Google Git
Sign in
android / platform / external / littlemock / refs/heads/marshmallow-mr1-release / . / src / com / google / testing / littlemock / LittleMock.java
blob: 140f853e7560fc8adf107fc3379356ca2da94981 [file] [log] [blame]
/*
* Copyright 2011 Google Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.testing.littlemock;
import java.io.File;
import java.io.ObjectInputStream;
import java.io.ObjectStreamClass;
import java.lang.reflect.Field;
import java.lang.reflect.InvocationHandler;
import java.lang.reflect.Method;
import java.lang.reflect.Proxy;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.concurrent.Callable;
import java.util.concurrent.CopyOnWriteArrayList;
import java.util.concurrent.atomic.AtomicLong;
import java.util.concurrent.atomic.AtomicReference;
/**
* Very lightweight and simple mocking framework, inspired by Mockito, http://mockito.org.
*
* <p>It supports only a <b>small subset</b> of the APIs provided by Mockito and other mocking
* frameworks.
*
* <p>This project was originally designed to be lightweight and suitable for platforms that don't
* support dynamic class generation, for example Android. Since the release of the open
* source dexmaker project http://code.google.com/p/dexmaker/ we can now mock concrete classes
* too.
*
* <p>Here is an example of how to use the framework.
*
* <p>Suppose that we have this interface:
* <pre>
* public interface Foo {
* public String aString(int input);
* public void doSomething();
* }
* </pre>
*
* <p>Then stubbing out mocks works as follows:
* <pre>
* Foo mockFoo = mock(Foo.class); // Create the mock.
* doReturn("hello").when(mockFoo).aString(anyInt()); // Stub the mock to return "hello".
* doThrow(new IOException("oh noes")).when(mockFoo).doSomething();
* assertEquals("hello", mockFoo.aString(5)); // Use the mock - performs as expected.
* mockFoo.doSomething(); // This will throw an IOException.
* </pre>
*
* <p>You can verify in the 'natural place', after the method call has happened, like this:
* <pre>
* Foo mockFoo = mock(Foo.class);
* assertEquals(null, mockFoo.aString(6)); // Unstubbed method calls return a sensible default.
* verify(mockFoo).aString(6); // This will pass, aString() was called once.
* verify(mockFoo, never()).doSomething(); // This will pass, doSomething was never called.
* verify(mockFoo, times(3)).aString(anyInt()); // This will fail, was called once only.
* </pre>
*
* <p>The documentation is still incomplete. You can look at the {@link LittleMockTest} class and
* its unit tests - since they tell you exactly what operations are supported and how to use them.
*
* <p>The reasons I much prefer Mockito's approach to the one of EasyMock are as follows:
* <ul>
* <li>No need to remember to put your mocks in replay mode.</li>
* <li>No need to remember to call verify, a dangerous source of false-positive tests or
* alternatively over-specified tests.</li>
* <li>Much less over-specification: only verify what you actually care about.</li>
* <li>Which in turn leads to better separated tests, each test verifying only a part of the
* desired behaviour.</li>
* <li>Which also leads to less fragile tests, where adding another method call on your
* dependencies doesn't break unrelated tests.</li>
* <li>Simpler sharing of common setup method with specific tests overridding individual
* behavious however they want to, only the most recent stubbed call is the one that counts.</li>
* <li>More natural order for tests: set up stubs, execute tests, verify that it worked.</li>
* <li>More unified syntax that doesn't require special case for differences between void method
* calls and method calls that return a value.</li>
* </ul>
*
* <p>There were enough reasons that I wanted to give Mockito a try. It didn't work on Android
* because of issues with class generation. So I looked at the documentation and examples page and
* added tests for all the examples, and then implemented the this framework. I should stress that
* this is a clean-room implementation, and as such it's possible that there are a couple of methods
* that don't work in the same way as Mockito's implementation. Where that is the case I think we
* should fix once we discover them. There is also some functionality missing, but it will be added
* in due course.
*
* <p>Over time, the API has diverged slightly from the one of Mockito, as I have added APIs that I
* found convenient but that did not have an equivalent in Mockite itself. For anything that has an
* equivalent in Mockito I tried to keep the same name and syntax, to make it easier to transition
* between using one framework to using the other, e.g., when developing both an Android application
* using this framework and a desktop application using Mockito.
*
* @author hugohudson@gmail.com (Hugo Hudson)
*/
/*@NotThreadSafe*/
public class LittleMock {
/** Generates a {@link Behaviour} suitable for void methods. */
public static Behaviour doNothing() { return doReturn(null); }
/** Generates a {@link Behaviour} that returns the given result. */
public static <T> Behaviour doReturn(final T result) {
return new BehaviourImpl(new Action() {
@Override public T doAction(Method method, Object[] args) { return result; }
@Override public Class<?> getReturnType() {
return (result == null) ? null : result.getClass();
}
});
}
/**
* Gets a {@link Behaviour} that will execute the given {@link Callable} and return its result.
