Explicit Fields: The val Keyword

The val keyword is used to declare a location to store a value in a class or structure type, without initializing it. Storage locations declared in this manner are called explicit fields. Another use of the val keyword is in conjunction with the member keyword to declare an auto-implemented property. For more information on auto-implemented properties, see Properties.


val [ mutable ] [ access-modifier ] field-name : type-name


The usual way to define fields in a class or structure type is to use a let binding. However, let bindings must be initialized as part of the class constructor, which is not always possible, necessary, or desirable. You can use the val keyword when you want a field that is uninitialized.

Explicit fields can be static or non-static. The access-modifier can be public, private, or internal. By default, explicit fields are public. This differs from let bindings in classes, which are always private.

The DefaultValue attribute is required on explicit fields in class types that have a primary constructor. This attribute specifies that the field is initialized to zero. The type of the field must support zero-initialization. A type supports zero-initialization if it is one of the following:

  • A primitive type that has a zero value.

  • A type that supports a null value, either as a normal value, as an abnormal value, or as a representation of a value. This includes classes, tuples, records, functions, interfaces, .NET reference types, the unit type, and discriminated union types.

  • A .NET value type.

  • A structure whose fields all support a default zero value.

For example, an immutable field called someField has a backing field in the .NET compiled representation with the name someField@, and you access the stored value using a property named someField.

For a mutable field, the .NET compiled representation is a .NET field.


Note The .NET Framework namespace System.ComponentModel contains an attribute that has the same name. For information about this attribute, see System.ComponentModel.DefaultValueAttribute.

The following code shows the use of explicit fields and, for comparison, a let binding in a class that has a primary constructor. Note that the let-bound field myInt1 is private. When the let-bound field myInt1 is referenced from a member method, the self identifier this is not required. But when you are referencing the explicit fields myInt2 and myString, the self identifier is required.

type MyType() =
    let mutable myInt1 = 10
    [<DefaultValue>] val mutable myInt2 : int
    [<DefaultValue>] val mutable myString : string
    member this.SetValsAndPrint( i: int, str: string) =
       myInt1 <- i
       this.myInt2 <- i + 1
       this.myString <- str
       printfn "%d %d %s" myInt1 (this.myInt2) (this.myString)

let myObject = new MyType()
myObject.SetValsAndPrint(11, "abc")
// The following line is not allowed because let bindings are private.
// myObject.myInt1 <- 20
myObject.myInt2 <- 30
myObject.myString <- "def"

printfn "%d %s" (myObject.myInt2) (myObject.myString)

The output is as follows:

11 12 abc
30 def

The following code shows the use of explicit fields in a class that does not have a primary constructor. In this case, the DefaultValue attribute is not required, but all the fields must be initialized in the constructors that are defined for the type.

type MyClass =
    val a : int
    val b : int
    // The following version of the constructor is an error
    // because b is not initialized.
    // new (a0, b0) = { a = a0; }
    // The following version is acceptable because all fields are initialized.
    new(a0, b0) = { a = a0; b = b0; }

let myClassObj = new MyClass(35, 22)
printfn "%d %d" (myClassObj.a) (myClassObj.b)

The output is 35 22.

The following code shows the use of explicit fields in a structure. Because a structure is a value type, it automatically has a default constructor that sets the values of its fields to zero. Therefore, the DefaultValue attribute is not required.

type MyStruct =
        val mutable myInt : int
        val mutable myString : string

let mutable myStructObj = new MyStruct()
myStructObj.myInt <- 11
myStructObj.myString <- "xyz"

printfn "%d %s" (myStructObj.myInt) (myStructObj.myString)

The output is 11 xyz.

Explicit fields are not intended for routine use. In general, when possible you should use a let binding in a class instead of an explicit field. Explicit fields are useful in certain interoperability scenarios, such as when you need to define a structure that will be used in a platform invoke call to a native API, or in COM interop scenarios. For more information, see External Functions. Another situation in which an explicit field might be necessary is when you are working with an F# code generator which emits classes without a primary constructor. Explicit fields are also useful for thread-static variables or similar constructs. For more information, see System.ThreadStaticAttribute.

When the keywords member val appear together in a type definition, it is a definition of an automatically implemented property. For more information, see Properties.

See Also



let Bindings in Classes