Object To Object Mapping
It's common to map an object to another similar object. It's also tedious and repetitive since generally both classes have the same or similar properties mapped to each other. Imagine a typical application service method below:
public class UserAppService : ApplicationService
{
private readonly IRepository<User, Guid> _userRepository;
public UserAppService(IRepository<User, Guid> userRepository)
{
_userRepository = userRepository;
}
public void CreateUser(CreateUserInput input)
{
//Manually creating a User object from the CreateUserInput object
var user = new User
{
Name = input.Name,
Surname = input.Surname,
EmailAddress = input.EmailAddress,
Password = input.Password
};
_userRepository.Insert(user);
}
}
CreateUserInput
is a simple DTO class and the User
is a simple entity. The code above creates a User
entity from the given input object. The User
entity will have more properties in a real-world application and manually creating it will become tedious and error-prone. You also have to change the mapping code when you add new properties to User
and CreateUserInput
classes.
We can use a library to automatically handle these kind of mappings. ABP provides abstractions for object to object mapping and has an integration package to use AutoMapper as the object mapper.
IObjectMapper
IObjectMapper
interface (in the Volo.Abp.ObjectMapping package) defines a simple Map
method. The example code introduced before can be re-written as shown below:
public class UserAppService : ApplicationService
{
private readonly IRepository<User, Guid> _userRepository;
public UserAppService(IRepository<User, Guid> userRepository)
{
_userRepository = userRepository;
}
public void CreateUser(CreateUserInput input)
{
//Automatically creating a new User object using the CreateUserInput object
var user = ObjectMapper.Map<CreateUserInput, User>(input);
_userRepository.Insert(user);
}
}
ObjectMapper
is defined in theApplicationService
base class in this example. You can directly inject theIObjectMapper
interface when you need it somewhere else.
Map method has two generic argument: First one is the source object type while the second one is the destination object type.
If you need to set properties of an existing object, you can use the second overload of the Map
method:
public class UserAppService : ApplicationService
{
private readonly IRepository<User, Guid> _userRepository;
public UserAppService(IRepository<User, Guid> userRepository)
{
_userRepository = userRepository;
}
public async Task UpdateUserAsync(Guid id, UpdateUserInput input)
{
var user = await _userRepository.GetAsync(id);
//Automatically set properties of the user object using the UpdateUserInput
ObjectMapper.Map<UpdateUserInput, User>(input, user);
await _userRepository.UpdateAsync(user);
}
}
You should have defined the mappings before to be able to map objects. See the AutoMapper integration section to learn how to define mappings.
AutoMapper Integration
AutoMapper is one of the most popular object to object mapping libraries. Volo.Abp.AutoMapper package defines the AutoMapper integration for the IObjectMapper
.
Once you define mappings described as below, you can use the IObjectMapper
interface just like explained before.
Define Mappings
AutoMapper provides multiple ways of defining mapping between classes. Refer to its own documentation for all details.
One way to define object mappings is creating a Profile class. Example:
public class MyProfile : Profile
{
public MyProfile()
{
CreateMap<User, UserDto>();
}
}
You should then register profiles using the AbpAutoMapperOptions
:
[DependsOn(typeof(AbpAutoMapperModule))]
public class MyModule : AbpModule
{
public override void ConfigureServices(ServiceConfigurationContext context)
{
Configure<AbpAutoMapperOptions>(options =>
{
//Add all mappings defined in the assembly of the MyModule class
options.AddMaps<MyModule>();
});
}
}
AddMaps
registers all profile classes defined in the assembly of the given class, typically your module class. It also registers for the attribute mapping.
Configuration Validation
AddMaps
optionally takes a bool
parameter to control the configuration validation for your module:
options.AddMaps<MyModule>(validate: true);
While this option is false
by default, it is suggested to enable configuration validation as a best practice.
