51

Is there a java library that would help with creating instances of classes for testing? One that examines the properties of a bean and fills it with random data.
I'm basically looking for Java equivalent of Object Hydrator for C#.

  • 1
    You can also take a look at github.com/nomemory/mockneat . It's library that can be used exactly for this - to fill objects with (valid) data . – Andrei Ciobanu Mar 9 '18 at 8:31
  • 1
    if you just want some data in your db for testing your application. you can use mockaroo.com. the data is realistic enough create mock up data for demos or manual testing. You can export a csv file and import it to the db – arvin_v_s Jul 25 '18 at 4:15
57

You could use PoDaM:

PodamFactory factory = new PodamFactoryImpl();
Pojo myPojo = factory.manufacturePojo(Pojo.class);
  • It's also in Maven Central, nice. – prasopes Feb 10 '14 at 13:52
  • Can I use this library for generating random parameters for method call? – Korobko Alex Jul 23 '15 at 9:16
  • @Alex, just populate POJO then read it's fields – msangel Jul 24 '15 at 0:06
  • It's pretty awesome:) Thanks! FYI: It works with autogenerated AVRO objects! – pchot Aug 10 '15 at 14:42
  • Did not worked for Integer datatype – user754657 Nov 17 '15 at 1:05
26

Take a look at Easy Random.

It allows you to populate a Java Object graph with random data.

Hope it helps.

  • 1
    Just happen to see this post. Haven't tried yet, on quickly glance, seemed to be good as it supports hierarchy/nested of objects. Nice work. Thank you for the same. – Rao Dec 14 '17 at 6:43
13

I don't know of a framework, but it's pretty simple to write one of those yourself. The complexity comes in non-simple properties, aka object associations. Something like this handles the basics and then some:

public static void randomlyPopulateFields(Object object) {
    new RandomValueFieldPopulator().populate(object);
}

public static class RandomValueFieldPopulator {
    public void populate(Object object) {
        ReflectionUtils.doWithFields(object.getClass(), new RandomValueFieldSetterCallback(object));
    }

    private static class RandomValueFieldSetterCallback implements FieldCallback {
        private Object targetObject;

        public RandomValueFieldSetterCallback(Object targetObject) {
            this.targetObject = targetObject;
        }

        @Override
        public void doWith(Field field) throws IllegalAccessException {
            Class<?> fieldType = field.getType();
            if (!Modifier.isFinal(field.getModifiers())) {
                Object value = generateRandomValue(fieldType, new WarnOnCantGenerateValueHandler(field));
                if (!value.equals(UNGENERATED_VALUE_MARKER)) {
                    ReflectionUtils.makeAccessible(field);
                    field.set(targetObject, value);
                }
            }
        }
    }
}

public static Object generateRandomValue(Class<?> fieldType, CantGenerateValueHandler cantGenerateValueHandler) {
    if (fieldType.equals(String.class)) {
        return UUID.randomUUID().toString();
    } else if (Date.class.isAssignableFrom(fieldType)) {
        return new Date(System.currentTimeMillis() - random.nextInt(DATE_WINDOW_MILLIS));
    } else if (Number.class.isAssignableFrom(fieldType)) {
        return random.nextInt(Byte.MAX_VALUE) + 1;
    } else if (fieldType.equals(Integer.TYPE)) {
        return random.nextInt();
    } else if (fieldType.equals(Long.TYPE)) {
        return random.nextInt();
    } else if (Enum.class.isAssignableFrom(fieldType)) {
        Object[] enumValues = fieldType.getEnumConstants();
        return enumValues[random.nextInt(enumValues.length)];
    } else {
        return cantGenerateValueHandler.handle();
    }
}
  • Purely random values for primitive types are trivial. More practical concerns abound around nullable vs. not-nullable fields, min/max values, date ranges and string patterns. – Alistair A. Israel Aug 16 '11 at 2:54
  • 1
    @Alistair: Agreed. I've written a pretty capable/complex random object graph generator before, and the experience led me to conclude that it's a testing antipattern and should be avoided if at all possible. – Ryan Stewart Aug 16 '11 at 3:14
  • @RyanStewart why should it be avoided ? (I am currently sitting around avoiding writing the code that will create a number of domain objects, all filled with random datam, to test my service and contoller layers) – NimChimpsky May 1 '12 at 12:20
  • 1
    @NimChimpsky: I would draw the line between the generating of arbitrary object graphs and the populating of a single object's simple properties. Trying to randomly generate whole object graphs in a suitably generic way is where it gets really crazy. I prefer to keep the assembling of the graphs localized to the specific tests that need them but leave the details of filling in the individual objects to a random field populator. – Ryan Stewart May 1 '12 at 16:46
  • @RyanStewart I agree with you that it is an anti-pattern. Question: Do you recommend a library in JVM for generating only simple properties? :) – user770119 Mar 16 '18 at 15:40
5

You can checkout randomizer for random data generation.This library helps to create random data from given Model class.Checkout below example code.

public class Person {

   @FirstName
   String mFirstName;

   @LastName
   String mLastName;

