On this page:
5.1 Special forms
define-signature
unit
invoke-unit
define-values/  invoke-unit
compound-unit
define-unit
compound-unit/  infer
define-compound-unit
define-compound-unit/  infer
invoke-unit/  infer
define-values/  invoke-unit/  infer
unit-from-context
define-unit-from-context
5.2 Types
Unit
Unit  Top
5.3 Interacting with Untyped Code
5.4 Limitations
5.4.1 Signature Forms
5.4.2 Contracts and Unit Static Information
5.4.3 Signatures and Internal Definition Contexts
5.4.4 Tagged Signatures
5.4.5 Structural Matching and Other Unit Forms
8.15.0.5

5 Typed Units🔗ℹ

Warning: the features described in this section are experimental and may not work correctly. Some of the features may change by the next release.

Typed Racket provides support for modular programming with the units and signatures provided by the racket/unit library.

5.1 Special forms🔗ℹ

 (require typed/racket/unit) package: typed-racket-lib

The special forms below are provided by the typed/racket/unit and typed/racket modules, but not by typed/racket/base. The typed/racket/unit module additionally provides all other bindings from racket/unit.

syntax

(define-signature id extension-decl
  (sig-elem ...))
 
extension-decl = 
  | extends sig-id
     
sig-elem = [id : type]
Binds an identifier to a signature and registers the identifier in the signature environment with the specified type bindings. Sigantures in Typed Racket allow only specifications of variables and their types. Variable and syntax definitions are not allowed in the define-signature form. This is only a limitation of the define-signature form in Typed Racket.

As in untyped Racket, the extends clause includes all elements of extended signature and any implementation of the new signature can be used as an implementation of the extended signature.

syntax

(unit
  (import sig-spec ...)
  (export sig-spec ...)
  init-depends-decl
  unit-body-expr-or-defn
  ...)
 
sig-spec = sig-id
  | (prefix id sig-spec)
  | (rename sig-spec (id id) ...)
  | (only sig-spec id ...)
  | (except sig-spec id ...)
     
init-depends-decl = 
  | (init-depend sig-id ...)
The typed version of the Racket unit form. Unit expressions in Typed Racket do not support tagged signatures with the tag keyword.

syntax

(invoke-unit unit-expr)

(invoke-unit unit-expr (import sig-spec ...))
The typed version of the Racket invoke-unit form.

syntax

(define-values/invoke-unit unit-expr
  (import def-sig-spec ...)
  (export def-sig-spec ...))
 
def-sig-spec = sig-id
  | (prefix id def-sig-spec)
  | (rename def-sig-spec (id id) ...)
The typed version of the Racket define-values/invoke-unit form. In Typed Racket define-values/invoke-unit is only allowed at the top-level of a module.

syntax

(compound-unit
  (import link-binding ...)
  (export link-id ...)
  (link linkage-decl ...))
 
link-binding = (link-id : sig-id)
     
linkage-decl = ((link-binding ...) unit-expr link-id ...)
The typed version of the Racket compound-unit form.

syntax

(define-unit unit-id
  (import sig-spec ...)
  (export sig-spec ...)
  init-depends-decl
  unit-body-expr-or-defn
  ...)
The typed version of the Racket define-unit form.

syntax

(compound-unit/infer
  (import infer-link-import ...)
  (export infer-link-export ...)
  (link infer-linkage-decl ...))
 
infer-link-import = sig-id
  | (link-id : sig-id)
     
infer-link-export = link-id
  | sig-id
     
infer-linkage-decl = 
((link-binding ...) unit-id
                    tagged-link-id ...)
  | unit-id
The typed version of the Racket compound-unit/infer form.

syntax

(define-compound-unit id
  (import link-binding ...)
  (export link-id ...)
  (link linkage-decl ...))
The typed version of the Racket define-compound-unit form.

syntax

(define-compound-unit/infer id
  (import link-binding ...)
  (export infer-link-export ...)
  (link infer-linkage-decl ...))
The typed version of the Racket define-compound-unit/infer form.

syntax

(invoke-unit/infer unit-spec)

 
unit-spec = unit-id
  | (link link-unit-id ...)
The typed version of the Racket invoke-unit/infer form.

syntax

(define-values/invoke-unit/infer maybe-exports unit-spec)

 
maybe-exports = 
  | (export sig-sepc ...)
     
unit-spec = unit-id
  | (link link-unit-id ...)
The typed version of the Racket define-values/invoke-unit/infer form. Like the define-values/invoke-unit form above, this form is only allowed at the toplevel of a module.

syntax

(unit-from-context sig-spec)

The typed version of the Racket unit-from-context form.

syntax

(define-unit-from-context id sig-spec)

The typed version of the Racket define-unit-from-context form.

5.2 Types🔗ℹ

syntax

(Unit
  (import sig-id ...)
  (export sig-id ...)
  optional-init-depend-clause
  optional-body-type-clause)
 
optional-init-depend-clause = 
  | (init-depend sig-id ...)
     
optional-body-type-clause = 
  | type
  | (Values type ...)
The type of a unit with the given imports, exports, initialization dependencies, and body type. Omitting the init-depend clause is equivalent to an init-depend clause that contains no signatures. The body type is the type of the last expression in the unit’s body. If a unit contains only definitions and no expressions its body type is Void. Omitting the body type is equivalent to specifying a body type of Void.

Example:
> (module Unit-Types typed/racket
    (define-signature fact^ ([fact : (-> Natural Natural)]))
    (: use-fact@ (Unit (import fact^)
                       (export)
                       Natural))
    (define use-fact@ (unit (import fact^) (export) (fact 5))))

syntax

UnitTop

The supertype of all unit types. Values of this type cannot be linked or invoked. The primary use of is for the reflective operation unit?