*/
public static <T> Behaviour doAnswer(final Callable<T> callable) {
return new BehaviourImpl(new Action() {
@Override
public T doAction(Method method, Object[] args) throws Throwable { return callable.call(); }
@Override
public Class<?> getReturnType() { return null; }
});
}
/** Returns a {@link Behaviour} that throws the given {@link Throwable}. */
public static <T extends Throwable> Behaviour doThrow(final T exception) {
return new BehaviourImpl(new Action() {
@Override
public Object doAction(Method method, Object[] args) throws Throwable { throw exception; }
@Override
public Class<?> getReturnType() { return null; }
});
}
/** Begins a verification step on a mock: the next method invocation on that mock will verify. */
public static <T> T verify(T mock, CallCount howManyTimes) {
return verify(mock, howManyTimes, null);
}
private static final class OrderChecker {
private MethodCall mLastCall;
public void checkOrder(List<MethodCall> calls, String fieldName) {
MethodCall lastTrial = null;
for (MethodCall trial : calls) {
if (mLastCall == null || mLastCall.mInvocationOrder < trial.mInvocationOrder) {
mLastCall = trial;
return;
}
lastTrial = trial;
}
fail(formatFailedVerifyOrderMessage(mLastCall, lastTrial, fieldName));
}
private String formatFailedVerifyOrderMessage(MethodCall lastCall, MethodCall thisCall,
String fieldName) {
StringBuffer sb = new StringBuffer();
sb.append("\nCall to:");
appendDebugStringForMethodCall(sb, thisCall.mMethod, thisCall.mElement, fieldName, false);
sb.append("\nShould have happened after:");
appendDebugStringForMethodCall(sb, lastCall.mMethod, lastCall.mElement, fieldName, false);
sb.append("\nBut the calls happened in the wrong order");
sb.append("\n");
return sb.toString();
}
}
private static <T> T verify(T mock, CallCount howManyTimes, OrderChecker orderCounter) {
if (howManyTimes == null) {
throw new IllegalArgumentException("Can't pass null for howManyTimes parameter");
}
DefaultInvocationHandler handler = getHandlerFrom(mock);
checkState(handler.mHowManyTimes == null, "Unfinished verify() statements");
checkState(handler.mOrderCounter == null, "Unfinished verify() statements");
checkState(handler.mStubbingAction == null, "Unfinished stubbing statements");
checkNoMatchers();
handler.mHowManyTimes = howManyTimes;
handler.mOrderCounter = orderCounter;
sUnfinishedCallCounts.add(howManyTimes);
return handler.<T>getVerifyingMock();
}
/** The list of outstanding calls to verify() that haven't finished, used to check for errors. */
private static List<CallCount> sUnfinishedCallCounts = new ArrayList<CallCount>();
/** The list of outstanding calls to when() that haven't finished, used to check for errors. */
private static List<Action> sUnfinishedStubbingActions = new ArrayList<Action>();
/** Begins a verification step for exactly one method call. */
public static <T> T verify(T mock) { return verify(mock, times(1)); }
/** Assert that no method calls at all happened on these mocks. */
public static void verifyZeroInteractions(Object... mocks) {
checkNoMatchers();
for (Object mock : mocks) {
List<MethodCall> mMethodCalls = getHandlerFrom(mock).mRecordedCalls;
expect(mMethodCalls.isEmpty(), "Mock expected zero interactions, had " + mMethodCalls);
}
}
/** Assert that there are no unverified method calls on these mocks. */
public static void verifyNoMoreInteractions(Object... mocks) {
StackTraceElement callSite = new Exception().getStackTrace()[1];
for (Object mock : mocks) {
verifyNoMoreInteractions(mock, callSite);
}
}
/** Check that there are no unverified actions on the given mock. */
private static void verifyNoMoreInteractions(Object mock, StackTraceElement callSite) {
checkNoMatchers();
DefaultInvocationHandler handlerFrom = getHandlerFrom(mock);
List<MethodCall> unverifiedCalls = new ArrayList<MethodCall>();
for (MethodCall method : handlerFrom.mRecordedCalls) {
if (!method.mWasVerified) {
unverifiedCalls.add(method);
}
}
if (unverifiedCalls.size() > 0) {
StringBuffer sb = new StringBuffer();
sb.append("\nWe found these unverified calls:");
for (MethodCall method : unverifiedCalls) {
appendDebugStringForMethodCall(sb, method.mMethod,
method.mElement, handlerFrom.mFieldName, false);
}
sb.append("\n\nAfter final interaction was verified:\n");
sb.append(" at ").append(callSite).append("\n");
throw new AssertionError(sb.toString());
}
}
/** Creates a {@link CallCount} that matches exactly the given number of calls. */
public static CallCount times(long n) { return new CallCount(n, n); }
/** Claims that the verified call must happen before the given timeout. */
public static Timeout timeout(long timeoutMillis) {
return new Timeout(1, 1, timeoutMillis);
}
/** Creates a {@link CallCount} that only matches if the method was never called. */
public static CallCount never() { return new CallCount(0, 0); }
/** Creates a {@link CallCount} that matches at least one method call. */
public static CallCount atLeastOnce() { return new CallCount(1, Long.MAX_VALUE); }
/** Creates a {@link CallCount} that matches any number of method calls, including none at all. */
public static CallCount anyTimes() { return new CallCount(0, Long.MAX_VALUE); }
/** Creates a {@link CallCount} that matches at least the given number of calls. */
public static CallCount atLeast(long n) { return new CallCount(n, Long.MAX_VALUE); }
/** Creates a {@link CallCount} that matches up to the given number of calls but no more. */
public static CallCount atMost(long n) { return new CallCount(0, n); }
/** Creates a {@link CallCount} that matches any number of calls between the two given bounds. */
public static CallCount between(long lower, long upper) { return new CallCount(lower, upper); }
/**
* Creates an argument matcher that matches any object, don't use for primitives.
* <p>
* <b>Note</b>: This does not enforce that the object is of type {@code T}; use
* {@link #isA(Class)} to do that.
*/
public static <T> T anyObject() { return LittleMock.<T>addMatcher(new MatchAnything(), null); }
/** Generates an argument matcher that matches any string. */
public static String anyString() { return isA(String.class); }
/** Generates an argument matcher that matches any int. */
public static int anyInt() { return addMatcher(new MatchAnything(), 0); }
/** Generates an argument matcher that matches any float. */
public static float anyFloat() { return addMatcher(new MatchAnything(), 0f); }
/** Generates an argument matcher that matches any double. */
public static double anyDouble() { return addMatcher(new MatchAnything(), 0.0); }
/** Generates an argument matcher that matches any boolean. */
public static boolean anyBoolean() { return addMatcher(new MatchAnything(), false); }
/** Generates an argument matcher that matches any short. */
public static short anyShort() { return addMatcher(new MatchAnything(), (short) 0); }
/** Generates an argument matcher that matches any char. */
public static char anyChar() { return addMatcher(new MatchAnything(), '\u0000'); }
/** Generates an argument matcher that matches any long. */
public static long anyLong() { return addMatcher(new MatchAnything(), 0L); }
/** Generates an argument matcher that matches any byte. */
public static byte anyByte() { return addMatcher(new MatchAnything(), (byte) 0); }
/** Generates an argument matcher that matches exactly this value. */
public static <T> T eq(final T expected) {
return addMatcher(new ArgumentMatcher() {
@Override
public boolean matches(Object value) {
return areEqual(expected, value);
}
}, expected);
}
/** An argument matcher that matches any value of the given type or a subtype thereof. */
public static <T> T isA(final Class<T> clazz) {
return LittleMock.<T>addMatcher(new ArgumentMatcher() {
@Override
public boolean matches(Object value) {
return value == null || clazz.isAssignableFrom(value.getClass());
}
}, null);
}
/**
* Injects fields annotated with {@link Mock} with a newly created mock, and those
* annotated with {@link Captor} with a suitable capture object.
