EasyMock - Kurzanleitung
Was ist Spott?
Das Verspotten ist eine Möglichkeit, die Funktionalität einer Klasse isoliert zu testen. Das Verspotten erfordert keine Datenbankverbindung oder das Lesen von Eigenschaftendateien oder Dateiservern, um eine Funktionalität zu testen. Scheinobjekte verspotten den eigentlichen Dienst. Ein Scheinobjekt gibt Dummy-Daten zurück, die einer an ihn übergebenen Dummy-Eingabe entsprechen.
EasyMock
EasyMock erleichtert das nahtlose Erstellen von Scheinobjekten. Es verwendet Java Reflection, um Scheinobjekte für eine bestimmte Schnittstelle zu erstellen. Scheinobjekte sind nichts anderes als ein Proxy für tatsächliche Implementierungen. Stellen Sie sich einen Fall von Stock Service vor, der die Preisdetails einer Aktie zurückgibt. Während der Entwicklung kann der eigentliche Lagerservice nicht zum Abrufen von Echtzeitdaten verwendet werden. Wir brauchen also eine Dummy-Implementierung des Stock Service. EasyMock kann das sehr einfach tun, wie der Name schon sagt.
Vorteile von EasyMock
No Handwriting - Sie müssen keine Scheinobjekte selbst schreiben.
Refactoring Safe - Durch das Umbenennen von Schnittstellenmethodennamen oder das Neuordnen von Parametern wird der Testcode nicht beschädigt, da zur Laufzeit Mocks erstellt werden.
Return value support - Unterstützt Rückgabewerte.
Exception support - Unterstützt Ausnahmen.
Order check support - Unterstützt die Überprüfung der Reihenfolge von Methodenaufrufen.
Annotation support - Unterstützt das Erstellen von Mocks mithilfe von Anmerkungen.
Betrachten Sie das folgende Code-Snippet.
package com.tutorialspoint.mock;
import java.util.ArrayList;
import java.util.List;
import org.EasyMock.EasyMock;
public class PortfolioTester {
public static void main(String[] args){
//Create a portfolio object which is to be tested
Portfolio portfolio = new Portfolio();
//Creates a list of stocks to be added to the portfolio
List
stocks = new ArrayList
(); Stock googleStock = new Stock("1","Google", 10); Stock microsoftStock = new Stock("2","Microsoft",100); stocks.add(googleStock); stocks.add(microsoftStock); //Create the mock object of stock service StockService stockServiceMock = EasyMock.createMock(StockService.class); // mock the behavior of stock service to return the value of various stocks EasyMock.expect(stockServiceMock.getPrice(googleStock)).andReturn(50.00); EasyMock.expect(stockServiceMock.getPrice(microsoftStock)) .andReturn(1000.00); EasyMock.replay(stockServiceMock); //add stocks to the portfolio portfolio.setStocks(stocks); //set the stockService to the portfolio portfolio.setStockService(stockServiceMock); double marketValue = portfolio.getMarketValue(); //verify the market value to be //10*50.00 + 100* 1000.00 = 500.00 + 100000.00 = 100500 System.out.println("Market value of the portfolio: "+ marketValue); } }
Let's understand the important concepts of the above program. The complete code is available in the chapter First Application.
Portfolio – An object to carry a list of stocks and to get the market value computed using stock prices and stock quantity.
Stock – An object to carry the details of a stock such as its id, name, quantity, etc.
StockService – A stock service returns the current price of a stock.
EasyMock.createMock(...) – EasyMock created a mock of stock service.
EasyMock.expect(...).andReturn(...) – Mock implementation of getPrice method of stockService interface. For googleStock, return 50.00 as price.
EasyMock.replay(...) – EasyMock prepares the Mock object to be ready so that it can be used for testing.
portfolio.setStocks(...) – The portfolio now contains a list of two stocks.
portfolio.setStockService(...) - Assigns the stockService Mock object to the portfolio.
portfolio.getMarketValue()() – The portfolio returns the market value based on its stocks using the mock stock service.
