(!begin-collecting-cold-init-forms)
-;;; Has the type system been properly initialized? (I.e. is it OK to
-;;; use it?)
-(defvar *type-system-initialized* #+sb-xc-host nil) ; (set in cold load)
-\f
;;;; representations of types
;;; A HAIRY-TYPE represents anything too weird to be described
;;; and unreasonably complicated types involving AND. We just remember
;;; the original type spec.
(defstruct (hairy-type (:include ctype
- (class-info (type-class-or-lose 'hairy))
- (enumerable t)
- (might-contain-other-types-p t))
- (:copier nil)
- #!+cmu (:pure nil))
+ (class-info (type-class-or-lose 'hairy))
+ (enumerable t)
+ (might-contain-other-types-p t))
+ (:copier nil)
+ #!+cmu (:pure nil))
;; the Common Lisp type-specifier of the type we represent
(specifier nil :type t))
;;; defined). We make this distinction since we don't want to complain
;;; about types that are hairy but defined.
(defstruct (unknown-type (:include hairy-type)
- (:copier nil)))
+ (:copier nil)))
(defstruct (negation-type (:include ctype
- (class-info (type-class-or-lose 'negation))
- ;; FIXME: is this right? It's
- ;; what they had before, anyway
- (enumerable t)
- (might-contain-other-types-p t))
- (:copier nil)
- #!+cmu (:pure nil))
+ (class-info (type-class-or-lose 'negation))
+ ;; FIXME: is this right? It's
+ ;; what they had before, anyway
+ (enumerable t)
+ (might-contain-other-types-p t))
+ (:copier nil)
+ #!+cmu (:pure nil))
(type (missing-arg) :type ctype))
(!define-type-class negation)
;;; ARGS-TYPE objects are used both to represent VALUES types and
;;; to represent FUNCTION types.
(defstruct (args-type (:include ctype)
- (:constructor nil)
- (:copier nil))
+ (:constructor nil)
+ (:copier nil))
;; Lists of the type for each required and optional argument.
(required nil :type list)
(optional nil :type list)
;; true if other &KEY arguments are allowed
(allowp nil :type boolean))
+(defun canonicalize-args-type-args (required optional rest)
+ (when (eq rest *empty-type*)
+ ;; or vice-versa?
+ (setq rest nil))
+ (loop with last-not-rest = nil
+ for i from 0
+ for opt in optional
+ do (cond ((eq opt *empty-type*)
+ (return (values required (subseq optional i) rest)))
+ ((neq opt rest)
+ (setq last-not-rest i)))
+ finally (return (values required
+ (if last-not-rest
+ (subseq optional 0 (1+ last-not-rest))
+ nil)
+ rest))))
+
+(defun args-types (lambda-list-like-thing)
+ (multiple-value-bind
+ (required optional restp rest keyp keys allowp auxp aux
+ morep more-context more-count llk-p)
+ (parse-lambda-list-like-thing lambda-list-like-thing)
+ (declare (ignore aux morep more-context more-count))
+ (when auxp
+ (error "&AUX in a FUNCTION or VALUES type: ~S." lambda-list-like-thing))
+ (let ((required (mapcar #'single-value-specifier-type required))
+ (optional (mapcar #'single-value-specifier-type optional))
+ (rest (when restp (single-value-specifier-type rest)))
+ (keywords
+ (collect ((key-info))
+ (dolist (key keys)
+ (unless (proper-list-of-length-p key 2)
+ (error "Keyword type description is not a two-list: ~S." key))
+ (let ((kwd (first key)))
+ (when (find kwd (key-info) :key #'key-info-name)
+ (error "~@<repeated keyword ~S in lambda list: ~2I~_~S~:>"
+ kwd lambda-list-like-thing))
+ (key-info
+ (make-key-info
+ :name kwd
+ :type (single-value-specifier-type (second key))))))
+ (key-info))))
+ (multiple-value-bind (required optional rest)
+ (canonicalize-args-type-args required optional rest)
+ (values required optional rest keyp keywords allowp llk-p)))))
+
(defstruct (values-type
- (:include args-type
- (class-info (type-class-or-lose 'values)))
+ (:include args-type
+ (class-info (type-class-or-lose 'values)))
(:constructor %make-values-type)
- (:copier nil)))
-(define-cached-synonym make-values-type)
+ (:copier nil)))
+
+(defun-cached (make-values-type-cached
+ :hash-bits 8
+ :hash-function (lambda (req opt rest allowp)
+ (logand (logxor
+ (type-list-cache-hash req)
+ (type-list-cache-hash opt)
+ (if rest
+ (type-hash-value rest)
+ 42)
+ (sxhash allowp))
+ #xFF)))
+ ((required equal-but-no-car-recursion)
+ (optional equal-but-no-car-recursion)
+ (rest eq)
+ (allowp eq))
+ (%make-values-type :required required
+ :optional optional
+ :rest rest
+ :allowp allowp))
+
+(defun make-values-type (&key (args nil argsp)
+ required optional rest allowp)
+ (if argsp
+ (if (eq args '*)
+ *wild-type*
+ (multiple-value-bind (required optional rest keyp keywords allowp
+ llk-p)
+ (args-types args)
+ (declare (ignore keywords))
+ (when keyp
+ (error "&KEY appeared in a VALUES type specifier ~S."
