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/*
 * Copyright 2002-2023 the original author or authors.
 *
 * 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
 *
 *      https://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 org.springframework.beans;

import java.beans.ConstructorProperties;
import java.beans.PropertyDescriptor;
import java.beans.PropertyEditor;
import java.lang.reflect.Constructor;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.lang.reflect.Modifier;
import java.lang.reflect.Type;
import java.net.URI;
import java.net.URL;
import java.time.temporal.Temporal;
import java.util.Arrays;
import java.util.Collections;
import java.util.Date;
import java.util.HashSet;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Set;

import kotlin.jvm.JvmClassMappingKt;
import kotlin.reflect.KFunction;
import kotlin.reflect.KParameter;
import kotlin.reflect.full.KClasses;
import kotlin.reflect.jvm.KCallablesJvm;
import kotlin.reflect.jvm.ReflectJvmMapping;

import org.springframework.core.DefaultParameterNameDiscoverer;
import org.springframework.core.KotlinDetector;
import org.springframework.core.MethodParameter;
import org.springframework.core.ParameterNameDiscoverer;
import org.springframework.core.ResolvableType;
import org.springframework.lang.Nullable;
import org.springframework.util.Assert;
import org.springframework.util.ClassUtils;
import org.springframework.util.CollectionUtils;
import org.springframework.util.ConcurrentReferenceHashMap;
import org.springframework.util.ReflectionUtils;
import org.springframework.util.StringUtils;

/**
 * Static convenience methods for JavaBeans: for instantiating beans,
 * checking bean property types, copying bean properties, etc.
 *
 * 

Mainly for internal use within the framework, but to some degree also * useful for application classes. Consider * Apache Commons BeanUtils, * BULL - Bean Utils Light Library, * or similar third-party frameworks for more comprehensive bean utilities. * * @author Rod Johnson * @author Juergen Hoeller * @author Rob Harrop * @author Sam Brannen * @author Sebastien Deleuze */ public abstract class BeanUtils { private static final ParameterNameDiscoverer parameterNameDiscoverer = new DefaultParameterNameDiscoverer(); private static final Set> unknownEditorTypes = Collections.newSetFromMap(new ConcurrentReferenceHashMap<>(64)); private static final Map, Object> DEFAULT_TYPE_VALUES = Map.of( boolean.class, false, byte.class, (byte) 0, short.class, (short) 0, int.class, 0, long.class, 0L, float.class, 0F, double.class, 0D, char.class, '\0'); /** * Convenience method to instantiate a class using its no-arg constructor. * @param clazz class to instantiate * @return the new instance * @throws BeanInstantiationException if the bean cannot be instantiated * @see Class#newInstance() * @deprecated as of Spring 5.0, following the deprecation of * {@link Class#newInstance()} in JDK 9 */ @Deprecated public static T instantiate(Class clazz) throws BeanInstantiationException { Assert.notNull(clazz, "Class must not be null"); if (clazz.isInterface()) { throw new BeanInstantiationException(clazz, "Specified class is an interface"); } try { return clazz.newInstance(); } catch (InstantiationException ex) { throw new BeanInstantiationException(clazz, "Is it an abstract class?", ex); } catch (IllegalAccessException ex) { throw new BeanInstantiationException(clazz, "Is the constructor accessible?", ex); } } /** * Instantiate a class using its 'primary' constructor (for Kotlin classes, * potentially having default arguments declared) or its default constructor * (for regular Java classes, expecting a standard no-arg setup). *