*
* <p>This operation is recursive, and travels up the class hierarchy, in order to set all
* suitably annotated fields.
*/
public static void initMocks(Object instance) throws Exception {
injectMocksForClass(instance, instance.getClass());
}
/** Recurse up the class hierarchy injecting mocks as we go, stopping when we reach Object. */
private static void injectMocksForClass(Object instance, Class<?> clazz)
throws Exception {
if (clazz.equals(Object.class)) {
return;
}
for (Field field : clazz.getDeclaredFields()) {
if (field.getAnnotation(Mock.class) != null) {
setField(field, instance, mock(field.getType(), field.getName()));
} else if (field.getAnnotation(Captor.class) != null) {
setField(field, instance, createCaptor());
}
}
injectMocksForClass(instance, clazz.getSuperclass());
}
/**
* Creates a correctly typed {@link ArgumentCaptor} , it's easier to use
* {@link #initMocks(Object)}.
*/
public static <T> ArgumentCaptor<T> createCaptor() {
return new ArgumentCaptorImpl<T>();
}
/**
* Create a correctly typed ArgumentCaptor that also works for primitive types.
* For example, to capture an int, use
* <code>ArgumentCaptor<Integer> c = createCaptor(Integer.class);</code>
*/
public static <T> ArgumentCaptor<T> createCaptor(Class<T> clazz) {
return new ArgumentCaptorImpl<T>(clazz);
}
/** Implementation of the {@link ArgumentCaptor} interface. */
private static class ArgumentCaptorImpl<T extends Object> implements ArgumentCaptor<T> {
private final ArrayList<T> mAllValues = new ArrayList<T>();
private T mValue;
private Class<T> mClass;
private ArgumentCaptorImpl() {
mClass = null;
}
private ArgumentCaptorImpl(Class<T> clazz) {
mClass = clazz;
}
public void setValue(T value) {
mValue = value;
mAllValues.add(mValue);
}
@Override
public T getValue() {
return mValue;
}
@Override
public List<T> getAllValues() {
return mAllValues;
}
@Override
public T capture() {
if (mClass != null) {
if (Integer.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Integer>addMatcher(this, 0);
}
if (Float.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Float>addMatcher(this, 0f);
}
if (Double.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Double>addMatcher(this, 0.0);
}
if (Boolean.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Boolean>addMatcher(this, false);
}
if (Short.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Short>addMatcher(this, (short) 0);
}
if (Character.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Character>addMatcher(this, '\u0000');
}
if (Long.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Long>addMatcher(this, 0L);
}
if (Byte.class.isAssignableFrom(mClass)) {
return (T) LittleMock.<Byte>addMatcher(this, (byte) 0);
}
}
return LittleMock.<T>addMatcher(this, null);
}
@Override
public boolean matches(Object value) {
// A capture always matches any argument.
// This is so that verify(mMock).someMethod(capture(mCapture)) will match any and all calls
// to someMethod() and we will capture the values into mCapture.
return true;
}
}
/**
* Creates a mock, more easily done via the {@link #initMocks(Object)} method.
*
* <p>Also if you use this method to create your mock, the field in the error messages will
* be named the same as your class passed in, you only get the actual field name if you
* use the annotation.
*
* @throws IllegalArgumentException if the class you pass in is null
*/
public static <T> T mock(Class<T> clazz) {
if (clazz == null) {
throw new IllegalArgumentException("Class to mock was null");
}
return mock(clazz, getDefaultFieldNameFor(clazz));
}
/** Creates a mock, more easily done via the {@link #initMocks(Object)} method. */
@SuppressWarnings("unchecked")
private static <T> T mock(Class<T> clazz, String fieldName) {
return (T) createProxy(clazz, new DefaultInvocationHandler(clazz, fieldName));
}
/** Pick a suitable name for a field of the given clazz. */
private static String getDefaultFieldNameFor(Class<?> clazz) {
return clazz.getSimpleName().substring(0, 1).toLowerCase()
+ clazz.getSimpleName().substring(1);
}
/** Clears out the expectations on these mocks. */
public static void reset(Object... mocks) {
for (Object mock : mocks) {
getHandlerFrom(mock).reset();
}
}
/** Use this in tear down to check for programming errors. */
public static void checkForProgrammingErrorsDuringTearDown() {
checkNoMatchers();
checkNoUnfinishedCalls(sUnfinishedCallCounts, "verify()");
checkNoUnfinishedCalls(sUnfinishedStubbingActions, "stubbing");
}
/** Helper function to check that there are no verify or stubbing commands outstanding. */
private static void checkNoUnfinishedCalls(List<?> list, String type) {
if (!list.isEmpty()) {
list.clear();
throw new IllegalStateException("Unfinished " + type + " statements");
}
}
/** Implementation of {@link Behaviour}. */
private static class BehaviourImpl implements Behaviour {
private final Action mAction;
private BehaviourImpl(Action action) {
mAction = action;
}
@Override
public <T> T when(T mock) {
DefaultInvocationHandler handler = getHandlerFrom(mock);
checkState(handler.mHowManyTimes == null, "Unfinished verify() statements");
checkState(handler.mOrderCounter == null, "Unfinished verify() statements");
checkState(handler.mStubbingAction == null, "Unfinished stubbing statements");
handler.mStubbingAction = mAction;
sUnfinishedStubbingActions.add(mAction);
return handler.<T>getStubbingMock();
}
}
/**
* The static list of argument matchers, used in the next method call to the mock.
*
* <p>In order to support the syntax like this: verify(mFoo).someMethod(anyInt()), it is
* required that the anyInt() method store the value somewhere for use when the someMethod
* is invoked. That somewhere has to be static. I don't like it any more than you do.
*
* <p>The same goes for anything that is passed into the someMethod as an argument - be it
* a capture(mCaptureString) or eq(5) or whatever.
*
* <p>Avoiding the use of statics requires that we change the syntax of the verify statement,
* and I can't think of an elegant way of doing it, and in any case I really like the current
* syntax, so for now a static variable it is.