EasyMock - Environment Setup
EasyMock is a framework for Java, so the very first requirement is to have JDK installed in your machine.
System Requirement
JDK
1.5 or above.
Memory
no minimum requirement.
Disk Space
no minimum requirement.
Operating System
no minimum requirement.
Step 1 – Verify Java Installation on Your Machine
Open the console and execute the following java command.
OS
Task
Command
Windows
Open Command Console
c:\> java -version
Linux
Open Command Terminal
$ java -version
Mac
Open Terminal
machine:~ joseph$ java -version
Let's verify the output for all the operating systems:
OS
Output
Windows
java version "1.6.0_21"
Java(TM) SE Runtime Environment (build 1.6.0_21-b07)
Java HotSpot(TM) Client VM (build 17.0-b17, mixed mode, sharing)
Linux
java version "1.6.0_21"
Java(TM) SE Runtime Environment (build 1.6.0_21-b07)
Java HotSpot(TM) Client VM (build 17.0-b17, mixed mode, sharing)
Mac
java version "1.6.0_21"
Java(TM) SE Runtime Environment (build 1.6.0_21-b07)
Java HotSpot(TM)64-Bit Server VM (build 17.0-b17, mixed mode, sharing)
If you do not have Java installed, install the Java Software Development Kit (SDK) from http://www.oracle.com/technetwork/java/javase/downloads/index.html.
We assume you have Java 1.6.0_21 installed on your system for this tutorial.
Step 2: Set JAVA Environment
Set the JAVA_HOME environment variable to point to the base directory location where Java is installed on your machine. For example,
OS
Output
Windows
Set the environment variable JAVA_HOME to C:\Program Files\Java\jdk1.6.0_21
Linux
export JAVA_HOME=/usr/local/java-current
Mac
export JAVA_HOME=/Library/Java/Home
Append the location of the Java compiler to your System Path.
OS
Output
Windows
Append the string ;C:\Program Files\Java\jdk1.6.0_21\bin to the end of the system variable, Path.
Linux
export PATH=$PATH:$JAVA_HOME/bin/
Mac
not required
Verify Java Installation using the command java -version as explained above.
Step 3: Download EasyMock Archive
Download the latest version of EasyMock from http://sourceforge.net/projects/easymock/files/EasyMock/3.2/easymock-3.2.zip/download. Save the zip folder on your C drive, let’s say, C:\>EasyMock.
OS
Archive name
Windows
easymock-3.2.zip
Linux
easymock-3.2.zip
Mac
easymock-3.2.zip
Step 4: Download EasyMock Dependencies
Download the latest version of cglib jar file from https://github.com/cglib/cglib/releases and copy it onto C:\>EasyMock folder. At the time of writing this tutorial, the latest version was 3.1.
Download the latest version of objenesis zip file from http://objenesis.org/download.html and copy it onto C:\>EasyMock folder. At the time of writing this tutorial, the latest version was 2.1. Extract objenesis-2.1.jar to C:\>EasyMock folder
Step 5: Set EasyMock Environment
Set the EasyMock_HOME environment variable to point to the base directory location where EasyMock and dependency jars are stored on your machine. The following table shows how to set the environment variable on different operating systems, assuming we've extracted easymock-3.2.jar, cglib-3.1.jar, and objenesis-2.1.jar onto C:\>EasyMock folder.
OS
Output
Windows
Set the environment variable EasyMock_HOME to C:\EasyMock
Linux
export EasyMock_HOME=/usr/local/EasyMock
Mac
export EasyMock_HOME=/Library/EasyMock
Step 6: Set CLASSPATH Variable
Set the CLASSPATH environment variable to point to the location where EasyMock and dependency jars are stored. The following table shows how to set the CLASSPATH variable on different operating systems.
OS
Output
Windows
Set the environment variable CLASSPATH to %CLASSPATH%;%EasyMock_HOME%\easymock-3.2.jar;%EasyMock_HOME%\cglib-3.1.jar;%EasyMock_HOME%\objenesis-2.1.jar;.;
Linux
export CLASSPATH=$CLASSPATH:$EasyMock_HOME/easymock-3.2.jar:$EasyMock_HOME/cglib-3.1.jar:$EasyMock_HOME/objenesis-2.1.jar:.
