Screaming Architecture: Letting Your Code Tell Its Story!

Dev Balaji
7 min readSep 24, 2024

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Screaming Architecture is a pivotal concept in software engineering, introduced by the esteemed software developer and thought leader Robert C. Martin, affectionately known as “Uncle Bob.” Though the term might initially appear unconventional, it encapsulates a fundamental principle in software design: ensuring that the architecture of a system clearly conveys its main objectives and use cases. In essence, the architecture of your software should “scream” its purpose and intent.

In this detailed exploration, we will delve into the core principles of Screaming Architecture, distinguish it from traditional architectural approaches, highlight its importance in domain-driven design, and guide you through implementing this architecture in your projects. Additionally, we will examine practical examples and scenarios where Screaming Architecture enhances code readability, maintainability, and scalability over the long term.

The Idea Behind Screaming Architecture

The essence of Screaming Architecture lies in making the primary structure of your codebase immediately apparent in terms of its business objectives. Unlike traditional architectures that may prioritize technical frameworks, tools, or ancillary concerns, Screaming Architecture places domain-specific considerations at the forefront.

Uncle Bob Martin uses a compelling analogy to illustrate this concept: envision approaching a building and being able to identify its function — be it a library, school, or office — solely based on its architectural design, without the need for signage. Similarly, software architecture should allow anyone glancing at the folder structure and design to instantly grasp the system’s purpose. For example, an accounting system’s architecture should prominently reflect its financial focus rather than the technologies used, such as “Django,” “Spring Boot,” or “React.”

Challenges with Framework-Centric Architectures

In numerous projects, an overemphasis on technology frameworks can overshadow the core business or domain logic. Common folder structures like:

/controllers
/services
/repositories
/models

are technically descriptive but fail to convey the system’s primary function. This structure highlights the use of the MVC (Model-View-Controller) pattern but provides no insight into whether the system manages financial data, user interactions, or content creation.

The Framework Trap

Prioritizing frameworks often leads to codebases where business logic is buried beneath technical boilerplate. Systems tightly coupled to specific frameworks become challenging to modify or migrate to different technologies, as significant refactoring is required. Screaming Architecture promotes the isolation and cleanliness of domain logic, ensuring that framework choices remain superficial details rather than core structural elements.

Screaming Architecture in Domain-Driven Design (DDD)

Domain-Driven Design (DDD) and Screaming Architecture are complementary methodologies. DDD emphasizes close collaboration between technical and domain experts, focusing on modeling business logic that mirrors real-world operations.

In Screaming Architecture, the domain model and business logic occupy the central position of the application, while frameworks, databases, user interfaces, and services are relegated to peripheral roles. The fundamental principle is that the code structure should mirror the domain model rather than be dictated by technical implementation specifics.

Structuring Your Project with Domain-Driven Principles

Consider organizing your project to “scream” its intent through domain-centric folder names:

/src
/accounting
Ledger.cs
Transaction.cs
Account.cs
TaxService.cs
/sales
Order.cs
Invoice.cs
Customer.cs
DiscountPolicy.cs

In this arrangement, folder names like `accounting` and `sales` immediately communicate the business domains they represent. Each domain-specific class, such as `Ledger`, `Transaction`, and `Order`, is housed within its respective domain context, making the system’s purpose and component roles instantly recognizable.

Practical Example: Domain-Centric Structure in E-Commerce

Imagine developing an e-commerce platform that manages orders and inventory. Adopting Screaming Architecture, the folder structure would emphasize business logic over technical roles:

/src
/orders
Order.cs
OrderService.cs
OrderRepository.cs
/inventory
InventoryItem.cs
InventoryService.cs
InventoryRepository.cs
  • *Order Class Example:**
const crypto = require('crypto');

class Order {
constructor(items) {
this.id = this.generateGuid();
this.orderDate = new Date();
this.items = items;
this.totalAmount = this.calculateTotal(items);
}

