Java tutorial
/* * Copyright 1999-2011 Alibaba Group. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.hc.wx.server.common.bytecode; import javassist.CtClass; import javassist.CtConstructor; import javassist.CtMethod; import javassist.NotFoundException; import org.apache.commons.lang.StringUtils; import java.lang.reflect.*; import java.net.URL; import java.security.CodeSource; import java.security.ProtectionDomain; import java.util.*; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.ConcurrentMap; import java.util.regex.Matcher; import java.util.regex.Pattern; /** * copy from dubbo * Created by wenzhiwei on 17-5-3. */ public final class ReflectUtils { /** * void(V). */ public static final char JVM_VOID = 'V'; /** * boolean(Z). */ public static final char JVM_BOOLEAN = 'Z'; /** * byte(B). */ public static final char JVM_BYTE = 'B'; /** * char(C). */ public static final char JVM_CHAR = 'C'; /** * double(D). */ public static final char JVM_DOUBLE = 'D'; /** * float(F). */ public static final char JVM_FLOAT = 'F'; /** * int(I). */ public static final char JVM_INT = 'I'; /** * long(J). */ public static final char JVM_LONG = 'J'; /** * short(S). */ public static final char JVM_SHORT = 'S'; public static final Class<?>[] EMPTY_CLASS_ARRAY = new Class<?>[0]; public static final String JAVA_IDENT_REGEX = "(?:[_$a-zA-Z][_$a-zA-Z0-9]*)"; public static final String JAVA_NAME_REGEX = "(?:" + JAVA_IDENT_REGEX + "(?:\\." + JAVA_IDENT_REGEX + ")*)"; public static final String CLASS_DESC = "(?:L" + JAVA_IDENT_REGEX + "(?:\\/" + JAVA_IDENT_REGEX + ")*;)"; public static final String ARRAY_DESC = "(?:\\[+(?:(?:[VZBCDFIJS])|" + CLASS_DESC + "))"; public static final String DESC_REGEX = "(?:(?:[VZBCDFIJS])|" + CLASS_DESC + "|" + ARRAY_DESC + ")"; public static final Pattern DESC_PATTERN = Pattern.compile(DESC_REGEX); public static final String METHOD_DESC_REGEX = "(?:(" + JAVA_IDENT_REGEX + ")?\\((" + DESC_REGEX + "*)\\)(" + DESC_REGEX + ")?)"; public static final Pattern METHOD_DESC_PATTERN = Pattern.compile(METHOD_DESC_REGEX); public static final Pattern GETTER_METHOD_DESC_PATTERN = Pattern .compile("get([A-Z][_a-zA-Z0-9]*)\\(\\)(" + DESC_REGEX + ")"); public static final Pattern SETTER_METHOD_DESC_PATTERN = Pattern .compile("set([A-Z][_a-zA-Z0-9]*)\\((" + DESC_REGEX + ")\\)V"); public static final Pattern IS_HAS_CAN_METHOD_DESC_PATTERN = Pattern .compile("(?:is|has|can)([A-Z][_a-zA-Z0-9]*)\\(\\)Z"); private static final ConcurrentMap<String, Class<?>> DESC_CLASS_CACHE = new ConcurrentHashMap<String, Class<?>>(); private static final ConcurrentMap<String, Class<?>> NAME_CLASS_CACHE = new ConcurrentHashMap<String, Class<?>>(); private static final ConcurrentMap<String, Method> Signature_METHODS_CACHE = new ConcurrentHashMap<String, Method>(); public static boolean isPrimitives(Class<?> cls) { if (cls.isArray()) { return isPrimitive(cls.getComponentType()); } return isPrimitive(cls); } public static boolean isPrimitive(Class<?> cls) { return cls.isPrimitive() || cls == String.class || cls == Boolean.class || cls == Character.class || Number.class.isAssignableFrom(cls) || Date.class.isAssignableFrom(cls); } public static Class<?> getBoxedClass(Class<?> c) { if (c == int.class) c = Integer.class; else if (c == boolean.class) c = Boolean.class; else if (c == long.class) c = Long.class; else if (c == float.class) c = Float.class; else if (c == double.class) c = Double.class; else if (c == char.class) c = Character.class; else if (c == byte.class) c = Byte.class; else if (c == short.class) c = Short.class; return c; } /** * is compatible. * * @param c class. * @param o instance. * @return compatible or not. */ public static boolean isCompatible(Class<?