package com.fasterxml.jackson.databind.util; import java.io.Closeable; import java.io.IOException; import java.lang.annotation.Annotation; import java.lang.reflect.*; import java.util.*; import com.fasterxml.jackson.core.JsonGenerator; import com.fasterxml.jackson.databind.DeserializationContext; import com.fasterxml.jackson.databind.JavaType; import com.fasterxml.jackson.databind.JsonMappingException; import com.fasterxml.jackson.databind.annotation.JacksonStdImpl; public final class ClassUtil { private final static Class<?> CLS_OBJECT = Object.class; private final static Annotation[] NO_ANNOTATIONS = new Annotation[0]; private final static Ctor[] NO_CTORS = new Ctor[0]; private final static Iterator<?> EMPTY_ITERATOR = Collections.emptyIterator(); /* /********************************************************** /* Simple factory methods /********************************************************** */ /** * @since 2.7 */ @SuppressWarnings("unchecked") public static <T> Iterator<T> emptyIterator() { return (Iterator<T>) EMPTY_ITERATOR; } /* /********************************************************** /* Methods that deal with inheritance /********************************************************** */ /** * Method that will find all sub-classes and implemented interfaces * of a given class or interface. Classes are listed in order of * precedence, starting with the immediate super-class, followed by * interfaces class directly declares to implemented, and then recursively * followed by parent of super-class and so forth. * Note that <code>Object.class</code> is not included in the list * regardless of whether <code>endBefore</code> argument is defined or not. * * @param endBefore Super-type to NOT include in results, if any; when * encountered, will be ignored (and no super types are checked). * * @since 2.7 */ public static List<JavaType> findSuperTypes(JavaType type, Class<?> endBefore, boolean addClassItself) { if ((type == null) || type.hasRawClass(endBefore) || type.hasRawClass(Object.class)) { return Collections.emptyList(); } List<JavaType> result = new ArrayList<JavaType>(8); _addSuperTypes(type, endBefore, result, addClassItself); return result; } /** * @since 2.7 */ public static List<Class<?>> findRawSuperTypes(Class<?> cls, Class<?> endBefore, boolean addClassItself) { if ((cls == null) || (cls == endBefore) || (cls == Object.class)) { return Collections.emptyList(); } List<Class<?>> result = new ArrayList<Class<?>>(8); _addRawSuperTypes(cls, endBefore, result, addClassItself); return result; } /** * Method for finding all super classes (but not super interfaces) of given class, * starting with the immediate super class and ending in the most distant one. * Class itself is included if <code>addClassItself</code> is true. * * @since 2.7 */ public static List<Class<?>> findSuperClasses(Class<?> cls, Class<?> endBefore, boolean addClassItself) { List<Class<?>> result = new LinkedList<Class<?>>(); if ((cls != null) && (cls != endBefore)) { if (addClassItself) { result.add(cls); } while ((cls = cls.getSuperclass()) != null) { if (cls == endBefore) { break; } result.add(cls); } } return result; } @Deprecated // since 2.7 public static List<Class<?>> findSuperTypes(Class<?> cls, Class<?> endBefore) { return findSuperTypes(cls, endBefore, new ArrayList<Class<?>>(8)); } @Deprecated // since 2.7 public static List<Class<?>> findSuperTypes(Class<?> cls, Class<?> endBefore, List<Class<?>> result) { _addRawSuperTypes(cls, endBefore, result, false); return result; } private static void _addSuperTypes(JavaType type, Class<?> endBefore, Collection<JavaType> result, boolean addClassItself) { if (type == null) { return; } final Class<?> cls = type.getRawClass(); if (cls == endBefore || cls == Object.class) { return; } if (addClassItself) { if (result.contains(type)) { // already added, no need to check supers return; } result.add(type); } for (JavaType intCls : type.getInterfaces()) { _addSuperTypes(intCls, endBefore, result, true); } _addSuperTypes(type.getSuperClass(), endBefore, result, true); } private static void _addRawSuperTypes(Class<?