*
* <p>This match arguments list should contain either zero elements (the next method call will
* not use any argument matchers) or it should contain exactly one argument matcher for
* every argument being passed to the next method call. You can't mix argument matchers and
* raw values.
*/
private static final List<ArgumentMatcher> sMatchArguments = new ArrayList<ArgumentMatcher>();
/** Global invocation order of every mock method call. */
private static final AtomicLong sGlobalInvocationOrder = new AtomicLong();
/** Encapsulates a single call of a method with associated arguments. */
private static class MethodCall {
/** The method call. */
private final Method mMethod;
/** The arguments provided at the time the call happened. */
private final Object[] mArgs;
/** The order in which this method call was invoked. */
private final long mInvocationOrder;
/** The line from the test that invoked the handler to create this method call. */
private final StackTraceElement mElement;
/** Keeps track of method calls that have been verified, for verifyNoMoreInteractions(). */
public boolean mWasVerified = false;
public MethodCall(Method method, StackTraceElement element, Object[] args) {
mMethod = method;
mElement = element;
mArgs = args;
mInvocationOrder = sGlobalInvocationOrder.getAndIncrement();
}
public boolean argsMatch(Object[] args) {
return Arrays.equals(mArgs, args);
}
@Override
public String toString() {
return "MethodCall [method=" + mMethod + ", args=" + Arrays.toString(mArgs) + "]";
}
}
private static boolean areMethodsSame(Method first, Method second) {
return areEqual(first.getDeclaringClass(), second.getDeclaringClass()) &&
areEqual(first.getName(), second.getName()) &&
areEqual(first.getReturnType(), second.getReturnType()) &&
Arrays.equals(first.getParameterTypes(), second.getParameterTypes());
}
private static boolean areEqual(Object a, Object b) {
if (a == null) {
return b == null;
}
return a.equals(b);
}
/**
* Magically handles the invoking of method calls.
*
* <p>This object is in one of three states, default (where invoking methods returns default
* values and records the call), verifying (where invoking method calls makes sure that those
* method calls happen with the supplied arguments or matchers) or stubbing (where the next method
* call tells us which arguments to match in order to perform the desired behaviour).
*/
private static class DefaultInvocationHandler implements InvocationHandler {
private static Method sEqualsMethod;
private static Method sHashCodeMethod;
private static Method sToStringMethod;
static {
try {
sEqualsMethod = Object.class.getMethod("equals", Object.class);
sHashCodeMethod = Object.class.getMethod("hashCode");
sToStringMethod = Object.class.getMethod("toString");
} catch (SecurityException e) {
// Should never happen.
throw new RuntimeException("Your JVM/classloader is broken", e);
} catch (NoSuchMethodException e) {
// Should never happen.
throw new RuntimeException("Your JVM/classloader is broken", e);
}
}
/** The class of the mocked objects. */
private final Class<?> mClazz;
/** The field name in which the mock is assigned. */
private final String mFieldName;
/** The list of method calls executed on the mock. */
private List<MethodCall> mRecordedCalls = new CopyOnWriteArrayList<MethodCall>();
/** The list of method calls that were stubbed out and their corresponding actions. */
private List<StubbedCall> mStubbedCalls = new CopyOnWriteArrayList<StubbedCall>();
/**
* The number of times a given call should be verified.
*
* <p>It is not null when in the verification state, and it is actually used to determine if we
* are in the verification state.
*
* <p>It is reset to null once the verification has occurred.
*/
private CallCount mHowManyTimes = null;
private OrderChecker mOrderCounter = null;
/**
* The action to be associated with the stubbed method.
*
* <p>It is not null when in the stubbing state, and it is actually used to determine if we are
* in the stubbing state.
*/
private Action mStubbingAction = null;
/** Dynamic proxy used to verify calls against this mock. */
private final Object mVerifyingMock;
/** Dynamic proxy used to stub calls against this mock. */
private final Object mStubbingMock;
/**
* Creates a new invocation handler for an object.
*
* @param clazz the class the object belongs to
* @param fieldName The name to be used to refer to the object. This may either be the name of
* the field this mock will be stored into (in case it uses @Mock) or a suitable name to
* use to refer to the object in error messages, based on the name of the class itself.
*/
public DefaultInvocationHandler(Class<?> clazz, String fieldName) {
mClazz = clazz;
mFieldName = fieldName;
mVerifyingMock = createVerifyingMock(clazz);
mStubbingMock = createStubbingMock(clazz);
}
// Safe if you call getHandlerFrom(mock).getVerifyingMock(), since this is guaranteed to be
// of the same type as mock itself.
@SuppressWarnings("unchecked")
public <T> T getVerifyingMock() {
return (T) mVerifyingMock;
}
// Safe if you call getHandlerFrom(mock).getStubbingMock(), since this is guaranteed to be
// of the same type as mock itself.
@SuppressWarnings("unchecked")
public <T> T getStubbingMock() {
return (T) mStubbingMock;
}
/** Used to check that we always stub and verify from the same thread. */
private AtomicReference<Thread> mCurrentThread = new AtomicReference<Thread>();
/** Check that we are stubbing and verifying always from the same thread. */
private void checkThread() {
Thread currentThread = Thread.currentThread();
mCurrentThread.compareAndSet(null, currentThread);
if (mCurrentThread.get() != currentThread) {
throw new IllegalStateException("Must always mock and stub from one thread only. "
+ "This thread: " + currentThread + ", the other thread: " + mCurrentThread.get());
}
}
/** Generate the dynamic proxy that will handle verify invocations. */
private Object createVerifyingMock(Class<?> clazz) {
return createProxy(clazz, new InvocationHandler() {
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
checkThread();
expect(mHowManyTimes != null, "verifying mock doesn't know how many times");
try {
ArgumentMatcher[] matchers = checkClearAndGetMatchers(method);
StackTraceElement callSite = new Exception().getStackTrace()[2];
MethodCall methodCall = new MethodCall(method, callSite, args);
innerVerify(method, matchers, methodCall, proxy, callSite, mHowManyTimes, mOrderCounter);
return defaultReturnValue(method.getReturnType());
} finally {
sUnfinishedCallCounts.remove(mHowManyTimes);
mHowManyTimes = null;
mOrderCounter = null;
}
}
});
}
/** Generate the dynamic proxy that will handle stubbing invocations. */
private Object createStubbingMock(Class<?> clazz) {
return createProxy(clazz, new InvocationHandler() {
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
checkThread();
expect(mStubbingAction != null, "stubbing mock doesn't know what action to perform");
try {
ArgumentMatcher[] matchers = checkClearAndGetMatchers(method);
StackTraceElement callSite = new Exception().getStackTrace()[2];
MethodCall methodCall = new MethodCall(method, callSite, args);
innerStub(method, matchers, methodCall, callSite, mStubbingAction);
return defaultReturnValue(method.getReturnType());
} finally {
sUnfinishedStubbingActions.remove(mStubbingAction);
mStubbingAction = null;
}
}
});
}
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
StackTraceElement callSite = new Exception().getStackTrace()[2];
MethodCall methodCall = new MethodCall(method, callSite, args);
return innerRecord(method, args, methodCall, proxy, callSite);
}
/**
* Checks whether the given method is one of the special object methods that should not
* verified or stubbed.