Note that this method tries to set the constructor accessible * if given a non-accessible (that is, non-public) constructor. * @param clazz the class to instantiate * @return the new instance * @throws BeanInstantiationException if the bean cannot be instantiated. * The cause may notably indicate a {@link NoSuchMethodException} if no * primary/default constructor was found, a {@link NoClassDefFoundError} * or other {@link LinkageError} in case of an unresolvable class definition * (e.g. due to a missing dependency at runtime), or an exception thrown * from the constructor invocation itself. * @see Constructor#newInstance */ public static T instantiateClass(Class clazz) throws BeanInstantiationException { Assert.notNull(clazz, "Class must not be null"); if (clazz.isInterface()) { throw new BeanInstantiationException(clazz, "Specified class is an interface"); } Constructor ctor; try { ctor = clazz.getDeclaredConstructor(); } catch (NoSuchMethodException ex) { ctor = findPrimaryConstructor(clazz); if (ctor == null) { throw new BeanInstantiationException(clazz, "No default constructor found", ex); } } catch (LinkageError err) { throw new BeanInstantiationException(clazz, "Unresolvable class definition", err); } return instantiateClass(ctor); } /** * Instantiate a class using its no-arg constructor and return the new instance * as the specified assignable type. *

Useful in cases where the type of the class to instantiate (clazz) is not * available, but the type desired (assignableTo) is known. *

Note that this method tries to set the constructor accessible if given a * non-accessible (that is, non-public) constructor. * @param clazz class to instantiate * @param assignableTo type that clazz must be assignableTo * @return the new instance * @throws BeanInstantiationException if the bean cannot be instantiated * @see Constructor#newInstance */ @SuppressWarnings("unchecked") public static T instantiateClass(Class clazz, Class assignableTo) throws BeanInstantiationException { Assert.isAssignable(assignableTo, clazz); return (T) instantiateClass(clazz); } /** * Convenience method to instantiate a class using the given constructor. *

Note that this method tries to set the constructor accessible if given a * non-accessible (that is, non-public) constructor, and supports Kotlin classes * with optional parameters and default values. * @param ctor the constructor to instantiate * @param args the constructor arguments to apply (use {@code null} for an unspecified * parameter, Kotlin optional parameters and Java primitive types are supported) * @return the new instance * @throws BeanInstantiationException if the bean cannot be instantiated * @see Constructor#newInstance */ public static T instantiateClass(Constructor ctor, Object... args) throws BeanInstantiationException { Assert.notNull(ctor, "Constructor must not be null"); try { ReflectionUtils.makeAccessible(ctor); if (KotlinDetector.isKotlinReflectPresent() && KotlinDetector.isKotlinType(ctor.getDeclaringClass())) { return KotlinDelegate.instantiateClass(ctor, args); } else { int parameterCount = ctor.getParameterCount(); Assert.isTrue(args.length <= parameterCount, "Can't specify more arguments than constructor parameters"); if (parameterCount == 0) { return ctor.newInstance(); } Class[] parameterTypes = ctor.getParameterTypes(); Object[] argsWithDefaultValues = new Object[args.length]; for (int i = 0 ; i < args.length; i++) { if (args[i] == null) { Class parameterType = parameterTypes[i]; argsWithDefaultValues[i] = (parameterType.isPrimitive() ? DEFAULT_TYPE_VALUES.get(parameterType) : null); } else { argsWithDefaultValues[i] = args[i]; } } return ctor.newInstance(argsWithDefaultValues); } } catch (InstantiationException ex) { throw new BeanInstantiationException(ctor, "Is it an abstract class?", ex); } catch (IllegalAccessException ex) { throw new BeanInstantiationException(ctor, "Is the constructor accessible?", ex); } catch (IllegalArgumentException ex) { throw new BeanInstantiationException(ctor, "Illegal arguments for constructor", ex); } catch (InvocationTargetException ex) { throw new BeanInstantiationException(ctor, "Constructor threw exception", ex.getTargetException()); } } /** * Return a resolvable constructor for the provided class, either a primary or single * public constructor with arguments, or a single non-public constructor with arguments, * or simply a default constructor. Callers have to be prepared to resolve arguments * for the returned constructor's parameters, if any. * @param clazz the class to check * @throws IllegalStateException in case of no unique constructor found at all * @since 5.3 * @see #findPrimaryConstructor */ @SuppressWarnings("unchecked") public static Constructor getResolvableConstructor(Class clazz) { Constructor ctor = findPrimaryConstructor(clazz); if (ctor != null) { return ctor; } Constructor[] ctors = clazz.getConstructors(); if (ctors.length == 1) { // A single public constructor return (Constructor) ctors[0]; } else if (ctors.length == 0) { // No public constructors -> check non-public ctors = clazz.getDeclaredConstructors(); if (ctors.length == 1) { // A single non-public constructor, e.g. from a non-public record type return (Constructor) ctors[0]; } } // Several constructors -> let's try to take the default constructor try { return clazz.getDeclaredConstructor(); } catch (NoSuchMethodException ex) { // Giving up... } // No unique constructor at all throw new IllegalStateException("No primary or single unique constructor found for " + clazz); } /** * Return the primary constructor of the provided class. For Kotlin classes, this * returns the Java constructor corresponding to the Kotlin primary constructor * (as defined in the Kotlin specification). Otherwise, in particular for non-Kotlin * classes, this simply returns {@code null}. * @param clazz the class to check * @since 5.0 * @see Kotlin docs */ @Nullable public static Constructor findPrimaryConstructor(Class clazz) { Assert.notNull(clazz, "Class must not be null"); if (KotlinDetector.isKotlinReflectPresent() && KotlinDetector.isKotlinType(clazz)) { return KotlinDelegate.findPrimaryConstructor(clazz); } return null; } /** * Find a method with the given method name and the given parameter types, * declared on the given class or one of its superclasses. Prefers public methods, * but will return a protected, package access, or private method too. *

