/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You 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. */ /* * Copyright (C) 2006-2007 The Android Open Source Project * * 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 java.lang; import dalvik.system.VMStack; import java.io.InputStream; import java.io.Serializable; import java.lang.annotation.Annotation; import java.lang.annotation.Inherited; import java.lang.reflect.AnnotatedElement; import java.lang.reflect.Constructor; import java.lang.reflect.Field; import java.lang.reflect.GenericDeclaration; import java.lang.reflect.Member; import java.lang.reflect.Method; import java.lang.reflect.Modifier; import java.lang.reflect.Type; import java.lang.reflect.TypeVariable; import java.net.URL; import java.security.ProtectionDomain; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.HashMap; import java.util.List; import libcore.util.CollectionUtils; import libcore.util.EmptyArray; import org.apache.harmony.kernel.vm.StringUtils; import org.apache.harmony.luni.lang.reflect.GenericSignatureParser; import org.apache.harmony.luni.lang.reflect.Types; /** * The in-memory representation of a Java class. This representation serves as * the starting point for querying class-related information, a process usually * called "reflection". There are basically three types of {@code Class} * instances: those representing real classes and interfaces, those representing * primitive types, and those representing array classes. * *

Class instances representing object types (classes or interfaces)

*

* These represent an ordinary class or interface as found in the class * hierarchy. The name associated with these {@code Class} instances is simply * the fully qualified class name of the class or interface that it represents. * In addition to this human-readable name, each class is also associated by a * so-called signature, which is the letter "L", followed by the * class name and a semicolon (";"). The signature is what the runtime system * uses internally for identifying the class (for example in a DEX file). *

*

Classes representing primitive types

*

* These represent the standard Java primitive types and hence share their * names (for example "int" for the {@code int} primitive type). Although it is * not possible to create new instances based on these {@code Class} instances, * they are still useful for providing reflection information, and as the * component type of array classes. There is one {@code Class} instance for each * primitive type, and their signatures are: *

* *

*

Classes representing array classes

*

* These represent the classes of Java arrays. There is one such {@code Class} * instance per combination of array leaf component type and arity (number of * dimensions). In this case, the name associated with the {@code Class} * consists of one or more left square brackets (one per dimension in the array) * followed by the signature of the class representing the leaf component type, * which can be either an object type or a primitive type. The signature of a * {@code Class} representing an array type is the same as its name. Examples * of array class signatures are: *

* */ public final class Class implements Serializable, AnnotatedElement, GenericDeclaration, Type { private static final long serialVersionUID = 3206093459760846163L; /** * Lazily computed name of this class; always prefer calling getName(). */ private transient String name; private Class() { // Prevent this class to be instantiated, instance // should be created by JVM only } /** * Get the Signature attribute for this class. Returns null if not found. */ private String getSignatureAttribute() { Object[] annotation = getSignatureAnnotation(); if (annotation == null) { return null; } return StringUtils.combineStrings(annotation); } /** * Get the Signature annotation for this class. Returns null if not found. */ native private Object[] getSignatureAnnotation(); /** * Returns a {@code Class} object which represents the class with the * specified name. The name should be the name of a class as described in * the {@link Class class definition}; however, {@code Class}es representing * primitive types can not be found using this method. *

* If the class has not been loaded so far, it is being loaded and linked * first. This is done through either the class loader of the calling class * or one of its parent class loaders. The class is also being initialized, * which means that a possible static initializer block is executed. * * @param className * the name of the non-primitive-type class to find. * @return the named {@code Class} instance. * @throws ClassNotFoundException * if the requested class can not be found. * @throws LinkageError * if an error occurs during linkage * @throws ExceptionInInitializerError * if an exception occurs during static initialization of a * class. */ public static Class forName(String className) throws ClassNotFoundException { return forName(className, true, VMStack.getCallingClassLoader()); } /** * Returns a {@code Class} object which represents the class with the * specified name. The name should be the name of a class as described in * the {@link Class class definition}, however {@code Class}es representing * primitive types can not be found using this method. Security rules will * be obeyed. *