* <p>
* If this is one of such methods, it throws an AssertionException.
*
* @param method the method to be checked
* @param operation the name of the operation, used for generating a helpful message
*/
private void checkSpecialObjectMethods(Method method, String operation) {
if (areMethodsSame(method, sEqualsMethod)
|| areMethodsSame(method, sHashCodeMethod)
|| areMethodsSame(method, sToStringMethod)) {
fail("cannot " + operation + " call to " + method);
}
}
private void reset() {
mRecordedCalls.clear();
mStubbedCalls.clear();
mHowManyTimes = null;
mOrderCounter = null;
mStubbingAction = null;
}
private Object innerRecord(Method method, final Object[] args,
MethodCall methodCall, Object proxy, StackTraceElement callSite) throws Throwable {
if (areMethodsSame(method, sEqualsMethod)) {
// Use identify for equality, the default behavior on object.
return proxy == args[0];
} else if (areMethodsSame(method, sHashCodeMethod)) {
// This depends on the fact that each mock has its own DefaultInvocationHandler.
return hashCode();
} else if (areMethodsSame(method, sToStringMethod)) {
// This is used to identify this is a mock, e.g., in error messages.
return "Mock<" + mClazz.getName() + ">";
}
mRecordedCalls.add(methodCall);
for (StubbedCall stubbedCall : mStubbedCalls) {
if (areMethodsSame(stubbedCall.mMethodCall.mMethod, methodCall.mMethod)) {
if (stubbedCall.mMethodCall.argsMatch(methodCall.mArgs)) {
methodCall.mWasVerified = true;
return stubbedCall.mAction.doAction(method, args);
}
}
}
// If no stub is defined, return the default value.
return defaultReturnValue(method.getReturnType());
}
private void innerStub(Method method, final ArgumentMatcher[] matchers, MethodCall methodCall,
StackTraceElement callSite, final Action stubbingAction) {
checkSpecialObjectMethods(method, "stub");
checkThisActionCanBeUsedForThisMethod(method, stubbingAction, callSite);
if (matchers.length == 0) {
// If there are no matchers, then this is a simple stubbed method call with an action.
mStubbedCalls.add(0, new StubbedCall(methodCall, stubbingAction));
return;
}
// If there are matchers, then we need to make a new method call which matches only
// when all the matchers match. Further, the action that method call needs to take
// is to first record the values into any captures that may be present, and only then
// proceed to execute the original action.
MethodCall matchMatchersMethodCall = new MethodCall(method, callSite, matchers) {
@Override
public boolean argsMatch(Object[] args) { return doMatchersMatch(matchers, args); }
};
Action setCapturesThenAction = new Action() {
@Override
public Object doAction(Method innerMethod, Object[] innerArgs) throws Throwable {
setCaptures(matchers, innerArgs);
return stubbingAction.doAction(innerMethod, innerArgs);
}
@Override
public Class<?> getReturnType() {
return stubbingAction.getReturnType();
}
};
mStubbedCalls.add(0, new StubbedCall(matchMatchersMethodCall, setCapturesThenAction));
}
private void checkThisActionCanBeUsedForThisMethod(Method method, final Action stubbingAction,
StackTraceElement callSite) {
Class<?> methodType = method.getReturnType();
Class<?> actionType = stubbingAction.getReturnType();
if (actionType == null) {
// We could not determine the type returned by this action at the time we
// created it. At this time we cannot check that the returned value is
// appropriate to the return type of the method.
// However, if the type is not correct, any actual invocation of the method
// will fail later on.