Mac
export CLASSPATH=$CLASSPATH:$EasyMock_HOME/easymock-3.2.jar:$EasyMock_HOME/cglib-3.1.jar:$EasyMock_HOME/objenesis-2.1.jar:.
Step 7: Download JUnit Archive
Download the latest version of JUnit jar file from https://github.com/junit-team/junit/wiki/Download-and-Install.Save the folder at the location C:\>Junit.
OS
Archive name
Windows
junit4.11.jar, hamcrest-core-1.2.1.jar
Linux
junit4.11.jar, hamcrest-core-1.2.1.jar
Mac
junit4.11.jar, hamcrest-core-1.2.1.jar
Step 8: Set JUnit Environment
Set the JUNIT_HOME environment variable to point to the base directory location where JUnit jars are stored on your machine. The following table shows how to set this environment variable on different operating systems, assuming we've stored junit4.11.jar and hamcrest-core-1.2.1.jar at C:\>Junit.
OS
Output
Windows
Set the environment variable JUNIT_HOME to C:\JUNIT
Linux
export JUNIT_HOME=/usr/local/JUNIT
Mac
export JUNIT_HOME=/Library/JUNIT
Step 9: Set CLASSPATH Variable
Set the CLASSPATH environment variable to point to the JUNIT jar location. The following table shows how it is done on different operating systems.
OS
Output
Windows
Set the environment variable CLASSPATH to %CLASSPATH%;%JUNIT_HOME%\junit4.11.jar;%JUNIT_HOME% \hamcrest-core-1.2.1.jar;.;
Linux
export CLASSPATH=$CLASSPATH:$JUNIT_HOME/junit4.11.jar:$JUNIT_HOME /hamcrest-core-1.2.1.jar:.
Mac
export CLASSPATH=$CLASSPATH:$JUNIT_HOME/junit4.11.jar:$JUNIT_HOME /hamcrest-core-1.2.1.jar:.
EasyMock - First Application
Before going into the details of the EasyMock Framework, let’s see an application in action. In this example, we've created a mock of Stock Service to get the dummy price of some stocks and unit tested a java class named Portfolio.
The process is discussed below in a step-by-step manner.
Step 1: Create a JAVA class to represent the Stock
Stock.java
public class Stock {
private String stockId;
private String name;
private int quantity;
public Stock(String stockId, String name, int quantity){
this.stockId = stockId;
this.name = name;
this.quantity = quantity;
}
public String getStockId() {
return stockId;
}
public void setStockId(String stockId) {
this.stockId = stockId;
}
public int getQuantity() {
return quantity;
}
public String getTicker() {
return name;
}
}
Step 2: Create an interface StockService to get the price of a stock
StockService.java
public interface StockService {
public double getPrice(Stock stock);
}
Step 3: Create a class Portfolio to represent the portfolio of any client
Portfolio.java
import java.util.List;
public class Portfolio {
private StockService stockService;
private List
stocks;
public StockService getStockService() {
return stockService;
}
public void setStockService(StockService stockService) {
this.stockService = stockService;
}
public List
getStocks() { return stocks; } public void setStocks(List
stocks) { this.stocks = stocks; } public double getMarketValue(){ double marketValue = 0.0; for(Stock stock:stocks){ marketValue += stockService.getPrice(stock) * stock.getQuantity(); } return marketValue; } }
Step 4: Test the Portfolio class
Let's test the Portfolio class, by injecting in it a mock of stockservice. Mock will be created by EasyMock.
