mockit.internal.injection.InjectionState Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of jmockit Show documentation
Show all versions of jmockit Show documentation
JMockit is a Java toolkit for automated developer testing.
It contains APIs for the creation of the objects to be tested, for mocking dependencies, and for faking external
APIs; JUnit (4 & 5) and TestNG test runners are supported.
It also contains an advanced code coverage tool.
/*
* Copyright (c) 2006 Rogério Liesenfeld
* This file is subject to the terms of the MIT license (see LICENSE.txt).
*/
package mockit.internal.injection;
import java.lang.reflect.*;
import java.util.*;
import java.util.Map.*;
import java.util.concurrent.*;
import javax.annotation.*;
import javax.inject.*;
import javax.servlet.*;
import mockit.internal.expectations.mocking.*;
import mockit.internal.reflection.*;
import mockit.internal.state.*;
import static mockit.internal.injection.InjectionPoint.*;
import static mockit.internal.util.Utilities.getClassType;
/**
* Holds state used throughout the injection process while it's in progress for a given set of tested objects.
*/
public final class InjectionState
{
@Nonnull private static final Map globalDependencies =
new ConcurrentHashMap(2);
@Nonnull private final Map testedObjects;
@Nonnull private final Map instantiatedDependencies;
@Nonnull private List injectables;
@Nonnull private List consumedInjectionProviders;
@Nonnull public final LifecycleMethods lifecycleMethods;
@Nonnull final InterfaceResolution interfaceResolution;
@Nullable private BeanExporter beanExporter;
private Object currentTestClassInstance;
private Type typeOfInjectionPoint;
InjectionState()
{
testedObjects = new LinkedHashMap();
instantiatedDependencies = new LinkedHashMap();
injectables = Collections.emptyList();
consumedInjectionProviders = new ArrayList();
lifecycleMethods = new LifecycleMethods();
interfaceResolution = new InterfaceResolution();
}
boolean setInjectables(@Nonnull List injectables)
{
if (injectables.isEmpty()) {
this.injectables = Collections.emptyList();
return false;
}
this.injectables = new ArrayList(injectables);
return true;
}
void buildListOfInjectableFields(@Nonnull Object testClassInstance, @Nonnull List injectables)
{
currentTestClassInstance = testClassInstance;
setInjectables(injectables);
getServletConfigForInitMethodsIfAny(testClassInstance);
}
void buildListsOfInjectables(@Nonnull Object testClassInstance, @Nonnull List injectables)
{
currentTestClassInstance = testClassInstance;
setInjectables(injectables);
ParameterTypeRedefinitions paramTypeRedefs = TestRun.getExecutingTest().getParameterRedefinitions();
if (paramTypeRedefs != null) {
addInjectables(paramTypeRedefs);
}
getServletConfigForInitMethodsIfAny(testClassInstance);
}
private void addInjectables(@Nonnull ParameterTypeRedefinitions paramTypeRedefs)
{
List injectableParameters = paramTypeRedefs.getInjectableParameters();
if (!injectableParameters.isEmpty()) {
if (injectables.isEmpty()) {
injectables = new ArrayList(injectableParameters);
}
else {
injectables.addAll(injectableParameters);
}
}
}
private void getServletConfigForInitMethodsIfAny(@Nonnull Object testClassInstance)
{
if (SERVLET_CLASS != null) {
for (InjectionProvider injectable : injectables) {
if (injectable.getDeclaredType() == ServletConfig.class) {
lifecycleMethods.servletConfig = injectable.getValue(testClassInstance);
break;
}
}
}
}
void buildListsOfInjectables(@Nonnull Object testClassInstance, @Nonnull ParameterTypeRedefinitions paramTypeRedefs)
{
currentTestClassInstance = testClassInstance;
addInjectables(paramTypeRedefs);
getServletConfigForInitMethodsIfAny(testClassInstance);
}
Object getCurrentTestClassInstance() { return currentTestClassInstance; }
public void setTypeOfInjectionPoint(@Nonnull Type typeOfInjectionPoint)
{
this.typeOfInjectionPoint = typeOfInjectionPoint;
}
public boolean isAssignableToInjectionPoint(@Nonnull Type injectableType, @Nonnull TestedClass testedClass)
{
if (testedClass.reflection.areMatchingTypes(typeOfInjectionPoint, injectableType)) {
return true;
}
if (typeOfInjectionPoint instanceof ParameterizedType) {
ParameterizedType parameterizedType = (ParameterizedType) typeOfInjectionPoint;
Class> classOfInjectionPoint = (Class>) parameterizedType.getRawType();
if (
Iterable.class.isAssignableFrom(classOfInjectionPoint) ||
INJECT_CLASS != null && Provider.class.isAssignableFrom(classOfInjectionPoint)
) {
Type providedType = parameterizedType.getActualTypeArguments()[0];
if (providedType.equals(injectableType)) {