* If the class has not been loaded so far, it is being loaded and linked * first. This is done through either the specified class loader or one of * its parent class loaders. The caller can also request the class to be * initialized, which means that a possible static initializer block is * executed. * * @param className * the name of the non-primitive-type class to find. * @param initializeBoolean * indicates whether the class should be initialized. * @param classLoader * the class loader to use to load the class. * @return the named {@code Class} instance. * @throws ClassNotFoundException * if the requested class can not be found. * @throws LinkageError * if an error occurs during linkage * @throws ExceptionInInitializerError * if an exception occurs during static initialization of a * class. */ public static Class forName(String className, boolean initializeBoolean, ClassLoader classLoader) throws ClassNotFoundException { if (classLoader == null) { classLoader = ClassLoader.getSystemClassLoader(); } // Catch an Exception thrown by the underlying native code. It wraps // up everything inside a ClassNotFoundException, even if e.g. an // Error occurred during initialization. This as a workaround for // an ExceptionInInitilaizerError that's also wrapped. It is actually // expected to be thrown. Maybe the same goes for other errors. // Not wrapping up all the errors will break android though. Class result; try { result = classForName(className, initializeBoolean, classLoader); } catch (ClassNotFoundException e) { Throwable cause = e.getCause(); if (cause instanceof ExceptionInInitializerError) { throw (ExceptionInInitializerError) cause; } throw e; } return result; } /* * Returns a class by name without any security checks. * * @param className The name of the non-primitive type class to find * @param initializeBoolean A boolean indicating whether the class should be * initialized * @param classLoader The class loader to use to load the class * @return the named class. * @throws ClassNotFoundException If the class could not be found */ static native Class classForName(String className, boolean initializeBoolean, ClassLoader classLoader) throws ClassNotFoundException; /** * Returns an array containing {@code Class} objects for all public classes * and interfaces that are members of this class. This includes public * members inherited from super classes and interfaces. If there are no such * class members or if this object represents a primitive type then an array * of length 0 is returned. * * @return the public class members of the class represented by this object. */ public Class[] getClasses() { return getFullListOfClasses(true); } @Override public A getAnnotation(Class annotationType) { if (annotationType == null) { throw new NullPointerException("annotationType == null"); } A annotation = getDeclaredAnnotation(annotationType); if (annotation != null) { return annotation; } if (annotationType.isAnnotationPresent(Inherited.class)) { for (Class sup = getSuperclass(); sup != null; sup = sup.getSuperclass()) { annotation = sup.getDeclaredAnnotation(annotationType); if (annotation != null) { return annotation; } } } return null; } /** * Returns all the annotations of this class. If there are no annotations * then an empty array is returned. * * @return a copy of the array containing this class' annotations. * @see #getDeclaredAnnotations() */ public Annotation[] getAnnotations() { /* * We need to get the annotations declared on this class, plus the * annotations from superclasses that have the "@Inherited" annotation * set. We create a temporary map to use while we accumulate the * annotations and convert it to an array at the end. * * It's possible to have duplicates when annotations are inherited. * We use a Map to filter those out. * * HashMap might be overkill here. */ HashMap map = new HashMap(); Annotation[] declaredAnnotations = getDeclaredAnnotations(); for (int i = declaredAnnotations.length-1; i >= 0; --i) { map.put(declaredAnnotations[i].annotationType(), declaredAnnotations[i]); } for (Class sup = getSuperclass(); sup != null; sup = sup.getSuperclass()) { declaredAnnotations = sup.getDeclaredAnnotations(); for (int i = declaredAnnotations.length-1; i >= 0; --i) { Class clazz = declaredAnnotations[i].annotationType(); if (!map.containsKey(clazz) && clazz.isAnnotationPresent(Inherited.class)) { map.put(clazz, declaredAnnotations[i]); } } } /* convert annotation values from HashMap to array */ Collection coll = map.values(); return coll.toArray(new Annotation[coll.size()]); } /** * Returns the canonical name of this class. If this class does not have a * canonical name as defined in the Java Language Specification, then the * method returns {@code null}. * * @return this class' canonical name, or {@code null} if it does not have a * canonical name. */ public String getCanonicalName() { if (isLocalClass() || isAnonymousClass()) return null; if (isArray()) { /* * The canonical name of an array type depends on the (existence of) * the component type's canonical name. */ String name = getComponentType().getCanonicalName(); if (name != null) { return name + "[]"; } } else if (isMemberClass()) { /* * The