PortfolioTester.java
import java.util.ArrayList;
import java.util.List;
import org.easymock.EasyMock;
public class PortfolioTester {
Portfolio portfolio;
StockService stockService;
public static void main(String[] args){
PortfolioTester tester = new PortfolioTester();
tester.setUp();
System.out.println(tester.testMarketValue()?"pass":"fail");
}
public void setUp(){
//Create a portfolio object which is to be tested
portfolio = new Portfolio();
//Create the mock object of stock service
stockService = EasyMock.createMock(StockService.class);
//set the stockService to the portfolio
portfolio.setStockService(stockService);
}
public boolean testMarketValue(){
//Creates a list of stocks to be added to the portfolio
List
stocks = new ArrayList<Stock>();
Stock googleStock = new Stock("1","Google", 10);
Stock microsoftStock = new Stock("2","Microsoft",100);
stocks.add(googleStock);
stocks.add(microsoftStock);
//add stocks to the portfolio
portfolio.setStocks(stocks);
// mock the behavior of stock service to return the value of various stocks
EasyMock.expect(stockService.getPrice(googleStock)).andReturn(50.00);
EasyMock.expect(stockService.getPrice(microsoftStock)).andReturn(1000.00);
// activate the mock
EasyMock.replay(stockService);
double marketValue = portfolio.getMarketValue();
return marketValue == 100500.0;
}
}
Step 5: Verify the result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Stock.java StockService.java Portfolio.java PortfolioTester.java
Now run the PortfolioTester to see the result:
C:\EasyMock_WORKSPACE>java PortfolioTester
Verify the Output
pass
EasyMock - JUnit Integration
In this chapter, we'll learn how to integrate JUnit and EasyMock together. For JUnit tutorial, please refer to JUnit. Here we will create a Math Application which uses CalculatorService to perform basic mathematical operations such as addition, subtraction, multiply, and division. We'll use EasyMock to mock the dummy implementation of CalculatorService. In addition, we've made extensive use of annotations to showcase their compatibility with both JUnit and EasyMock.
The process is discussed below in a step-by-step manner.
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
}
}
Step 4: Create a class to execute to test cases
Create a java class file named TestRunner in C:\ > EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac CalculatorService.java MathApplication.java MathApplicationTester.java TestRunner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
EasyMock - Adding Behavior
EasyMock adds a functionality to a mock object using the methods expect() and expectLassCall(). Take a look at the following code snippet.
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
Here we've instructed EasyMock to give a behavior of adding 10 and 20 to the add method of calcService and as a result, to return the value of 30.00.
At this point of time, Mock simply recorded the behavior but it is not working as a mock object. After calling replay, it works as expected.
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
//activate the mock
//EasyMock.replay(calcService);
Example without EasyMock.Replay()
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
//@RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify the class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
//activate the mock
//EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\>EasyMock_WORKSPACE to execute the test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
testAdd(MathApplicationTester): expected:<0.0> but was:<30.0>
false
Example with EasyMock.Replay()
Step 1: Create an interface called CalculatorService to provide mathematical functions.
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication.
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
// @Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
// add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
//activate the mock
EasyMock.replay(calcService);
// test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\>EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result.
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
EasyMock - Verifying Behavior
EasyMock can ensure whether a mock is being used or not. It is done using the verify() method. Take a look at the following code snippet.
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
Example without EasyMock.Verify()
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
//return calcService.add(input1, input2);
return input1 + input2;
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
//EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
Example with EasyMock.Verify()
Step 1: Create an interface CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
//return calcService.add(input1, input2);
return input1 + input2;
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
testAdd(MathApplicationTester):
Expectation failure on verify:
CalculatorService.add(10.0, 20.0): expected: 1, actual: 0
false
EasyMock - Expecting Calls
EasyMock provides a special check on the number of calls that can be made on a particular method. Suppose MathApplication should call the CalculatorService.serviceUsed() method only once, then it should not be able to call CalculatorService.serviceUsed() more than once.
//add the behavior of calc service to add two numbers and serviceUsed.
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
calcService.serviceUsed();
//limit the method call to 1, no less and no more calls are allowed
EasyMock.expectLastCall().times(1);
Create CalculatorService interface as follows.