   @Number(min = 14,max = 25,decimals = 0)
   int age;

   @DateValue( from = "01 Jan 1990",to = "31 Dec 2002" , customFormat = "dd MMM yyyy")
   String dateOfBirth;

   @Email
   String  mEmailId;

   @StreetAddress
   public String streetAddress;

   @State
   public String state;

   //Person can have minimum 1 Phone number and maximum 3 phone number
   @Phone(country = Phone.Country.INDIA)
   @CollectionDescriptor(min = 1,max = 3) 
   List<String> phones;

}

//Generate random 100 Person(Model Class) object 
Generator<Person> generator = new Generator<>(Person.class);  
List<Person> persons = generator.generate(100);                          

As there are many built in data generator is accessible using annotation,You also can build custom data generator.I suggest you to go through documentation provided on library page.

  • 3
    This library seems good except that it requires modifying Beans just for testing. – Divick Dec 12 '17 at 8:55
5

https://github.com/benas/random-beans did the work for me, while PoDam failed with "fluent" setters and answer by Ryan Stewart is not complete for copy-paste as has references to classes that are not exposed! With random-beans it's as easy as:

Auction auction = EnhancedRandom.random(Auction.class);

Gradle:

testCompile ('io.github.benas:random-beans:3.4.0')
  • Since version 7.0.1 Podam supports fluent setters by default and before that it was possible call them by defining a custom ClassInfoStrategy. – divanov Dec 28 '16 at 17:44
1

For testing, our group has had some success with JUnit and Mockito. Here is a link to a Mockito answer.

I am not sure if filling with random data will be a meaningful test. Perhaps a more meaningful test would be testing normal, boundary, and error conditions.

  • 3
    I've actually wished for a similar tool more than once (to the point where I've started writing one myself). Normal/boundary/error conditions are good for unit testing in general, however, for performance/load-testing and black-box testing you sometimes need substantial volumes of test data. – Alistair A. Israel Aug 16 '11 at 2:52
0

I Have used reflection and recursion here to get all fields populated in my robust object that i wanted to get tested. This is Using PODAM as well i hope somebody will find this useful.

public class Populate {

    private final PodamFactory podamFactory = new PodamFactoryImpl();

    private <P> P getManufacturedPojo(final Class<P> klass) {
        return podamFactory.manufacturePojo(klass);
    }

    private Object populateAllIn(final Class targetClass) throws IllegalAccessException, InstantiationException {
        final Object target = targetClass.newInstance();

        //Get all fields present on the target class
        final Set<Field> allFields = getAllFields(targetClass, Predicates.<Field>alwaysTrue());

        //Iterate through fields
        for (final Field field : allFields) {

            //Set fields to be accessible even when private
            field.setAccessible(true);

            final Class<?> fieldType = field.getType();
            if (fieldType.isEnum() && EnrichmentType.class.isAssignableFrom(fieldType)) {
                 //handle any enums here if you have any
            }              

            //Check if the field is a collection
            if (Collection.class.isAssignableFrom(fieldType)) {

                //Get the generic type class of the collection
                final Class<?> genericClass = getGenericClass(field);

                //Check if the generic type of a list is abstract
                if (Modifier.isAbstract(genericClass.getModifiers())) {

                    //You might want to use any class that extends
                    //Your abstract class like 

                    final List<Object> list = new ArrayList<>();
                    list.add(populateAllIn(ClassExtendingAbstract.class));
                    field.set(target, list);

                } else {
                    final List<Object> list = new ArrayList<>();
                    list.add(populateAllIn(genericClass));
                    field.set(target, list);
                }

            } else if ((isSimpleType(fieldType) || isSimplePrimitiveWrapperType(fieldType)) && !fieldType.isEnum()) {
                field.set(target, getManufacturedPojo(fieldType));

            } else if (!fieldType.isEnum()) {
                field.set(target, populateAllIn(fieldType));
            }
        }
        return target;
    }

And some helper methods. Code might not be perfect but works :).

private Class<?> getGenericClass(final Field field) {
    final ParameterizedType collectionType = (ParameterizedType) field.getGenericType();
    return (Class<?>) collectionType.getActualTypeArguments()[0];
}

private boolean isSimpleType(final Class<?> fieldType) {
    return fieldType.isPrimitive()
            || fieldType.isEnum()
            || String.class.isAssignableFrom(fieldType)
            || Date.class.isAssignableFrom(fieldType);
}

private boolean isSimplePrimitiveWrapperType(final Class<?> fieldType) {
    return Integer.class.isAssignableFrom(fieldType)
            || Boolean.class.isAssignableFrom(fieldType)
            || Character.class.isAssignableFrom(fieldType)
            || Long.class.isAssignableFrom(fieldType)
            || Short.class.isAssignableFrom(fieldType)
            || Double.class.isAssignableFrom(fieldType)
            || Float.class.isAssignableFrom(fieldType)
            || Byte.class.isAssignableFrom(fieldType);
}

Thanks, and if there a easier way to populate everything please let me know.

Not the answer you're looking for? Browse other questions tagged or ask your own question.