canonical name of an inner class depends on the (existence * of) the declaring class' canonical name. */ String name = getDeclaringClass().getCanonicalName(); if (name != null) { return name + "." + getSimpleName(); } } else { /* * The canonical name of a top-level class or primitive type is * equal to the fully qualified name. */ return getName(); } /* * Other classes don't have a canonical name. */ return null; } /** * Returns the class loader which was used to load the class represented by * this {@code Class}. Implementations are free to return {@code null} for * classes that were loaded by the bootstrap class loader. The Android * reference implementation, though, returns a reference to an actual * representation of the bootstrap class loader. * * @return the class loader for the represented class. * @see ClassLoader */ public ClassLoader getClassLoader() { if (this.isPrimitive()) { return null; } ClassLoader loader = getClassLoaderImpl(); if (loader == null) { loader = BootClassLoader.getInstance(); } return loader; } /** * This must be provided by the VM vendor, as it is used by other provided * class implementations in this package. Outside of this class, it is used * by SecurityManager.classLoaderDepth(), * currentClassLoader() and currentLoadedClass(). Return the ClassLoader for * this Class without doing any security checks. The bootstrap ClassLoader * is returned, unlike getClassLoader() which returns null in place of the * bootstrap ClassLoader. * * @return the ClassLoader */ ClassLoader getClassLoaderImpl() { ClassLoader loader = getClassLoader(this); return loader == null ? BootClassLoader.getInstance() : loader; } /* * Returns the defining class loader for the given class. * * @param clazz the class the class loader of which we want * @return the class loader */ private static native ClassLoader getClassLoader(Class clazz); /** * Returns a {@code Class} object which represents the component type if * this class represents an array type. Returns {@code null} if this class * does not represent an array type. The component type of an array type is * the type of the elements of the array. * * @return the component type of this class. */ public native Class getComponentType(); /** * Returns a {@code Constructor} object which represents the public * constructor matching the specified parameter types. * * @param parameterTypes * the parameter types of the requested constructor. * {@code (Class[]) null} is equivalent to the empty array. * @return the constructor described by {@code parameterTypes}. * @throws NoSuchMethodException * if the constructor can not be found. * @see #getDeclaredConstructor(Class[]) */ @SuppressWarnings("unchecked") public Constructor getConstructor(Class... parameterTypes) throws NoSuchMethodException { return (Constructor) getConstructorOrMethod("", false, true, parameterTypes); } /** * Returns a constructor or method with the specified name. * * @param name the method name, or "" to return a constructor. * @param recursive true to search supertypes. */ private Member getConstructorOrMethod(String name, boolean recursive, boolean publicOnly, Class[] parameterTypes) throws NoSuchMethodException { if (recursive && !publicOnly) { throw new AssertionError(); // can't lookup non-public members recursively } if (name == null) { throw new NullPointerException("name == null"); } if (parameterTypes == null) { parameterTypes = EmptyArray.CLASS; } for (Class c : parameterTypes) { if (c == null) { throw new NoSuchMethodException("parameter type is null"); } } Member result = recursive ? getPublicConstructorOrMethodRecursive(name, parameterTypes) : Class.getDeclaredConstructorOrMethod(this, name, parameterTypes); if (result == null || publicOnly && (result.getModifiers() & Modifier.PUBLIC) == 0) { throw new NoSuchMethodException(name + " " + Arrays.toString(parameterTypes)); } return result; } private Member getPublicConstructorOrMethodRecursive(String name, Class[] parameterTypes) { // search superclasses for (Class c = this; c != null; c = c.getSuperclass()) { Member result = Class.getDeclaredConstructorOrMethod(c, name, parameterTypes); if (result != null && (result.getModifiers() & Modifier.PUBLIC) != 0) { return result; } } // search implemented interfaces for (Class c = this; c != null; c = c.getSuperclass()) { for (Class ifc : c.getInterfaces()) { Member result = ifc.getPublicConstructorOrMethodRecursive(name, parameterTypes); if (result != null && (result.getModifiers() & Modifier.PUBLIC) != 0) { return result; } } } return null; } /** * Returns an array containing {@code Constructor} objects for all public * constructors for the class represented by this {@code Class}. If there * are no public constructors or if this {@code Class} represents an array * class, a primitive type or void then an empty array is returned. * * @return an array with the public constructors of the class represented by * this {@code Class}. * @see #getDeclaredConstructors() */ public Constructor[] getConstructors() { return getDeclaredConstructors(this, true); } /** * Returns the annotations that are directly defined on the class * represented by this {@code Class}. Annotations that are inherited