/* * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package java.io; import java.lang.ref.WeakReference; import java.util.Arrays; import java.util.Comparator; /** * Describes a field for the purpose of serialization. Classes can define the * collection of fields that are serialized, which may be different from the set * of all declared fields. * * @see ObjectOutputStream#writeFields() * @see ObjectInputStream#readFields() */ public class ObjectStreamField implements Comparable { // Declared name of the field private String name; // Declared type of the field private Object type; // offset of this field in the object int offset; // Cached version of intern'ed type String private String typeString; private boolean unshared; private boolean isDeserialized; /** * Constructs an ObjectStreamField with the specified name and type. * * @param name * the name of the field. * @param cl * the type of the field. * @throws NullPointerException * if {@code name} or {@code cl} is {@code null}. */ public ObjectStreamField(String name, Class cl) { this(name, cl, false); } /** * Constructs an ObjectStreamField with the specified name, type and the * indication if it is unshared. * * @param name * the name of the field. * @param cl * the type of the field. * @param unshared * {@code true} if the field is written and read unshared; * {@code false} otherwise. * @throws NullPointerException * if {@code name} or {@code cl} is {@code null}. * @see ObjectOutputStream#writeUnshared(Object) */ public ObjectStreamField(String name, Class cl, boolean unshared) { if (name == null) { throw new NullPointerException("name == null"); } else if (cl == null) { throw new NullPointerException("cl == null"); } this.name = name; this.type = (cl.getClassLoader() == null) ? cl : new WeakReference>(cl); this.unshared = unshared; } /** * Constructs an ObjectStreamField with the given name and the given type. * The type may be null. * * @param signature * A String representing the type of the field * @param name * a String, the name of the field, or null */ ObjectStreamField(String signature, String name) { if (name == null) { throw new NullPointerException("name == null"); } this.name = name; this.typeString = signature.replace('.', '/').intern(); defaultResolve(); this.isDeserialized = true; } /** * Compares this field descriptor to the specified one. Checks first if one * of the compared fields has a primitive type and the other one not. If so, * the field with the primitive type is considered to be "smaller". If both * fields are equal, their names are compared. * * @param o * the object to compare with. * @return -1 if this field is "smaller" than field {@code o}, 0 if both * fields are equal; 1 if this field is "greater" than field {@code * o}. */ public int compareTo(Object o) { ObjectStreamField f = (ObjectStreamField) o; boolean thisPrimitive = this.isPrimitive(); boolean fPrimitive = f.isPrimitive(); // If one is primitive and the other isn't, we have enough info to // compare if (thisPrimitive != fPrimitive) { return thisPrimitive ? -1 : 1; } // Either both primitives or both not primitives. Compare based on name. return this.getName().compareTo(f.getName()); } /** * Gets the name of this field. * * @return the field's name. */ public String getName() { return name; } /** * Gets the offset of this field in the object. * * @return this field's offset. */ public int getOffset() { return offset; } /** * Return the type of the field the receiver represents, this is an internal * method * * @return A Class object representing the type of the field */ // Changed from private to default visibility for usage in ObjectStreamClass /* package */ Class getTypeInternal() { if (type instanceof WeakReference) { return (Class) ((WeakReference) type).get(); } return (Class) type; } /** * Gets the type of this field. * * @return a {@code Class} object representing the type of the field. */ public Class getType() { Class cl = getTypeInternal(); if (isDeserialized && !cl.isPrimitive()) { return Object.class; } return cl; } /** * Gets a character code for the type of this field. The following codes are * used: * *
     * B     byte
     * C     char
     * D     double
     * F     float
     * I     int
     * J     long
     * L     class or interface
     * S     short
     * Z     boolean
     * [     array
     * 
* * @return the field's type code. */ public char getTypeCode() { return typeCodeOf(getTypeInternal()); } private char typeCodeOf(Class type) { if (type == int.class) { return 'I'; } else if (type == byte.class) { return 'B'; } else if (type == char.class) { return 'C'; } else if (type == short.class) { return 'S'; } else if (type == boolean.class) { return 'Z'; } else if (type == long.class) { return 'J'; } else if (type == float.class) { return 'F'; } else if (type == double.class) { return 'D'; } else if (type.isArray()) { return '['; } else { return 'L'; } } /** * Gets the type signature used by the VM to represent the type of this * field. * * @return the signature of this field's class or {@code null} if this * field's type is primitive. */ public String getTypeString() { if (isPrimitive()) { return null; } if (typeString == null) { Class t = getTypeInternal(); String typeName = t.getName().replace('.', '/'); String str = (t.isArray()) ? typeName : ("L" + typeName + ';'); typeString = str.intern(); } return typeString; } /** * Indicates whether this field's type is a primitive type. * * @return {@code true} if this field's type is primitive; {@code false} if * the type of this field is a regular class. */ public boolean isPrimitive() { Class t = getTypeInternal(); return t != null && t.isPrimitive(); } boolean writeField(DataOutputStream out) throws IOException { Class t = getTypeInternal(); out.writeByte(typeCodeOf(t)); out.writeUTF(name); return (t != null && t.isPrimitive()); } /** * Sets this field's offset in the object. * * @param newValue * the field's new offset. */ protected void setOffset(int newValue) { this.offset = newValue; } /** * Returns a string containing a concise, human-readable description of this * field descriptor. * * @return a printable representation of this descriptor. */ @Override public String toString() { return this.getClass().getName() + '(' + getName() + ':' + getTypeInternal() + ')'; } void resolve(ClassLoader loader) { if (typeString == null && isPrimitive()) { // primitive type declared in a serializable class typeString = String.valueOf(getTypeCode()); } if (typeString.length() == 1) { if (defaultResolve()) { return; } } String className = typeString.replace('/', '.'); if (className.charAt(0) == 'L') { // remove L and ; className = className.substring(1, className.length() - 1); } try { Class cl = Class.forName(className, false, loader); type = (cl.getClassLoader() == null) ? cl : new WeakReference>(cl); } catch (ClassNotFoundException e) { // Ignored } } /** * Indicates whether this field is unshared. * * @return {@code true} if this field is unshared, {@code false} otherwise. */ public boolean isUnshared() { return unshared; } void setUnshared(boolean unshared) { this.unshared = unshared; } /** * Resolves typeString into type. Returns true if the type is primitive * and false otherwise. */ private boolean defaultResolve() { switch (typeString.charAt(0)) { case 'I': type = int.class; return true; case 'B': type = byte.class; return true; case 'C': type = char.class; return true; case 'S': type = short.class; return true; case 'Z': type = boolean.class; return true; case 'J': type = long.class; return true; case 'F': type = float.class; return true; case 'D': type = double.class; return true; default: type = Object.class; return false; } } }