5.3 Interacting with Untyped Code🔗ℹ

syntax

(require/typed m rt-clause ...)

 
rt-clause = [maybe-renamed t]
  | 
[#:struct name ([f : t] ...)
     struct-option ...]
  | 
[#:struct (name parent) ([f : t] ...)
     struct-option ...]
  | [#:opaque t pred]
  | [#:signature name ([id : t] ...)]
     
maybe-renamed = id
  | (orig-id new-id)
     
struct-option = #:constructor-name constructor-id
  | #:extra-constructor-name constructor-id

The #:signature clause of require/typed requires the given signature and registers it in the signature environment with the specified bindings. Unlike other identifiers required with require/typed, signatures are not protected by contracts.

Signatures are not runtime values and therefore do not need to be protected by contracts.

Examples:
> (module UNTYPED-1 racket
    (provide a^)
    (define-signature a^ (a)))
> (module TYPED-1 typed/racket
    (require/typed 'UNTYPED-1
                   [#:signature a^ ([a : Integer])])
    (unit (import a^) (export) (add1 a)))

Typed Racket will infer whether the named signature extends another signature. It is an error to require a signature that extends a signature not present in the signature environment.

Examples:
> (module UNTYPED-2 racket
    (provide a-sub^)
    (define-signature a^ (a1))
    (define-signature a-sub^ extends a^ (a2)))
> (module TYPED-2 typed/racket
    (require/typed 'UNTYPED-2
                   [#:signature a-sub^
                     ([a1 : Integer]
                      [a2 : String])]))

eval:6:0: Type Checker: Error in macro expansion -- required

signature extends an untyped signature

  required signature: a-sub^

  extended signature: a^

  in: UNTYPED-2

Requiring a signature from an untyped module that contains variable definitions is an error in Typed Racket.

Examples:
> (module UNTYPED racket
    (provide bad^)
    (define-signature bad^ (bad (define-values (bad-ref) (car bad)))))
> (module TYPED typed/racket
    (require/typed 'UNTYPED
                   [#:signature bad^
                     ([bad : (Pairof Integer Integer)]
                      [bad-ref : Integer])]))

eval:8:0: Type Checker: Error in macro expansion -- untyped

signatures containing definitions are prohibited

  in: UNTYPED

5.4 Limitations🔗ℹ

5.4.1 Signature Forms🔗ℹ

Unlike Racket’s define-signature form, in Typed Racket define-signature only supports one kind of signature element that specifies the types of variables in the signature. In particular Typed Racket’s define-signature form does not support uses of define-syntaxes, define-values, or define-values-for-export . Requiring an untyped signature that contains definitions in a typed module will result in an error.

Examples:
> (module UNTYPED racket
    (provide bad^)
    (define-signature bad^ ((define-values (bad) 13))))
> (module TYPED typed/racket
    (require/typed 'UNTYPED
                   [#:signature bad^ ([bad : Integer])]))

eval:10:0: Type Checker: Error in macro expansion -- untyped

signatures containing definitions are prohibited

  in: UNTYPED

5.4.2 Contracts and Unit Static Information🔗ℹ

Unit values that flow between typed and untyped contexts are wrapped in unit/c contracts to guard the unit’s imports, exports, and result upon invocation. When identifers that are additionally bound to static information about a unit, such as those defined by define-unit, flow between typed and untyped contexts contract application can result the static information becoming inaccessible.

Examples:
> (module UNTYPED racket
    (provide u@)
    (define-unit u@ (import) (export) "Hello!"))
> (module TYPED typed/racket
    (require/typed 'UNTYPED
                   [u@ (Unit (import) (export) String)])
    (invoke-unit/infer u@))

eval:12:0: untyped-invoke-unit/infer: unknown unit

definition

  at: u@

  in: (untyped-invoke-unit/infer u@)

When an identifier bound to static unit information flows from a typed module to an untyped module, however, the situation is worse. Because unit static information is bound to an identifier as a macro definition, any use of the typed unit is disallowed in untyped contexts.

Examples:
> (module TYPED typed/racket
    (provide u@)
    (define-unit u@ (import) (export) "Hello!"))
> (module UNTYPED racket
    (require 'TYPED)
    u@)

eval:14:0: Type Checker: Macro u@ from typed module used in

untyped code

  in: u@

5.4.3 Signatures and Internal Definition Contexts🔗ℹ

Typed Racket’s define-signature form is allowed in both top-level and internal definition contexts. As the following example shows, defining signatures in internal definiition contexts can be problematic.

Example:
> (module TYPED typed/racket
    (define-signature a^ ())
    (define u@
      (let ()
        (define-signature a^ ())
        (unit (import a^) (export) (init-depend a^) 5)))
    (invoke-unit u@ (import a^)))

eval:15:0: Type Checker: type mismatch

  expected: (Unit (import a^) (export) (init-depend a^)

AnyValues)

  given: (Unit (import a^) (export) (init-depend a^)

Positive-Byte)

  in: a^

Even though the unit imports a signature named a^, the a^ provided for the import refers to the top-level a^ signature and the type system prevents invoking the unit. This issue can be avoided by defining signatures only at the top-level of a module.

5.4.4 Tagged Signatures🔗ℹ

Various unit forms in Racket allow for signatures to be tagged to support the definition of units that import or export the same signature multiple times. Typed Racket does not support the use of tagged signatures, using the tag keyword, anywhere in the various unit forms described above.

5.4.5 Structural Matching and Other Unit Forms🔗ℹ

Typed Racket supports only those unit forms described above. All other bindings exported by racket/unit are not supported in the type system. In particular, the structural matching forms including unit/new-import-export and unit/s are unsupported.