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
public void serviceUsed();
}
Example with calcService.serviceUsed() called once
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
public void serviceUsed();
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
calcService.serviceUsed();
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
// @Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
calcService.serviceUsed();
EasyMock.expectLastCall().times(1);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
Example with calcService.serviceUsed() Called Twice
Step 1: Create an interface CalculatorService to provide mathematical functions.
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
public void serviceUsed();
}
Step 2: Create a JAVA class to represent MathApplication.
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
calcService.serviceUsed();
calcService.serviceUsed();
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
calcService.serviceUsed();
EasyMock.expectLastCall().times(1);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACEto execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac CalculatorService.java MathApplication.java MathApplicationTester.java TestRunner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
testAdd(com.tutorialspoint.mock.MathApplicationTester):
Unexpected method call CalculatorService.serviceUsed():
CalculatorService.add(10.0, 20.0): expected: 1, actual: 0
CalculatorService.serviceUsed(): expected: 1, actual: 2
false
Example without Calling calcService.serviceUsed()
Step 1: Create an interface Calculator Service to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
public void serviceUsed();
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
calcService.serviceUsed();
EasyMock.expectLastCall().times(1);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
testAdd(com.tutorialspoint.mock.MathApplicationTester):
Expectation failure on verify:
CalculatorService.serviceUsed(): expected: 1, actual: 0
false
EasyMock - Varying Calls
EasyMock provides the following additional methods to vary the expected call counts.
times (int min, int max) – expects between min and max calls.
atLeastOnce () – expects at least one call.
anyTimes () – expects an unrestricted number of calls.
Example with times (min,max)
Step 1: Create an interface CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
public void serviceUsed();
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
calcService.serviceUsed();
calcService.serviceUsed();
calcService.serviceUsed();
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
calcService.serviceUsed();
EasyMock.expectLastCall().times(1,3);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s)
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
Example with atLeastOnce
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
public void serviceUsed();
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
calcService.serviceUsed();
calcService.serviceUsed();
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
calcService.serviceUsed();
EasyMock.expectLastCall().atLeastOnce();
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
Example with anyTimes
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
public void serviceUsed();
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
calcService.serviceUsed();
calcService.serviceUsed();
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test
public void testAdd(){
//add the behavior of calc service to add two numbers
EasyMock.expect(calcService.add(10.0,20.0)).andReturn(30.00);
calcService.serviceUsed();
EasyMock.expectLastCall().anyTimes();
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac Calculator Service.java Math Application.java Math Application Tester.java Test Runner.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
EasyMock - Exception Handling
EasyMock provides the capability to a mock to throw exceptions, so exception handling can be tested. Take a look at the following code snippet.
//add the behavior to throw exception
EasyMock.expect(calc Service.add(10.0,20.0)).and Throw(new Runtime Exception("Add operation not implemented"));
Here we've added an exception clause to a mock object. MathApplication makes use of calcService using its add method and the mock throws a RuntimeException whenever calcService.add() method is invoked.
Example
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.easymock.Mock;
import org.easymock.TestSubject;
import org.junit.Assert;
import org.junit.Test;
import org.junit.runner.RunWith;
// @RunWith attaches a runner with the test class to initialize the test data
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
// @TestSubject annotation is used to identify class which is going to
use the mock object
@TestSubject
MathApplication mathApplication = new MathApplication();
//@Mock annotation is used to create the mock object to be injected
@Mock
CalculatorService calcService;
@Test(expected = RuntimeException.class)
public void testAdd(){
//add the behavior to throw exception
EasyMock.expect(calcService.add(10.0,20.0)).andThrow(new
RuntimeException("Add operation not implemented"));
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(10.0, 20.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac MathApplicationTester.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
EasyMock - createMock
So far, we've used annotations to create mocks. EasyMock provides various methods to create mock objects. EasyMock.createMock() creates mocks without bothering about the order of method calls that the mock is going to make in due course of its action.