> cls, Class<?> endBefore, Collection<Class<?>> result, boolean addClassItself) { if (cls == endBefore || cls == null || cls == Object.class) { return; } if (addClassItself) { if (result.contains(cls)) { // already added, no need to check supers return; } result.add(cls); } for (Class<?> intCls : _interfaces(cls)) { _addRawSuperTypes(intCls, endBefore, result, true); } _addRawSuperTypes(cls.getSuperclass(), endBefore, result, true); } /* /********************************************************** /* Class type detection methods /********************************************************** */ /** * @return Null if class might be a bean; type String (that identifies * why it's not a bean) if not */ public static String canBeABeanType(Class<?> type) { // First: language constructs that ain't beans: if (type.isAnnotation()) { return "annotation"; } if (type.isArray()) { return "array"; } if (type.isEnum()) { return "enum"; } if (type.isPrimitive()) { return "primitive"; } // Anything else? Seems valid, then return null; } public static String isLocalType(Class<?> type, boolean allowNonStatic) { /* As per [JACKSON-187], GAE seems to throw SecurityExceptions * here and there... and GAE itself has a bug, too * (see []). Bah. So we need to catch some wayward exceptions on GAE */ try { // one more: method locals, anonymous, are not good: if (hasEnclosingMethod(type)) { return "local/anonymous"; } /* But how about non-static inner classes? Can't construct * easily (theoretically, we could try to check if parent * happens to be enclosing... but that gets convoluted) */ if (!allowNonStatic) { if (!Modifier.isStatic(type.getModifiers())) { if (getEnclosingClass(type) != null) { return "non-static member class"; } } } } catch (SecurityException e) { } catch (NullPointerException e) { } return null; } /** * Method for finding enclosing class for non-static inner classes */ public static Class<?> getOuterClass(Class<?> type) { // as above, GAE has some issues... try { // one more: method locals, anonymous, are not good: if (hasEnclosingMethod(type)) { return null; } if (!Modifier.isStatic(type.getModifiers())) { return getEnclosingClass(type); } } catch (SecurityException e) { } return null; } /** * Helper method used to weed out dynamic Proxy types; types that do * not expose concrete method API that we could use to figure out * automatic Bean (property) based serialization. */ public static boolean isProxyType(Class<?> type) { // As per [databind#57], should NOT disqualify JDK proxy: /* // Then: well-known proxy (etc) classes if (Proxy.isProxyClass(type)) { return true; } */ String name = type.getName(); // Hibernate uses proxies heavily as well: if (name.startsWith("net.sf.cglib.proxy.") || name.startsWith("org.hibernate.proxy.")) { return true; } // Not one of known proxies, nope: return false; } /** * Helper method that checks if given class is a concrete one; * that is, not an interface or abstract class. */ public static boolean isConcrete(Class<?> type) { int mod = type.getModifiers(); return (mod & (Modifier.INTERFACE | Modifier.ABSTRACT)) == 0; } public static boolean isConcrete(Member member) { int mod = member.getModifiers(); return (mod & (Modifier.INTERFACE | Modifier.ABSTRACT)) == 0; } public static boolean isCollectionMapOrArray(Class<?> type) { if (type.isArray()) return true; if (Collection.class.isAssignableFrom(type)) return true; if (Map.class.isAssignableFrom(type)) return true; return false; } public static boolean isBogusClass(Class<?> cls) { return (cls == Void.class || cls == Void.TYPE || cls == com.fasterxml.jackson.databind.annotation.NoClass.class); } public static boolean isNonStaticInnerClass(Class<?> cls) { return !Modifier.isStatic(cls.getModifiers()) && (getEnclosingClass(cls) != null); } /** * @since 2.7 */ public static boolean isObjectOrPrimitive(Class<?> cls) { return (cls == CLS_OBJECT) || cls.isPrimitive(); } /** * @since 2.9 */ public static boolean hasClass(Object inst, Class<?