Making Stubs
10 June 2003
A common problem with test-enhanced designs is how to create Service Stubs in test mode while letting the real thing be there for production (and for some tests). A couple of my colleagues have shared their ideas.
Jeremy Stell-Smith showed me an approach based on an Abstract Factory. All stubbable services are pulled from a single factory. This example shows such a Persistance class.
public abstract class Persistence... public static Persistence getInstance() { return (Persistence)Factories.get(Persistence.class); } public abstract void save(Object obj);
As well as the Abstract Factory capability the test factory also has the nice ability to have a stack of implementations - this makes setup of factories easier.
public class FooTest... public void setUp() { TestFactories.pushSingleton(Persistence.class, new MockPersistence()); } public void tearDown() { TestFactories.pop(Persistence.class); } public void testSave() { Foo foo = new Foo(); foo.save(); ... } public class Foo ... public void save() { Persistence.getInstance().save(this); }
In another project, Kraig Parkinson shows a slightly different take. Rather than use a single Abstract factory, those services that need stubbing use a prototype.
public class MyFacade { private static MyFacade prototype; /** * Sets the instance of the facade that will be returned by the getInstance method * used by all clients of the facade. */ public static void setFacade(MyFacade newPrototype) { prototype = newPrototype; } /** * Returns an instance of the facade, using the prototype if set, * otherwise an instance of the facade is used during normal operation. */ public static MyFacade getInstance() { if (prototype != null) return prototype; else return new MyFacade(); }
To use it in a test, you do something like this.
public class MyClientTest extends junit.framework.TestCase { private class Client { public String speak(String input) { return MyFacade.getInstance().echo(input); } public void dance() { return MyFacade.getInstance().move(); } } public void testSpeak() { final String expectedInput = “bar”; final String expectedOutput = “foo”; MyFacade.setPrototype(new MyFacade() { public String echo(String input) { assertEquals(expectedInput, input); return expectedOutput; } } //Invoke code that'd invoke the facade, but remember to remove // the prototype reference once you're done with it.... try { final String actualOutput = new Client.speak(expectedInput); assertEquals(expectedOutput, actualOutput); } finally { MyFacade.setPrototype(null); } } public void testDance() { final StringBuffer proof = new StringBuffer(); MyFacade.setPrototype(new MyFacade() { public void move() { proof.append(“g”); } } //Invoke code that'd invoke the facade, but remember to remove // the prototype reference once you're done with it.... try { new Client().move(); assertTrue(“move was not invoked”, proof.length > 0); } finally { MyFacade.setPrototype(null); } }
In this case Kraig cleans up resources in a finally block as part of the test method. Another alternative (which I admit is how I would do it) is to put the clean up code in the tearDown.
The dance case is similar to what the Mock Objects folks do their idea of setting expectations on a mock object. You can think of this as a lightweight way of doing Mock Objects.