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Custom Hibernate types for serializing fields as JSON, using either jackson or gson

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package net.optionfactory.hj.jackson.reflection;

/*
 * Copyright 2002-2015 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
 *
 *      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.
 */

import java.lang.annotation.Annotation;
import java.lang.reflect.AnnotatedElement;
import java.lang.reflect.Constructor;
import java.lang.reflect.Member;
import java.lang.reflect.Method;
import java.lang.reflect.ParameterizedType;
import java.lang.reflect.Type;
import java.util.HashMap;
import java.util.Map;

/**
 * Helper class that encapsulates the specification of a method parameter, i.e.
 * a {@link Method} or {@link Constructor} plus a parameter index and a nested
 * type index for a declared generic type. Useful as a specification object to
 * pass along.
 *
 * 

As of 4.2, there is a {@link org.springframework.core.annotation.SynthesizingMethodParameter * SynthesizingMethodParameter} subclass available which synthesizes annotations * with attribute aliases. That subclass is used for web and message endpoint * processing, in particular. * * @author Juergen Hoeller * @author Rob Harrop * @author Andy Clement * @author Sam Brannen * @since 2.0 * @see GenericCollectionTypeResolver * @see org.springframework.core.annotation.SynthesizingMethodParameter */ public class MethodParameter { private final Method method; private final Constructor constructor; private final int parameterIndex; private int nestingLevel = 1; /** Map from Integer level to Integer type index */ Map typeIndexesPerLevel; private volatile Class containingClass; private volatile Class parameterType; private volatile Type genericParameterType; private volatile Annotation[] parameterAnnotations; private volatile ParameterNameDiscoverer parameterNameDiscoverer; private volatile String parameterName; /** * Create a new {@code MethodParameter} for the given method, with nesting level 1. * @param method the Method to specify a parameter for * @param parameterIndex the index of the parameter: -1 for the method * return type; 0 for the first method parameter; 1 for the second method * parameter, etc. */ public MethodParameter(Method method, int parameterIndex) { this(method, parameterIndex, 1); } /** * Create a new {@code MethodParameter} for the given method. * @param method the Method to specify a parameter for * @param parameterIndex the index of the parameter: -1 for the method * return type; 0 for the first method parameter; 1 for the second method * parameter, etc. * @param nestingLevel the nesting level of the target type * (typically 1; e.g. in case of a List of Lists, 1 would indicate the * nested List, whereas 2 would indicate the element of the nested List) */ public MethodParameter(Method method, int parameterIndex, int nestingLevel) { Assert.notNull(method, "Method must not be null"); this.method = method; this.parameterIndex = parameterIndex; this.nestingLevel = nestingLevel; this.constructor = null; } /** * Create a new MethodParameter for the given constructor, with nesting level 1. * @param constructor the Constructor to specify a parameter for * @param parameterIndex the index of the parameter */ public MethodParameter(Constructor constructor, int parameterIndex) { this(constructor, parameterIndex, 1); } /** * Create a new MethodParameter for the given constructor. * @param constructor the Constructor to specify a parameter for * @param parameterIndex the index of the parameter * @param nestingLevel the nesting level of the target type * (typically 1; e.g. in case of a List of Lists, 1 would indicate the * nested List, whereas 2 would indicate the element of the nested List) */ public MethodParameter(Constructor constructor, int parameterIndex, int nestingLevel) { Assert.notNull(constructor, "Constructor must not be null"); this.constructor = constructor; this.parameterIndex = parameterIndex; this.nestingLevel = nestingLevel; this.method = null; } /** * Copy constructor, resulting in an independent MethodParameter object * based on the same metadata and cache state that the original object was in. * @param original the original MethodParameter object to copy from */ public MethodParameter(MethodParameter original) { Assert.notNull(original, "Original must not be null"); this.method = original.method; this.constructor = original.constructor; this.parameterIndex = original.parameterIndex; this.nestingLevel = original.nestingLevel; this.typeIndexesPerLevel = original.typeIndexesPerLevel; this.containingClass = original.containingClass; this.parameterType = original.parameterType; this.genericParameterType = original.genericParameterType; this.parameterAnnotations = original.parameterAnnotations; this.parameterNameDiscoverer = original.parameterNameDiscoverer; this.parameterName = original.parameterName; } /** * Return the wrapped Method, if any. *

Note: Either Method or Constructor is available. * @return the Method, or {@code null} if none */ public Method getMethod() { return this.method; } /** * Return the wrapped Constructor, if any. *