return;
}
if (!methodType.isAssignableFrom(actionType)) {
if (methodType.isPrimitive() &&
actionType.equals(PRIMITIVE_TO_BOXED_LOOKUP.get(methodType))) {
return;
}
StringBuffer sb = new StringBuffer();
sb.append("\nCan't return ").append(actionType.getSimpleName()).append(" from stub for:");
appendDebugStringForMethodCall(sb, method, callSite, mFieldName, true);
sb.append("\n");
throw new IllegalArgumentException(sb.toString());
}
}
private boolean doMatchersMatch(ArgumentMatcher[] matchers, Object[] args) {
for (int i = 0; i < matchers.length; ++i) {
if (!matchers[i].matches(args[i])) {
return false;
}
}
return true;
}
private void innerVerify(Method method, ArgumentMatcher[] matchers, MethodCall methodCall,
Object proxy, StackTraceElement callSite, CallCount callCount, OrderChecker orderCounter) {
checkSpecialObjectMethods(method, "verify");
List<MethodCall> calls = countMatchingInvocations(method, matchers, methodCall);
long callTimeout = callCount.getTimeout();
checkState(orderCounter == null || callTimeout == 0, "can't inorder verify with a timeout");
if (callTimeout > 0) {
long endTime = System.currentTimeMillis() + callTimeout;
while (!callCount.matches(calls.size())) {
try {
Thread.sleep(1);
} catch (InterruptedException e) {
fail("interrupted whilst waiting to verify");
}
if (System.currentTimeMillis() > endTime) {
fail(formatFailedVerifyMessage(methodCall, calls.size(), callTimeout, callCount));
}
calls = countMatchingInvocations(method, matchers, methodCall);
}
} else {
if (orderCounter != null) {
orderCounter.checkOrder(calls, mFieldName);
} else if (!callCount.matches(calls.size())) {
fail(formatFailedVerifyMessage(methodCall, calls.size(), 0, callCount));
}
}
}
private List<MethodCall> countMatchingInvocations(Method method, ArgumentMatcher[] matchers,
MethodCall methodCall) {
List<MethodCall> methodCalls = new ArrayList<MethodCall>();
for (MethodCall call : mRecordedCalls) {
if (areMethodsSame(call.mMethod, method)) {
if ((matchers.length > 0 && doMatchersMatch(matchers, call.mArgs)) ||
call.argsMatch(methodCall.mArgs)) {
setCaptures(matchers, call.mArgs);
methodCalls.add(call);
call.mWasVerified = true;
}
}
}
return methodCalls;
}
private String formatFailedVerifyMessage(MethodCall methodCall, int total, long timeoutMillis,
CallCount callCount) {
StringBuffer sb = new StringBuffer();
sb.append("\nExpected ").append(callCount);
if (timeoutMillis > 0) {
sb.append(" within " + timeoutMillis + "ms");
}
sb.append(" to:");
appendDebugStringForMethodCall(sb, methodCall.mMethod,
methodCall.mElement, mFieldName, false);
sb.append("\n\n");
if (mRecordedCalls.size() == 0) {
sb.append("No method calls happened on this mock");
} else {
sb.append("Method calls that did happen:");
for (MethodCall recordedCall : mRecordedCalls) {
appendDebugStringForMethodCall(sb, recordedCall.mMethod,
recordedCall.mElement, mFieldName, false);
}
}
sb.append("\n");
return sb.toString();
}
/** All matchers that are captures will store the corresponding arg value. */
// This suppress warning means that I'm calling setValue with something that I can't promise
// is of the right type. But I think it is unavoidable. Certainly I could give a better
// error message than the class cast exception you'll get when you try to retrieve the value.
@SuppressWarnings("unchecked")
private void setCaptures(ArgumentMatcher[] matchers, Object[] args) {
for (int i = 0; i < matchers.length; ++i) {
if (matchers[i] instanceof ArgumentCaptorImpl) {
ArgumentCaptorImpl.class.cast(matchers[i]).setValue(args[i]);
}
}
}
/** An empty array of matchers, to optimise the toArray() call below. */
private static final ArgumentMatcher[] EMPTY_MATCHERS_ARRAY = new ArgumentMatcher[0];
/** Makes sure that we have the right number of MATCH_ARGUMENTS for the given method. */
private ArgumentMatcher[] checkClearAndGetMatchers(Method method) {
ArgumentMatcher[] matchers = sMatchArguments.toArray(EMPTY_MATCHERS_ARRAY);
sMatchArguments.clear();
if (matchers.length > 0 && method.getParameterTypes().length != matchers.length) {
throw new IllegalArgumentException("You can't mix matchers and regular objects.");
}
return matchers;
}
}
private static void appendDebugStringForMethodCall(StringBuffer sb, Method method,
StackTraceElement callSite, String fieldName, boolean showReturnType) {
sb.append("\n ");
if (showReturnType) {
sb.append("(").append(method.getReturnType().getSimpleName()).append(") ");
}
sb.append(fieldName).append(".").append(method.getName()).append("(");
int i = 0;
for (Class<?> type : method.getParameterTypes()) {
if (++i > 1) {
sb.append(", ");
}
sb.append(type.getSimpleName());
}
sb.append(")\n at ").append(callSite);
}
/** Call this function when you don't expect there to be any outstanding matcher objects. */
private static void checkNoMatchers() {
if (sMatchArguments.size() > 0) {
sMatchArguments.clear();
throw new IllegalStateException("You have outstanding matchers, must be programming error");
}
}
/** A pairing of a method call and an action to be performed when that call happens. */
private static class StubbedCall {
private final MethodCall mMethodCall;
private final Action mAction;
public StubbedCall(MethodCall methodCall, Action action) {
mMethodCall = methodCall;
mAction = action;
}
@Override
public String toString() {
return "StubbedCall [methodCall=" + mMethodCall + ", action=" + mAction + "]";
}
}
/** Represents an action to be performed as a result of a method call. */
private interface Action {
public Object doAction(Method method, Object[] arguments) throws Throwable;
/** The type of the action, or null if we can't determine the type at stub time. */
public Class<?> getReturnType();
}
/** Represents something capable of testing if it matches an argument or not. */
public interface ArgumentMatcher {
public boolean matches(Object value);
}
/** A matcher that matches any argument. */
private static class MatchAnything implements ArgumentMatcher {
@Override
public boolean matches(Object value) { return true; }
}
/** Encapsulates the number of times a method is called, between upper and lower bounds. */
private static class CallCount {
private long mLowerBound;
private long mUpperBound;
public CallCount(long lowerBound, long upperBound) {
mLowerBound = lowerBound;
mUpperBound = upperBound;
}
/** Tells us if this call count matches a desired count. */
public boolean matches(long total) {
return total >= mLowerBound && total <= mUpperBound;
}
/** Tells us how long we should block waiting for the verify to happen. */
public long getTimeout() {
return 0;
}
public CallCount setLowerBound(long lowerBound) {