are not * included in the result. If there are no annotations at all, an empty * array is returned. * * @return a copy of the array containing the annotations defined for the * class that this {@code Class} represents. * @see #getAnnotations() */ native public Annotation[] getDeclaredAnnotations(); /** * Returns the annotation if it exists. */ native private A getDeclaredAnnotation(Class annotationClass); /** * Returns true if the annotation exists. */ native private boolean isDeclaredAnnotationPresent(Class annotationClass); /** * Returns an array containing {@code Class} objects for all classes and * interfaces that are declared as members of the class which this {@code * Class} represents. If there are no classes or interfaces declared or if * this class represents an array class, a primitive type or void, then an * empty array is returned. * * @return an array with {@code Class} objects for all the classes and * interfaces that are used in member declarations. */ public Class[] getDeclaredClasses() { return getDeclaredClasses(this, false); } /* * Returns the list of member classes without performing any security checks * first. This includes the member classes inherited from superclasses. If no * member classes exist at all, an empty array is returned. * * @param publicOnly reflects whether we want only public members or all of them * @return the list of classes */ private Class[] getFullListOfClasses(boolean publicOnly) { Class[] result = getDeclaredClasses(this, publicOnly); // Traverse all superclasses Class clazz = this.getSuperclass(); while (clazz != null) { Class[] temp = getDeclaredClasses(clazz, publicOnly); if (temp.length != 0) { result = arraycopy(new Class[result.length + temp.length], result, temp); } clazz = clazz.getSuperclass(); } return result; } /* * Returns the list of member classes of the given class. No security checks * are performed. If no members exist, an empty array is returned. * * @param clazz the class the members of which we want * @param publicOnly reflects whether we want only public member or all of them * @return the class' class members */ private static native Class[] getDeclaredClasses(Class clazz, boolean publicOnly); /** * Returns a {@code Constructor} object which represents the constructor * matching the specified parameter types that is declared by the class * represented by this {@code Class}. * * @param parameterTypes * the parameter types of the requested constructor. * {@code (Class[]) null} is equivalent to the empty array. * @return the constructor described by {@code parameterTypes}. * @throws NoSuchMethodException * if the requested constructor can not be found. * @see #getConstructor(Class[]) */ @SuppressWarnings("unchecked") public Constructor getDeclaredConstructor(Class... parameterTypes) throws NoSuchMethodException { return (Constructor) getConstructorOrMethod("", false, false, parameterTypes); } /** * Returns an array containing {@code Constructor} objects for all * constructors declared in the class represented by this {@code Class}. If * there are no constructors or if this {@code Class} represents an array * class, a primitive type or void then an empty array is returned. * * @return an array with the constructors declared in the class represented * by this {@code Class}. * @see #getConstructors() */ public Constructor[] getDeclaredConstructors() { return getDeclaredConstructors(this, false); } /* * Returns the list of constructors without performing any security checks * first. If no constructors exist, an empty array is returned. * * @param clazz the class of interest * @param publicOnly reflects whether we want only public constructors or all of them * @return the list of constructors */ private static native Constructor[] getDeclaredConstructors( Class clazz, boolean publicOnly); /** * Returns a {@code Field} object for the field with the specified name * which is declared in the class represented by this {@code Class}. * * @param name the name of the requested field. * @return the requested field in the class represented by this class. * @throws NoSuchFieldException if the requested field can not be found. * @see #getField(String) */ public Field getDeclaredField(String name) throws NoSuchFieldException { if (name == null) { throw new NullPointerException("name == null"); } Field result = getDeclaredField(this, name); if (result == null) { throw new NoSuchFieldException(name); } return result; } /** * Returns an array containing {@code Field} objects for all fields declared * in the class represented by this {@code Class}. If there are no fields or * if this {@code Class} represents an array class, a primitive type or void * then an empty array is returned. * * @return an array with the fields declared in the class represented by * this class. * @see #getFields() */ public Field[] getDeclaredFields() { return getDeclaredFields(this, false); } /* * Returns the list of fields without performing any security checks * first. If no fields exist at all, an empty array is returned. * * @param clazz the class of interest * @param publicOnly reflects whether we want only public fields or all of them * @return the list of fields */ static