> c, Object o) { boolean pt = c.isPrimitive(); if (o == null) return !pt; if (pt) { if (c == int.class) c = Integer.class; else if (c == boolean.class) c = Boolean.class; else if (c == long.class) c = Long.class; else if (c == float.class) c = Float.class; else if (c == double.class) c = Double.class; else if (c == char.class) c = Character.class; else if (c == byte.class) c = Byte.class; else if (c == short.class) c = Short.class; } if (c == o.getClass()) return true; return c.isInstance(o); } /** * is compatible. * * @param cs class array. * @param os object array. * @return compatible or not. */ public static boolean isCompatible(Class<?>[] cs, Object[] os) { int len = cs.length; if (len != os.length) return false; if (len == 0) return true; for (int i = 0; i < len; i++) if (!isCompatible(cs[i], os[i])) return false; return true; } public static String getCodeBase(Class<?> cls) { if (cls == null) return null; ProtectionDomain domain = cls.getProtectionDomain(); if (domain == null) return null; CodeSource source = domain.getCodeSource(); if (source == null) return null; URL location = source.getLocation(); if (location == null) return null; return location.getFile(); } /** * get name. * java.lang.Object[][].class => "java.lang.Object[][]" * * @param c class. * @return name. */ public static String getName(Class<?> c) { if (c.isArray()) { StringBuilder sb = new StringBuilder(); do { sb.append("[]"); c = c.getComponentType(); } while (c.isArray()); return c.getName() + sb.toString(); } return c.getName(); } public static Class<?> getGenericClass(Class<?> cls) { return getGenericClass(cls, 0); } public static Class<?> getGenericClass(Class<?> cls, int i) { try { ParameterizedType parameterizedType = ((ParameterizedType) cls.getGenericInterfaces()[0]); Object genericClass = parameterizedType.getActualTypeArguments()[i]; if (genericClass instanceof ParameterizedType) { // ? return (Class<?>) ((ParameterizedType) genericClass).getRawType(); } else if (genericClass instanceof GenericArrayType) { // ? return (Class<?>) ((GenericArrayType) genericClass).getGenericComponentType(); } else if (((Class) genericClass).isArray()) { // JDK 7 , Foo<int[]> ?? GenericArrayType return ((Class) genericClass).getComponentType(); } else { return (Class<?>) genericClass; } } catch (Throwable e) { throw new IllegalArgumentException(cls.getName() + " generic type undefined!", e); } } /** * get method name. * "void do(int)", "void do()", "int do(java.lang.String,boolean)" * * @param m method. * @return name. */ public static String getName(final Method m) { StringBuilder ret = new StringBuilder(); ret.append(getName(m.getReturnType())).append(' '); ret.append(m.getName()).append('('); Class<?>[] parameterTypes = m.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) { if (i > 0) ret.append(','); ret.append(getName(parameterTypes[i])); } ret.append(')'); return ret.toString(); } public static String getSignature(String methodName, Class<?>[] parameterTypes) { StringBuilder sb = new StringBuilder(methodName); sb.append("("); if (parameterTypes != null && parameterTypes.length > 0) { boolean first = true; for (Class<?> type : parameterTypes) { if (first) { first = false; } else { sb.append(","); } sb.append(type.getName()); } } sb.append(")"); return sb.toString(); } /** * get constructor name. * "()", "(java.lang.String,int)" * * @param c constructor. * @return name. */ public static String getName(final Constructor<?> c) { StringBuilder ret = new StringBuilder("("); Class<?>[] parameterTypes = c.