CA1006: Do not nest generic types in member signatures
Applies to: 
Visual Studio 
Visual Studio for Mac
Note
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| Item | Value |
|---|---|
| RuleId | CA1006 |
| Category | Microsoft.Design |
| Breaking change | Breaking |
Cause
An externally visible member has a signature that contains a nested type argument.
Rule description
A nested type argument is a type argument that is also a generic type. To call a member whose signature contains a nested type argument, the user must instantiate one generic type and pass this type to the constructor of a second generic type. The required procedure and syntax are complex and should be avoided.
How to fix violations
To fix a violation of this rule, change the design to remove the nested type argument.
When to suppress warnings
Do not suppress a warning from this rule. Providing generics in a syntax that is easy to understand and use reduces the time that is required to learn and increases the adoption rate of new libraries.
Example
The following example shows a method that violates the rule and the syntax that is required to call the violating method.
Imports System
Imports System.Collections.Generic
Namespace DesignLibrary
Public Class IntegerCollections
Sub NonNestedCollection(collection As ICollection(Of Integer))
For Each I As Integer In DirectCast( _
collection, IEnumerable(Of Integer))
Console.WriteLine(I)
Next
End Sub
' This method violates the rule.
Sub NestedCollection( _
outerCollection As ICollection(Of ICollection(Of Integer)))
For Each innerCollection As ICollection(Of Integer) In _
DirectCast(outerCollection, _
IEnumerable(Of ICollection(Of Integer)))
For Each I As Integer In _
DirectCast(innerCollection, IEnumerable(Of Integer))
Console.WriteLine(I)
Next
Next
End Sub
End Class
Class Test
Shared Sub Main()
Dim collections As New IntegerCollections()
Dim integerListA As New List(Of Integer)()
integerListA.Add(1)
integerListA.Add(2)
integerListA.Add(3)
collections.NonNestedCollection(integerListA)
Dim integerListB As New List(Of Integer)()
integerListB.Add(4)
integerListB.Add(5)
integerListB.Add(6)
Dim integerListC As New List(Of Integer)()
integerListC.Add(7)
integerListC.Add(8)
integerListC.Add(9)
Dim nestedIntegerLists As New List(Of ICollection(Of Integer))()
nestedIntegerLists.Add(integerListA)
nestedIntegerLists.Add(integerListB)
nestedIntegerLists.Add(integerListC)
collections.NestedCollection(nestedIntegerLists)
End Sub
End Class
End Namespace
using System;
using System.Collections.Generic;
namespace DesignLibrary
{
public class IntegerCollections
{
public void NotNestedCollection(ICollection<int> collection)
{
foreach(int i in collection)
{
Console.WriteLine(i);
}
}
// This method violates the rule.
public void NestedCollection(
ICollection<ICollection<int>> outerCollection)
{
foreach(ICollection<int> innerCollection in outerCollection)
{
foreach(int i in innerCollection)
{
Console.WriteLine(i);
}
}
}
}
class Test
{
static void Main()
{
IntegerCollections collections = new IntegerCollections();
List<int> integerListA = new List<int>();
integerListA.Add(1);
integerListA.Add(2);
integerListA.Add(3);
collections.NotNestedCollection(integerListA);
List<int> integerListB = new List<int>();
integerListB.Add(4);
integerListB.Add(5);
integerListB.Add(6);
List<int> integerListC = new List<int>();
integerListC.Add(7);
integerListC.Add(8);
integerListC.Add(9);
List<ICollection<int>> nestedIntegerLists =
new List<ICollection<int>>();
nestedIntegerLists.Add(integerListA);
nestedIntegerLists.Add(integerListB);
nestedIntegerLists.Add(integerListC);
collections.NestedCollection(nestedIntegerLists);
}
}
}
Related rules
CA1005: Avoid excessive parameters on generic types
CA1010: Collections should implement generic interface
CA1000: Do not declare static members on generic types
CA1002: Do not expose generic lists
CA1004: Generic methods should provide type parameter
CA1003: Use generic event handler instances
CA1007: Use generics where appropriate