native Field[] getDeclaredFields(Class clazz, boolean publicOnly); /** * Returns the field if it is defined by {@code clazz}; null otherwise. This * may return a non-public member. */ static native Field getDeclaredField(Class clazz, String name); /** * Returns a {@code Method} object which represents the method matching the * specified name and parameter types that is declared by the class * represented by this {@code Class}. * * @param name * the requested method's name. * @param parameterTypes * the parameter types of the requested method. * {@code (Class[]) null} is equivalent to the empty array. * @return the method described by {@code name} and {@code parameterTypes}. * @throws NoSuchMethodException * if the requested constructor can not be found. * @throws NullPointerException * if {@code name} is {@code null}. * @see #getMethod(String, Class[]) */ public Method getDeclaredMethod(String name, Class... parameterTypes) throws NoSuchMethodException { Member member = getConstructorOrMethod(name, false, false, parameterTypes); if (member instanceof Constructor) { throw new NoSuchMethodException(name); } return (Method) member; } /** * Returns an array containing {@code Method} objects for all methods * declared in the class represented by this {@code Class}. If there are no * methods or if this {@code Class} represents an array class, a primitive * type or void then an empty array is returned. * * @return an array with the methods declared in the class represented by * this {@code Class}. * @see #getMethods() */ public Method[] getDeclaredMethods() { return getDeclaredMethods(this, false); } /** * Returns the list of methods without performing any security checks * first. If no methods exist, an empty array is returned. */ static native Method[] getDeclaredMethods(Class clazz, boolean publicOnly); /** * Returns the constructor or method if it is defined by {@code clazz}; null * otherwise. This may return a non-public member. * * @param name the method name, or "" to get a constructor. */ static native Member getDeclaredConstructorOrMethod(Class clazz, String name, Class[] args); /** * Returns the declaring {@code Class} of this {@code Class}. Returns * {@code null} if the class is not a member of another class or if this * {@code Class} represents an array class, a primitive type or void. * * @return the declaring {@code Class} or {@code null}. */ native public Class getDeclaringClass(); /** * Returns the enclosing {@code Class} of this {@code Class}. If there is no * enclosing class the method returns {@code null}. * * @return the enclosing {@code Class} or {@code null}. */ native public Class getEnclosingClass(); /** * Gets the enclosing {@code Constructor} of this {@code Class}, if it is an * anonymous or local/automatic class; otherwise {@code null}. * * @return the enclosing {@code Constructor} instance or {@code null}. */ native public Constructor getEnclosingConstructor(); /** * Gets the enclosing {@code Method} of this {@code Class}, if it is an * anonymous or local/automatic class; otherwise {@code null}. * * @return the enclosing {@code Method} instance or {@code null}. */ native public Method getEnclosingMethod(); /** * Gets the {@code enum} constants associated with this {@code Class}. * Returns {@code null} if this {@code Class} does not represent an {@code * enum} type. * * @return an array with the {@code enum} constants or {@code null}. */ @SuppressWarnings("unchecked") // we only cast after confirming that this class is an enum public T[] getEnumConstants() { if (!isEnum()) { return null; } return (T[]) Enum.getSharedConstants((Class) this).clone(); } /** * Returns a {@code Field} object which represents the public field with the * specified name. This method first searches the class C represented by * this {@code Class}, then the interfaces implemented by C and finally the * superclasses of C. * * @param name * the name of the requested field. * @return the public field specified by {@code name}. * @throws NoSuchFieldException * if the field can not be found. * @see #getDeclaredField(String) */ public Field getField(String name) throws NoSuchFieldException { if (name == null) { throw new NullPointerException("name == null"); } Field result = getPublicFieldRecursive(name); if (result == null) { throw new NoSuchFieldException(name); } return result; } private Field getPublicFieldRecursive(String name) { // search superclasses for (Class c = this; c != null; c = c.getSuperclass()) { Field result = Class.getDeclaredField(c, name); if (result != null && (result.getModifiers() & Modifier.PUBLIC) != 0) { return result; } } // search implemented interfaces for (Class c = this; c != null; c = c.getSuperclass()) { for (Class ifc : c.getInterfaces()) { Field result = ifc.getPublicFieldRecursive(name); if (result != null && (result.getModifiers() & Modifier.PUBLIC) != 0) { return result; } } } return null; } /** * Returns an array containing {@code Field} objects for all public fields * for the class C represented by this {@code Class}. Fields may be declared * in C, the interfaces it implements or in the superclasses of C. The * elements in the returned array are in no particular order. * *