Checks {@code Class.getMethod} first, falling back to * {@code findDeclaredMethod}. This allows to find public methods * without issues even in environments with restricted Java security settings. * @param clazz the class to check * @param methodName the name of the method to find * @param paramTypes the parameter types of the method to find * @return the Method object, or {@code null} if not found * @see Class#getMethod * @see #findDeclaredMethod */ @Nullable public static Method findMethod(Class clazz, String methodName, Class... paramTypes) { try { return clazz.getMethod(methodName, paramTypes); } catch (NoSuchMethodException ex) { return findDeclaredMethod(clazz, methodName, paramTypes); } } /** * Find a method with the given method name and the given parameter types, * declared on the given class or one of its superclasses. Will return a public, * protected, package access, or private method. *

Checks {@code Class.getDeclaredMethod}, cascading upwards to all superclasses. * @param clazz the class to check * @param methodName the name of the method to find * @param paramTypes the parameter types of the method to find * @return the Method object, or {@code null} if not found * @see Class#getDeclaredMethod */ @Nullable public static Method findDeclaredMethod(Class clazz, String methodName, Class... paramTypes) { try { return clazz.getDeclaredMethod(methodName, paramTypes); } catch (NoSuchMethodException ex) { if (clazz.getSuperclass() != null) { return findDeclaredMethod(clazz.getSuperclass(), methodName, paramTypes); } return null; } } /** * Find a method with the given method name and minimal parameters (best case: none), * declared on the given class or one of its superclasses. Prefers public methods, * but will return a protected, package access, or private method too. *

Checks {@code Class.getMethods} first, falling back to * {@code findDeclaredMethodWithMinimalParameters}. This allows for finding public * methods without issues even in environments with restricted Java security settings. * @param clazz the class to check * @param methodName the name of the method to find * @return the Method object, or {@code null} if not found * @throws IllegalArgumentException if methods of the given name were found but * could not be resolved to a unique method with minimal parameters * @see Class#getMethods * @see #findDeclaredMethodWithMinimalParameters */ @Nullable public static Method findMethodWithMinimalParameters(Class clazz, String methodName) throws IllegalArgumentException { Method targetMethod = findMethodWithMinimalParameters(clazz.getMethods(), methodName); if (targetMethod == null) { targetMethod = findDeclaredMethodWithMinimalParameters(clazz, methodName); } return targetMethod; } /** * Find a method with the given method name and minimal parameters (best case: none), * declared on the given class or one of its superclasses. Will return a public, * protected, package access, or private method. *

