A structure is a compact object type that can be more efficient than a class for types that have a small amount of data and simple behavior.


[ attributes ]
type [accessibility-modifier] type-name =
// or
[ attributes ]
type [accessibility-modifier] type-name =


Structures are value types, which means that they are stored directly on the stack or, when they are used as fields or array elements, inline in the parent type. Unlike classes and records, structures have pass-by-value semantics. This means that they are useful primarily for small aggregates of data that are accessed and copied frequently.

In the previous syntax, two forms are shown. The first is not the lightweight syntax, but it is nevertheless frequently used because, when you use the struct and end keywords, you can omit the StructAttribute attribute, which appears in the second form. You can abbreviate StructAttribute to just Struct.

The type-definition-elements in the previous syntax represents member declarations and definitions. Structures can have constructors and mutable and immutable fields, and they can declare members and interface implementations. For more information, see Members.

Structures cannot participate in inheritance, cannot contain let or do bindings, and cannot recursively contain fields of their own type (although they can contain reference cells that reference their own type).

Because structures do not allow let bindings, you must declare fields in structures by using the val keyword. The val keyword defines a field and its type but does not allow initialization. Instead, val declarations are initialized to zero or null. For this reason, structures that have an implicit constructor (that is, parameters that are given immediately after the structure name in the declaration) require that val declarations be annotated with the DefaultValue attribute. Structures that have a defined constructor still support zero-initialization. Therefore, the DefaultValue attribute is a declaration that such a zero value is valid for the field. Implicit constructors for structures do not perform any actions because let and do bindings aren’t allowed on the type, but the implicit constructor parameter values passed in are available as private fields.

Explicit constructors might involve initialization of field values. When you have a structure that has an explicit constructor, it still supports zero-initialization; however, you do not use the DefaultValue attribute on the val declarations because it conflicts with the explicit constructor. For more information about val declarations, see Explicit Fields: The val Keyword.

Attributes and accessibility modifiers are allowed on structures, and follow the same rules as those for other types. For more information, see Attributes and Access Control.

The following code examples illustrate structure definitions.

// In Point3D, three immutable values are defined.
// x, y, and z will be initialized to 0.0.
type Point3D =
      val x: float
      val y: float
      val z: float

// In Point2D, two immutable values are defined.
// Point2D has an explicit constructor.
// You can create zero-initialized instances of Point2D, or you can
// pass in arguments to initialize the values.
type Point2D =
      val X: float
      val Y: float
      new(x: float, y: float) = { X = x; Y = y }

Struct Records and Discriminated Unions

Starting with F# 4.1, you can represent Records and Discriminated Unions as structs with the [<Struct>] attribute. See each article to learn more.

See Also

F# Language Reference