CodeLiturgy.Dashboard/include/BlueWest.MapTo/test/BlueWest.MapTo.Tests/MappedClassesTests.cs

562 lines
15 KiB
C#

using System.Collections.Generic;
using System.Linq;
using MapTo.Tests.Extensions;
using MapTo.Tests.Infrastructure;
using Microsoft.CodeAnalysis.CSharp;
using Microsoft.CodeAnalysis.CSharp.Syntax;
using Shouldly;
using Xunit;
using Xunit.Abstractions;
using static MapTo.Tests.Common;
namespace MapTo.Tests
{
public class MappedClassesTests
{
private readonly ITestOutputHelper _output;
public MappedClassesTests(ITestOutputHelper output)
{
_output = output;
}
[Theory]
[MemberData(nameof(SecondaryConstructorCheckData))]
public void When_SecondaryConstructorExists_Should_NotGenerateOne(string source, LanguageVersion languageVersion)
{
// Arrange
source = source.Trim();
// Act
var (compilation, diagnostics) = CSharpGenerator.GetOutputCompilation(source, analyzerConfigOptions: DefaultAnalyzerOptions, languageVersion: languageVersion);
// Assert
diagnostics.ShouldBeSuccessful();
compilation
.GetGeneratedSyntaxTree("DestinationClass")
.ShouldNotBeNull()
.GetRoot()
.DescendantNodes()
.OfType<ConstructorDeclarationSyntax>()
.Count()
.ShouldBe(1);
}
public static IEnumerable<object[]> SecondaryConstructorCheckData => new List<object[]>
{
new object[]
{
@"
using MapTo;
namespace Test.Data.Models
{
public class SourceClass { public string Prop1 { get; set; } }
[MapFrom(typeof(SourceClass))]
public partial class DestinationClass
{
public DestinationClass(SourceClass source) : this(new MappingContext(), source) { }
public string Prop1 { get; set; }
}
}
",
LanguageVersion.CSharp7_3
},
new object[]
{
@"
using MapTo;
namespace Test.Data.Models
{
public record SourceClass(string Prop1);
[MapFrom(typeof(SourceClass))]
public partial record DestinationClass(string Prop1)
{
public DestinationClass(SourceClass source) : this(new MappingContext(), source) { }
}
}
",
LanguageVersion.CSharp9
}
};
[Theory]
[MemberData(nameof(SecondaryCtorWithoutPrivateCtorData))]
public void When_SecondaryConstructorExistsButDoNotReferencePrivateConstructor_Should_ReportError(string source, LanguageVersion languageVersion)
{
// Arrange
source = source.Trim();
// Act
var (compilation, diagnostics) = CSharpGenerator.GetOutputCompilation(source, analyzerConfigOptions: DefaultAnalyzerOptions, languageVersion: languageVersion);
// Assert
var constructorSyntax = compilation.SyntaxTrees
.First()
.GetRoot()
.DescendantNodes()
.OfType<ConstructorDeclarationSyntax>()
.Single();
diagnostics.ShouldNotBeSuccessful(DiagnosticsFactory.MissingConstructorArgument(constructorSyntax));
}
public static IEnumerable<object[]> SecondaryCtorWithoutPrivateCtorData => new List<object[]>
{
new object[]
{
@"
using MapTo;
namespace Test.Data.Models
{
public class SourceClass { public string Prop1 { get; set; } }
[MapFrom(typeof(SourceClass))]
public partial class DestinationClass
{
public DestinationClass(SourceClass source) { }
public string Prop1 { get; set; }
}
}
",
LanguageVersion.CSharp7_3
},
new object[]
{
@"
using MapTo;
namespace Test.Data.Models
{
public record SourceClass(string Prop1);
[MapFrom(typeof(SourceClass))]
public partial record DestinationClass(string Prop1)
{
public DestinationClass(SourceClass source) : this(""invalid"") { }
}
}
",
LanguageVersion.CSharp9
}
};
[Fact]
public void When_PropertyNameIsTheSameAsClassName_Should_MapAccordingly()
{
// Arrange
var source = @"
namespace Sale
{
public class Sale { public Sale Prop1 { get; set; } }
}
namespace SaleModel
{
using MapTo;
using Sale;
[MapFrom(typeof(Sale))]
public partial class SaleModel
{
[MapProperty(SourcePropertyName = nameof(global::Sale.Sale.Prop1))]
public Sale Sale { get; set; }
}
}
".Trim();
// Act
var (_, diagnostics) = CSharpGenerator.GetOutputCompilation(source, analyzerConfigOptions: DefaultAnalyzerOptions);
// Assert
diagnostics.ShouldBeSuccessful();
}
[Theory]
[MemberData(nameof(SameSourceAndDestinationTypeNameData))]
public void When_SourceAndDestinationNamesAreTheSame_Should_MapAccordingly(string source, LanguageVersion languageVersion)
{
// Arrange
source = source.Trim();