Checks {@code Class.getDeclaredMethods}, cascading upwards to all superclasses. * @param clazz the class to check * @param methodName the name of the method to find * @return the Method object, or {@code null} if not found * @throws IllegalArgumentException if methods of the given name were found but * could not be resolved to a unique method with minimal parameters * @see Class#getDeclaredMethods */ @Nullable public static Method findDeclaredMethodWithMinimalParameters(Class clazz, String methodName) throws IllegalArgumentException { Method targetMethod = findMethodWithMinimalParameters(clazz.getDeclaredMethods(), methodName); if (targetMethod == null && clazz.getSuperclass() != null) { targetMethod = findDeclaredMethodWithMinimalParameters(clazz.getSuperclass(), methodName); } return targetMethod; } /** * Find a method with the given method name and minimal parameters (best case: none) * in the given list of methods. * @param methods the methods to check * @param methodName the name of the method to find * @return the Method object, or {@code null} if not found * @throws IllegalArgumentException if methods of the given name were found but * could not be resolved to a unique method with minimal parameters */ @Nullable public static Method findMethodWithMinimalParameters(Method[] methods, String methodName) throws IllegalArgumentException { Method targetMethod = null; int numMethodsFoundWithCurrentMinimumArgs = 0; for (Method method : methods) { if (method.getName().equals(methodName)) { int numParams = method.getParameterCount(); if (targetMethod == null || numParams < targetMethod.getParameterCount()) { targetMethod = method; numMethodsFoundWithCurrentMinimumArgs = 1; } else if (!method.isBridge() && targetMethod.getParameterCount() == numParams) { if (targetMethod.isBridge()) { // Prefer regular method over bridge... targetMethod = method; } else { // Additional candidate with same length numMethodsFoundWithCurrentMinimumArgs++; } } } } if (numMethodsFoundWithCurrentMinimumArgs > 1) { throw new IllegalArgumentException("Cannot resolve method '" + methodName + "' to a unique method. Attempted to resolve to overloaded method with " + "the least number of parameters but there were " + numMethodsFoundWithCurrentMinimumArgs + " candidates."); } return targetMethod; } /** * Parse a method signature in the form {@code methodName[([arg_list])]}, * where {@code arg_list} is an optional, comma-separated list of fully-qualified * type names, and attempts to resolve that signature against the supplied {@code Class}. *

When not supplying an argument list ({@code methodName}) the method whose name * matches and has the least number of parameters will be returned. When supplying an * argument type list, only the method whose name and argument types match will be returned. *

Note then that {@code methodName} and {@code methodName()} are not * resolved in the same way. The signature {@code methodName} means the method called * {@code methodName} with the least number of arguments, whereas {@code methodName()} * means the method called {@code methodName} with exactly 0 arguments. *