If there are no public fields or if this class represents an array class, * a primitive type or {@code void} then an empty array is returned. * * @return an array with the public fields of the class represented by this * {@code Class}. * @see #getDeclaredFields() */ public Field[] getFields() { List fields = new ArrayList(); getPublicFieldsRecursive(fields); /* * The result may include duplicates when clazz implements an interface * through multiple paths. Remove those duplicates. */ CollectionUtils.removeDuplicates(fields, Field.ORDER_BY_NAME_AND_DECLARING_CLASS); return fields.toArray(new Field[fields.size()]); } /** * Populates {@code result} with public fields defined by this class, its * superclasses, and all implemented interfaces. */ private void getPublicFieldsRecursive(List result) { // search superclasses for (Class c = this; c != null; c = c.getSuperclass()) { for (Field field : Class.getDeclaredFields(c, true)) { result.add(field); } } // search implemented interfaces for (Class c = this; c != null; c = c.getSuperclass()) { for (Class ifc : c.getInterfaces()) { ifc.getPublicFieldsRecursive(result); } } } /** * Gets the {@link Type}s of the interfaces that this {@code Class} directly * implements. If the {@code Class} represents a primitive type or {@code * void} then an empty array is returned. * * @return an array of {@link Type} instances directly implemented by the * class represented by this {@code class}. */ public Type[] getGenericInterfaces() { GenericSignatureParser parser = new GenericSignatureParser(getClassLoader()); parser.parseForClass(this, getSignatureAttribute()); return Types.getClonedTypeArray(parser.interfaceTypes); } /** * Gets the {@code Type} that represents the superclass of this {@code * class}. * * @return an instance of {@code Type} representing the superclass. */ public Type getGenericSuperclass() { GenericSignatureParser parser = new GenericSignatureParser(getClassLoader()); parser.parseForClass(this, getSignatureAttribute()); return Types.getType(parser.superclassType); } /** * Returns an array of {@code Class} objects that match the interfaces * specified in the {@code implements} declaration of the class represented * by this {@code Class}. The order of the elements in the array is * identical to the order in the original class declaration. If the class * does not implement any interfaces, an empty array is returned. * * @return an array with the interfaces of the class represented by this * class. */ public native Class[] getInterfaces(); /** * Returns a {@code Method} object which represents the public method with * the specified name and parameter types. This method first searches the * class C represented by this {@code Class}, then the superclasses of C and * finally the interfaces implemented by C and finally the superclasses of C * for a method with matching name. * * @param name * the requested method's name. * @param parameterTypes * the parameter types of the requested method. * {@code (Class[]) null} is equivalent to the empty array. * @return the public field specified by {@code name}. * @throws NoSuchMethodException * if the method can not be found. * @see #getDeclaredMethod(String, Class[]) */ public Method getMethod(String name, Class... parameterTypes) throws NoSuchMethodException { Member member = getConstructorOrMethod(name, true, true, parameterTypes); if (member instanceof Constructor) { throw new NoSuchMethodException(name); } return (Method) member; } /** * Returns an array containing {@code Method} objects for all public methods * for the class C represented by this {@code Class}. Methods may be * declared in C, the interfaces it implements or in the superclasses of C. * The elements in the returned array are in no particular order. *

