The Strategy pattern allows you to define a family of algorithms, encapsulate them in separate classes, and make them interchangeable. The object using the algorithm can select which strategy to use at runtime. It’s useful when you have multiple ways to perform an operation and want to switch between them flexibly, such as different ways to sort a list or calculate a price.
C# Code Example:
// Strategy interface
public interface IPriceCalculation
{
decimal CalculatePrice(decimal basePrice);
}
// Implementation of a strategy for normal price
public class NormalPrice : IPriceCalculation
{
public decimal CalculatePrice(decimal basePrice)
{
return basePrice;
}
}
// Implementation of a strategy for discounted price
public class DiscountPrice : IPriceCalculation
{
private decimal _discountPercentage;
public DiscountPrice(decimal discountPercentage)
{
_discountPercentage = discountPercentage;
}
public decimal CalculatePrice(decimal basePrice)
{
return basePrice - (basePrice * _discountPercentage / 100);
}
}
// Implementation of a strategy for premium price
public class PremiumPrice : IPriceCalculation
{
public decimal CalculatePrice(decimal basePrice)
{
return basePrice + (basePrice * 0.20m); // Adds 20% to the price
}
}
// Class that uses a pricing strategy
public class Product
{
private IPriceCalculation _priceStrategy;
private decimal _basePrice;
public Product(IPriceCalculation priceStrategy, decimal basePrice)
{
_priceStrategy = priceStrategy;
_basePrice = basePrice;
}
public void SetStrategy(IPriceCalculation priceStrategy)
{
_priceStrategy = priceStrategy;
}
public void DisplayFinalPrice()
{
Console.WriteLine($"Final price: {_priceStrategy.CalculatePrice(_basePrice)}");
}
}
class Program
{
static void Main(string[] args)
{
// Create a product with a base price of 100
Product product = new Product(new NormalPrice(), 100);
// Display price with normal strategy
product.DisplayFinalPrice(); // Output: Final price: 100
// Change to discount strategy and display the price
product.SetStrategy(new DiscountPrice(10)); // 10% discount
product.DisplayFinalPrice(); // Output: Final price: 90
// Change to premium strategy and display the price
product.SetStrategy(new PremiumPrice());
product.DisplayFinalPrice(); // Output: Final price: 120
}
}
Code Explanation:
In this example, we have three different strategies for calculating the price of a product: NormalPrice, DiscountPrice, and PremiumPrice. The Product class uses one of these strategies to calculate the final price. The SetStrategy method allows switching the price calculation strategy at runtime. In the main code, the product’s price is calculated using the three different strategies.
Conclusion:
The Strategy pattern is useful when you want an object to have multiple ways of performing an operation and want to make these options interchangeable. It helps to separate the logic of different algorithms, allowing for greater flexibility and code reuse.
Source code: GitHub
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