> raw) { // 10-Nov-2016, tatu: Could use `Class.isInstance()` if we didn't care // about being exactly that type return (inst != null) && (inst.getClass() == raw); } /** * @since 2.9 */ public static void verifyMustOverride(Class<?> expType, Object instance, String method) { if (instance.getClass() != expType) { throw new IllegalStateException(String.format( "Sub-class %s (of class %s) must override method '%s'", instance.getClass().getName(), expType.getName(), method)); } } /* /********************************************************** /* Method type detection methods /********************************************************** */ /** * @deprecated Since 2.6 not used; may be removed before 3.x */ @Deprecated // since 2.6 public static boolean hasGetterSignature(Method m) { // First: static methods can't be getters if (Modifier.isStatic(m.getModifiers())) { return false; } // Must take no args Class<?>[] pts = m.getParameterTypes(); if (pts != null && pts.length != 0) { return false; } // Can't be a void method if (Void.TYPE == m.getReturnType()) { return false; } // Otherwise looks ok: return true; } /* /********************************************************** /* Exception handling; simple re-throw /********************************************************** */ /** * Helper method that will check if argument is an {@link Error}, * and if so, (re)throw it; otherwise just return * * @since 2.9 */ public static Throwable throwIfError(Throwable t) { if (t instanceof Error) { throw (Error) t; } return t; } /** * Helper method that will check if argument is an {@link RuntimeException}, * and if so, (re)throw it; otherwise just return * * @since 2.9 */ public static Throwable throwIfRTE(Throwable t) { if (t instanceof RuntimeException) { throw (RuntimeException) t; } return t; } /** * Helper method that will check if argument is an {@link IOException}, * and if so, (re)throw it; otherwise just return * * @since 2.9 */ public static Throwable throwIfIOE(Throwable t) throws IOException { if (t instanceof IOException) { throw (IOException) t; } return t; } /* /********************************************************** /* Exception handling; other /********************************************************** */ /** * Method that can be used to find the "root cause", innermost * of chained (wrapped) exceptions. */ public static Throwable getRootCause(Throwable t) { while (t.getCause() != null) { t = t.getCause(); } return t; } /** * Method that works like by calling {@link #getRootCause} and then * either throwing it (if instanceof {@link IOException}), or * return. * * @since 2.8 */ public static Throwable throwRootCauseIfIOE(Throwable t) throws IOException { return throwIfIOE(getRootCause(t)); } /** * Method that will wrap 't' as an {@link IllegalArgumentException} if it * is a checked exception; otherwise (runtime exception or error) throw as is */ public static void throwAsIAE(Throwable t) { throwAsIAE(t, t.getMessage()); } /** * Method that will wrap 't' as an {@link IllegalArgumentException} (and with * specified message) if it * is a checked exception; otherwise (runtime exception or error) throw as is */ public static void throwAsIAE(Throwable t, String msg) { throwIfRTE(t); throwIfError(t); throw new IllegalArgumentException(msg, t); } /** * @since 2.9 */ public static <T> T throwAsMappingException(DeserializationContext ctxt, IOException e0) throws JsonMappingException { if (e0 instanceof JsonMappingException) { throw (JsonMappingException) e0; } JsonMappingException e = JsonMappingException.from(ctxt, e0.getMessage()); e.initCause(e0); throw e; } /** * Method that will locate the innermost exception for given Throwable; * and then wrap it as an {@link IllegalArgumentException} if it * is a checked exception; otherwise (runtime exception or error) throw as is */ public static void unwrapAndThrowAsIAE(Throwable t) { throwAsIAE(getRootCause(t)); } /** * Method that will locate the innermost exception for given Throwable; * and then wrap it as an {@link IllegalArgumentException} if it * is a checked exception; otherwise (runtime exception or error) throw as is */ public static void unwrapAndThrowAsIAE(Throwable t, String msg) { throwAsIAE(getRootCause(t), msg); } /** * Helper method that encapsulate logic in trying to close output generator * in case of failure; useful mostly in forcing flush()ing as otherwise * error conditions tend to be hard to diagnose. However, it is often the * case that output state may be corrupt so we need to be prepared for * secondary exception without masking original one. * * @since 2.8 */ public static void closeOnFailAndThrowAsIAE(JsonGenerator g, Exception fail) throws IOException { /* 04-Mar-2014, tatu: Let's try to prevent auto-closing of * structures, which typically causes more damage. */ g.disable(JsonGenerator.Feature.AUTO_CLOSE_JSON_CONTENT); try { g.close(); } catch (Exception e) { fail.addSuppressed(e); } throwIfIOE(fail); throwIfRTE(fail); throw new RuntimeException(fail); } /** * Helper method that encapsulate logic in trying to close given {@link Closeable} * in case of failure; useful mostly in forcing flush()ing as otherwise * error conditions tend to be hard to diagnose. However, it is often the * case that output state may be corrupt so we need to be prepared for * secondary exception without masking original one. * * @since 2.8 */ public static void closeOnFailAndThrowAsIAE(JsonGenerator g, Closeable toClose, Exception fail) throws IOException { if (g != null) { g.disable(JsonGenerator.Feature.AUTO_CLOSE_JSON_CONTENT); try { g.close(); } catch (Exception e) { fail.addSuppressed(e); } } if (toClose != null) { try { toClose.close(); } catch (Exception e) { fail.addSuppressed(e); } } throwIfIOE(fail); throwIfRTE(fail); throw new RuntimeException(fail); } /* /********************************************************** /* Instantiation /********************************************************** */ /** * Method that can be called to try to create an instantiate of * specified type. Instantiation is done using default no-argument * constructor. * * @param canFixAccess Whether it is possible to try to change access * rights of the default constructor (in case it is not publicly * accessible) or not. * * @throws IllegalArgumentException If instantiation fails for any reason; * except for cases where constructor throws an unchecked exception * (which will be passed as is) */ public static <T> T createInstance(Class<T> cls, boolean canFixAccess) throws IllegalArgumentException { Constructor<T> ctor = findConstructor(cls, canFixAccess); if (ctor == null) { throw new IllegalArgumentException("Class "+cls.getName()+" has no default (no arg) constructor"); } try { return ctor.newInstance(); } catch (Exception e) { ClassUtil.unwrapAndThrowAsIAE(e, "Failed to instantiate class "+cls.getName()+", problem: "+e.getMessage()); return null; } } public static <T> Constructor<T> findConstructor(Class<T> cls, boolean forceAccess) throws IllegalArgumentException { try { Constructor<T> ctor = cls.getDeclaredConstructor(); if (forceAccess) { checkAndFixAccess(ctor, forceAccess); } else { // Has to be public... if (!Modifier.isPublic(ctor.getModifiers())) { throw new IllegalArgumentException("Default constructor for "+cls.getName()+" is not accessible (non-public?): not allowed to try modify access via Reflection: can not instantiate type"); } } return ctor; } catch (NoSuchMethodException e) { ; } catch (Exception e) { ClassUtil.unwrapAndThrowAsIAE(e, "Failed to find default constructor of class "+cls.getName()+", problem: "+e.getMessage()); } return null; } /* /********************************************************** /* Class name, description access /********************************************************** */ /** * @since 2.9 */ public static Class<?