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Composite

Composite em TypeScript

O Composite é um padrão de projeto estrutural que permite compor objetos em uma estrutura semelhante a uma árvore e trabalhar com eles como se fosse um objeto singular.

O Composite se tornou uma solução bastante popular para a maioria dos problemas que exigem a construção de uma estrutura em árvore. O grande recurso do Composite é a capacidade de executar métodos recursivamente em toda a estrutura da árvore e resumir os resultados.

Complexidade:

Popularidade:

Exemplos de uso: O padrão Composite é bastante comum no código TypeScript. É frequentemente usado para representar hierarquias de componentes da interface do usuário ou o código que funciona com grafos.

Identificação: É fácil reconhecer o Composite por métodos comportamentais, levando uma instância do mesmo tipo abstrato/interface para uma estrutura em árvore.

Exemplo conceitual

Este exemplo ilustra a estrutura do padrão de projeto Composite. Ele se concentra em responder a estas perguntas:

  • De quais classes ele consiste?
  • Quais papéis essas classes desempenham?
  • De que maneira os elementos do padrão estão relacionados?

index.ts: Exemplo conceitual

/**
 * The base Component class declares common operations for both simple and
 * complex objects of a composition.
 */
abstract class Component {
    protected parent!: Component | null;

    /**
     * Optionally, the base Component can declare an interface for setting and
     * accessing a parent of the component in a tree structure. It can also
     * provide some default implementation for these methods.
     */
    public setParent(parent: Component | null) {
        this.parent = parent;
    }

    public getParent(): Component | null {
        return this.parent;
    }

    /**
     * In some cases, it would be beneficial to define the child-management
     * operations right in the base Component class. This way, you won't need to
     * expose any concrete component classes to the client code, even during the
     * object tree assembly. The downside is that these methods will be empty
     * for the leaf-level components.
     */
    public add(component: Component): void { }

    public remove(component: Component): void { }

    /**
     * You can provide a method that lets the client code figure out whether a
     * component can bear children.
     */
    public isComposite(): boolean {
        return false;
    }

    /**
     * The base Component may implement some default behavior or leave it to
     * concrete classes (by declaring the method containing the behavior as
     * "abstract").
     */
    public abstract operation(): string;
}

/**
 * The Leaf class represents the end objects of a composition. A leaf can't have
 * any children.
 *
 * Usually, it's the Leaf objects that do the actual work, whereas Composite
 * objects only delegate to their sub-components.
 */
class Leaf extends Component {
    public operation(): string {
        return 'Leaf';
    }
}

/**
 * The Composite class represents the complex components that may have children.
 * Usually, the Composite objects delegate the actual work to their children and
 * then "sum-up" the result.
 */
class Composite extends Component {
    protected children: Component[] = [];

    /**
     * A composite object can add or remove other components (both simple or
     * complex) to or from its child list.
     */
    public add(component: Component): void {
        this.children.push(component);
        component.setParent(this);
    }

    public remove(component: Component): void {
        const componentIndex = this.children.indexOf(component);
        this.children.splice(componentIndex, 1);

        component.setParent(null);
    }

    public isComposite(): boolean {
        return true;
    }

    /**
     * The Composite executes its primary logic in a particular way. It
     * traverses recursively through all its children, collecting and summing
     * their results. Since the composite's children pass these calls to their
     * children and so forth, the whole object tree is traversed as a result.
     */
    public operation(): string {
        const results = [];
        for (const child of this.children) {
            results.push(child.operation());
        }

        return `Branch(${results.join('+')})`;
    }
}

/**
 * The client code works with all of the components via the base interface.
 */
function clientCode(component: Component) {
    // ...

    console.log(`RESULT: ${component.operation()}`);

    // ...
}

/**
 * This way the client code can support the simple leaf components...
 */
const simple = new Leaf();
console.log('Client: I\'ve got a simple component:');
clientCode(simple);
console.log('');

/**
 * ...as well as the complex composites.
 */
const tree = new Composite();
const branch1 = new Composite();
branch1.add(new Leaf());
branch1.add(new Leaf());
const branch2 = new Composite();
branch2.add(new Leaf());
tree.add(branch1);
tree.add(branch2);
console.log('Client: Now I\'ve got a composite tree:');
clientCode(tree);
console.log('');

/**
 * Thanks to the fact that the child-management operations are declared in the
 * base Component class, the client code can work with any component, simple or
 * complex, without depending on their concrete classes.
 */
function clientCode2(component1: Component, component2: Component) {
    // ...

    if (component1.isComposite()) {
        component1.add(component2);
    }
    console.log(`RESULT: ${component1.operation()}`);

    // ...
}

console.log('Client: I don\'t need to check the components classes even when managing the tree:');
clientCode2(tree, simple);

Output.txt: Resultados da execução

Client: I've got a simple component:
RESULT: Leaf

Client: Now I've got a composite tree:
RESULT: Branch(Branch(Leaf+Leaf)+Branch(Leaf))

Client: I don't need to check the components classes even when managing the tree:
RESULT: Branch(Branch(Leaf+Leaf)+Branch(Leaf)+Leaf)

Composite em outras linguagens

Composite em C# Composite em C++ Composite em Go Composite em Java Composite em PHP Composite em Python Composite em Ruby Composite em Rust Composite em Swift