(Person.class)));
EasyRandom easyRandom = new EasyRandom(parameters);
Person person = easyRandom.nextObject(Person.class);
In the previous example, Easy Random will:
- Set all fields of type
String
tofoo
(using theRandomizer
defined as a lambda expression) - Exclude the field named
age
of typeInteger
in classPerson
.
The static methods named
, ofType
and inClass
are defined in org.jeasy.random.FieldPredicates
which provides common predicates you can use in combination to define exactly which fields to exclude.
A similar class called TypePredicates
can be used to define which types to exclude from the object graph.
You can of course use your own java.util.function.Predicate
in combination with those predefined predicates.
Why Easy Random ?
Populating a Java object with random data can look easy at first glance, unless your domain model involves many related classes. In the previous example, let's suppose the Person
type is defined as follows:
Without Easy Random, you would write the following code in order to create an instance of the Person
class:
Street street = new Street(12, (byte) 1, "Oxford street");
Address address = new Address(street, "123456", "London", "United Kingdom");
Person person = new Person("Foo", "Bar", "foo.bar@gmail.com", Gender.MALE, address);
And if these classes do not provide constructors with parameters (may be some legacy beans you can't change), you would write:
Street street = new Street();
street.setNumber(12);
street.setType((byte) 1);
street.setName("Oxford street");
Address address = new Address();
address.setStreet(street);
address.setZipCode("123456");
address.setCity("London");
address.setCountry("United Kingdom");
Person person = new Person();
person.setFirstName("Foo");
person.setLastName("Bar");
person.setEmail("foo.bar@gmail.com");
person.setGender(Gender.MALE);
person.setAddress(address);
With Easy Random, generating a random Person
object is done with new EasyRandom().nextObject(Person.class)
.
The library will recursively populate all the object graph. That's a big difference!
How can this be useful ?
Sometimes, the test fixture does not really matter to the test logic. For example, if we want to test the result of a new sorting algorithm, we can generate random input data and assert the output is sorted, regardless of the data itself:
@org.junit.Test
public void testSortAlgorithm() {
// Given
int[] ints = easyRandom.nextObject(int[].class);
// When
int[] sortedInts = myAwesomeSortAlgo.sort(ints);
// Then
assertThat(sortedInts).isSorted(); // fake assertion
}
Another example is testing the persistence of a domain object, we can generate a random domain object, persist it and assert the database contains the same values:
@org.junit.Test
public void testPersistPerson() throws Exception {
// Given
Person person = easyRandom.nextObject(Person.class);
// When
personDao.persist(person);
// Then
assertThat("person_table").column("name").value().isEqualTo(person.getName()); // assretj db
}
There are many other uses cases where Easy Random can be useful, you can find a non exhaustive list in the wiki.
Extensions
- JUnit extension: Use Easy Random to generate random data in JUnit tests (courtesy of glytching)
Contribution
You are welcome to contribute to the project with pull requests on GitHub.
If you believe you found a bug, please use the issue tracker.
If you have any question, suggestion, or feedback, do not hesitate to use the Gitter channel of the project.
Core team and contributors
Core team
Awesome contributors
- Adriano Machado
- Alberto Lagna
- Andrew Neal
- Dovid Kopel
- Eric Taix
- euZebe
- Fred Eckertson
- huningd
- Johan Kindgren
- Joren Inghelbrecht
- Jose Manuel Prieto
- kermit-the-frog
- Lucas Andersson
- Michael Düsterhus
- Nikola Milivojevic
- nrenzoni
- Oleksandr Shcherbyna
- Petromir Dzhunev
- Rebecca McQuary
- Rémi Alvergnat
- Rodrigue Alcazar
- Ryan Dunckel
- Sam Van Overmeire
- Valters Vingolds
- Vincent Potucek
- Weronika Redlarska
- Konstantin Lutovich
Thank you all for your contributions!
License
The MIT License. See LICENSE.txt.