// Generate a GUID
generateGuid() {
return crypto.randomUUID();
}

// Calculate the total amount
calculateTotal(items) {
return items.reduce((total, item) =>
total + (item.price * item.quantity), 0);
}
}

class OrderItem {
constructor(productName, price, quantity) {
this.productName = productName;
this.price = price;
this.quantity = quantity;
}
}

// Example usage:
const items = [
new OrderItem('Laptop', 1000, 1),
new OrderItem('Mouse', 50, 2)
];

const order = new Order(items);

console.log(order);

In this example, the `Order` class embodies the core domain concept, with business logic such as `CalculateTotal` residing within the entity itself. Supporting classes like `OrderService` and `OrderRepository` are organized separately, maintaining a clear focus on business functionality rather than technical implementation.

Minimizing Technical Distractions

While frameworks and libraries are essential in software development, they should not dictate the organization of your business logic. Screaming Architecture encourages pushing technical concerns — such as HTTP controllers, persistence layers, and database frameworks — to the edges of the architecture.

Traditional vs. Screaming Architecture

Traditional Architecture:

/src
/controllers
OrderController.cs
/services
OrderService.cs
/repositories
OrderRepository.cs
/models
Order.cs
OrderItem.cs

This structure, while technically sound, fails to communicate the system’s domain or purpose. It indicates the use of MVC but doesn’t reveal whether the system is for e-commerce, finance, or another domain.

Screaming Architecture:

/src
/orders
OrderController.cs
OrderService.cs
OrderRepository.cs
Order.cs
OrderItem.cs
/inventory
InventoryController.cs
InventoryService.cs
InventoryRepository.cs
InventoryItem.cs

Here, the folder names `orders` and `inventory` immediately indicate the system’s primary domains, making the architecture’s intent clear at a glance. This organization facilitates the addition of new domains, such as `customers` or `payments`, without disrupting the overall structure.

Integrating Clean Architecture with Screaming Architecture

Screaming Architecture aligns seamlessly with Robert C. Martin’s Clean Architecture principles. Clean Architecture advocates for a clear separation of concerns, ensuring that business rules remain independent of frameworks, user interfaces, and databases. Screaming Architecture enhances this by structuring the project to highlight core business logic explicitly.

Overview of Clean Architecture Layers:

  1. Entities: Core business objects and logic.
  2. Use Cases: Application-specific business rules.
  3. Interfaces: Gateways for frameworks and external systems.
  4. Frameworks & Drivers: User interfaces, databases, and other external components.

In a Clean Architecture framework, domain concepts like `Order`, `Customer`, and `Invoice` reside in the central layers, while frameworks such as ASP.NET Core, Django, or Rails occupy the outer layers, serving to deliver the core functionality without intertwining with business logic.

Applying Clean Architecture within Screaming Architecture

Extending our e-commerce example with Clean Architecture principles:

/src
/orders
CreateOrderUseCase.cs
OrderRepository.cs
Order.cs
OrderItem.cs
/inventory
AddInventoryItemUseCase.cs
InventoryRepository.cs
InventoryItem.cs

CreateOrderUseCase Example:

class CreateOrderUseCase {
constructor(orderRepository, inventoryService) {
this.orderRepository = orderRepository;
this.inventoryService = inventoryService;
}

execute(items) {
// Verify inventory availability for each item
items.forEach(item => {
this.inventoryService.checkInventory(item.productName, item.quantity);
});

const order = new Order(items);
this.orderRepository.save(order);
return order;
}
}

// Order repository interface
class IOrderRepository {
save(order) {
throw new Error('Method not implemented');
}
}

// Inventory service interface
class IInventoryService {
checkInventory(productName, quantity) {
throw new Error('Method not implemented');
}
}

// Example usage
class OrderRepository extends IOrderRepository {
save(order) {
console.log(`Order saved: ${JSON.stringify(order)}`);
}
}

class InventoryService extends IInventoryService {
checkInventory(productName, quantity) {
console.log(`Inventory checked for ${productName} (Quantity: ${quantity})`);
}
}