// Act
var (_, diagnostics) = CSharpGenerator.GetOutputCompilation(source, analyzerConfigOptions: DefaultAnalyzerOptions, languageVersion: languageVersion);
// Assert
diagnostics.ShouldBeSuccessful();
}
public static IEnumerable<object[]> SameSourceAndDestinationTypeNameData => new List<object[]>
{
new object[]
{
@"
namespace Test
{
public class TypeName { public int Prop2 { get; set; } }
}
namespace Test2
{
using MapTo;
[MapFrom(typeof(Test.TypeName))]
public partial class TypeName
{
[MapProperty(SourcePropertyName=""Prop2"")]
public int Prop1 { get; set; }
}
}",
LanguageVersion.CSharp7_3
},
new object[]
{
@"
namespace Test
{
public record TypeName(int Prop2);
}
namespace Test2
{
using MapTo;
[MapFrom(typeof(Test.TypeName))]
public partial record TypeName([MapProperty(SourcePropertyName=""Prop2"")] int Prop1);
}",
LanguageVersion.CSharp9
},
new object[]
{
@"
namespace Test
{
using System.Collections.Generic;
public class SourceType2 { public int Id { get; set; } }
public class SourceType
{
public int Id { get; set; }
public List<SourceType2> Prop1 { get; set; }
}
}
namespace Test2
{
using MapTo;
using System.Collections.Generic;
[MapFrom(typeof(Test.SourceType2))]
public partial class SourceType2 { public int Id { get; set; } }
[MapFrom(typeof(Test.SourceType))]
public partial class SourceType
{
public int Id { get; set; }
public IReadOnlyList<SourceType2> Prop1 { get; set; }
}
}",
LanguageVersion.CSharp7_3
},
new object[]
{
@"
namespace Test
{
using System.Collections.Generic;
public record SourceType(int Id, List<SourceType2> Prop1);
public record SourceType2(int Id);
}
namespace Test2
{
using MapTo;
using System.Collections.Generic;
[MapFrom(typeof(Test.SourceType2))]
public partial record SourceType2(int Id);
[MapFrom(typeof(Test.SourceType))]
public partial record SourceType(int Id, IReadOnlyList<SourceType2> Prop1);
}",
LanguageVersion.CSharp9
},
new object[]
{
@"
namespace Test
{
using System.Collections.Generic;
public record SourceType1(int Id);
public record SourceType2(int Id, List<SourceType1> Prop1);
}
namespace Test
{
using MapTo;
using System.Collections.Generic;
[MapFrom(typeof(Test.SourceType1))]
public partial record SourceType3(int Id);
[MapFrom(typeof(Test.SourceType2))]
public partial record SourceType4(int Id, IReadOnlyList<SourceType3> Prop1);
}",
LanguageVersion.CSharp9
}
};
[Theory]
[MemberData(nameof(VerifyMappedTypesData))]
public void VerifyMappedTypes(string[] sources, LanguageVersion languageVersion)
{
// Arrange
// Act
var (compilation, diagnostics) = CSharpGenerator.GetOutputCompilation(sources, analyzerConfigOptions: DefaultAnalyzerOptions, languageVersion: languageVersion);
// Assert
diagnostics.ShouldBeSuccessful();
_output.WriteLine(compilation.PrintSyntaxTree());
}
public static IEnumerable<object[]> VerifyMappedTypesData => new List<object[]>
{
new object[] { new[] { MainSourceClass, NestedSourceClass, MainDestinationClass, NestedDestinationClass }, LanguageVersion.CSharp7_3 },
new object[] { new[] { MainSourceRecord, NestedSourceRecord, MainDestinationRecord, NestedDestinationRecord }, LanguageVersion.CSharp9 },
new object[]
{
new[]
{
@"
namespace Test.Classes.Classes1
{
public class Class1
{
public int Id { get; set; }
public string Name { get; set; }
}
}",
@"
using System;
using System.Collections.Generic;
using Test.Classes.Classes1;
namespace Test.Classes.Classes2
{
public class Class2
{
public int Id { get; set; }
public List<Class1> Genres { get; set; }
public DateTime? ReleaseDate { get; set; }
}
}",
@"
using MapTo;
using System;
using System.Collections.Generic;
using TC = Test.Classes;
namespace Tests.Records
{
[MapFrom(typeof(Test.Classes.Classes1.Class1))]
public partial record Class1(int Id, string Name);
[MapFrom(typeof(Test.Classes.Classes2.Class2))]
public partial record Class2(int Id, IReadOnlyList<Class1> Genres);
}"
},
LanguageVersion.CSharp9
}
};
[Fact]
public void VerifySelfReferencingRecords()
{
// Arrange
var source = @"
namespace Tests.Data.Models
{
using System.Collections.Generic;
public record Employee(int Id, string EmployeeCode, Manager Manager);