mLowerBound = lowerBound;
return this;
}
public CallCount setUpperBound(long upperBound) {
mUpperBound = upperBound;
return this;
}
@Override
public String toString() {
if (mLowerBound == mUpperBound) {
return "exactly " + mLowerBound + plural(" call", mLowerBound);
} else {
return "between " + mLowerBound + plural(" call", mLowerBound) + " and " +
mUpperBound + plural(" call", mUpperBound);
}
}
}
/** Encapsulates adding number of times behaviour to a call count with timeout. */
public static final class Timeout extends CallCount {
private long mTimeoutMillis;
public Timeout(long lowerBound, long upperBound, long timeoutMillis) {
super(lowerBound, upperBound);
mTimeoutMillis = timeoutMillis;
}
@Override
public long getTimeout() {
return mTimeoutMillis;
}
public CallCount times(int times) { return setLowerBound(times).setUpperBound(times); }
public CallCount atLeast(long n) { return setLowerBound(n).setUpperBound(Long.MAX_VALUE); }
public CallCount atLeastOnce() { return setLowerBound(1).setUpperBound(Long.MAX_VALUE); }
public CallCount between(long n, long m) { return setLowerBound(n).setUpperBound(m); }
}
/** Helper method to add an 's' to a string iff the count is not 1. */
private static String plural(String prefix, long count) {
return (count == 1) ? prefix : (prefix + "s");
}
/** Helps us implement the eq(), any() and capture() and other methods on one line. */
private static <T> T addMatcher(ArgumentMatcher argument, T value) {
sMatchArguments.add(argument);
return value;
}
/** A custom argument matcher, should be used only for object arguments not primitives. */
public static <T> T matches(ArgumentMatcher argument) {
sMatchArguments.add(argument);
return null;
}
/** Utility method to throw an AssertionError if an assertion fails. */
private static void expect(boolean result, String message) {
if (!result) {
fail(message);
}
}
/** Throws an AssertionError exception with a message. */
private static void fail(String message) {
throw new AssertionError(message);
}
/** Static mapping from class type to default value for that type. */
private static final Map<Class<?>, Object> DEFAULT_RETURN_VALUE_LOOKUP;
static {
DEFAULT_RETURN_VALUE_LOOKUP = new HashMap<Class<?>, Object>();
DEFAULT_RETURN_VALUE_LOOKUP.put(int.class, 0);
DEFAULT_RETURN_VALUE_LOOKUP.put(boolean.class, false);
DEFAULT_RETURN_VALUE_LOOKUP.put(byte.class, (byte) 0);
DEFAULT_RETURN_VALUE_LOOKUP.put(long.class, (long) 0);
DEFAULT_RETURN_VALUE_LOOKUP.put(short.class, (short) 0);
DEFAULT_RETURN_VALUE_LOOKUP.put(float.class, (float) 0);
DEFAULT_RETURN_VALUE_LOOKUP.put(double.class, (double) 0);
DEFAULT_RETURN_VALUE_LOOKUP.put(char.class, '\u0000');
DEFAULT_RETURN_VALUE_LOOKUP.put(String.class, null);
}
/** Static lookup from primitive types to their boxed versions. */
private static final Map<Class<?>, Class<?>> PRIMITIVE_TO_BOXED_LOOKUP;
static {
PRIMITIVE_TO_BOXED_LOOKUP = new HashMap<Class<?>, Class<?>>();
PRIMITIVE_TO_BOXED_LOOKUP.put(int.class, Integer.class);
PRIMITIVE_TO_BOXED_LOOKUP.put(boolean.class, Boolean.class);
PRIMITIVE_TO_BOXED_LOOKUP.put(byte.class, Byte.class);
PRIMITIVE_TO_BOXED_LOOKUP.put(long.class, Long.class);
PRIMITIVE_TO_BOXED_LOOKUP.put(short.class, Short.class);
PRIMITIVE_TO_BOXED_LOOKUP.put(float.class, Float.class);
PRIMITIVE_TO_BOXED_LOOKUP.put(double.class, Double.class);
PRIMITIVE_TO_BOXED_LOOKUP.put(char.class, Character.class);
}
/** For a given class type, returns the default value for that type. */
private static Object defaultReturnValue(Class<?> returnType) {
return DEFAULT_RETURN_VALUE_LOOKUP.get(returnType);
}
/** Gets a suitable class loader for use with the proxy. */
private static ClassLoader getClassLoader() {
return LittleMock.class.getClassLoader();
}
/** Sets a member field on an object via reflection (can set private members too). */
private static void setField(Field field, Object object, Object value) throws Exception {
field.setAccessible(true);
field.set(object, value);
field.setAccessible(false);
}
/** Helper method to throw an IllegalStateException if given condition is not met. */
private static void checkState(boolean condition, String message) {
if (!condition) {
throw new IllegalStateException(message);
}
}
/** Helper method to throw an IllegalStateException if given condition is not met. */
private static void checkState(boolean condition) {
if (!condition) {
throw new IllegalStateException();
}
}
/**
* If the input object is one of our mocks, returns the {@link DefaultInvocationHandler}
* we constructed it with. Otherwise fails with {@link IllegalArgumentException}.
*/
private static DefaultInvocationHandler getHandlerFrom(Object mock) {
try {
InvocationHandler invocationHandler = Proxy.getInvocationHandler(mock);
if (invocationHandler instanceof DefaultInvocationHandler) {
return (DefaultInvocationHandler) invocationHandler;
}
} catch (IllegalArgumentException expectedIfNotAProxy) {}
try {
Class<?> proxyBuilder = Class.forName("com.google.dexmaker.stock.ProxyBuilder");
Method getHandlerMethod = proxyBuilder.getMethod("getInvocationHandler", Object.class);
Object invocationHandler = getHandlerMethod.invoke(proxyBuilder, mock);
if (invocationHandler instanceof DefaultInvocationHandler) {
return (DefaultInvocationHandler) invocationHandler;
}
} catch (Exception expectedIfNotAProxyBuilderMock) {}
try {
// Try with javassist.
Class<?> proxyObjectClass = Class.forName("javassist.util.proxy.ProxyObject");
Method getHandlerMethod = proxyObjectClass.getMethod("getHandler");
Object methodHandler = getHandlerMethod.invoke(mock);
InvocationHandler invocationHandler = Proxy.getInvocationHandler(methodHandler);
Method getOriginalMethod = invocationHandler.getClass().getMethod("$$getOriginal");
Object original = getOriginalMethod.invoke(invocationHandler);
if (original instanceof DefaultInvocationHandler) {
return (DefaultInvocationHandler) original;
}
} catch (Exception expectedIfNotJavassistProxy) {}
throw new IllegalArgumentException("not a valid mock: " + mock);
}
private static boolean canUseJavassist() {
try {
Class.forName("javassist.util.proxy.ProxyFactory");
return true;
} catch (Exception expectedIfNotJavassistProxy) {
return false;
}
}
/** Create a dynamic proxy for the given class, delegating to the given invocation handler. */
private static Object createProxy(Class<?> clazz, final InvocationHandler handler) {
// Interfaces are simple. Just proxy them using java.lang.reflect.Proxy.
if (clazz.isInterface()) {
return Proxy.newProxyInstance(getClassLoader(), new Class<?>[] { clazz }, handler);
}
// Try with javassist.