If no method can be found, then {@code null} is returned. * @param signature the method signature as String representation * @param clazz the class to resolve the method signature against * @return the resolved Method * @see #findMethod * @see #findMethodWithMinimalParameters */ @Nullable public static Method resolveSignature(String signature, Class clazz) { Assert.hasText(signature, "'signature' must not be empty"); Assert.notNull(clazz, "Class must not be null"); int startParen = signature.indexOf('('); int endParen = signature.indexOf(')'); if (startParen > -1 && endParen == -1) { throw new IllegalArgumentException("Invalid method signature '" + signature + "': expected closing ')' for args list"); } else if (startParen == -1 && endParen > -1) { throw new IllegalArgumentException("Invalid method signature '" + signature + "': expected opening '(' for args list"); } else if (startParen == -1) { return findMethodWithMinimalParameters(clazz, signature); } else { String methodName = signature.substring(0, startParen); String[] parameterTypeNames = StringUtils.commaDelimitedListToStringArray(signature.substring(startParen + 1, endParen)); Class[] parameterTypes = new Class[parameterTypeNames.length]; for (int i = 0; i < parameterTypeNames.length; i++) { String parameterTypeName = parameterTypeNames[i].trim(); try { parameterTypes[i] = ClassUtils.forName(parameterTypeName, clazz.getClassLoader()); } catch (Throwable ex) { throw new IllegalArgumentException("Invalid method signature: unable to resolve type [" + parameterTypeName + "] for argument " + i + ". Root cause: " + ex); } } return findMethod(clazz, methodName, parameterTypes); } } /** * Retrieve the JavaBeans {@code PropertyDescriptor}s of a given class. * @param clazz the Class to retrieve the PropertyDescriptors for * @return an array of {@code PropertyDescriptors} for the given class * @throws BeansException if PropertyDescriptor look fails */ public static PropertyDescriptor[] getPropertyDescriptors(Class clazz) throws BeansException { return CachedIntrospectionResults.forClass(clazz).getPropertyDescriptors(); } /** * Retrieve the JavaBeans {@code PropertyDescriptors} for the given property. * @param clazz the Class to retrieve the PropertyDescriptor for * @param propertyName the name of the property * @return the corresponding PropertyDescriptor, or {@code null} if none * @throws BeansException if PropertyDescriptor lookup fails */ @Nullable public static PropertyDescriptor getPropertyDescriptor(Class clazz, String propertyName) throws BeansException { return CachedIntrospectionResults.forClass(clazz).getPropertyDescriptor(propertyName); } /** * Find a JavaBeans {@code PropertyDescriptor} for the given method, * with the method either being the read method or the write method for * that bean property. * @param method the method to find a corresponding PropertyDescriptor for, * introspecting its declaring class * @return the corresponding PropertyDescriptor, or {@code null} if none * @throws BeansException if PropertyDescriptor lookup fails */ @Nullable public static PropertyDescriptor findPropertyForMethod(Method method) throws BeansException { return findPropertyForMethod(method, method.getDeclaringClass()); } /** * Find a JavaBeans {@code PropertyDescriptor} for the given method, * with the method either being the read method or the write method for * that bean property. * @param method the method to find a corresponding PropertyDescriptor for * @param clazz the (most specific) class to introspect for descriptors * @return the corresponding PropertyDescriptor, or {@code null} if none * @throws BeansException if PropertyDescriptor lookup fails * @since 3.2.13 */ @Nullable public static PropertyDescriptor findPropertyForMethod(Method method, Class clazz) throws BeansException { Assert.notNull(method, "Method must not be null"); PropertyDescriptor[] pds = getPropertyDescriptors(clazz); for (PropertyDescriptor pd : pds) { if (method.equals(pd.getReadMethod()) || method.equals(pd.getWriteMethod())) { return pd; } } return null; } /** * Find a JavaBeans PropertyEditor following the 'Editor' suffix convention * (e.g. "mypackage.MyDomainClass" → "mypackage.MyDomainClassEditor"). *

Compatible to the standard JavaBeans convention as implemented by * {@link java.beans.PropertyEditorManager} but isolated from the latter's * registered default editors for primitive types. * @param targetType the type to find an editor for * @return the corresponding editor, or {@code null} if none found */ @Nullable public static PropertyEditor findEditorByConvention(@Nullable Class targetType) { if (targetType == null || targetType.isArray() || unknownEditorTypes.contains(targetType)) { return null; } ClassLoader cl = targetType.getClassLoader(); if (cl == null) { try { cl = ClassLoader.getSystemClassLoader(); if (cl == null) { return null; } } catch (Throwable ex) { // e.g. AccessControlException on Google App Engine return null; } } String targetTypeName = targetType.getName(); String editorName = targetTypeName + "Editor"; try { Class editorClass = cl.loadClass(editorName); if (editorClass != null) { if (!PropertyEditor.class.isAssignableFrom(editorClass)) { unknownEditorTypes.add(targetType); return null; } return (PropertyEditor) instantiateClass(editorClass); } // Misbehaving ClassLoader returned null instead of ClassNotFoundException // - fall back to unknown editor type registration below } catch (ClassNotFoundException ex) { // Ignore - fall back to unknown editor type registration below } unknownEditorTypes.add(targetType); return null; } /** * Determine the bean property type for the given property from the * given classes/interfaces, if possible. * @param propertyName the name of the bean property * @param beanClasses the classes to check against * @return the property type, or {@code Object.class} as fallback */ public static Class findPropertyType(String propertyName, @Nullable Class... beanClasses) { if (beanClasses != null) { for (Class beanClass : beanClasses) { PropertyDescriptor pd = getPropertyDescriptor(beanClass, propertyName); if (pd != null) { return pd.getPropertyType(); } } } return Object.class; } /** * Obtain a new MethodParameter object for the write method of the * specified property. * @param pd the PropertyDescriptor for the property * @return a corresponding MethodParameter object */ public static MethodParameter getWriteMethodParameter(PropertyDescriptor pd) { if (pd instanceof GenericTypeAwarePropertyDescriptor gpd) { return new MethodParameter(gpd.getWriteMethodParameter()); } else { Method writeMethod = pd.getWriteMethod(); Assert.state(writeMethod != null, "No write method available"); return new MethodParameter(writeMethod, 0); } } /** * Determine required parameter names for the given constructor, * considering the JavaBeans {@link ConstructorProperties} annotation * as well as Spring's {@link DefaultParameterNameDiscoverer}. * @param ctor the constructor to find parameter names for * @return the parameter names (matching the constructor's parameter count) * @throws IllegalStateException if the parameter names are not resolvable * @since 5.3 * @see ConstructorProperties * @see DefaultParameterNameDiscoverer */ public static String[] getParameterNames(Constructor ctor) { ConstructorProperties cp = ctor.getAnnotation(ConstructorProperties.class); String[] paramNames = (cp != null ? cp.value() : parameterNameDiscoverer.getParameterNames(ctor)); Assert.state(paramNames != null, () -> "Cannot resolve parameter names for constructor " + ctor); Assert.state(paramNames.length == ctor.getParameterCount(), () -> "Invalid number of parameter names: " + paramNames.length + " for constructor " + ctor); return paramNames; } /** * Check if the given type represents a "simple" property: a simple value * type or an array of simple value types. *

See {@link #isSimpleValueType(Class)} for the definition of simple * value type. *

Used to determine properties to check for a "simple" dependency-check. * @param type the type to check * @return whether the given type represents a "simple" property * @see org.springframework.beans.factory.support.RootBeanDefinition#DEPENDENCY_CHECK_SIMPLE * @see org.springframework.beans.factory.support.AbstractAutowireCapableBeanFactory#checkDependencies * @see #isSimpleValueType(Class) */ public static boolean isSimpleProperty(Class type) { Assert.notNull(type, "'type' must not be null"); return isSimpleValueType(type) || (type.isArray() && isSimpleValueType(type.getComponentType())); } /** * Check if the given type represents a "simple" value type: a primitive or * primitive wrapper, an enum, a String or other CharSequence, a Number, a * Date, a Temporal, a URI, a URL, a Locale, or a Class. *

{@code Void} and {@code void} are not considered simple value types. * @param type the type to check * @return whether the given type represents a "simple" value type * @see #isSimpleProperty(Class) */ public static boolean isSimpleValueType(Class type) { return (Void.class != type && void.class != type && (ClassUtils.isPrimitiveOrWrapper(type) || Enum.class.isAssignableFrom(type) || CharSequence.class.isAssignableFrom(type) || Number.class.isAssignableFrom(type) || Date.class.isAssignableFrom(type) || Temporal.class.isAssignableFrom(type) || URI.class == type || URL.class == type || Locale.class == type || Class.class == type)); } /** * Copy the property values of the given source bean into the target bean. *

Note: The source and target classes do not have to match or even be derived * from each other, as long as the properties match. Any bean properties that the * source bean exposes but the target bean does not will silently be ignored. *

This is just a convenience method. For more complex transfer needs, * consider using a full {@link BeanWrapper}. *

As of Spring Framework 5.3, this method honors generic type information * when matching properties in the source and target objects. *

The following table provides a non-exhaustive set of examples of source * and target property types that can be copied as well as source and target * property types that cannot be copied. *

* * * * * * * * * * * *
source property typetarget property typecopy supported
{@code Integer}{@code Integer}yes
{@code Integer}{@code Number}yes
{@code List}{@code List}yes
{@code List}{@code List}yes
{@code List}{@code List}yes
{@code List}{@code List}yes
{@code String}{@code Integer}no
{@code Number}{@code Integer}no
{@code List}{@code List}no
{@code List}{@code List}no
* @param source the source bean * @param target the target bean * @throws BeansException if the copying failed * @see BeanWrapper */ public static void copyProperties(Object source, Object target) throws BeansException { copyProperties(source, target, null, (String[]) null); } /** * Copy the property values of the given source bean into the given target bean, * only setting properties defined in the given "editable" class (or interface). *

Note: The source and target classes do not have to match or even be derived * from each other, as long as the properties match. Any bean properties that the * source bean exposes but the target bean does not will silently be ignored. *

This is just a convenience method. For more complex transfer needs, * consider using a full {@link BeanWrapper}. *

As of Spring Framework 5.3, this method honors generic type information * when matching properties in the source and target objects. See the * documentation for {@link #copyProperties(Object, Object)} for details. * @param source the source bean * @param target the target bean * @param editable the class (or interface) to restrict property setting to * @throws BeansException if the copying failed * @see BeanWrapper */ public static void copyProperties(Object source, Object target, Class editable) throws BeansException { copyProperties(source, target, editable, (String[]) null); } /** * Copy the property values of the given source bean into the given target bean, * ignoring the given "ignoreProperties". *

Note: The source and target classes do not have to match or even be derived * from each other, as long as the properties match. Any bean properties that the * source bean exposes but the target bean does not will silently be ignored. *

This is just a convenience method. For more complex transfer needs, * consider using a full {@link BeanWrapper}. *

As of Spring Framework 5.3, this method honors generic type information * when matching properties in the source and target objects. See the * documentation for {@link #copyProperties(Object, Object)} for details. * @param source the source bean * @param target the target bean * @param ignoreProperties array of property names to ignore * @throws BeansException if the copying failed * @see BeanWrapper */ public static void copyProperties(Object source, Object target, String... ignoreProperties) throws BeansException { copyProperties(source, target, null, ignoreProperties); } /** * Copy the property values of the given source bean into the given target bean. *

Note: The source and target classes do not have to match or even be derived * from each other, as long as the properties match. Any bean properties that the * source bean exposes but the target bean does not will silently be ignored. *

As of Spring Framework 5.3, this method honors generic type information * when matching properties in the source and target objects. See the * documentation for {@link #copyProperties(Object, Object)} for details. * @param source the source bean * @param target the target bean * @param editable the class (or interface) to restrict property setting to * @param ignoreProperties array of property names to ignore * @throws BeansException if the copying failed * @see BeanWrapper */ private static void copyProperties(Object source, Object target, @Nullable Class editable, @Nullable String... ignoreProperties) throws BeansException { Assert.notNull(source, "Source must not be null"); Assert.notNull(target, "Target must not be null"); Class actualEditable = target.getClass(); if (editable != null) { if (!editable.isInstance(target)) { throw new IllegalArgumentException("Target class [" + target.getClass().getName() + "] not assignable to editable class [" + editable.getName() + "]"); } actualEditable = editable; } PropertyDescriptor[] targetPds = getPropertyDescriptors(actualEditable); Set ignoredProps = (ignoreProperties != null ? new HashSet<>(Arrays.asList(ignoreProperties)) : null); CachedIntrospectionResults sourceResults = (actualEditable != source.getClass() ? CachedIntrospectionResults.forClass(source.getClass()) : null); for (PropertyDescriptor targetPd : targetPds) { Method writeMethod = targetPd.getWriteMethod(); if (writeMethod != null && (ignoredProps == null || !ignoredProps.contains(targetPd.getName()))) { PropertyDescriptor sourcePd = (sourceResults != null ? sourceResults.getPropertyDescriptor(targetPd.getName()) : targetPd); if (sourcePd != null) { Method readMethod = sourcePd.getReadMethod(); if (readMethod != null) { if (isAssignable(writeMethod, readMethod)) { try { ReflectionUtils.makeAccessible(readMethod); Object value = readMethod.invoke(source); ReflectionUtils.makeAccessible(writeMethod); writeMethod.invoke(target, value); } catch (Throwable ex) { throw new FatalBeanException( "Could not copy property '" + targetPd.getName() + "' from source to target", ex); } } } } } } } private static boolean isAssignable(Method writeMethod, Method readMethod) { Type paramType = writeMethod.getGenericParameterTypes()[0]; if (paramType instanceof Class clazz) { return ClassUtils.isAssignable(clazz, readMethod.getReturnType()); } else if (paramType.equals(readMethod.getGenericReturnType())) { return true; } else { ResolvableType sourceType = ResolvableType.forMethodReturnType(readMethod); ResolvableType targetType = ResolvableType.forMethodParameter(writeMethod, 0); // Ignore generic types in assignable check if either ResolvableType has unresolvable generics. return (sourceType.hasUnresolvableGenerics() || targetType.hasUnresolvableGenerics() ? ClassUtils.isAssignable(writeMethod.getParameterTypes()[0], readMethod.getReturnType()) : targetType.isAssignableFrom(sourceType)); } } /** * Inner class to avoid a hard dependency on Kotlin at runtime. */ private static class KotlinDelegate { /** * Retrieve the Java constructor corresponding to the Kotlin primary constructor, if any. * @param clazz the {@link Class} of the Kotlin class * @see * https://kotlinlang.org/docs/reference/classes.html#constructors */ @Nullable public static Constructor findPrimaryConstructor(Class clazz) { try { KFunction primaryCtor = KClasses.getPrimaryConstructor(JvmClassMappingKt.getKotlinClass(clazz)); if (primaryCtor == null) { return null; } Constructor constructor = ReflectJvmMapping.getJavaConstructor(primaryCtor); if (constructor == null) { throw new IllegalStateException( "Failed to find Java constructor for Kotlin primary constructor: " + clazz.getName()); } return constructor; } catch (UnsupportedOperationException ex) { return null; } } /** * Instantiate a Kotlin class using the provided constructor. * @param ctor the constructor of the Kotlin class to instantiate * @param args the constructor arguments to apply * (use {@code null} for unspecified parameter if needed) */ public static T instantiateClass(Constructor ctor, Object... args) throws IllegalAccessException, InvocationTargetException, InstantiationException { KFunction kotlinConstructor = ReflectJvmMapping.getKotlinFunction(ctor); if (kotlinConstructor == null) { return ctor.newInstance(args); } if ((!Modifier.isPublic(ctor.getModifiers()) || !Modifier.isPublic(ctor.getDeclaringClass().getModifiers()))) { KCallablesJvm.setAccessible(kotlinConstructor, true); } List parameters = kotlinConstructor.getParameters(); Assert.isTrue(args.length <= parameters.size(), "Number of provided arguments must be less than or equal to the number of constructor parameters"); if (parameters.isEmpty()) { return kotlinConstructor.call(); } Map argParameters = CollectionUtils.newHashMap(parameters.size()); for (int i = 0 ; i < args.length ; i++) { if (!(parameters.get(i).isOptional() && args[i] == null)) { argParameters.put(parameters.get(i), args[i]); } } return kotlinConstructor.callBy(argParameters); } } }





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