Configuration validation can be controlled per profile class using AddProfile
instead of AddMaps
:
options.AddProfile<MyProfile>(validate: true);
If you have multiple profiles and need to enable validation only for a few of them, first use
AddMaps
without validation, then useAddProfile
for each profile you want to validate.
Advanced Topics
IObjectMapper Interface
Assume that you have created a reusable module which defines AutoMapper profiles and uses IObjectMapper
when it needs to map objects. Your module then can be used in different applications, by nature of the modularity.
IObjectMapper
is an abstraction and can be replaced by the final application to use another mapping library. The problem here that your reusable module is designed to use the AutoMapper library, because it only defines mappings for it. In such a case, you will want to guarantee that your module always uses AutoMapper even if the final application uses another default object mapping library.
IObjectMapper<TContext>
is used to contextualize the object mapper, so you can use different libraries for different modules/contexts.
Example usage:
public class UserAppService : ApplicationService
{
private readonly IRepository<User, Guid> _userRepository;
private readonly IObjectMapper<MyModule> _objectMapper;
public UserAppService(
IRepository<User, Guid> userRepository,
IObjectMapper<MyModule> objectMapper) //Inject module specific mapper
{
_userRepository = userRepository;
_objectMapper = objectMapper;
}
public async Task CreateUserAsync(CreateUserInput input)
{
//Use the module specific mapper
var user = _objectMapper.Map<CreateUserInput, User>(input);
await _userRepository.InsertAsync(user);
}
}
UserAppService
injects the IObjectMapper<MyModule>
, the specific object mapper for this module. It's usage is exactly same of the IObjectMapper
.
The example code above don't use the ObjectMapper
property defined in the ApplicationService
, but injects the IObjectMapper<MyModule>
. However, it is still possible to use the base property since the ApplicationService
defines an ObjectMapperContext
property that can be set in the class constructor. So, the example about can be re-written as like below:
public class UserAppService : ApplicationService
{
private readonly IRepository<User, Guid> _userRepository;
public UserAppService(IRepository<User, Guid> userRepository)
{
_userRepository = userRepository;
//Set the object mapper context
ObjectMapperContext = typeof(MyModule);
}
public async Task CreateUserAsync(CreateUserInput input)
{
var user = ObjectMapper.Map<CreateUserInput, User>(input);
await _userRepository.InsertAsync(user);
}
}
While using the contextualized object mapper is same as the normal object mapper, you should register the contextualized mapper in your module's ConfigureServices
method:
[DependsOn(typeof(AbpAutoMapperModule))]
public class MyModule : AbpModule
{
public override void ConfigureServices(ServiceConfigurationContext context)
{
//Use AutoMapper for MyModule
context.Services.AddAutoMapperObjectMapper<MyModule>();
Configure<AbpAutoMapperOptions>(options =>
{
options.AddMaps<MyModule>(validate: true);
});
}
}
IObjectMapper<MyModule>
is an essential feature for a reusable module where it can be used in multiple applications each may use a different library for object to object mapping. All pre-built ABP modules are using it. But, for the final application, you can ignore this interface and always use the default IObjectMapper
interface.
IObjectMapper<TSource, TDestination> Interface
ABP allows you to customize the mapping code for specific classes. Assume that you want to create a custom class to map from User
to UserDto
. In this case, you can create a class that implements the IObjectMapper<User, UserDto>
:
public class MyCustomUserMapper : IObjectMapper<User, UserDto>, ITransientDependency
{
public UserDto Map(User source)
{
//TODO: Create a new UserDto
}
public UserDto Map(User source, UserDto destination)
{
//TODO: Set properties of an existing UserDto
return destination;
}
}
ABP automatically discovers and registers the MyCustomUserMapper
and it is automatically used whenever you use the IObjectMapper
to map User
to UserDto
.
A single class may implement more than one IObjectMapper<TSource, TDestination>
each for a different object pairs.
This approach is powerful since
MyCustomUserMapper
can inject any other service and use in theMap
methods.