Note: Either Method or Constructor is available. * @return the Constructor, or {@code null} if none */ public Constructor getConstructor() { return this.constructor; } /** * Returns the wrapped member. * @return the Method or Constructor as Member */ public Member getMember() { // NOTE: no ternary expression to retain JDK <8 compatibility even when using // the JDK 8 compiler (potentially selecting java.lang.reflect.Executable // as common type, with that new base class not available on older JDKs) if (this.method != null) { return this.method; } else { return this.constructor; } } /** * Returns the wrapped annotated element. * @return the Method or Constructor as AnnotatedElement */ public AnnotatedElement getAnnotatedElement() { // NOTE: no ternary expression to retain JDK <8 compatibility even when using // the JDK 8 compiler (potentially selecting java.lang.reflect.Executable // as common type, with that new base class not available on older JDKs) if (this.method != null) { return this.method; } else { return this.constructor; } } /** * Return the class that declares the underlying Method or Constructor. */ public Class getDeclaringClass() { return getMember().getDeclaringClass(); } /** * Return the index of the method/constructor parameter. * @return the parameter index (-1 in case of the return type) */ public int getParameterIndex() { return this.parameterIndex; } /** * Increase this parameter's nesting level. * @see #getNestingLevel() */ public void increaseNestingLevel() { this.nestingLevel++; } /** * Decrease this parameter's nesting level. * @see #getNestingLevel() */ public void decreaseNestingLevel() { getTypeIndexesPerLevel().remove(this.nestingLevel); this.nestingLevel--; } /** * Return the nesting level of the target type * (typically 1; e.g. in case of a List of Lists, 1 would indicate the * nested List, whereas 2 would indicate the element of the nested List). */ public int getNestingLevel() { return this.nestingLevel; } /** * Set the type index for the current nesting level. * @param typeIndex the corresponding type index * (or {@code null} for the default type index) * @see #getNestingLevel() */ public void setTypeIndexForCurrentLevel(int typeIndex) { getTypeIndexesPerLevel().put(this.nestingLevel, typeIndex); } /** * Return the type index for the current nesting level. * @return the corresponding type index, or {@code null} * if none specified (indicating the default type index) * @see #getNestingLevel() */ public Integer getTypeIndexForCurrentLevel() { return getTypeIndexForLevel(this.nestingLevel); } /** * Return the type index for the specified nesting level. * @param nestingLevel the nesting level to check * @return the corresponding type index, or {@code null} * if none specified (indicating the default type index) */ public Integer getTypeIndexForLevel(int nestingLevel) { return getTypeIndexesPerLevel().get(nestingLevel); } /** * Obtain the (lazily constructed) type-indexes-per-level Map. */ private Map getTypeIndexesPerLevel() { if (this.typeIndexesPerLevel == null) { this.typeIndexesPerLevel = new HashMap(4); } return this.typeIndexesPerLevel; } /** * Set a containing class to resolve the parameter type against. */ void setContainingClass(Class containingClass) { this.containingClass = containingClass; } public Class getContainingClass() { return (this.containingClass != null ? this.containingClass : getDeclaringClass()); } /** * Set a resolved (generic) parameter type. */ void setParameterType(Class parameterType) { this.parameterType = parameterType; } /** * Return the type of the method/constructor parameter. * @return the parameter type (never {@code null}) */ public Class getParameterType() { if (this.parameterType == null) { if (this.parameterIndex < 0) { this.parameterType = (this.method != null ? this.method.getReturnType() : null); } else { this.parameterType = (this.method != null ? this.method.getParameterTypes()[this.parameterIndex] : this.constructor.getParameterTypes()[this.parameterIndex]); } } return this.parameterType; } /** * Return the generic type of the method/constructor parameter. * @return the parameter type (never {@code null}) * @since 3.0 */ public Type getGenericParameterType() { if (this.genericParameterType == null) { if (this.parameterIndex < 0) { this.genericParameterType = (this.method != null ? this.method.getGenericReturnType() : null); } else { this.genericParameterType = (this.method != null ? this.method.getGenericParameterTypes()[this.parameterIndex] : this.constructor.getGenericParameterTypes()[this.parameterIndex]); } } return this.genericParameterType; } /** * Return the nested type of the method/constructor parameter. * @return the parameter type (never {@code null}) * @see #getNestingLevel() * @since 3.1 */ public Class getNestedParameterType() { if (this.nestingLevel > 1) { Type type = getGenericParameterType(); for (int i = 2; i <= this.nestingLevel; i++) { if (type instanceof ParameterizedType) { Type[] args = ((ParameterizedType) type).getActualTypeArguments(); Integer index = getTypeIndexForLevel(i); type = args[index != null ? index : args.length - 1]; } } if (type instanceof Class) { return (Class) type; } else if (type instanceof ParameterizedType) { Type arg = ((ParameterizedType) type).getRawType(); if (arg instanceof Class) { return (Class) arg; } } return Object.class; } else { return getParameterType(); } } /** * Return the nested generic type of the method/constructor parameter. * @return the parameter type (never {@code null}) * @see #getNestingLevel() * @since 4.2 */ public Type getNestedGenericParameterType() { if (this.nestingLevel > 1) { Type type = getGenericParameterType(); for (int i = 2; i <= this.nestingLevel; i++) { if (type instanceof ParameterizedType) { Type[] args = ((ParameterizedType) type).getActualTypeArguments(); Integer index = getTypeIndexForLevel(i); type = args[index != null ? index : args.length - 1]; } } return type; } else { return getGenericParameterType(); } } /** * Return the annotations associated with the target method/constructor itself. */ public Annotation[] getMethodAnnotations() { return adaptAnnotationArray(getAnnotatedElement().getAnnotations()); } /** * Return the method/constructor annotation of the given type, if available. * @param annotationType the annotation type to look for * @return the annotation object, or {@code null} if not found */ public A getMethodAnnotation(Class annotationType) { return adaptAnnotation(getAnnotatedElement().getAnnotation(annotationType)); } /** * Return the annotations associated with the specific method/constructor parameter. */ public Annotation[] getParameterAnnotations() { if (this.parameterAnnotations == null) { Annotation[][] annotationArray = (this.method != null ? this.method.getParameterAnnotations() : this.constructor.getParameterAnnotations()); if (this.parameterIndex >= 0 && this.parameterIndex < annotationArray.length) { this.parameterAnnotations = adaptAnnotationArray(annotationArray[this.parameterIndex]); } else { this.parameterAnnotations = new Annotation[0]; } } return this.parameterAnnotations; } /** * Return the parameter annotation of the given type, if available. * @param annotationType the annotation type to look for * @return the annotation object, or {@code null} if not found */ @SuppressWarnings("unchecked") public T getParameterAnnotation(Class annotationType) { Annotation[] anns = getParameterAnnotations(); for (Annotation ann : anns) { if (annotationType.isInstance(ann)) { return (T) ann; } } return null; } /** * Return true if the parameter has at least one annotation, false if it has none. */ public boolean hasParameterAnnotations() { return (getParameterAnnotations().length != 0); } /** * Return true if the parameter has the given annotation type, and false if it doesn't. */ public boolean hasParameterAnnotation(Class annotationType) { return (getParameterAnnotation(annotationType) != null); } /** * Initialize parameter name discovery for this method parameter. *