Syntax
calcService = EasyMock.createMock(CalculatorService.class);
Example
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
Here we've added two mock method calls, add() and subtract(), to the mock object via expect(). However during testing, we've called subtract() before calling add(). When we create a mock object using EasyMock.createMock(), the order of execution of the method does not matter.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
private MathApplication mathApplication;
private CalculatorService calcService;
@Before
public void setUp(){
mathApplication = new MathApplication();
calcService = EasyMock.createMock(CalculatorService.class);
mathApplication.setCalculatorService(calcService);
}
@Test
public void testAddAndSubtract(){
//add the behavior to add numbers
EasyMock.expect(calcService.add(20.0,10.0)).andReturn(30.0);
//subtract the behavior to subtract numbers
EasyMock.expect(calcService.subtract(20.0,10.0)).andReturn(10.0);
//activate the mock
EasyMock.replay(calcService);
//test the subtract functionality
Assert.assertEquals(mathApplication.subtract(20.0, 10.0),10.0,0);
//test the add functionality
Assert.assertEquals(mathApplication.add(20.0, 10.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac MathApplicationTester.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
EasyMock - createStrictMock
EasyMock.createStrictMock() creates a mock and also takes care of the order of method calls that the mock is going to make in due course of its action.
Syntax
calcService = EasyMock.createStrictMock(CalculatorService.class);
Example
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
Here we've added two mock method calls, add() and subtract(), to the mock object via expect(). However during testing, we've called subtract() before calling add(). When we create a mock object using EasyMock.createStrictMock(), the order of execution of the method does matter.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
private MathApplication mathApplication;
private CalculatorService calcService;
@Before
public void setUp(){
mathApplication = new MathApplication();
calcService = EasyMock.createStrictMock(CalculatorService.class);
mathApplication.setCalculatorService(calcService);
}
@Test
public void testAddAndSubtract(){
//add the behavior to add numbers
EasyMock.expect(calcService.add(20.0,10.0)).andReturn(30.0);
//subtract the behavior to subtract numbers
EasyMock.expect(calcService.subtract(20.0,10.0)).andReturn(10.0);
//activate the mock
EasyMock.replay(calcService);
//test the subtract functionality
Assert.assertEquals(mathApplication.subtract(20.0, 10.0),10.0,0);
//test the add functionality
Assert.assertEquals(mathApplication.add(20.0, 10.0),30.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac MathApplicationTester.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
testAddAndSubtract(com.tutorialspoint.mock.MathApplicationTester):
Unexpected method call CalculatorService.subtract(20.0, 10.0):
CalculatorService.add(20.0, 10.0): expected: 1, actual: 0
false
EasyMock - createNiceMock
EasyMock.createNiceMock() creates a mock and sets the default implementation of each method of the mock. If EasyMock.createMock() is used, then invoking the mock method throws assertion error.
Syntax
calcService = EasyMock.createNiceMock(CalculatorService.class);
Example
Step 1: Create an interface called CalculatorService to provide mathematical functions.
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
Here we've added one mock method call, add(), via expect(). However during testing, we've called subtract() and other methods as well. When we create a mock object using EasyMock.createNiceMock(), the default implementation with default values are available.
MathApplicationTester.java
import org.easymock.EasyMock;
import org.easymock.EasyMockRunner;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
@RunWith(EasyMockRunner.class)
public class MathApplicationTester {
private MathApplication mathApplication;
private CalculatorService calcService;
@Before
public void setUp(){
mathApplication = new MathApplication();
calcService = EasyMock.createNiceMock(CalculatorService.class);
mathApplication.setCalculatorService(calcService);
}
@Test
public void testCalcService(){
//add the behavior to add numbers
EasyMock.expect(calcService.add(20.0,10.0)).andReturn(30.0);
//activate the mock
EasyMock.replay(calcService);
//test the add functionality
Assert.assertEquals(mathApplication.add(20.0, 10.0),30.0,0);
//test the subtract functionality
Assert.assertEquals(mathApplication.subtract(20.0, 10.0),0.0,0);
//test the multiply functionality
Assert.assertEquals(mathApplication.divide(20.0, 10.0),0.0,0);
//test the divide functionality
Assert.assertEquals(mathApplication.multiply(20.0, 10.0),0.0,0);
//verify call to calcService is made or not
EasyMock.verify(calcService);
}
}
Step 4: Execute test cases
Create a java class file named TestRunner inC:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac MathApplicationTester.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true
EasyMock - EasyMockSupport
EasyMockSupport is a utility or helper class for test classes. It provides the following functionalities:
replayAll() – Registers all the created mocks in one batch.
verifyAll() – Verifies all the mock operations in one batch.
resetAll() – Resets all the mock operations in one batch.