* If there are no public methods or if this {@code Class} represents a * primitive type or {@code void} then an empty array is returned. *

* * @return an array with the methods of the class represented by this * {@code Class}. * @see #getDeclaredMethods() */ public Method[] getMethods() { List methods = new ArrayList(); getPublicMethodsRecursive(methods); /* * Remove methods defined by multiple types, preferring to keep methods * declared by derived types. */ CollectionUtils.removeDuplicates(methods, Method.ORDER_BY_SIGNATURE); return methods.toArray(new Method[methods.size()]); } /** * Populates {@code result} with public methods defined by {@code clazz}, its * superclasses, and all implemented interfaces, including overridden methods. */ private void getPublicMethodsRecursive(List result) { // search superclasses for (Class c = this; c != null; c = c.getSuperclass()) { for (Method method : Class.getDeclaredMethods(c, true)) { result.add(method); } } // search implemented interfaces for (Class c = this; c != null; c = c.getSuperclass()) { for (Class ifc : c.getInterfaces()) { ifc.getPublicMethodsRecursive(result); } } } /** * Returns an integer that represents the modifiers of the class represented * by this {@code Class}. The returned value is a combination of bits * defined by constants in the {@link Modifier} class. * * @return the modifiers of the class represented by this {@code Class}. */ public int getModifiers() { return getModifiers(this, false); } /* * Return the modifiers for the given class. * * @param clazz the class of interest * @ignoreInnerClassesAttrib determines whether we look for and use the * flags from an "inner class" attribute */ private static native int getModifiers(Class clazz, boolean ignoreInnerClassesAttrib); /** * Returns the name of the class represented by this {@code Class}. For a * description of the format which is used, see the class definition of * {@link Class}. * * @return the name of the class represented by this {@code Class}. */ public String getName() { String result = name; return (result == null) ? (name = getNameNative()) : result; } private native String getNameNative(); /** * Returns the simple name of the class represented by this {@code Class} as * defined in the source code. If there is no name (that is, the class is * anonymous) then an empty string is returned. If the receiver is an array * then the name of the underlying type with square braces appended (for * example {@code "Integer[]"}) is returned. * * @return the simple name of the class represented by this {@code Class}. */ public String getSimpleName() { if (isArray()) { return getComponentType().getSimpleName() + "[]"; } String name = getName(); if (isAnonymousClass()) { return ""; } if (isMemberClass() || isLocalClass()) { return getInnerClassName(); } int dot = name.lastIndexOf('.'); if (dot != -1) { return name.substring(dot + 1); } return name; } /* * Returns the simple name of a member or local class, or null otherwise. * * @return The name. */ private native String getInnerClassName(); /** * Returns null. */ public ProtectionDomain getProtectionDomain() { return null; } /** * Returns the URL of the resource specified by {@code resName}. The mapping * between the resource name and the URL is managed by the class' class * loader. * * @param resName * the name of the resource. * @return the requested resource's {@code URL} object or {@code null} if * the resource can not be found. * @see ClassLoader */ public URL getResource(String resName) { // Get absolute resource name, but without the leading slash if (resName.startsWith("/")) { resName = resName.substring(1); } else { String pkg = getName(); int dot = pkg.lastIndexOf('.'); if (dot != -1) { pkg = pkg.substring(0, dot).replace('.', '/'); } else { pkg = ""; } resName = pkg + "/" + resName; } // Delegate to proper class loader ClassLoader loader = getClassLoader(); if (loader != null) { return loader.getResource(resName); } else { return ClassLoader.getSystemResource(resName); } } /** * Returns a read-only stream for the contents of the resource specified by * {@code resName}. The mapping between the resource name and the stream is * managed by the class' class loader. * * @param resName * the name of the resource. * @return a stream for the requested resource or {@code null} if no * resource with the specified name can be found. * @see ClassLoader */ public InputStream getResourceAsStream(String resName) { // Get absolute resource name, but without the leading slash if (resName.startsWith("/")) { resName = resName.substring(1); } else { String pkg = getName(); int dot = pkg.lastIndexOf('.'); if (dot != -1) { pkg = pkg.substring(0, dot).replace('.', '/'); } else { pkg = ""; } resName = pkg + "/" + resName; } // Delegate to proper class loader ClassLoader loader = getClassLoader(); if (loader != null) { return loader.getResourceAsStream(resName); } else { return ClassLoader.getSystemResourceAsStream(resName); } } /** * Returns null. (On Android, a {@code ClassLoader} can load classes from multiple dex files. * All classes from any given dex file will have the same signers, but different dex * files may have different signers. This does not fit well with the original * {@code ClassLoader}-based model of {@code getSigners}.) * * @return null. */ public Object[] getSigners() { // See http://code.google.com/p/android/issues/detail?id=1766. return null; } /** * Returns the {@code Class} object which represents the superclass of the * class represented by this {@code Class}. If this {@code Class} represents * the {@code Object} class, a primitive type, an interface or void then the * method returns {@code null}. If this {@code Class} represents an array * class then the {@code Object} class is returned. * * @return the superclass of the class represented by this {@code Class}. */ public native Class getSuperclass(); /** * Returns an array containing {@code TypeVariable} objects for type * variables declared by the generic class represented by this {@code * Class}. Returns an empty array if the class is not generic. * * @return an array with the type variables of the class represented by this * class. */ @SuppressWarnings("unchecked") public synchronized TypeVariable>[] getTypeParameters() { GenericSignatureParser parser = new GenericSignatureParser(getClassLoader()); parser.parseForClass(this, getSignatureAttribute()); return parser.formalTypeParameters.clone(); } /** * Indicates whether this {@code Class} represents an annotation class. * * @return {@code true} if this {@code Class} represents an annotation * class; {@code false} otherwise. */ public boolean isAnnotation() { final int ACC_ANNOTATION = 0x2000; // not public in reflect.Modifiers int mod = getModifiers(this, true); return (mod & ACC_ANNOTATION) != 0; } @Override public boolean isAnnotationPresent(Class annotationType) { if (annotationType == null) { throw new NullPointerException("annotationType == null"); } if (isDeclaredAnnotationPresent(annotationType)) { return true; } if (annotationType.isDeclaredAnnotationPresent(Inherited.class)) { for (Class sup = getSuperclass(); sup != null; sup = sup.getSuperclass()) { if (sup.isDeclaredAnnotationPresent(annotationType)) { return true; } } } return false; } /** * Indicates whether the class represented by this {@code Class} is * anonymously declared. * * @return {@code true} if the class represented by this {@code Class} is * anonymous; {@code false} otherwise. */ native public boolean isAnonymousClass(); /** * Indicates whether the class represented by this {@code Class} is an array * class. * * @return {@code true} if the class represented by this {@code Class} is an * array class; {@code false} otherwise. */ public boolean isArray() { return getComponentType() != null; } /** * Indicates whether the specified class type can be converted to the class * represented by this {@code Class}. Conversion may be done via an identity * conversion or a widening reference conversion (if either the receiver or * the argument represent primitive types, only the identity conversion * applies). * * @param cls * the class to check. * @return {@code true} if {@code cls} can be converted to the class * represented by this {@code Class}; {@code false} otherwise. * @throws NullPointerException * if {@code cls} is {@code null}. */ public native boolean isAssignableFrom(Class cls); /** * Indicates whether the class represented by this {@code Class} is an * {@code enum}. * * @return {@code true} if the class represented by this {@code Class} is an * {@code enum}; {@code false} otherwise. */ public boolean isEnum() { return ((getModifiers() & 0x4000) != 0) && (getSuperclass() == Enum.class); } /** * Indicates whether the specified object can be cast to the class * represented by this {@code Class}. This is the runtime version of the * {@code instanceof} operator. * * @param object * the object to check. * @return {@code true} if {@code object} can be cast to the type * represented by this {@code Class}; {@code false} if {@code * object} is {@code null} or cannot be cast. */ public native boolean isInstance(Object object); /** * Indicates whether this {@code Class} represents an interface. * * @return {@code true} if this {@code Class} represents an interface; * {@code false} otherwise. */ public native boolean isInterface(); /** * Indicates whether the class represented by this {@code Class} is defined * locally. * * @return {@code true} if the class represented by this {@code Class} is * defined locally; {@code false} otherwise. */ public boolean isLocalClass() { boolean enclosed = (getEnclosingMethod() != null || getEnclosingConstructor() != null); return enclosed && !isAnonymousClass(); } /** * Indicates whether the class represented by this {@code Class} is a member * class. * * @return {@code true} if the class represented by this {@code Class} is a * member class; {@code false} otherwise. */ public boolean isMemberClass() { return getDeclaringClass() != null; } /** * Indicates whether this {@code Class} represents a primitive type. * * @return {@code true} if this {@code Class} represents a primitive type; * {@code false} otherwise. */ public native boolean isPrimitive(); /** * Indicates whether this {@code Class} represents a synthetic type. * * @return {@code true} if this {@code Class} represents a synthetic type; * {@code false} otherwise. */ public boolean isSynthetic() { final int ACC_SYNTHETIC = 0x1000; // not public in reflect.Modifiers int mod = getModifiers(this, true); return (mod & ACC_SYNTHETIC) != 0; } /** * Returns a new instance of the class represented by this {@code Class}, * created by invoking the default (that is, zero-argument) constructor. If * there is no such constructor, or if the creation fails (either because of * a lack of available memory or because an exception is thrown by the * constructor), an {@code InstantiationException} is thrown. If the default * constructor exists but is not accessible from the context where this * method is invoked, an {@code IllegalAccessException} is thrown. * * @return a new instance of the class represented by this {@code Class}. * @throws IllegalAccessException * if the default constructor is not visible. * @throws InstantiationException * if the instance can not be created. */ public T newInstance() throws InstantiationException, IllegalAccessException { return newInstanceImpl(); } private native T newInstanceImpl() throws IllegalAccessException, InstantiationException; @Override public String toString() { if (isPrimitive()) { return getSimpleName(); } else { return (isInterface() ? "interface " : "class ") + getName(); } } /** * Returns the {@code Package} of which the class represented by this * {@code Class} is a member. Returns {@code null} if no {@code Package} * object was created by the class loader of the class. * * @return Package the {@code Package} of which this {@code Class} is a * member or {@code null}. */ public Package getPackage() { // TODO This might be a hack, but the VM doesn't have the necessary info. ClassLoader loader = getClassLoader(); if (loader != null) { String name = getName(); int dot = name.lastIndexOf('.'); return (dot != -1 ? loader.getPackage(name.substring(0, dot)) : null); } return null; } /** * Returns the assertion status for the class represented by this {@code * Class}. Assertion is enabled / disabled based on the class loader, * package or class default at runtime. * * @return the assertion status for the class represented by this {@code * Class}. */ public native boolean desiredAssertionStatus(); /** * Casts this {@code Class} to represent a subclass of the specified class. * If successful, this {@code Class} is returned; otherwise a {@code * ClassCastException} is thrown. * * @param clazz * the required type. * @return this {@code Class} cast as a subclass of the given type. * @throws ClassCastException * if this {@code Class} cannot be cast to the specified type. */ @SuppressWarnings("unchecked") public Class asSubclass(Class clazz) { if (clazz.isAssignableFrom(this)) { return (Class)this; } String actualClassName = this.getName(); String desiredClassName = clazz.getName(); throw new ClassCastException(actualClassName + " cannot be cast to " + desiredClassName); } /** * Casts the specified object to the type represented by this {@code Class}. * If the object is {@code null} then the result is also {@code null}. * * @param obj * the object to cast. * @return the object that has been cast. * @throws ClassCastException * if the object cannot be cast to the specified type. */ @SuppressWarnings("unchecked") public T cast(Object obj) { if (obj == null) { return null; } else if (this.isInstance(obj)) { return (T)obj; } String actualClassName = obj.getClass().getName(); String desiredClassName = this.getName(); throw new ClassCastException(actualClassName + " cannot be cast to " + desiredClassName); } /** * Copies two arrays into one. Assumes that the destination array is large * enough. * * @param result the destination array * @param head the first source array * @param tail the second source array * @return the destination array, that is, result */ private static T[] arraycopy(T[] result, T[] head, T[] tail) { System.arraycopy(head, 0, result, 0, head.length); System.arraycopy(tail, 0, result, head.length, tail.length); return result; } }