Serialization and deserialization must serialize and deserialization the data structures defined in [DFL] according to the rules specified in this specification.怎么理解
时间: 2024-04-25 09:26:24 浏览: 7
这段话的意思是,在这个规范中,序列化和反序列化必须按照规范中指定的规则对[DFL]中定义的数据结构进行序列化和反序列化。也就是说,这个规范对于[DFL]中定义的数据结构的序列化和反序列化必须按照规范中规定的方式进行。[DFL]是AUTOSAR中的数据定义语言,用于定义AUTOSAR软件组件之间的数据通信。因此,在这个规范中,序列化和反序列化必须按照[DFL]中定义的数据结构进行,以确保在AUTOSAR软件组件之间进行数据通信时能够正确地序列化和反序列化数据。这个规范提供了一种通用的方法来定义数据的序列化格式和相关算法,使其适用于AUTOSAR系统中的数据通信。
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Note: the chapter "Serialization" contains only the requirements for the format of the data on the transmission line and thus the requirements for the serialization and deserialization. It does not include requirements for data definition, interface description and code generator.怎么理解
这段话的意思是,"Serialization" 章节仅包含数据在传输线上的格式要求以及序列化和反序列化的要求。它不包括数据定义、接口描述和代码生成器的要求。也就是说,这个章节只关注数据在传输线上的格式和序列化和反序列化的实现,而不涉及数据定义、接口描述和代码生成器的规范和要求。因此,在实现序列化和反序列化的同时,还需要遵循数据定义、接口描述和代码生成器的规范和要求,以确保整个系统的正确性和稳定性。
Serializability of a class is enabled by the class implementing the java.io.Serializable interface. Classes that do not implement this interface will not have any of their state serialized or deserialized. All subtypes of a serializable class are themselves serializable. The serialization interface has no methods or fields and serves only to identify the semantics of being serializable. To allow subtypes of non-serializable classes to be serialized, the subtype may assume responsibility for saving and restoring the state of the supertype's public, protected, and (if accessible) package fields. The subtype may assume this responsibility only if the class it extends has an accessible no-arg constructor to initialize the class's state. It is an error to declare a class Serializable if this is not the case. The error will be detected at runtime. During deserialization, the fields of non-serializable classes will be initialized using the public or protected no-arg constructor of the class. A no-arg constructor must be accessible to the subclass that is serializable. The fields of serializable subclasses will be restored from the stream. When traversing a graph, an object may be encountered that does not support the Serializable interface. In this case the NotSerializableException will be thrown and will identify the class of the non-serializable object. Classes that require special handling during the serialization and deserialization process must implement special methods with these exact signatures: private void writeObject(java.io.ObjectOutputStream out) throws IOException private void readObject(java.io.ObjectInputStream in) throws IOException, ClassNotFoundException; private void readObjectNoData() throws ObjectStreamException;
一个类实现了java.io.Serializable接口就可以启用类的序列化功能。没有实现这个接口的类将不会序列化或反序列化其任何状态。可序列化类的所有子类型也都是可序列化的。序列化接口没有方法或字段,仅用于标识可序列化的语义。
为了允许非可序列化类的子类型被序列化,子类型可以承担起保存和恢复超类型的公共、受保护和(如果可访问)包字段状态的责任。只有当扩展的类具有可访问的无参构造函数来初始化类的状态时,子类型才能承担这个责任。如果不满足这个条件,声明一个类为Serializable将会导致错误,在运行时将会被检测到。
在反序列化过程中,非可序列化类的字段将使用该类的公共或受保护的无参构造函数进行初始化。无参构造函数必须对可序列化的子类可访问。可序列化子类的字段将从流中恢复。
在遍历图形时,可能会遇到不支持Serializable接口的对象。在这种情况下,将抛出NotSerializableException,并且会标识非可序列化对象的类。
需要在序列化和反序列化过程中进行特殊处理的类必须实现具有以下确切签名的特殊方法:
private void writeObject(java.io.ObjectOutputStream out)
throws IOException
private void readObject(java.io.ObjectInputStream in)
throws IOException, ClassNotFoundException;
private void readObjectNoData()
throws ObjectStreamException;