return true;
}
Class> injectableClass = getClassType(injectableType);
Class> providedClass = getClassType(providedType);
return providedClass.isAssignableFrom(injectableClass);
}
}
return false;
}
@Nullable
public MockedType findNextInjectableForInjectionPoint(@Nonnull TestedClass testedClass)
{
for (MockedType injectable : injectables) {
if (
hasTypeAssignableToInjectionPoint(injectable, testedClass) &&
!consumedInjectionProviders.contains(injectable)
) {
return injectable;
}
}
return null;
}
private boolean hasTypeAssignableToInjectionPoint(
@Nonnull InjectionProvider injectable, @Nonnull TestedClass testedClass)
{
Type declaredType = injectable.getDeclaredType();
return isAssignableToInjectionPoint(declaredType, testedClass);
}
@Nonnull
List findInjectablesByType(@Nonnull TestedClass testedClass)
{
List found = new ArrayList();
for (MockedType injectable : injectables) {
if (
hasTypeAssignableToInjectionPoint(injectable, testedClass) &&
!consumedInjectionProviders.contains(injectable)
) {
found.add(injectable);
}
}
return found;
}
@Nullable
public InjectionProvider getProviderByTypeAndOptionallyName(
@Nonnull String nameOfInjectionPoint, @Nonnull TestedClass testedClass)
{
Type elementTypeOfIterable = getElementTypeIfIterable(typeOfInjectionPoint);
if (elementTypeOfIterable != null) {
return findInjectablesByTypeOnly(elementTypeOfIterable, testedClass);
}
return findInjectableByTypeAndOptionallyName(nameOfInjectionPoint, testedClass);
}
@Nullable
private static Type getElementTypeIfIterable(@Nonnull Type injectableType)
{
if (injectableType instanceof ParameterizedType) {
ParameterizedType parameterizedType = (ParameterizedType) injectableType;
Class> classOfInjectionPoint = (Class>) parameterizedType.getRawType();
if (Iterable.class.isAssignableFrom(classOfInjectionPoint)) {
return parameterizedType.getActualTypeArguments()[0];
}
}
return null;
}
@Nullable
private InjectionProvider findInjectablesByTypeOnly(@Nonnull Type elementType, @Nonnull TestedClass testedClass)
{
GenericTypeReflection typeReflection = testedClass.reflection;
MultiValuedProvider found = null;
for (MockedType injectable : injectables) {
Type injectableType = injectable.getDeclaredType();
Type elementTypeOfIterable = getElementTypeIfIterable(injectableType);
if (elementTypeOfIterable != null && typeReflection.areMatchingTypes(elementType, elementTypeOfIterable)) {
return injectable;
}
if (isAssignableToInjectionPoint(injectableType, testedClass)) {
if (found == null) {
found = new MultiValuedProvider(elementType);
}
found.addInjectable(injectable);
}
}
return found;
}
@Nullable
private InjectionProvider findInjectableByTypeAndOptionallyName(
@Nonnull String nameOfInjectionPoint, @Nonnull TestedClass testedClass)
{
MockedType foundInjectable = null;
for (MockedType injectable : injectables) {
if (hasTypeAssignableToInjectionPoint(injectable, testedClass)) {
if (nameOfInjectionPoint.equals(injectable.getName())) {
return injectable;
}
if (foundInjectable == null) {
foundInjectable = injectable;
}
}
}
return foundInjectable;
}
@Nullable
public MockedType findInjectableByTypeAndName(@Nonnull String nameOfInjectionPoint, @Nonnull TestedClass testedClass)
{
for (MockedType injectable : injectables) {
if (
hasTypeAssignableToInjectionPoint(injectable, testedClass) &&
nameOfInjectionPoint.equals(injectable.getName())
) {
return injectable;
}
}
return null;
}
@Nullable
public Object getValueToInject(@Nonnull InjectionProvider injectionProvider)
{
if (consumedInjectionProviders.contains(injectionProvider)) {
return null;
}
Object value = injectionProvider.getValue(currentTestClassInstance);
if (value != null) {
consumedInjectionProviders.add(injectionProvider);
}
return value;
}
void resetConsumedInjectionProviders() { consumedInjectionProviders.clear(); }
@Nonnull
public List saveConsumedInjectionProviders()
{
List previouslyConsumed = consumedInjectionProviders;
consumedInjectionProviders = new ArrayList();
return previouslyConsumed;
}
public void restoreConsumedInjectionProviders(@Nonnull List previouslyConsumed)
{
consumedInjectionProviders = previouslyConsumed;
}
void saveTestedObject(@Nonnull InjectionPoint key, @Nonnull Object testedObject)
{
testedObjects.put(key, testedObject);
}
@Nullable
Object getTestedInstance(@Nonnull Type testedType, @Nonnull String nameOfInjectionPoint)
{
Object testedInstance = instantiatedDependencies.isEmpty() ?
null : findPreviouslyInstantiatedDependency(testedType, nameOfInjectionPoint);
if (testedInstance == null) {
testedInstance = testedObjects.isEmpty() ?
