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Builder

Builder em Python

O Builder é um padrão de projeto criacional, que permite a construção de objetos complexos passo a passo.

Diferente de outros padrões de criação, o Builder não exige que os produtos tenham uma interface comum. Isso torna possível produzir produtos diferentes usando o mesmo processo de construção.

Complexidade:

Popularidade:

Exemplos de uso: O padrão Builder é um padrão bem conhecido no mundo Python. É especialmente útil quando você precisa criar um objeto com muitas opções possíveis de configuração.

Identificação: O padrão Builder pode ser reconhecido na classe que possui um único método de criação e vários métodos para configurar o objeto resultante. Os métodos do Builder geralmente suportam encadeamento (por exemplo, algumBuilder.configValorA(1).configValorB(2).criar()).

Exemplo conceitual

Este exemplo ilustra a estrutura do padrão de projeto Builder. 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?

main.py: Exemplo conceitual

from __future__ import annotations
from abc import ABC, abstractmethod
from typing import Any


class Builder(ABC):
    """
    The Builder interface specifies methods for creating the different parts of
    the Product objects.
    """

    @property
    @abstractmethod
    def product(self) -> None:
        pass

    @abstractmethod
    def produce_part_a(self) -> None:
        pass

    @abstractmethod
    def produce_part_b(self) -> None:
        pass

    @abstractmethod
    def produce_part_c(self) -> None:
        pass


class ConcreteBuilder1(Builder):
    """
    The Concrete Builder classes follow the Builder interface and provide
    specific implementations of the building steps. Your program may have
    several variations of Builders, implemented differently.
    """

    def __init__(self) -> None:
        """
        A fresh builder instance should contain a blank product object, which is
        used in further assembly.
        """
        self.reset()

    def reset(self) -> None:
        self._product = Product1()

    @property
    def product(self) -> Product1:
        """
        Concrete Builders are supposed to provide their own methods for
        retrieving results. That's because various types of builders may create
        entirely different products that don't follow the same interface.
        Therefore, such methods cannot be declared in the base Builder interface
        (at least in a statically typed programming language).

        Usually, after returning the end result to the client, a builder
        instance is expected to be ready to start producing another product.
        That's why it's a usual practice to call the reset method at the end of
        the `getProduct` method body. However, this behavior is not mandatory,
        and you can make your builders wait for an explicit reset call from the
        client code before disposing of the previous result.
        """
        product = self._product
        self.reset()
        return product

    def produce_part_a(self) -> None:
        self._product.add("PartA1")

    def produce_part_b(self) -> None:
        self._product.add("PartB1")

    def produce_part_c(self) -> None:
        self._product.add("PartC1")


class Product1():
    """
    It makes sense to use the Builder pattern only when your products are quite
    complex and require extensive configuration.

    Unlike in other creational patterns, different concrete builders can produce
    unrelated products. In other words, results of various builders may not
    always follow the same interface.
    """

    def __init__(self) -> None:
        self.parts = []

    def add(self, part: Any) -> None:
        self.parts.append(part)

    def list_parts(self) -> None:
        print(f"Product parts: {', '.join(self.parts)}", end="")


class Director:
    """
    The Director is only responsible for executing the building steps in a
    particular sequence. It is helpful when producing products according to a
    specific order or configuration. Strictly speaking, the Director class is
    optional, since the client can control builders directly.
    """

    def __init__(self) -> None:
        self._builder = None

    @property
    def builder(self) -> Builder:
        return self._builder

    @builder.setter
    def builder(self, builder: Builder) -> None:
        """
        The Director works with any builder instance that the client code passes
        to it. This way, the client code may alter the final type of the newly
        assembled product.
        """
        self._builder = builder

    """
    The Director can construct several product variations using the same
    building steps.
    """

    def build_minimal_viable_product(self) -> None:
        self.builder.produce_part_a()

    def build_full_featured_product(self) -> None:
        self.builder.produce_part_a()
        self.builder.produce_part_b()
        self.builder.produce_part_c()


if __name__ == "__main__":
    """
    The client code creates a builder object, passes it to the director and then
    initiates the construction process. The end result is retrieved from the
    builder object.
    """

    director = Director()
    builder = ConcreteBuilder1()
    director.builder = builder

    print("Standard basic product: ")
    director.build_minimal_viable_product()
    builder.product.list_parts()

    print("\n")

    print("Standard full featured product: ")
    director.build_full_featured_product()
    builder.product.list_parts()

    print("\n")

    # Remember, the Builder pattern can be used without a Director class.
    print("Custom product: ")
    builder.produce_part_a()
    builder.produce_part_b()
    builder.product.list_parts()

Output.txt: Resultados da execução

Standard basic product: 
Product parts: PartA1

Standard full featured product: 
Product parts: PartA1, PartB1, PartC1

Custom product: 
Product parts: PartA1, PartB1

Builder em outras linguagens

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