// OrderItem class (defined earlier)
class OrderItem {
constructor(productName, price, quantity) {
this.productName = productName;
this.price = price;
this.quantity = quantity;
}
}

// Order class (defined earlier)
class Order {
constructor(items) {
this.id = this.generateGuid();
this.orderDate = new Date();
this.items = items;
this.totalAmount = this.calculateTotal(items);
}

generateGuid() {
return require('crypto').randomUUID();
}

calculateTotal(items) {
return items.reduce((total, item) => total + (item.price * item.quantity), 0);
}
}

// Instantiate services
const orderRepository = new OrderRepository();
const inventoryService = new InventoryService();
const createOrderUseCase = new CreateOrderUseCase(orderRepository, inventoryService);

// Example execution
const items = [
new OrderItem('Laptop', 1000, 1),
new OrderItem('Mouse', 50, 2)
];

const order = createOrderUseCase.execute(items);
console.log(order);

In this scenario, `CreateOrderUseCase` resides within the domain logic, interacting directly with `OrderRepository` and `InventoryService` to fulfill the business requirement of creating an order. This approach maintains the integrity and clarity of business operations within the codebase.

Advantages of Screaming Architecture

  1. Enhanced Readability: The architecture clearly communicates the system’s purpose, making it easier for developers to understand the codebase at a glance.
  2. Separation of Concerns: Business logic remains isolated from technical details, facilitating easier modifications or framework changes in the future.
  3. Scalability: The domain-centric structure supports seamless expansion, allowing new features and modules to integrate smoothly without disrupting existing architecture.
  4. Maintainability: Clean separation of domain logic from external dependencies simplifies maintenance and reduces the risk of bugs.
  5. Framework Agnosticism: By decoupling business logic from specific frameworks, Screaming Architecture ensures that the core functionality remains portable and adaptable across different technological stacks.

Despite its numerous benefits, Screaming Architecture faces some criticisms:

  1. Perceived Complexity: Developers new to domain-driven design may find the separation of domain logic from technical components unnecessarily complex, especially for small-scale applications.
  2. Overhead: In simple projects or basic CRUD applications, the implementation of Screaming Architecture might appear excessive.
  3. Learning Curve: Teams accustomed to framework-first approaches may struggle initially with adopting Screaming Architecture, requiring a shift in mindset and practices.

When to Embrace Screaming Architecture

Screaming Architecture is particularly advantageous in the following contexts:

  1. Domain-Driven Systems: Applications with intricate business rules and extensive domain logic benefit significantly from this approach.
  2. Long-Term Projects: Systems anticipated to evolve over time, where scalability and maintainability are paramount, are well-suited for Screaming Architecture.
  3. Cross-Platform Development: Projects that may transition between different frameworks or platforms require a clean separation of business logic to ensure portability.

Conclusion

Screaming Architecture transcends being a mere catchy term; it embodies a philosophy that prioritizes the prominence of core business logic within the codebase. By centering the structure around domain concepts rather than technical frameworks, developers can craft systems that are more intuitive, maintainable, and scalable. Whether developing a straightforward web application or a complex enterprise system, adopting Screaming Architecture fosters cleaner, more purposeful code that unmistakably communicates its intent.

For those interested in deepening their understanding of Screaming Architecture, consider exploring the following resources:

♚ Architecture by Robert C. Martin
♚ Domain-Driven Design by Eric Evans
♚ Uncle Bob’s Blog on Clean Code

Embracing the principles of Screaming Architecture empowers you to build robust, clear, and efficient software systems that not only function effectively but also clearly “scream” their purpose.

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Dev Balaji
Dev Balaji

Written by Dev Balaji

🚀 Tech Enthusiast | 🌟 Mastering JavaScript & Frameworks | 💡 Sharing Tips & Tricks | 📘 Aspiring Blogger & Architect | 🐍 Python Practitioner