+ `(values ,@args)))
+ (if llk-p
+ (make-values-type :required required
+ :optional optional
+ :rest rest
+ :allowp allowp)
+ (make-short-values-type required))))
+ (multiple-value-bind (required optional rest)
+ (canonicalize-args-type-args required optional rest)
+ (cond ((and (null required)
+ (null optional)
+ (eq rest *universal-type*))
+ *wild-type*)
+ ((memq *empty-type* required)
+ *empty-type*)
+ (t (make-values-type-cached required optional
+ rest allowp))))))
(!define-type-class values)
;;; (SPECIFIER-TYPE 'FUNCTION) and its subtypes
(defstruct (fun-type (:include args-type
- (class-info (type-class-or-lose 'function))))
+ (class-info (type-class-or-lose 'function)))
+ (:constructor
+ %make-fun-type (&key required optional rest
+ keyp keywords allowp
+ wild-args
+ returns
+ &aux (rest (if (eq rest *empty-type*)
+ nil
+ rest)))))
;; true if the arguments are unrestrictive, i.e. *
(wild-args nil :type boolean)
;; type describing the return values. This is a values type
;; when multiple values were specified for the return.
(returns (missing-arg) :type ctype))
+(defun make-fun-type (&rest initargs
+ &key (args nil argsp) returns &allow-other-keys)
+ (if argsp
+ (if (eq args '*)
+ (if (eq returns *wild-type*)
+ (specifier-type 'function)
+ (%make-fun-type :wild-args t :returns returns))
+ (multiple-value-bind (required optional rest keyp keywords allowp)
+ (args-types args)
+ (if (and (null required)
+ (null optional)
+ (eq rest *universal-type*)
+ (not keyp))
+ (if (eq returns *wild-type*)
+ (specifier-type 'function)
+ (%make-fun-type :wild-args t :returns returns))
+ (%make-fun-type :required required
+ :optional optional
+ :rest rest
+ :keyp keyp
+ :keywords keywords
+ :allowp allowp
+ :returns returns))))
+ ;; FIXME: are we really sure that we won't make something that
+ ;; looks like a completely wild function here?
+ (apply #'%make-fun-type initargs)))
;;; The CONSTANT-TYPE structure represents a use of the CONSTANT-ARG
;;; "type specifier", which is only meaningful in function argument
;;; type specifiers used within the compiler. (It represents something
;;; that the compiler knows to be a constant.)
(defstruct (constant-type
- (:include ctype
- (class-info (type-class-or-lose 'constant)))
- (:copier nil))
+ (:include ctype
+ (class-info (type-class-or-lose 'constant)))
+ (:copier nil))
;; The type which the argument must be a constant instance of for this type
;; specifier to win.
(type (missing-arg) :type ctype))
-;;; The NAMED-TYPE is used to represent *, T and NIL. These types must
-;;; be super- or sub-types of all types, not just classes and * and
-;;; NIL aren't classes anyway, so it wouldn't make much sense to make
-;;; them built-in classes.
+;;; The NAMED-TYPE is used to represent *, T and NIL, the standard
+;;; special cases, as well as other special cases needed to
+;;; interpolate between regions of the type hierarchy, such as
+;;; INSTANCE (which corresponds to all those classes with slots which
+;;; are not funcallable), FUNCALLABLE-INSTANCE (those classes with
+;;; slots which are funcallable) and EXTENDED-SEQUUENCE (non-LIST
+;;; non-VECTOR classes which are also sequences). These special cases
+;;; are the ones that aren't really discussed by Baker in his
+;;; "Decision Procedure for SUBTYPEP" paper.
(defstruct (named-type (:include ctype
- (class-info (type-class-or-lose 'named)))
- (:copier nil))
+ (class-info (type-class-or-lose 'named)))
+ (:copier nil))
(name nil :type symbol))
;;; a list of all the float "formats" (i.e. internal representations;
;;; A NUMERIC-TYPE represents any numeric type, including things
;;; such as FIXNUM.
(defstruct (numeric-type (:include ctype
- (class-info (type-class-or-lose 'number)))
- (:constructor %make-numeric-type)
- (:copier nil))
+ (class-info (type-class-or-lose 'number)))
+ (:constructor %make-numeric-type)
+ (:copier nil))
;; the kind of numeric type we have, or NIL if not specified (just
;; NUMBER or COMPLEX)
;;
;;; cases, despite the name, we return *EMPTY-TYPE* instead of a
;;; NUMERIC-TYPE.