if (canUseJavassist()) {
try {
Class<?> proxyFactoryClass = Class.forName("javassist.util.proxy.ProxyFactory");
Object proxyFactory = proxyFactoryClass.newInstance();
Method setSuperclassMethod = proxyFactoryClass.getMethod("setSuperclass", Class.class);
setSuperclassMethod.invoke(proxyFactory, clazz);
Class<?> methodFilterClass = Class.forName("javassist.util.proxy.MethodFilter");
InvocationHandler methodFilterHandler = new InvocationHandler() {
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
checkState(method.getName().equals("isHandled"));
checkState(args.length == 1);
checkState(args[0] instanceof Method);
Method invokedMethod = (Method) args[0];
String methodName = invokedMethod.getName();
Class<?>[] params = invokedMethod.getParameterTypes();
if ("equals".equals(methodName) && params.length == 1
&& Object.class.equals(params[0])) {
return false;
}
if ("hashCode".equals(methodName) && params.length == 0) {
return false;
}
if ("toString".equals(methodName) && params.length == 0) {
return false;
}
if ("finalize".equals(methodName) && params.length == 0) {
return false;
}
return true;
}
};
Object methodFilter = Proxy.newProxyInstance(getClassLoader(),
new Class<?>[] { methodFilterClass }, methodFilterHandler);
Method setFilterMethod = proxyFactoryClass.getMethod("setFilter", methodFilterClass);
setFilterMethod.invoke(proxyFactory, methodFilter);
Method createClassMethod = proxyFactoryClass.getMethod("createClass");
Class<?> createdClass = (Class<?>) createClassMethod.invoke(proxyFactory);
InvocationHandler methodHandlerHandler = new InvocationHandler() {
@SuppressWarnings("unused")
public InvocationHandler $$getOriginal() {
return handler;
}
@Override
public Object invoke(Object proxy, Method method, Object[] args) throws Throwable {
checkState(method.getName().equals("invoke"));
checkState(args.length == 4);
checkState(args[1] instanceof Method);
Method invokedMethod = (Method) args[1];
checkState(args[3] instanceof Object[]);
return handler.invoke(args[0], invokedMethod, (Object[]) args[3]);
}
};
Class<?> methodHandlerClass = Class.forName("javassist.util.proxy.MethodHandler");
Object methodHandler = Proxy.newProxyInstance(getClassLoader(),
new Class<?>[] { methodHandlerClass }, methodHandlerHandler);
Object proxy = unsafeCreateInstance(createdClass);
Class<?> proxyObjectClass = Class.forName("javassist.util.proxy.ProxyObject");
Method setHandlerMethod = proxyObjectClass.getMethod("setHandler", methodHandlerClass);
setHandlerMethod.invoke(proxy, methodHandler);
return proxy;
} catch (Exception e) {
// Not supported, something went wrong. Fall through, try android dexmaker.
e.printStackTrace(System.err);
}
}
// So, this is a class. First try using Android's ProxyBuilder from dexmaker.
try {
Class<?> proxyBuilder = Class.forName("com.google.dexmaker.stock.ProxyBuilder");
Method forClassMethod = proxyBuilder.getMethod("forClass", Class.class);
Object builder = forClassMethod.invoke(null, clazz);
Method dexCacheMethod = builder.getClass().getMethod("dexCache", File.class);
File directory = AppDataDirGuesser.getsInstance().guessSuitableDirectoryForGeneratedClasses();
builder = dexCacheMethod.invoke(builder, directory);
Method buildClassMethod = builder.getClass().getMethod("buildProxyClass");
Class<?> resultClass = (Class<?>) buildClassMethod.invoke(builder);
Object proxy = unsafeCreateInstance(resultClass);
Field handlerField = resultClass.getDeclaredField("$__handler");
handlerField.setAccessible(true);
handlerField.set(proxy, handler);
return proxy;
} catch (Exception e) {
throw new IllegalStateException("Could not mock this concrete class", e);
}
}
/** Attempt to construct an instance of the class using hacky methods to avoid calling super. */
@SuppressWarnings("unchecked")
private static <T> T unsafeCreateInstance(Class<T> clazz) {
// try jvm
try {
Class<?> unsafeClass = Class.forName("sun.misc.Unsafe");
Field f = unsafeClass.getDeclaredField("theUnsafe");
f.setAccessible(true);
final Object unsafe = f.get(null);
final Method allocateInstance = unsafeClass.getMethod("allocateInstance", Class.class);
return (T) allocateInstance.invoke(unsafe, clazz);
} catch (Exception ignored) {}
// try dalvikvm, pre-gingerbread
try {
final Method newInstance = ObjectInputStream.class.getDeclaredMethod(
"newInstance", Class.class, Class.class);
newInstance.setAccessible(true);
return (T) newInstance.invoke(null, clazz, Object.class);
} catch (Exception ignored) {}
// try dalvikvm, post-gingerbread
try {
Method getConstructorId = ObjectStreamClass.class.getDeclaredMethod(
"getConstructorId", Class.class);
getConstructorId.setAccessible(true);
final int constructorId = (Integer) getConstructorId.invoke(null, Object.class);
final Method newInstance = ObjectStreamClass.class.getDeclaredMethod(
"newInstance", Class.class, int.class);
newInstance.setAccessible(true);
return (T) newInstance.invoke(null, clazz, constructorId);
} catch (Exception ignored) {}
throw new IllegalStateException("unsafe create instance failed");
}
/** See {@link LittleMock#inOrder(Object[])}. */
public interface InOrder {
<T> T verify(T mock);
}
/**
* Used to verify that invocations happen in a given order.
* <p>
* Still slight experimental at the moment: you can only verify one method call at a time,
* and we ignore the mocks array you pass in as an argument, you may use the returned inorder
* to verify all mocks.
* <p>
* This implementation is simple: the InOrder you get from this call can be used to verify that
* a sequence of method calls happened in the order you specify. Every verify you make with
* this InOrder will be compared with every other verify you made, to make sure that all the
* original invocations happened in exactly that same order.
*/
public static InOrder inOrder(Object... mocks) {
return new InOrder() {
private final OrderChecker mChecker = new OrderChecker();
@Override
public <T> T verify(T mock) {
return LittleMock.verify(mock, times(1), mChecker);
}
};
}
}