Best Practices for Mapping in Spring Boot

When deciding on the best practice for mapping DTOs to entities and vice versa in a Spring Boot application, there are several key factors to consider: simplicity, maintainability, performance, and testability. Each method has its strengths, so the bes…


This content originally appeared on DEV Community and was authored by mohamed amine

When deciding on the best practice for mapping DTOs to entities and vice versa in a Spring Boot application, there are several key factors to consider: simplicity, maintainability, performance, and testability. Each method has its strengths, so the best practice depends on your project's requirements. Here’s a breakdown of different approaches and when to use them:

1. Use Libraries like << MapStruct >> (Preferred for Large Projects)

MapStruct is a compile-time code generator that automates the mapping process between DTOs and entities.
Best for: Large projects where you have many DTOs and entities, and you want to avoid repetitive, manual mapping code.
Why MapStruct is a good choice:

  • Performance: Because it generates mapping code at compile-time, it is very efficient compared to runtime solutions. Type safety: Compile-time errors if the mapping is incorrect or missing, reducing the chances of runtime failures.
  • Maintainability: It generates all the boilerplate code for you, reducing duplication.
  • Custom Mapping Support: You can easily define custom mappings for complex fields (e.g., different field names, nested objects).

When to use MapStruct:

  • When you have many DTOs and entities to map.
  • When performance is a concern (since it's compile-time generated).
  • When you want to reduce boilerplate code but maintain control over mappings.
public interface BaseMapper<D, E> {
    D toDto(E entity);
    E toEntity(D dto);
}
@Mapper(componentModel = "spring")
public interface ClientMapper extends BaseMapper<ClientDTO, User> {
    // MapStruct will automatically inherit the methods from BaseMapper
}
@Mapper(componentModel = "spring")
public interface SentimentMapper extends BaseMapper<SentimentDTO, Product> {
    // Inherits from BaseMapper
}

You should organize the files as follows:

src
 └── main
     └── java
         └── com
             └── yourapp
                 ├── mapper                # Package for mappers
                 │    ├── BaseMapper.java  # Abstract base mapper
                 │    ├── ClientMapper.java # Client-specific mapper
                 │    └── SentimentMapper.java # Sentiment-specific mapper

Example: How to Use Mappers in a Service

package com.yourapp.service;

import com.yourapp.dto.UserDTO;
import com.yourapp.entity.User;
import com.yourapp.mapper.UserMapper;
import org.springframework.stereotype.Service;

@Service
public class ClientService {

    private final ClientMapper clientMapper;

    // Constructor injection (preferred method)
    public UserService(ClientMapper clientMapper) {
        this.clientMapper = clientMapper;
    }

    // Method to convert Client entity to ClientDTO
    public ClientDTO getClientDto(Client client) {
        return clientMapper.toDto(client);
    }

    // Method to convert ClientDTO to Client entity
    public User createClientFromDto(ClientDTO clientDTO) {
        return clientMapper.toEntity(clientDTO);
    }
}

2. Use Libraries like << ModelMapper >> (For Quick, Dynamic Mapping)

ModelMapper dynamically maps fields between DTOs and entities at runtime.
Best for: Quick setup, especially in prototyping or when you don’t want to manually write mapping logic for many fields.
Why ModelMapper:

  • Ease of setup: Requires very little setup and works well for simple use cases.
  • Dynamic mappings: Great for cases where entities and DTOs have a similar structure, and you don’t want to write individual mapping methods.

Example:

        ModelMapper modelMapper = new ModelMapper();
        ClientDTO clientDTO = modelMapper.map(client, ClientDTO.class);
        Client client = modelMapper.map(clientDTO, Client.class);

When to use ModelMapper:

  • When the project is small or medium, and you don’t want to write individual mappers.
  • When the structure of your DTOs and entities are very similar and don’t require much customization.

3. Manual Mapping (Best for Small Projects or Specific Cases)

Manual mapping involves writing the conversion code yourself, typically with simple getter/setter calls.
Best for: Small projects, simple mappings, or when you need full control over every aspect of the mapping process.
Why Manual Mapping can be a good choice:

  • Simple mappings: If you only have a few DTOs and entities, manual mapping can be straightforward and easy to implement.
  • Full control: You have complete control over how the mapping is done, which is useful when you have complex logic or data transformations during mapping.

Example:

public class ClientMapper {
    public ClientDTO toDto(Client client) {
        ClientDTO clientDTO = new ClientDTO();
        clientDTO.setEmail(client.getEmail());
        return clientDTO;
    }

    public User toEntity(ClientDTO clientDTO) {
        Client client = new User();
        client.setEmail(clientDTO.getEmail());
        return client;
    }
}

When to use Manual Mapping:

  • In small or simple projects where only a few DTOs and entities exist.
  • When you need maximum control over mapping logic.
  • For edge cases where mapping libraries might be too much overhead.

Key Considerations for Choosing a Mapping Approach

Maintainability
  • MapStruct is easier to maintain as your project grows because it automatically generates the mapping code.
  • Manual mapping can become harder to maintain in large projects, as each DTO-entity pair requires separate methods.
  • ModelMapper can quickly become difficult to maintain if you need a lot of custom logic since it’s dynamic and doesn’t enforce compile-time checking.
Performance
  • MapStruct is highly performant since mappings are generated at compile-time. This makes it ideal for performance-critical applications.
  • Manual mapping is also efficient, but it can introduce human error and is more verbose.
  • ModelMapper can be slower, as it uses reflection to map fields at runtime.
Complexity of Mappings
  • For simple mappings: Manual mapping or ModelMapper might be sufficient.
  • For complex mappings (nested objects, custom field names, or transformations), MapStruct or manual mapping is preferred, as it provides more control.
Project Size
  • In small projects, manual mapping is usually sufficient and easy to maintain.
  • For large projects with multiple entities and DTOs, it’s better to use MapStruct to reduce boilerplate and improve readability.

General Best Practice:

  • Use MapStruct for larger projects where maintainability, performance, and compile-time safety are critical.
  • Use manual mapping in small projects or when you need to write very specific conversion logic.
  • Avoid using ModelMapper in large or complex projects, as runtime mapping with reflection can be slow and error-prone.
  • Always strive to keep DTOs simple, containing only the necessary data, and avoid including domain logic in them.
  • Handle null safety and edge cases (e.g., optional fields, collections) properly when mapping.
  • If your DTOs frequently change, tools like MapStruct will help you adapt faster by automatically generating the code and providing compile-time feedback.

Conclusion

  • For large-scale applications where many DTOs and entities exist and mapping is repetitive, MapStruct is generally the best practice.
  • For small-scale projects with minimal mapping, manual mapping is sufficient and keeps things simple.
  • ModelMapper can be used for quick prototypes or simple use cases, but it is not the best choice for production environments due to performance and maintainability concerns.

Authors

Support

For support, email mhenni.medamine@gmail.com .

License

MIT


This content originally appeared on DEV Community and was authored by mohamed amine


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