はじめに
The Cloneable interface in java is a marker interface. It does have any method. But if we write a class as below, it gives a message to the jvm that the class can be cloned. The following code shows a simple object cloning process –
[コード]
package com.home.cloning;
公共 クラス CloneClass implements Cloneable {
int型 A;
double B;
// This method calls Object’s clone().
CloneClass getClone() {
試す {
// call clone in Object.
リターン (CloneClass) スーパー.clone();
} キャッチ (CloneNotSupportedException e) {
システム.外に.のprintln (” Cloning not allowed. ” );
リターン this;
}
}
}
[/コード]
Let us check the second example below.
[コード]
package com.home.cloning;
公共 クラス TestCloneObject {
公共 ボイド testIface() {
CloneClass x1 = 新しい CloneClass();
CloneClass x2;
x1.a = 15;
x1.b = 35.05;
x2 = x1.getClone(); // clone x1
システム.外に.のprintln(” x1: ” + x1.a + ” ” + x1.b);
システム.外に.のprintln(” x2: ” + x2.a + ” ” + x2.b);
}
公共 静的 ボイド メイン(String args[]) {
TestCloneObject testCloneObject = 新しい TestCloneObject();
// test via protected
testCloneObject.testIface();
}
}
In the above example, the method [コード] getClone [/コード] calls the [コード] clone [/コード] method in the object and returns the object. It must be noticed here that the object with is returned after the cloning mechanism has to be type casted into its appropriate type, in this case it is
[コード] CloneClass [/コード]
If the class is not implementing the cloneable interface, and we try to clone that object we get a
[コード] CloneNotSupportedException [/コード]
In the process of cloning, the constructor is not called rather an exact copy of the said object is created. But the object of which the clone is created, must implement the cloneable interface.
ザ・ クラス Object’s clone() method creates and returns a copy of the object, with the same class and with all the fields having the same values. However, [コード] Object.clone() [/コード] throws a [コード] CloneNotSupportedException [/コード] unless the object is an instance of a class that implements the marker interface Cloneable.
The default implementation of [コード] Object.clone()[/コード] performs a shallow copy. If a class requires a deep copy or some other custom behavior, it must have its customized [コード] clone()[/コード] method after they obtain the copy from the superclass.
Advantages of cloning
Cloning mechanism saves extra task of the developer in case we need to create a copy of an object. We do not need to call the [コード] 新しい [/コード] operator of the object. Thus cloning saves a lot of extra processing task of developer. A clone of an object is an exact copy of the object.
Disadvantages of cloning
One disadvantage of cloning is that the return type of the [コード] clone [/コード] method is an [コード] Object [/コード]. Hence a type casting is required on the created object.
Another disadvantage is that it is not possible to access the [コード] clone [/コード] method on an abstract type. Most interfaces and abstract classes in Java do not have the specify a public [コード] clone [/コード] 方法. 結果として, the [コード] clone [/コード] method is used only if the actual class of an object is known, which is against the abstraction principle of using the most generic type possible. For example, if one has a List reference in Java, one cannot invoke [コード] clone [/コード] method on that reference because List specifies no public clone() 方法. Actual implementations of List like ArrayList and LinkedList all generally have clone() methods themselves, but it is inconvenient and bad abstraction to carry around the actual class type of an object.
Cloning is a potentially dangerous action, as it can have some unintended side effects. e.g, if the object being cloned contains a reference variable say refObject, then in the cloned object, refObject will have the reference of the same object which the original object is referring to. If the clone makes a change in the contents of the refObject, then the change will be reflected in the original object as well. Consider the following example – If an object opens an I/O stream and is then cloned, then both of the two objects will be capable of operating on the same stream. Further, if one of these objects closes the stream, then the stream is closed for both and if the second object tries to write to it, this causes an error.
Since cloning can cause some problems, the [コード] clone [/コード] 方法. So the [コード] clone [/コード] method should be called from within a class which is implementing the [コード] cloneable [/コード] interface where the method calling the [コード] clone [/コード] method is made protected, or it must be explicitly overridden by the class which is public. In the example above we have seen cloning by making the [コード] clone [/コード] protected. The following example illustrates the cloning methodology via overriding –
[コード]
package com.home.cloning;
公共 クラス CloneViaOverRiding implements Cloneable {
int型 A;
double B;
// clone() is now overridden and is public.
公共 Object clone() {
試す {
// call clone in Object.
リターン スーパー.clone();
} キャッチ (CloneNotSupportedException e) {
システム.外に.のprintln(“Cloning not allowed.”);
リターン this;
}
}
}
[/コード]
Now check the next example below.
[コード]
package com.home.cloning;
公共 クラス TestCloneObject {
公共 ボイド testPublic() {
CloneViaOverRiding x1 = 新しい CloneViaOverRiding();
CloneViaOverRiding x2;
x1.a = 10;
x1.b = 20.98;
// here, clone() is called directly.
x2 = (CloneViaOverRiding) x1. clone ();
システム.外に.のprintln(“x1: ” + x1.a + ” ” + x1.b);
システム.外に.のprintln(“x2: ” + x2.a + ” ” + x2.b);
}
公共 静的 ボイド メイン(String args[]) {
TestCloneObject testCloneObject = 新しい TestCloneObject();
// test via 公共
testCloneObject.testPublic();
}
}
[/コード]
In this example the method, the method [コード] clone [/コード] of the object class is overridden that is why it is declared public in contrast to the earlier example, where the [コード] getClone [/コード] does not have any access modifiers making it accessible only at the package level.
In either of these two approaches, implementing the cloneable interface is mandatory.
The side effects caused by cloning are sometimes difficult to identify in the initial level. It is easy to think that a class is safe for cloning when it actually is not. In general, is not advised to implement the Cloneable interface for any class without having a solid business ground .
Alternative to cloning
Cloning mechanism has few alternatives –
- copy constructor – a copy constructor is a constructor which accepts another instance of the same class as a parameter.
- factory method – these methods are not always adequate when the concrete type of the cloned object is not known in advance.
- Use of serialization and deserialization is another alternative to using clone.
結論
- Object cloning is the mechanism of creating a copy of an existing object
- Cloning follows the shallow copy mechanism
- Closing saves some extra tasks of the developer
- Once the cloning is done the created clone object is required to explicitly casted in to the required type
- Cloning has some side effects e.g if an object which is cloned has a reference to another object, and the new cloned object modifies the object which being referenced, then the original object also gets changed.
- Cloning mechanism has some alternatives – the copy constructor, factory method, serialization and de-serialization.