Description
Permet le mapping d'un objet de type A vers un objet de type B.
AutoMapper utilise des convention de mapping afin de réduire le paramétrage:
- Propriétés de même nom
- Flattening
- Ignore les références null
Liens
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var config = new MapperConfiguration(cfg => {
// configure mapping from Source to Dest
cfg.CreateMap<Source, Dest>();
// load the configuration from AppProfile
cfg.AddProfile<AppProfile>();
// load the configuration from all classes who inherits from Profile in the current assembly
cfg.AddProfiles(typeof(ContainerConfig).Assembly);
});
IMapper mapper = config.CreateMapper();
IMapper mapper = new Mapper(config);
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| AProfile.cs
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internal sealed class AProfile : Profile
{
public AProfile()
{
this.CreateAToBMapping();
this.CreateBToAMapping();
}
private void CreateAToBMapping()
{
this.CreateMap<A, B>()
.ForMember(dest => dest.B1, opt => opt.MapFrom(src => src.A1));
}
private void CreateBToAMapping()
{
this.CreateMap<B, A>()
.ForMember(dest => dest.A1, opt => opt.MapFrom(src => src.B1));
.ForAllOtherMembers(opt => opt.Ignore()); // ignore all other members
}
}
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Add the nuget package AutoMapper.Extensions.Microsoft.DependencyInjection |
| Startup.cs
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public void ConfigureServices(IServiceCollection services)
{
// add as parameter one type for each assembly
services.AddAutoMapper(typeof(ProfileTypeFromAssembly1), typeof(ProfileTypeFromAssembly2));
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Exemple
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var config = new MapperConfiguration(cfg =>
{
cfg.CreateMap<A, B>()
.ForMember(dst => dst.Q2, opts => opts.MapFrom(src => src.P2)); // map A.P2 → B.Q2
.ReverseMap(); // map B → A
});
IMapper mapper = config.CreateMapper();
C c = new C() { P1 = 3 };
A a = new A() { P1 = 1, C1 = c };
B b = mapper.Map<B>(a);
// b.P1 = 1, b.Q2 = 2, b.C1P1 = 3
class A
{
public int P1 { get; set; }
public int P2 { get; set; }
public C C1 { get; set; }
}
class B
{
public int P1 { get; set; } // mapping par convention avec A.P1
public int Q2 { get; set; } // mapping par configuration avec A.P2
public int C1P1 { get; set; } // mapping par flattening avec A.C1.P1
}
class C
{
public int P1 { get; set; }
}
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If the mapping has not been configured, you will get an AutoMapper.AutoMapperMappingException |
List and polymorphism
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// avec une liste
List<B> listB = Mapper.Map<List<A>, List<B>>(listA);
// polymorphism
cfg.CreateMap<Parent1, Parent2>()
.Include<Child1, Child2>();
// IncludeAllDerived(); to include all the derived classes
// without the include, the resulting list contains only Parent2 objects (no Child2 objects)
cfg.CreateMap<Child1, Child2>();
var lp1 = new List<Parent1> { new Parent1 { P1 = 1}, new Child1 { P1 = 2, P2 = 22 } };
var lp2 = mapper.Map<List<Parent2>>(lp1);
// Parent2, Child2
class Parent1
{
public int P1 { get; set; }
}
class Child1 : Parent1
{
public int P2 { get; set; }
}
class Parent2
{
public int P1 { get; set; }
}
class Child2 : Parent2
{
public int P2 { get; set; }
}
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var config = new MapperConfiguration(cfg =>
{
cfg.CreateMap<A, B>()
.ForMember(dest => dest.P1,
opt => opt.MapFrom((src, dest, destMember, resContext) => src.P1 + (int)resContext.Items["+"]));
});
IMapper mapper = config.CreateMapper();
var a = new A { P1 = 1 };
var b = mapper.Map<B>(a, opt => opt.Items["+"] = 9);
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Map 1 object to multiple objects
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class Group
{
public int Id { get; set; }
public ICollection<int> UserIds { get; } = new List<int>();
}
class User
{
public int Id { get; set; }
public int GroupId { get; set; }
}
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Flatten to ValueType
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var config = new MapperConfiguration(cfg =>
{
cfg.CreateMap<(Group group, int userId), User>()
.IncludeMembers(s => s.group)
.ForMember(dest => dest.Id, opt => opt.MapFrom(src => src.userId));
cfg.CreateMap<Group, User>()
.ForMember(dest => dest.GroupId, opt => opt.MapFrom(src => src.Id))
.ForMember(dest => dest.Id, opt => opt.Ignore());
});
IMapper mapper = config.CreateMapper();
var group = new Group
{
Id = 9,
UserIds = {1, 2, 3}
};
IEnumerable<(int groupId, int userId)> groupAndUserList = group.UserIds.Select(x => ValueTuple.Create(group.Id, x));
var users = mapper.Map<IEnumerable<User>>(groupAndUserList).ToList();
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Flatten with a ITypeConverter
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var config = new MapperConfiguration(cfg =>
{
cfg.CreateMap<int, User>()
.ForMember(dest => dest.Id, opt => opt.MapFrom(src => src));
cfg.CreateMap<Group, User>()
.ForMember(dest => dest.GroupId, opt => opt.MapFrom(src => src.Id))
.ForMember(dest => dest.Id, opt => opt.Ignore());
cfg.CreateMap<Group, IEnumerable<User>>()
.ConvertUsing<GroupToUsersConverter>();
});
IMapper mapper = config.CreateMapper();
var group = new Group
{
Id = 9,
UserIds = { 1, 2, 3 }
};
var users = mapper.Map<IEnumerable<User>>(group).ToList();
// use a converter to flatten a Group
class GroupToUsersConverter : ITypeConverter<Group, IEnumerable<User>>
{
public IEnumerable<User> Convert(
Group source,
IEnumerable<User> destination,
ResolutionContext context)
{
foreach (var userId in source.UserIds)
{
var user = context.Mapper.Map<User>(userId);
context.Mapper.Map(source, user);
yield return user;
}
}
}
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var mapperMock = new Mock<IMapper>();
mapperMock.Setup(x => x.Map<ItemDto>(It.IsAny<Item>()))
.Returns(new ItemDto());
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Installation
NuGet → AutoMapper
ASP.NET Core
NuGet → AutoMapper.Extensions.Microsoft.DependencyInjection
| Startup.cs
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public void ConfigureServices(IServiceCollection services)
{
services.AddAutoMapper();
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| MyController.cs
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private readonly IMapper _mapper;
public MyController(IMapper mapper)
{
_mapper = mapper;
B b = _mapper.Map<A, B>(a);
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Configuration dans Profile