Example
Step 1: Create an interface called CalculatorService to provide mathematical functions
CalculatorService.java
public interface CalculatorService {
public double add(double input1, double input2);
public double subtract(double input1, double input2);
public double multiply(double input1, double input2);
public double divide(double input1, double input2);
}
Step 2: Create a JAVA class to represent MathApplication
MathApplication.java
public class MathApplication {
private CalculatorService calcService;
public void setCalculatorService(CalculatorService calcService){
this.calcService = calcService;
}
public double add(double input1, double input2){
return calcService.add(input1, input2);
}
public double subtract(double input1, double input2){
return calcService.subtract(input1, input2);
}
public double multiply(double input1, double input2){
return calcService.multiply(input1, input2);
}
public double divide(double input1, double input2){
return calcService.divide(input1, input2);
}
}
Step 3: Test the MathApplication class
Let's test the MathApplication class, by injecting in it a mock of calculatorService. Mock will be created by EasyMock.
MathApplicationTester.java
import org.easymock.EasyMockRunner;
import org.easymock.EasyMockSupport;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.junit.runner.RunWith;
@RunWith(EasyMockRunner.class)
public class MathApplicationTester extends EasyMockSupport {
private MathApplication mathApplication1;
private MathApplication mathApplication2;
private CalculatorService calcService1;
private CalculatorService calcService2;
@Before
public void setUp(){
mathApplication1 = new MathApplication();
mathApplication2 = new MathApplication();
calcService1 = createNiceMock(CalculatorService.class);
calcService2 = createNiceMock(CalculatorService.class);
mathApplication1.setCalculatorService(calcService1);
mathApplication2.setCalculatorService(calcService2);
}
@Test
public void testCalcService(){
//activate all mocks
replayAll();
//test the add functionality
Assert.assertEquals(mathApplication1.add(20.0, 10.0),0.0,0);
//test the subtract functionality
Assert.assertEquals(mathApplication1.subtract(20.0, 10.0),0.0,0);
//test the multiply functionality
Assert.assertEquals(mathApplication1.divide(20.0, 10.0),0.0,0);
//test the divide functionality
Assert.assertEquals(mathApplication1.multiply(20.0, 10.0),0.0,0);
//test the add functionality
Assert.assertEquals(mathApplication2.add(20.0, 10.0),0.0,0);
//test the subtract functionality
Assert.assertEquals(mathApplication2.subtract(20.0, 10.0),0.0,0);
//test the multiply functionality
Assert.assertEquals(mathApplication2.divide(20.0, 10.0),0.0,0);
//test the divide functionality
Assert.assertEquals(mathApplication2.multiply(20.0, 10.0),0.0,0);
//verify all the mocks
verifyAll();
}
}
Step 4: Execute test cases
Create a java class file named TestRunner in C:\> EasyMock_WORKSPACE to execute Test case(s).
TestRunner.java
import org.junit.runner.JUnitCore;
import org.junit.runner.Result;
import org.junit.runner.notification.Failure;
public class TestRunner {
public static void main(String[] args) {
Result result = JUnitCore.runClasses(MathApplicationTester.class);
for (Failure failure : result.getFailures()) {
System.out.println(failure.toString());
}
System.out.println(result.wasSuccessful());
}
}
Step 5: Verify the Result
Compile the classes using javac compiler as follows:
C:\EasyMock_WORKSPACE>javac MathApplicationTester.java
Now run the Test Runner to see the result:
C:\EasyMock_WORKSPACE>java TestRunner
Verify the output.
true