> classOf(Object inst) { if (inst == null) { return null; } return inst.getClass(); } /** * @since 2.9 */ public static <T> T nonNull(T valueOrNull, T defaultValue) { return (valueOrNull == null) ? defaultValue : valueOrNull; } /** * @since 2.9 */ public static String nullOrToString(Object value) { if (value == null) { return null; } return value.toString(); } /** * @since 2.9 */ public static String nonNullString(String str) { if (str == null) { return ""; } return str; } /** * Returns either quoted value (with double-quotes) -- if argument non-null * String -- or String NULL (no quotes) (if null). * * @since 2.9 */ public static String quotedOr(Object str, String forNull) { if (str == null) { return forNull; } return String.format("\"%s\"", str); } /* /********************************************************** /* Type name handling methods /********************************************************** */ /** * Helper method used to construct appropriate description * when passed either type (Class) or an instance; in latter * case, class of instance is to be used. */ public static String getClassDescription(Object classOrInstance) { if (classOrInstance == null) { return "unknown"; } Class<?> cls = (classOrInstance instanceof Class<?>) ? (Class<?>) classOrInstance : classOrInstance.getClass(); return cls.getName(); } /** * @since 2.9 */ public static String classNameOf(Object inst) { if (inst == null) { return "[null]"; } return inst.getClass().getName(); } /** * Returns either `cls.getName()` (if `cls` not null), * or "[null]" if `cls` is null. * * @since 2.9 */ public static String nameOf(Class<?> cls) { if (cls == null) { return "[null]"; } if (cls.isArray()) { return nameOf(cls.getComponentType())+"[]"; } if (cls.isPrimitive()) { cls.getSimpleName(); } return cls.getName(); } /** * Returns either (double-)quoted `named.getName()` (if `named` not null), * or "[null]" if `named` is null. * * @since 2.9 */ public static String nameOf(Named named) { if (named == null) { return "[null]"; } return String.format("'%s'", named.getName()); } /* /********************************************************** /* Primitive type support /********************************************************** */ /** * Helper method used to get default value for wrappers used for primitive types * (0 for Integer etc) */ public static Object defaultValue(Class<?> cls) { if (cls == Integer.TYPE) { return Integer.valueOf(0); } if (cls == Long.TYPE) { return Long.valueOf(0L); } if (cls == Boolean.TYPE) { return Boolean.FALSE; } if (cls == Double.TYPE) { return Double.valueOf(0.0); } if (cls == Float.TYPE) { return Float.valueOf(0.0f); } if (cls == Byte.TYPE) { return Byte.valueOf((byte) 0); } if (cls == Short.TYPE) { return Short.valueOf((short) 0); } if (cls == Character.TYPE) { return '\0'; } throw new IllegalArgumentException("Class "+cls.getName()+" is not a primitive type"); } /** * Helper method for finding wrapper type for given primitive type (why isn't * there one in JDK?) */ public static Class<?> wrapperType(Class<?> primitiveType) { if (primitiveType == Integer.TYPE) { return Integer.class; } if (primitiveType == Long.TYPE) { return Long.class; } if (primitiveType == Boolean.TYPE) { return Boolean.class; } if (primitiveType == Double.TYPE) { return Double.class; } if (primitiveType == Float.TYPE) { return Float.class; } if (primitiveType == Byte.TYPE) { return Byte.class; } if (primitiveType == Short.TYPE) { return Short.class; } if (primitiveType == Character.TYPE) { return Character.class; } throw new IllegalArgumentException("Class "+primitiveType.getName()+" is not a primitive type"); } /** * Method that can be used to find primitive type for given class if (but only if) * it is either wrapper type or primitive type; returns `null` if type is neither. * * @since 2.7 */ public static Class<?> primitiveType(Class<?> type) { if (type.isPrimitive()) { return type; } if (type == Integer.class) { return Integer.TYPE; } if (type == Long.class) { return Long.TYPE; } if (type == Boolean.class) { return Boolean.TYPE; } if (type == Double.class) { return Double.TYPE; } if (type == Float.class) { return Float.TYPE; } if (type == Byte.class) { return Byte.TYPE; } if (type == Short.class) { return Short.TYPE; } if (type == Character.class) { return Character.TYPE; } return null; } /* /********************************************************** /* Access checking/handling methods /********************************************************** */ /** * Equivalent to call: *<pre> * checkAndFixAccess(member, false); *</pre> * * @deprecated Since 2.7 call variant that takes boolean flag. */ @Deprecated public static void checkAndFixAccess(Member member) { checkAndFixAccess(member, false); } /** * Method that is called if a {@link Member} may need forced access, * to force a field, method or constructor to be accessible: this * is done by calling {@link AccessibleObject#setAccessible(boolean)}. * * @param member Accessor to call <code>setAccessible()</code> on. * @param force Whether to always try to make accessor accessible (true), * or only if needed as per access rights (false) * * @since 2.7 */ public static void checkAndFixAccess(Member member, boolean force) { // We know all members are also accessible objects... AccessibleObject ao = (AccessibleObject) member; /* 14-Jan-2009, tatu: It seems safe and potentially beneficial to * always to make it accessible (latter because it will force * skipping checks we have no use for...), so let's always call it. */ try { if (force || (!Modifier.isPublic(member.getModifiers()) || !Modifier.isPublic(member.getDeclaringClass().getModifiers()))) { ao.setAccessible(true); } } catch (SecurityException se) { // 17-Apr-2009, tatu: Related to [JACKSON-101]: this can fail on platforms like // Google App Engine); so let's only fail if we really needed it... if (!ao.isAccessible()) { Class<?> declClass = member.getDeclaringClass(); throw new IllegalArgumentException("Can not access "+member+" (from class "+declClass.getName()+"; failed to set access: "+se.getMessage()); } } } /* /********************************************************** /* Enum type detection /********************************************************** */ /** * Helper method that can be used to dynamically figure out * enumeration type of given {@link EnumSet}, without having * access to its declaration. * Code is needed to work around design flaw in JDK. */ public static Class<? extends Enum<?>> findEnumType(EnumSet<?> s) { // First things first: if not empty, easy to determine if (!s.isEmpty()) { return findEnumType(s.iterator().next()); } // Otherwise need to locate using an internal field return EnumTypeLocator.instance.enumTypeFor(s); } /** * Helper method that can be used to dynamically figure out * enumeration type of given {@link EnumSet}, without having * access to its declaration. * Code is needed to work around design flaw in JDK. */ public static Class<? extends Enum<?>> findEnumType(EnumMap<?,?> m) { if (!m.isEmpty()) { return findEnumType(m.keySet().iterator().next()); } // Otherwise need to locate using an internal field return EnumTypeLocator.instance.enumTypeFor(m); } /** * Helper method that can be used to dynamically figure out formal * enumeration type (class) for given enumeration. This is either * class of enum instance (for "simple" enumerations), or its * superclass (for enums with instance fields or methods) */ @SuppressWarnings("unchecked") public static Class<? extends Enum<?>> findEnumType(Enum<?> en) { // enums with "body" are sub-classes of the formal type Class<?> ec = en.getClass(); if (ec.getSuperclass() != Enum.class) { ec = ec.getSuperclass(); } return (Class<? extends Enum<?>>) ec; } /** * Helper method that can be used to dynamically figure out formal * enumeration type (class) for given class of an enumeration value. * This is either class of enum instance (for "simple" enumerations), * or its superclass (for enums with instance fields or methods) */ @SuppressWarnings("unchecked") public static Class<? extends Enum<?>> findEnumType(Class<?> cls) { // enums with "body" are sub-classes of the formal type if (cls.getSuperclass() != Enum.class) { cls = cls.getSuperclass(); } return (Class<? extends Enum<?>>) cls; } /** * A method that will look for the first Enum value annotated with the given Annotation. * <p> * If there's more than one value annotated, the first one found will be returned. Which one exactly is used is undetermined. * * @param enumClass The Enum class to scan for a value with the given annotation * @param annotationClass The annotation to look for. * @return the Enum value annotated with the given Annotation or {@code null} if none is found. * @throws IllegalArgumentException if there's a reflection issue accessing the Enum * @since 2.8 */ public static <T extends Annotation> Enum<?> findFirstAnnotatedEnumValue(Class<Enum<?>> enumClass, Class<T> annotationClass) { Field[] fields = getDeclaredFields(enumClass); for (Field field : fields) { if (field.isEnumConstant()) { Annotation defaultValueAnnotation = field.getAnnotation(annotationClass); if (defaultValueAnnotation != null) { final String name = field.getName(); for (Enum<?> enumValue : enumClass.getEnumConstants()) { if (name.equals(enumValue.name())) { return enumValue; } } } } } return null; } /* /********************************************************** /* Jackson-specific stuff /********************************************************** */ /** * Method that can be called to determine if given Object is the default * implementation Jackson uses; as opposed to a custom serializer installed by * a module or calling application. Determination is done using * {@link JacksonStdImpl} annotation on handler (serializer, deserializer etc) * class. *<p> * NOTE: passing `null` is legal, and will result in <code>true</code> * being returned. */ public static boolean isJacksonStdImpl(Object impl) { return (impl == null) || isJacksonStdImpl(impl.getClass()); } public static boolean isJacksonStdImpl(Class<?> implClass) { return (implClass.getAnnotation(JacksonStdImpl.class) != null); } /* /********************************************************** /* Access to various Class definition aspects; possibly /* cacheable; and attempts was made in 2.7.0 - 2.7.7; however /* unintented retention (~= memory leak) wrt [databind#1363] /* resulted in removal of caching /********************************************************** */ /** * @since 2.7 */ public static String getPackageName(Class<?> cls) { Package pkg = cls.getPackage(); return (pkg == null) ? null : pkg.getName(); } /** * @since 2.7 */ public static boolean hasEnclosingMethod(Class<?> cls) { return !isObjectOrPrimitive(cls) && (cls.getEnclosingMethod() != null); } /** * @since 2.7 */ public static Field[] getDeclaredFields(Class<?> cls) { return cls.getDeclaredFields(); } /** * @since 2.7 */ public static Method[] getDeclaredMethods(Class<?> cls) { return cls.getDeclaredMethods(); } /** * @since 2.7 */ public static Annotation[] findClassAnnotations(Class<?> cls) { if (isObjectOrPrimitive(cls)) { return NO_ANNOTATIONS; } return cls.getDeclaredAnnotations(); } /** * Helper method that gets methods declared in given class; usually a simple thing, * but sometimes (as per [databind#785]) more complicated, depending on classloader * setup. * * @since 2.9 */ public static Method[] getClassMethods(Class<?> cls) { try { return ClassUtil.getDeclaredMethods(cls); } catch (final NoClassDefFoundError ex) { // One of the methods had a class that was not found in the cls.getClassLoader. // Maybe the developer was nice and has a different class loader for this context. final ClassLoader loader = Thread.currentThread().getContextClassLoader(); if (loader == null){ // Nope... this is going to end poorly throw ex; } final Class<?> contextClass; try { contextClass = loader.loadClass(cls.getName()); } catch (ClassNotFoundException e) { ex.addSuppressed(e); throw ex; } return contextClass.getDeclaredMethods(); // Cross fingers } } /** * @since 2.7 */ public static Ctor[] getConstructors(Class<?> cls) { // Note: can NOT skip abstract classes as they may be used with mix-ins // and for regular use shouldn't really matter. if (cls.isInterface() || isObjectOrPrimitive(cls)) { return NO_CTORS; } Constructor<?>[] rawCtors = cls.getDeclaredConstructors(); final int len = rawCtors.length; Ctor[] result = new Ctor[len]; for (int i = 0; i < len; ++i) { result[i] = new Ctor(rawCtors[i]); } return result; } // // // Then methods that do NOT cache access but were considered // // // (and could be added to do caching if it was proven effective) /** * @since 2.7 */ public static Class<?> getDeclaringClass(Class<?> cls) { return isObjectOrPrimitive(cls) ? null : cls.getDeclaringClass(); } /** * @since 2.7 */ public static Type getGenericSuperclass(Class<?> cls) { return cls.getGenericSuperclass(); } /** * @since 2.7 */ public static Type[] getGenericInterfaces(Class<?> cls) { return cls.getGenericInterfaces(); } /** * @since 2.7 */ public static Class<?> getEnclosingClass(Class<?> cls) { // Caching does not seem worthwhile, as per profiling return isObjectOrPrimitive(cls) ? null : cls.getEnclosingClass(); } private static Class<?>[] _interfaces(Class<?> cls) { return cls.getInterfaces(); } /* /********************************************************** /* Helper classes /********************************************************** */ /** * Inner class used to contain gory details of how we can determine * details of instances of common JDK types like {@link EnumMap}s. */ private static class EnumTypeLocator { final static EnumTypeLocator instance = new EnumTypeLocator(); private final Field enumSetTypeField; private final Field enumMapTypeField; private EnumTypeLocator() { //JDK uses following fields to store information about actual Enumeration // type for EnumSets, EnumMaps... enumSetTypeField = locateField(EnumSet.class, "elementType", Class.class); enumMapTypeField = locateField(EnumMap.class, "elementType", Class.class); } @SuppressWarnings("unchecked") public Class<? extends Enum<?>> enumTypeFor(EnumSet<?> set) { if (enumSetTypeField != null) { return (Class<? extends Enum<?>>) get(set, enumSetTypeField); } throw new IllegalStateException("Can not figure out type for EnumSet (odd JDK platform?)"); } @SuppressWarnings("unchecked") public Class<? extends Enum<?>> enumTypeFor(EnumMap<?,?> set) { if (enumMapTypeField != null) { return (Class<? extends Enum<?>>) get(set, enumMapTypeField); } throw new IllegalStateException("Can not figure out type for EnumMap (odd JDK platform?)"); } private Object get(Object bean, Field field) { try { return field.get(bean); } catch (Exception e) { throw new IllegalArgumentException(e); } } private static Field locateField(Class<?> fromClass, String expectedName, Class<?> type) { Field found = null; // First: let's see if we can find exact match: Field[] fields = getDeclaredFields(fromClass); for (Field f : fields) { if (expectedName.equals(f.getName()) && f.getType() == type) { found = f; break; } } // And if not, if there is just one field with the type, that field if (found == null) { for (Field f : fields) { if (f.getType() == type) { // If more than one, can't choose if (found != null) return null; found = f; } } } if (found != null) { // it's non-public, need to force accessible try { found.setAccessible(true); } catch (Throwable t) { } } return found; } } /* /********************************************************** /* Helper classed used for caching /********************************************************** */ /** * Value class used for caching Constructor declarations; used because * caching done by JDK appears to be somewhat inefficient for some use cases. * * @since 2.7 */ public final static class Ctor { public final Constructor<?> _ctor; private Annotation[] _annotations; private Annotation[][] _paramAnnotations; private int _paramCount = -1; public Ctor(Constructor<?> ctor) { _ctor = ctor; } public Constructor<?> getConstructor() { return _ctor; } public int getParamCount() { int c = _paramCount; if (c < 0) { c = _ctor.getParameterTypes().length; _paramCount = c; } return c; } public Class<?> getDeclaringClass() { return _ctor.getDeclaringClass(); } public Annotation[] getDeclaredAnnotations() { Annotation[] result = _annotations; if (result == null) { result = _ctor.getDeclaredAnnotations(); _annotations = result; } return result; } public Annotation[][] getParameterAnnotations() { Annotation[][] result = _paramAnnotations; if (result == null) { result = _ctor.getParameterAnnotations(); _paramAnnotations = result; } return result; } } }