This method does not actually try to retrieve the parameter name at * this point; it just allows discovery to happen when the application calls * {@link #getParameterName()} (if ever). */ public void initParameterNameDiscovery(ParameterNameDiscoverer parameterNameDiscoverer) { this.parameterNameDiscoverer = parameterNameDiscoverer; } /** * Return the name of the method/constructor parameter. * @return the parameter name (may be {@code null} if no * parameter name metadata is contained in the class file or no * {@link #initParameterNameDiscovery ParameterNameDiscoverer} * has been set to begin with) */ public String getParameterName() { ParameterNameDiscoverer discoverer = this.parameterNameDiscoverer; if (discoverer != null) { String[] parameterNames = (this.method != null ? discoverer.getParameterNames(this.method) : discoverer.getParameterNames(this.constructor)); if (parameterNames != null) { this.parameterName = parameterNames[this.parameterIndex]; } this.parameterNameDiscoverer = null; } return this.parameterName; } /** * A template method to post-process a given annotation instance before * returning it to the caller. *

The default implementation simply returns the given annotation as-is. * @param annotation the annotation about to be returned * @return the post-processed annotation (or simply the original one) * @since 4.2 */ protected A adaptAnnotation(A annotation) { return annotation; } /** * A template method to post-process a given annotation array before * returning it to the caller. *

The default implementation simply returns the given annotation array as-is. * @param annotations the annotation array about to be returned * @return the post-processed annotation array (or simply the original one) * @since 4.2 */ protected Annotation[] adaptAnnotationArray(Annotation[] annotations) { return annotations; } @Override public boolean equals(Object other) { if (this == other) { return true; } if (!(other instanceof MethodParameter)) { return false; } MethodParameter otherParam = (MethodParameter) other; return (this.parameterIndex == otherParam.parameterIndex && getMember().equals(otherParam.getMember())); } @Override public int hashCode() { return (getMember().hashCode() * 31 + this.parameterIndex); } /** * Create a new MethodParameter for the given method or constructor. *

This is a convenience constructor for scenarios where a * Method or Constructor reference is treated in a generic fashion. * @param methodOrConstructor the Method or Constructor to specify a parameter for * @param parameterIndex the index of the parameter * @return the corresponding MethodParameter instance */ public static MethodParameter forMethodOrConstructor(Object methodOrConstructor, int parameterIndex) { if (methodOrConstructor instanceof Method) { return new MethodParameter((Method) methodOrConstructor, parameterIndex); } else if (methodOrConstructor instanceof Constructor) { return new MethodParameter((Constructor) methodOrConstructor, parameterIndex); } else { throw new IllegalArgumentException( "Given object [" + methodOrConstructor + "] is neither a Method nor a Constructor"); } } }





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