null : getValueFromExistingTestedObject(testedType, nameOfInjectionPoint);
}
return testedInstance;
}
@Nullable
private Object findPreviouslyInstantiatedDependency(@Nonnull Type testedType, @Nonnull String nameOfInjectionPoint)
{
InjectionPoint injectionPoint = new InjectionPoint(testedType, nameOfInjectionPoint);
Object dependency = instantiatedDependencies.get(injectionPoint);
if (dependency == null) {
injectionPoint = new InjectionPoint(testedType);
dependency = instantiatedDependencies.get(injectionPoint);
if (dependency == null) {
dependency = findMatchingObject(instantiatedDependencies, null, injectionPoint);
}
}
return dependency;
}
@Nullable
private Object getValueFromExistingTestedObject(@Nonnull Type testedType, @Nonnull String nameOfInjectionPoint)
{
InjectionPoint injectionPoint = new InjectionPoint(testedType, nameOfInjectionPoint);
for (Object testedObject : testedObjects.values()) {
Object fieldValue = getValueFromFieldOfEquivalentTypeAndName(injectionPoint, testedObject);
if (fieldValue != null) {
return fieldValue;
}
}
return null;
}
@Nullable
private static Object getValueFromFieldOfEquivalentTypeAndName(
@Nonnull InjectionPoint injectionPoint, @Nonnull Object testedObject)
{
for (Field internalField : testedObject.getClass().getDeclaredFields()) {
Type fieldType = internalField.getGenericType();
String qualifiedName = getQualifiedName(internalField.getDeclaredAnnotations());
boolean qualified = qualifiedName != null;
String fieldName = qualified ? qualifiedName : internalField.getName();
InjectionPoint internalInjectionPoint = new InjectionPoint(fieldType, fieldName, qualified);
if (internalInjectionPoint.equals(injectionPoint)) {
Object fieldValue = FieldReflection.getFieldValue(internalField, testedObject);
return fieldValue;
}
}
return null;
}
@Nullable @SuppressWarnings("unchecked")
public static D getGlobalDependency(@Nonnull InjectionPoint key) { return (D) globalDependencies.get(key); }
@Nullable
public Object getTestedValue(@Nonnull TestedClass testedClass, @Nonnull InjectionPoint injectionPoint)
{
Object testedValue = testedObjects.get(injectionPoint);
if (testedValue == null) {
testedValue = findMatchingObject(testedObjects, testedClass, injectionPoint);
}
return testedValue;
}
@Nullable
public Object getInstantiatedDependency(@Nullable TestedClass testedClass, @Nonnull InjectionPoint dependencyKey)
{
Object dependency = testedObjects.get(dependencyKey);
if (dependency == null) {
dependency = findMatchingObject(testedObjects, testedClass, dependencyKey);
if (dependency == null) {
dependency = instantiatedDependencies.get(dependencyKey);
if (dependency == null) {
dependency = findMatchingObject(instantiatedDependencies, testedClass, dependencyKey);
if (dependency == null) {
dependency = findMatchingObject(globalDependencies, testedClass, dependencyKey);
}
}
}
}
return dependency;
}
@Nullable
private static Object findMatchingObject(
@Nonnull Map availableObjects, @Nullable TestedClass testedClass,
@Nonnull InjectionPoint injectionPoint)
{
if (availableObjects.isEmpty()) {
return null;
}
GenericTypeReflection reflection = testedClass == null ? null : testedClass.reflection;
Type dependencyType = injectionPoint.type;
Object found = null;
for (Entry injectionPointAndObject : availableObjects.entrySet()) {
InjectionPoint dependencyIP = injectionPointAndObject.getKey();
Object dependencyObject = injectionPointAndObject.getValue();
if (injectionPoint.equals(dependencyIP)) {
return dependencyObject;
}
if (reflection != null) {
if (reflection.areMatchingTypes(dependencyType, dependencyIP.type)) {
found = dependencyObject;
}
else {
continue;
}
}
if (injectionPoint.hasSameName(dependencyIP)) {
return dependencyObject;
}
}
return injectionPoint.qualified ? null : found;
}
public void saveInstantiatedDependency(@Nonnull InjectionPoint dependencyKey, @Nonnull Object dependency)
{
instantiatedDependencies.put(dependencyKey, dependency);
}
public static void saveGlobalDependency(@Nonnull InjectionPoint dependencyKey, @Nonnull Object dependency)
{
globalDependencies.put(dependencyKey, dependency);
}
void clearTestedObjectsAndInstantiatedDependencies()
{
testedObjects.clear();
instantiatedDependencies.clear();
}
@Nonnull
BeanExporter getBeanExporter()
{
if (beanExporter == null) {
beanExporter = new BeanExporter(this);
}
return beanExporter;
}
@Nullable
public Class> resolveInterface(@Nonnull Class> anInterface)
{
return interfaceResolution.resolveInterface(anInterface, currentTestClassInstance);
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy