Edit

Share via


CA1019: Define accessors for attribute arguments

Property Value
Rule ID CA1019
Title Define accessors for attribute arguments
Category Design
Fix is breaking or non-breaking Non-breaking
Enabled by default in .NET 9 No

Cause

In its constructor, an attribute defines arguments that do not have corresponding properties.

Rule description

Attributes can define mandatory arguments that must be specified when you apply the attribute to a target. These are also known as positional arguments because they are supplied to attribute constructors as positional parameters. For every mandatory argument, the attribute should also provide a corresponding read-only property so that the value of the argument can be retrieved at execution time. This rule checks that for each constructor parameter, you have defined the corresponding property.

Attributes can also define optional arguments, which are also known as named arguments. These arguments are supplied to attribute constructors by name and should have a corresponding read/write property.

For mandatory and optional arguments, the corresponding properties and constructor parameters should use the same name but different casing. Properties use Pascal casing, and parameters use camel casing.

How to fix violations

To fix a violation of this rule, add a read-only property for each constructor parameter that does not have one.

When to suppress warnings

Suppress a warning from this rule if you do not want the value of the mandatory argument to be retrievable.

Suppress a warning

If you just want to suppress a single violation, add preprocessor directives to your source file to disable and then re-enable the rule.

#pragma warning disable CA1019
// The code that's violating the rule is on this line.
#pragma warning restore CA1019

To disable the rule for a file, folder, or project, set its severity to none in the configuration file.

[*.{cs,vb}]
dotnet_diagnostic.CA1019.severity = none

For more information, see How to suppress code analysis warnings.

Examples

Custom attributes

The following example shows two attributes that define a mandatory (positional) parameter. The first implementation of the attribute is incorrectly defined. The second implementation is correct.

// Violates rule: DefineAccessorsForAttributeArguments.
[AttributeUsage(AttributeTargets.All)]
public sealed class BadCustomAttribute : Attribute
{
    string _data;

    // Missing the property that corresponds to 
    // the someStringData constructor parameter.

    public BadCustomAttribute(string someStringData)
    {
        _data = someStringData;
    }
}

// Satisfies rule: Attributes should have accessors for all arguments.
[AttributeUsage(AttributeTargets.All)]
public sealed class GoodCustomAttribute : Attribute
{
    public GoodCustomAttribute(string someStringData)
    {
        SomeStringData = someStringData;
    }

    //The constructor parameter and property
    //name are the same except for case.

    public string SomeStringData { get; }
}
Imports System

Namespace ca1019

    ' Violates rule: DefineAccessorsForAttributeArguments.
    <AttributeUsage(AttributeTargets.All)>
    Public NotInheritable Class BadCustomAttribute
        Inherits Attribute
        Private data As String

        ' Missing the property that corresponds to 
        ' the someStringData parameter.
        Public Sub New(someStringData As String)
            data = someStringData
        End Sub 'New
    End Class 'BadCustomAttribute

    ' Satisfies rule: Attributes should have accessors for all arguments.
    <AttributeUsage(AttributeTargets.All)>
    Public NotInheritable Class GoodCustomAttribute
        Inherits Attribute

        Public Sub New(someStringData As String)
            Me.SomeStringData = someStringData
        End Sub 'New

        'The constructor parameter and property
        'name are the same except for case.

        Public ReadOnly Property SomeStringData() As String
    End Class

End Namespace

Positional and named arguments

Positional and named arguments make it clear to consumers of your library which arguments are mandatory for the attribute and which arguments are optional.

The following example shows an implementation of an attribute that has both positional and named arguments:

[AttributeUsage(AttributeTargets.All)]
public sealed class GoodCustomAttribute : Attribute
{
    public GoodCustomAttribute(string mandatoryData)
    {
        MandatoryData = mandatoryData;
    }

    public string MandatoryData { get; }

    public string? OptionalData { get; set; }
}

The following example shows how to apply the custom attribute to two properties:

[GoodCustomAttribute("ThisIsSomeMandatoryData", OptionalData = "ThisIsSomeOptionalData")]
public string? MyProperty { get; set; }

[GoodCustomAttribute("ThisIsSomeMoreMandatoryData")]
public string? MyOtherProperty { get; set; }

CA1813: Avoid unsealed attributes

See also