Prototype Pattern in Java: Mastering Object Cloning for Efficient Instantiation
- Also known as
- Intent of Prototype Design Pattern
- Detailed Explanation of Prototype Pattern with Real-World Examples
- Programmatic Example of Prototype Pattern in Java
- When to Use the Prototype Pattern in Java
- Real-World Applications of Prototype Pattern in Java
- Benefits and Trade-offs of Prototype Pattern
- Related Java Design Patterns
- References and Credits
Also known as
- Clone
Intent of Prototype Design Pattern
The Prototype pattern is used to specify the kinds of objects to create using a prototypical instance, and create new instances through object cloning.
Detailed Explanation of Prototype Pattern with Real-World Examples
Real-world example
Imagine a company that manufactures custom-designed furniture. Instead of creating each piece from scratch every time an order is placed, they keep prototypes of their most popular designs. When a customer places an order for a specific design, the company simply clones the prototype of that design and makes the necessary customizations. This approach saves time and resources as the basic structure and design details are already in place, allowing the company to quickly fulfill orders with consistent quality.
In this scenario, the furniture prototypes act like object prototypes in software, enabling efficient creation of new, customized pieces based on existing models.
In plain words
Create an object based on an existing object through cloning.
Wikipedia says
The prototype pattern is a creational design pattern in software development. It is used when the type of objects to create is determined by a prototypical instance, which is cloned to produce new objects.
Sequence diagram
Programmatic Example of Prototype Pattern in Java
In Java, the prototype pattern is recommended to be implemented as follows. First, create an interface with a method for cloning objects. In this example,Prototype interface accomplishes this with itscopy method.
public abstract class Prototype<T> implements Cloneable { @SneakyThrows public T copy() { return (T)super.clone(); }}Our example contains a hierarchy of different creatures. For example, let's look atBeast andOrcBeast classes.
@EqualsAndHashCode(callSuper = false)@NoArgsConstructorpublic abstract class Beast extends Prototype<Beast> { public Beast(Beast source) {}}@EqualsAndHashCode(callSuper = false)@RequiredArgsConstructorpublic class OrcBeast extends Beast { private final String weapon; public OrcBeast(OrcBeast orcBeast) { super(orcBeast); this.weapon = orcBeast.weapon; } @Override public String toString() { return "Orcish wolf attacks with " + weapon; }}We don't want to go into too many details, but the full example contains also base classesMage andWarlord and there are specialized implementations of those for elves and orcs.
To take full advantage of the prototype pattern, we createHeroFactory andHeroFactoryImpl classes to produce different kinds of creatures from prototypes.
public interface HeroFactory { Mage createMage(); Warlord createWarlord(); Beast createBeast();}@RequiredArgsConstructorpublic class HeroFactoryImpl implements HeroFactory { private final Mage mage; private final Warlord warlord; private final Beast beast; public Mage createMage() { return mage.copy(); } public Warlord createWarlord() { return warlord.copy(); } public Beast createBeast() { return beast.copy(); }}Now, we are able to show the full prototype pattern in action producing new creatures by cloning existing instances.
public static void main(String[] args) { var factory= new HeroFactoryImpl( new ElfMage("cooking"), new ElfWarlord("cleaning"), new ElfBeast("protecting") ); var mage= factory.createMage(); var warlord= factory.createWarlord(); var beast= factory.createBeast(); LOGGER.info(mage.toString()); LOGGER.info(warlord.toString()); LOGGER.info(beast.toString()); factory= new HeroFactoryImpl( new OrcMage("axe"), new OrcWarlord("sword"), new OrcBeast("laser") ); mage= factory.createMage(); warlord= factory.createWarlord(); beast= factory.createBeast(); LOGGER.info(mage.toString()); LOGGER.info(warlord.toString()); LOGGER.info(beast.toString());}Here's the console output from running the example.
08:36:19.012 [main] INFO com.iluwatar.prototype.App -- Elven mage helps in cooking08:36:19.013 [main] INFO com.iluwatar.prototype.App -- Elven warlord helps in cleaning08:36:19.014 [main] INFO com.iluwatar.prototype.App -- Elven eagle helps in protecting08:36:19.014 [main] INFO com.iluwatar.prototype.App -- Orcish mage attacks with axe08:36:19.014 [main] INFO com.iluwatar.prototype.App -- Orcish warlord attacks with sword08:36:19.014 [main] INFO com.iluwatar.prototype.App -- Orcish wolf attacks with laserWhen to Use the Prototype Pattern in Java
- When the classes to instantiate are specified at run-time, for example, by dynamic loading.
- To avoid building a class hierarchy of factories that parallels the class hierarchy of products.
- When instances of a class can have one of only a few different combinations of state. It may be more convenient to install a corresponding number of prototypes and clone them rather than instantiating the class manually, each time with the appropriate state.
- When object creation is expensive compared to cloning.
- When the concrete classes to instantiate are unknown until runtime.
Real-World Applications of Prototype Pattern in Java
- In Java, the
Object.clone()method is a classic implementation of the Prototype pattern. - GUI libraries often use prototypes for creating buttons, windows, and other widgets.
- In game development, creating multiple objects (like enemy characters) with similar attributes.
Benefits and Trade-offs of Prototype Pattern
Benefits:
Leveraging the Prototype pattern in Java applications
- Hides the complexities of instantiating new objects.
- Reduces the number of classes.
- Allows adding and removing objects at runtime.
Trade-offs:
- Requires implementing a cloning mechanism which might be complex.
- Deep cloning can be difficult to implement correctly, especially if the classes have complex object graphs with circular references.
Related Java Design Patterns
- Abstract Factory: Both involve creating objects, but Prototype uses cloning of a prototype instance whereas Abstract Factory creates objects using factory methods.
- Singleton: Singleton can use a prototype for creating instances if it allows cloning of its single instance.
- Composite: Prototypes are often used within composites to allow for dynamic creation of component trees.