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) { if (i > 0) ret.append(','); ret.append(getName(parameterTypes[i])); } ret.append(')'); return ret.toString(); } /** * get class desc. * boolean[].class => "[Z" * Object.class => "Ljava/lang/Object;" * * @param c class. * @return desc. * @throws NotFoundException */ public static String getDesc(Class<?> c) { StringBuilder ret = new StringBuilder(); while (c.isArray()) { ret.append('['); c = c.getComponentType(); } if (c.isPrimitive()) { String t = c.getName(); if ("void".equals(t)) ret.append(JVM_VOID); else if ("boolean".equals(t)) ret.append(JVM_BOOLEAN); else if ("byte".equals(t)) ret.append(JVM_BYTE); else if ("char".equals(t)) ret.append(JVM_CHAR); else if ("double".equals(t)) ret.append(JVM_DOUBLE); else if ("float".equals(t)) ret.append(JVM_FLOAT); else if ("int".equals(t)) ret.append(JVM_INT); else if ("long".equals(t)) ret.append(JVM_LONG); else if ("short".equals(t)) ret.append(JVM_SHORT); } else { ret.append('L'); ret.append(c.getName().replace('.', '/')); ret.append(';'); } return ret.toString(); } /** * get class array desc. * [int.class, boolean[].class, Object.class] => "I[ZLjava/lang/Object;" * * @param cs class array. * @return desc. * @throws NotFoundException */ public static String getDesc(final Class<?>[] cs) { if (cs.length == 0) return ""; StringBuilder sb = new StringBuilder(64); for (Class<?> c : cs) sb.append(getDesc(c)); return sb.toString(); } /** * get method desc. * int do(int arg1) => "do(I)I" * void do(String arg1,boolean arg2) => "do(Ljava/lang/String;Z)V" * * @param m method. * @return desc. */ public static String getDesc(final Method m) { StringBuilder ret = new StringBuilder(m.getName()).append('('); Class<?>[] parameterTypes = m.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) ret.append(getDesc(parameterTypes[i])); ret.append(')').append(getDesc(m.getReturnType())); return ret.toString(); } /** * get constructor desc. * "()V", "(Ljava/lang/String;I)V" * * @param c constructor. * @return desc */ public static String getDesc(final Constructor<?> c) { StringBuilder ret = new StringBuilder("("); Class<?>[] parameterTypes = c.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) ret.append(getDesc(parameterTypes[i])); ret.append(')').append('V'); return ret.toString(); } /** * get method desc. * "(I)I", "()V", "(Ljava/lang/String;Z)V" * * @param m method. * @return desc. */ public static String getDescWithoutMethodName(Method m) { StringBuilder ret = new StringBuilder(); ret.append('('); Class<?>[] parameterTypes = m.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) ret.append(getDesc(parameterTypes[i])); ret.append(')').append(getDesc(m.getReturnType())); return ret.toString(); } /** * get class desc. * Object.class => "Ljava/lang/Object;" * boolean[].class => "[Z" * * @param c class. * @return desc. * @throws NotFoundException */ public static String getDesc(final CtClass c) throws NotFoundException { StringBuilder ret = new StringBuilder(); if (c.isArray()) { ret.append('['); ret.append(getDesc(c.getComponentType())); } else if (c.isPrimitive()) { String t = c.getName(); if ("void".equals(t)) ret.append(JVM_VOID); else if ("boolean".equals(t)) ret.append(JVM_BOOLEAN); else if ("byte".equals(t)) ret.append(JVM_BYTE); else if ("char".equals(t)) ret.append(JVM_CHAR); else if ("double".equals(t)) ret.append(JVM_DOUBLE); else if ("float".equals(t)) ret.append(JVM_FLOAT); else if ("int".equals(t)) ret.append(JVM_INT); else if ("long".equals(t)) ret.append(JVM_LONG); else if ("short".equals(t)) ret.append(JVM_SHORT); } else { ret.append('L'); ret.append(c.getName().replace('.', '/')); ret.append(';'); } return ret.toString(); } /** * get method desc. * "do(I)I", "do()V", "do(Ljava/lang/String;Z)V" * * @param m method. * @return desc. */ public static String getDesc(final CtMethod m) throws NotFoundException { StringBuilder ret = new StringBuilder(m.getName()).append('('); CtClass[] parameterTypes = m.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) ret.append(getDesc(parameterTypes[i])); ret.append(')').append(getDesc(m.getReturnType())); return ret.toString(); } /** * get constructor desc. * "()V", "(Ljava/lang/String;I)V" * * @param c constructor. * @return desc */ public static String getDesc(final CtConstructor c) throws NotFoundException { StringBuilder ret = new StringBuilder("("); CtClass[] parameterTypes = c.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) ret.append(getDesc(parameterTypes[i])); ret.append(')').append('V'); return ret.toString(); } /** * get method desc. * "(I)I", "()V", "(Ljava/lang/String;Z)V". * * @param m method. * @return desc. */ public static String getDescWithoutMethodName(final CtMethod m) throws NotFoundException { StringBuilder ret = new StringBuilder(); ret.append('('); CtClass[] parameterTypes = m.getParameterTypes(); for (int i = 0; i < parameterTypes.length; i++) ret.append(getDesc(parameterTypes[i])); ret.append(')').append(getDesc(m.getReturnType())); return ret.toString(); } /** * name to desc. * java.util.Map[][] => "[[Ljava/util/Map;" * * @param name name. * @return desc. */ public static String name2desc(String name) { StringBuilder sb = new StringBuilder(); int c = 0, index = name.indexOf('['); if (index > 0) { c = (name.length() - index) / 2; name = name.substring(0, index); } while (c-- > 0) sb.append("["); if ("void".equals(name)) sb.append(JVM_VOID); else if ("boolean".equals(name)) sb.append(JVM_BOOLEAN); else if ("byte".equals(name)) sb.append(JVM_BYTE); else if ("char".equals(name)) sb.append(JVM_CHAR); else if ("double".equals(name)) sb.append(JVM_DOUBLE); else if ("float".equals(name)) sb.append(JVM_FLOAT); else if ("int".equals(name)) sb.append(JVM_INT); else if ("long".equals(name)) sb.append(JVM_LONG); else if ("short".equals(name)) sb.append(JVM_SHORT); else sb.append('L').append(name.replace('.', '/')).append(';'); return sb.toString(); } /** * desc to name. * "[[I" => "int[][]" * * @param desc desc. * @return name. */ public static String desc2name(String desc) { StringBuilder sb = new StringBuilder(); int c = desc.lastIndexOf('[') + 1; if (desc.length() == c + 1) { switch (desc.charAt(c)) { case JVM_VOID: { sb.append("void"); break; } case JVM_BOOLEAN: { sb.append("boolean"); break; } case JVM_BYTE: { sb.append("byte"); break; } case JVM_CHAR: { sb.append("char"); break; } case JVM_DOUBLE: { sb.append("double"); break; } case JVM_FLOAT: { sb.append("float"); break; } case JVM_INT: { sb.append("int"); break; } case JVM_LONG: { sb.append("long"); break; } case JVM_SHORT: { sb.append("short"); break; } default: throw new RuntimeException(); } } else { sb.append(desc.substring(c + 1, desc.length() - 1).replace('/', '.')); } while (c-- > 0) sb.append("[]"); return sb.toString(); } public static Class<?> forName(String name) { try { return name2class(name); } catch (ClassNotFoundException e) { throw new IllegalStateException("Not found class " + name + ", cause: " + e.getMessage(), e); } } /** * name to class. * "boolean" => boolean.class * "java.util.Map[][]" => java.util.Map[][].class * * @param name name. * @return Class instance. */ public static Class<?> name2class(String name) throws ClassNotFoundException { return name2class(ClassHelper.getClassLoader(), name); } /** * name to class. * "boolean" => boolean.class * "java.util.Map[][]" => java.util.Map[][].class * * @param cl ClassLoader instance. * @param name name. * @return Class instance. */ private static Class<?> name2class(ClassLoader cl, String name) throws ClassNotFoundException { int c = 0, index = name.indexOf('['); if (index > 0) { c = (name.length() - index) / 2; name = name.substring(0, index); } if (c > 0) { StringBuilder sb = new StringBuilder(); while (c-- > 0) sb.append("["); if ("void".equals(name)) sb.append(JVM_VOID); else if ("boolean".equals(name)) sb.append(JVM_BOOLEAN); else if ("byte".equals(name)) sb.append(JVM_BYTE); else if ("char".equals(name)) sb.append(JVM_CHAR); else if ("double".equals(name)) sb.append(JVM_DOUBLE); else if ("float".equals(name)) sb.append(JVM_FLOAT); else if ("int".equals(name)) sb.append(JVM_INT); else if ("long".equals(name)) sb.append(JVM_LONG); else if ("short".equals(name)) sb.append(JVM_SHORT); else sb.append('L').append(name).append(';'); // "java.lang.Object" ==> "Ljava.lang.Object;" name = sb.toString(); } else { if ("void".equals(name)) return void.class; else if ("boolean".equals(name)) return boolean.class; else if ("byte".equals(name)) return byte.class; else if ("char".equals(name)) return char.class; else if ("double".equals(name)) return double.class; else if ("float".equals(name)) return float.class; else if ("int".equals(name)) return int.class; else if ("long".equals(name)) return long.class; else if ("short".equals(name)) return short.class; } if (cl == null) cl = ClassHelper.getClassLoader(); Class<?> clazz = NAME_CLASS_CACHE.get(name); if (clazz == null) { clazz = Class.forName(name, true, cl); NAME_CLASS_CACHE.put(name, clazz); } return clazz; } /** * desc to class. * "[Z" => boolean[].class * "[[Ljava/util/Map;" => java.util.Map[][].class * * @param desc desc. * @return Class instance. * @throws ClassNotFoundException */ public static Class<?> desc2class(String desc) throws ClassNotFoundException { return desc2class(ClassHelper.getClassLoader(), desc); } /** * desc to class. * "[Z" => boolean[].class * "[[Ljava/util/Map;" => java.util.Map[][].class * * @param cl ClassLoader instance. * @param desc desc. * @return Class instance. * @throws ClassNotFoundException */ private static Class<?> desc2class(ClassLoader cl, String desc) throws ClassNotFoundException { switch (desc.charAt(0)) { case JVM_VOID: return void.class; case JVM_BOOLEAN: return boolean.class; case JVM_BYTE: return byte.class; case JVM_CHAR: return char.class; case JVM_DOUBLE: return double.class; case JVM_FLOAT: return float.class; case JVM_INT: return int.class; case JVM_LONG: return long.class; case JVM_SHORT: return short.class; case 'L': desc = desc.substring(1, desc.length() - 1).replace('/', '.'); // "Ljava/lang/Object;" ==> "java.lang.Object" break; case '[': desc = desc.replace('/', '.'); // "[[Ljava/lang/Object;" ==> "[[Ljava.lang.Object;" break; default: throw new ClassNotFoundException("Class not found: " + desc); } if (cl == null) cl = ClassHelper.getClassLoader(); Class<?> clazz = DESC_CLASS_CACHE.get(desc); if (clazz == null) { clazz = Class.forName(desc, true, cl); DESC_CLASS_CACHE.put(desc, clazz); } return clazz; } /** * get class array instance. * * @param desc desc. * @return Class class array. * @throws ClassNotFoundException */ public static Class<?>[] desc2classArray(String desc) throws ClassNotFoundException { Class<?>[] ret = desc2classArray(ClassHelper.getClassLoader(), desc); return ret; } /** * get class array instance. * * @param cl ClassLoader instance. * @param desc desc. * @return Class[] class array. * @throws ClassNotFoundException */ private static Class<?>[] desc2classArray(ClassLoader cl, String desc) throws ClassNotFoundException { if (desc.length() == 0) return EMPTY_CLASS_ARRAY; List<Class<?>> cs = new ArrayList<Class<?>>(); Matcher m = DESC_PATTERN.matcher(desc); while (m.find()) cs.add(desc2class(cl, m.group())); return cs.toArray(EMPTY_CLASS_ARRAY); } /** * ??? * * @param clazz * @param methodName ??method1(int, String)?????????method2 * @return * @throws NoSuchMethodException * @throws ClassNotFoundException * @throws IllegalStateException ??????? */ public static Method findMethodByMethodSignature(Class<?> clazz, String methodName, String[] parameterTypes) throws NoSuchMethodException, ClassNotFoundException { String signature = clazz.getName() + "." + methodName; if (parameterTypes != null && parameterTypes.length > 0) { signature += StringUtils.join(parameterTypes); } Method method = Signature_METHODS_CACHE.get(signature); if (method != null) { return method; } if (parameterTypes == null) { List<Method> finded = new ArrayList<Method>(); for (Method m : clazz.getMethods()) { if (m.getName().equals(methodName)) { finded.add(m); } } if (finded.isEmpty()) { throw new NoSuchMethodException("No such method " + methodName + " in class " + clazz); } if (finded.size() > 1) { String msg = String.format("Not unique method for method name(%s) in class(%s), find %d methods.", methodName, clazz.getName(), finded.size()); throw new IllegalStateException(msg); } method = finded.get(0); } else { Class<?>[] types = new Class<?>[parameterTypes.length]; for (int i = 0; i < parameterTypes.length; i++) { types[i] = ReflectUtils.name2class(parameterTypes[i]); } method = clazz.getMethod(methodName, types); } Signature_METHODS_CACHE.put(signature, method); return method; } public static Method findMethodByMethodName(Class<?> clazz, String methodName) throws NoSuchMethodException, ClassNotFoundException { return findMethodByMethodSignature(clazz, methodName, null); } public static Constructor<?> findConstructor(Class<?> clazz, Class<?> paramType) throws NoSuchMethodException { Constructor<?> targetConstructor; try { targetConstructor = clazz.getConstructor(new Class<?>[] { paramType }); } catch (NoSuchMethodException e) { targetConstructor = null; Constructor<?>[] constructors = clazz.getConstructors(); for (Constructor<?> constructor : constructors) { if (Modifier.isPublic(constructor.getModifiers()) && constructor.getParameterTypes().length == 1 && constructor.getParameterTypes()[0].isAssignableFrom(paramType)) { targetConstructor = constructor; break; } } if (targetConstructor == null) { throw e; } } return targetConstructor; } /** * ?? * <p> * ???{@link Class}ClassLoader?? * * @param obj ? * @param interfaceClazzName ??? * @return {@code true}??{@code false} */ public static boolean isInstance(Object obj, String interfaceClazzName) { for (Class<?> clazz = obj.getClass(); clazz != null && !clazz.equals(Object.class); clazz = clazz.getSuperclass()) { Class<?>[] interfaces = clazz.getInterfaces(); for (Class<?> itf : interfaces) { if (itf.getName().equals(interfaceClazzName)) { return true; } } } return false; } public static Object getEmptyObject(Class<?> returnType) { return getEmptyObject(returnType, new HashMap<Class<?>, Object>(), 0); } private static Object getEmptyObject(Class<?> returnType, Map<Class<?>, Object> emptyInstances, int level) { if (level > 2) return null; if (returnType == null) { return null; } else if (returnType == boolean.class || returnType == Boolean.class) { return false; } else if (returnType == char.class || returnType == Character.class) { return '\0'; } else if (returnType == byte.class || returnType == Byte.class) { return (byte) 0; } else if (returnType == short.class || returnType == Short.class) { return (short) 0; } else if (returnType == int.class || returnType == Integer.class) { return 0; } else if (returnType == long.class || returnType == Long.class) { return 0L; } else if (returnType == float.class || returnType == Float.class) { return 0F; } else if (returnType == double.class || returnType == Double.class) { return 0D; } else if (returnType.isArray()) { return Array.newInstance(returnType.getComponentType(), 0); } else if (returnType.isAssignableFrom(ArrayList.class)) { return new ArrayList<Object>(0); } else if (returnType.isAssignableFrom(HashSet.class)) { return new HashSet<Object>(0); } else if (returnType.isAssignableFrom(HashMap.class)) { return new HashMap<Object, Object>(0); } else if (String.class.equals(returnType)) { return ""; } else if (!returnType.isInterface()) { try { Object value = emptyInstances.get(returnType); if (value == null) { value = returnType.newInstance(); emptyInstances.put(returnType, value); } Class<?> cls = value.getClass(); while (cls != null && cls != Object.class) { Field[] fields = cls.getDeclaredFields(); for (Field field : fields) { Object property = getEmptyObject(field.getType(), emptyInstances, level + 1); if (property != null) { try { if (!field.isAccessible()) { field.setAccessible(true); } field.set(value, property); } catch (Throwable e) { } } } cls = cls.getSuperclass(); } return value; } catch (Throwable e) { return null; } } else { return null; } } public static boolean isBeanPropertyReadMethod(Method method) { return method != null && Modifier.isPublic(method.getModifiers()) && !Modifier.isStatic(method.getModifiers()) && method.getReturnType() != void.class && method.getDeclaringClass() != Object.class && method.getParameterTypes().length == 0 && ((method.getName().startsWith("get") && method.getName().length() > 3) || (method.getName().startsWith("is") && method.getName().length() > 2)); } public static String getPropertyNameFromBeanReadMethod(Method method) { if (isBeanPropertyReadMethod(method)) { if (method.getName().startsWith("get")) { return method.getName().substring(3, 4).toLowerCase() + method.getName().substring(4); } if (method.getName().startsWith("is")) { return method.getName().substring(2, 3).toLowerCase() + method.getName().substring(3); } } return null; } public static boolean isBeanPropertyWriteMethod(Method method) { return method != null && Modifier.isPublic(method.getModifiers()) && !Modifier.isStatic(method.getModifiers()) && method.getDeclaringClass() != Object.class && method.getParameterTypes().length == 1 && method.getName().startsWith("set") && method.getName().length() > 3; } public static String getPropertyNameFromBeanWriteMethod(Method method) { if (isBeanPropertyWriteMethod(method)) { return method.getName().substring(3, 4).toLowerCase() + method.getName().substring(4); } return null; } public static boolean isPublicInstanceField(Field field) { return Modifier.isPublic(field.getModifiers()) && !Modifier.isStatic(field.getModifiers()) && !Modifier.isFinal(field.getModifiers()) && !field.isSynthetic(); } public static Map<String, Field> getBeanPropertyFields(Class cl) { Map<String, Field> properties = new HashMap<String, Field>(); for (; cl != null; cl = cl.getSuperclass()) { Field[] fields = cl.getDeclaredFields(); for (Field field : fields) { if (Modifier.isTransient(field.getModifiers()) || Modifier.isStatic(field.getModifiers())) { continue; } field.setAccessible(true); properties.put(field.getName(), field); } } return properties; } public static Map<String, Method> getBeanPropertyReadMethods(Class cl) { Map<String, Method> properties = new HashMap<String, Method>(); for (; cl != null; cl = cl.getSuperclass()) { Method[] methods = cl.getDeclaredMethods(); for (Method method : methods) { if (isBeanPropertyReadMethod(method)) { method.setAccessible(true); String property = getPropertyNameFromBeanReadMethod(method); properties.put(property, method); } } } return properties; } private ReflectUtils() { } }