public record Manager(int Id, string EmployeeCode, Manager Manager, int Level, List<Employee> Employees) : Employee(Id, EmployeeCode, Manager);
}
namespace Tests.Data.ViewModels
{
using System.Collections.Generic;
using Tests.Data.Models;
using MapTo;
[MapFrom(typeof(Employee))]
public partial record EmployeeViewModel(int Id, string EmployeeCode, ManagerViewModel Manager);
[MapFrom(typeof(Manager))]
public partial record ManagerViewModel(int Id, string EmployeeCode, ManagerViewModel Manager, int Level, List<EmployeeViewModel> Employees) : EmployeeViewModel(Id, EmployeeCode, Manager);
}
".Trim();
// Act
var (compilation, diagnostics) = CSharpGenerator.GetOutputCompilation(source, analyzerConfigOptions: DefaultAnalyzerOptions, languageVersion: LanguageVersion.CSharp9);
// Assert
diagnostics.ShouldBeSuccessful();
_output.WriteLine(compilation.PrintSyntaxTree());
}
[Fact]
public void VerifySystemNamespaceConflict()
{
// Arrange
var source = @"
namespace Test
{
public record SomeRecord(int Id);
}
namespace Test.Models
{
using MapTo;
[MapFrom(typeof(Test.SomeRecord))]
public partial record SomeRecordModel(int Id);
}
namespace Test.System
{
public interface IMyInterface { }
}
".Trim();
// Act
var (compilation, diagnostics) = CSharpGenerator.GetOutputCompilation(source, analyzerConfigOptions: DefaultAnalyzerOptions, languageVersion: LanguageVersion.CSharp9);
// Assert
diagnostics.ShouldBeSuccessful();
_output.WriteLine(compilation.PrintSyntaxTree());
}
private static string MainSourceClass => @"
using System;
namespace Test.Data.Models
{
public class User
{
public int Id { get; set; }
public DateTimeOffset RegisteredAt { get; set; }
public Profile Profile { get; set; }
}
}
".Trim();
private static string NestedSourceClass => @"
namespace Test.Data.Models
{
public class Profile
{
public string FirstName { get; set; }
public string LastName { get; set; }
public string FullName => $""{FirstName} {LastName}"";
}
}
".Trim();
private static string MainDestinationClass => @"
using System;
using MapTo;
using Test.Data.Models;
namespace Test.ViewModels
{
[MapFrom(typeof(User))]
public partial class UserViewModel
{
[MapProperty(SourcePropertyName = nameof(User.Id))]
[MapTypeConverter(typeof(IdConverter))]
public string Key { get; }
public DateTimeOffset RegisteredAt { get; set; }
// [IgnoreProperty]
public ProfileViewModel Profile { get; set; }
private class IdConverter : ITypeConverter<int, string>
{
public string Convert(int source, object[] converterParameters) => $""{source:X}"";
}
}
}
".Trim();
private static string NestedDestinationClass => @"
using MapTo;
using Test.Data.Models;
namespace Test.ViewModels
{
[MapFrom(typeof(Profile))]
public partial class ProfileViewModel
{
public string FirstName { get; }
public string LastName { get; }
}
}
".Trim();
private static string MainSourceRecord => BuildSourceRecord("public record User(int Id, DateTimeOffset RegisteredAt, Profile Profile);");
private static string MainDestinationRecord => BuildDestinationRecord(@"
[MapFrom(typeof(User))]
public partial record UserViewModel(
[MapProperty(SourcePropertyName = nameof(User.Id))]
[MapTypeConverter(typeof(UserViewModel.IdConverter))]
string Key,
DateTimeOffset RegisteredAt,
Profile Profile)
{
private class IdConverter : ITypeConverter<int, string>
{
public string Convert(int source, object[] converterParameters) => $""{source:X}"";
}
}");
private static string NestedSourceRecord => BuildSourceRecord("public record Profile(string FirstName, string LastName) { public string FullName => $\"{FirstName} {LastName}\"; }");
private static string NestedDestinationRecord => BuildDestinationRecord("[MapFrom(typeof(Profile))] public partial record ProfileViewModel(string FirstName, string LastName);");
private static string BuildSourceRecord(string record)
{
return $@"
using System;
namespace RecordTest.Data.Models
{{
{record}
}}
".Trim();
}
private static string BuildDestinationRecord(string record)
{
return $@"
using System;
using MapTo;
using RecordTest.Data.Models;
namespace RecordTest.ViewModels
{{
{record}
}}
".Trim();
}
}
}