CA1007: Use generics where appropriate

TypeName

UseGenericsWhereAppropriate

CheckId

CA1007

Category

Microsoft.Design

Breaking Change

Breaking

Cause

An externally visible method contains a reference parameter of type System.Object, and the containing assembly targets .NET Framework 2.0.

Rule Description

A reference parameter is a parameter that is modified by using the ref (ByRef in Visual Basic) keyword. The argument type that is supplied for a reference parameter must exactly match the reference parameter type. To use a type that is derived from the reference parameter type, the type must first be cast and assigned to a variable of the reference parameter type. Use of a generic method allows all types, subject to constraints, to be passed to the method without first casting the type to the reference parameter type.

How to Fix Violations

To fix a violation of this rule, make the method generic and replace the Object parameter by using a type parameter.

When to Suppress Warnings

Do not suppress a warning from this rule.

Example

The following example shows a general-purpose swap routine that is implemented as both nongeneric and generic methods. Note how efficiently the strings are swapped by using the generic method compared to the nongeneric method.

Imports System

Namespace DesignLibrary

   Public NotInheritable Class ReferenceParameters

      Private Sub New()
      End Sub 

      ' This method violates the rule. 
      Public Shared Sub Swap( _  
         ByRef object1 As Object, ByRef object2 As Object)

         Dim temp As Object = object1
         object1 = object2
         object2 = temp

      End Sub 

      ' This method satifies the rule. 
      Public Shared Sub GenericSwap(Of T)( _ 
         ByRef reference1 As T, ByRef reference2 As T)

         Dim temp As T = reference1
         reference1 = reference2
         reference2 = temp

      End Sub 

   End Class 

   Class Test

      Shared Sub Main()

         Dim string1 As String = "Swap" 
         Dim string2 As String = "It" 

         Dim object1 As Object = DirectCast(string1, Object)
         Dim object2 As Object = DirectCast(string2, Object)
         ReferenceParameters.Swap(object1, object2)
         string1 = DirectCast(object1, String)
         string2 = DirectCast(object2, String)
         Console.WriteLine("{0} {1}", string1, string2)

         ReferenceParameters.GenericSwap(string1, string2)
         Console.WriteLine("{0} {1}", string1, string2)

      End Sub 

   End Class 

End Namespace
using System;

namespace DesignLibrary
{
   public sealed class ReferenceParameters
   {
      private ReferenceParameters(){}

      // This method violates the rule. 
      public static void Swap(ref object object1, ref object object2)
      {
         object temp = object1;
         object1 = object2;
         object2 = temp;
      }

      // This method satifies the rule. 
      public static void GenericSwap<T>(ref T reference1, ref T reference2)
      {
         T temp = reference1;
         reference1 = reference2;
         reference2 = temp;
      }
   }

   class Test
   {
      static void Main()
      {
         string string1 = "Swap";
         string string2 = "It";

         object object1 = (object)string1;
         object object2 = (object)string2;
         ReferenceParameters.Swap(ref object1, ref object2);
         string1 = (string)object1;
         string2 = (string)object2;
         Console.WriteLine("{0} {1}", string1, string2);

         ReferenceParameters.GenericSwap(ref string1, ref string2);
         Console.WriteLine("{0} {1}", string1, string2);
      }
   }
}

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

CA1006: Do not nest generic types in member signatures

CA1004: Generic methods should provide type parameter

CA1003: Use generic event handler instances

See Also

Reference

Generics (C# Programming Guide)