(defun make-numeric-type (&key class format (complexp :real) low high
- enumerable)
+ enumerable)
;; if interval is empty
(if (and low
- high
- (if (or (consp low) (consp high)) ; if either bound is exclusive
- (>= (type-bound-number low) (type-bound-number high))
- (> low high)))
+ high
+ (if (or (consp low) (consp high)) ; if either bound is exclusive
+ (>= (type-bound-number low) (type-bound-number high))
+ (> low high)))
*empty-type*
(multiple-value-bind (canonical-low canonical-high)
- (case class
- (integer
- ;; INTEGER types always have their LOW and HIGH bounds
- ;; represented as inclusive, not exclusive values.
- (values (if (consp low)
- (1+ (type-bound-number low))
- low)
- (if (consp high)
- (1- (type-bound-number high))
- high)))
- #!+negative-zero-is-not-zero
- (float
- ;; Canonicalize a low bound of (-0.0) to 0.0, and a high
- ;; bound of (+0.0) to -0.0.
- (values (if (and (consp low)
- (floatp (car low))
- (zerop (car low))
- (minusp (float-sign (car low))))
- (float 0.0 (car low))
- low)
- (if (and (consp high)
- (floatp (car high))
- (zerop (car high))
- (plusp (float-sign (car high))))
- (float -0.0 (car high))
- high)))
- (t
- ;; no canonicalization necessary
- (values low high)))
- (when (and (eq class 'rational)
- (integerp canonical-low)
- (integerp canonical-high)
- (= canonical-low canonical-high))
- (setf class 'integer))
- (%make-numeric-type :class class
- :format format
- :complexp complexp
- :low canonical-low
- :high canonical-high
- :enumerable enumerable))))
+ (case class
+ (integer
+ ;; INTEGER types always have their LOW and HIGH bounds
+ ;; represented as inclusive, not exclusive values.
+ (values (if (consp low)
+ (1+ (type-bound-number low))
+ low)
+ (if (consp high)
+ (1- (type-bound-number high))
+ high)))
+ (t
+ ;; no canonicalization necessary
+ (values low high)))
+ (when (and (eq class 'rational)
+ (integerp canonical-low)
+ (integerp canonical-high)
+ (= canonical-low canonical-high))
+ (setf class 'integer))
+ (%make-numeric-type :class class
+ :format format
+ :complexp complexp
+ :low canonical-low
+ :high canonical-high
+ :enumerable enumerable))))
(defun modified-numeric-type (base
- &key
- (class (numeric-type-class base))
- (format (numeric-type-format base))
- (complexp (numeric-type-complexp base))
- (low (numeric-type-low base))
- (high (numeric-type-high base))
- (enumerable (numeric-type-enumerable base)))
+ &key
+ (class (numeric-type-class base))
+ (format (numeric-type-format base))
+ (complexp (numeric-type-complexp base))
+ (low (numeric-type-low base))
+ (high (numeric-type-high base))
+ (enumerable (numeric-type-enumerable base)))
(make-numeric-type :class class
- :format format
- :complexp complexp
- :low low
- :high high
- :enumerable enumerable))
+ :format format
+ :complexp complexp
+ :low low
+ :high high
+ :enumerable enumerable))
+
+(defstruct (character-set-type
+ (:include ctype
+ (class-info (type-class-or-lose 'character-set)))
+ (:constructor %make-character-set-type)
+ (:copier nil))
+ (pairs (missing-arg) :type list :read-only t))
+(defun make-character-set-type (&key pairs)
+ ; (aver (equal (mapcar #'car pairs)
+ ; (sort (mapcar #'car pairs) #'<)))
+ ;; aver that the cars of the list elements are sorted into increasing order
+ (aver (or (null pairs)
+ (do ((p pairs (cdr p)))
+ ((null (cdr p)) t)
+ (when (> (caar p) (caadr p)) (return nil)))))
+ (let ((pairs (let (result)
+ (do ((pairs pairs (cdr pairs)))
+ ((null pairs) (nreverse result))
+ (destructuring-bind (low . high) (car pairs)
+ (loop for (low1 . high1) in (cdr pairs)
+ if (<= low1 (1+ high))
+ do (progn (setf high (max high high1))
+ (setf pairs (cdr pairs)))
+ else do (return nil))
+ (cond
+ ((>= low sb!xc:char-code-limit))
+ ((< high 0))
+ (t (push (cons (max 0 low)
+ (min high (1- sb!xc:char-code-limit)))
+ result))))))))
+ (if (null pairs)
+ *empty-type*
+ (%make-character-set-type :pairs pairs))))
;;; An ARRAY-TYPE is used to represent any array type, including
-;;; things such as SIMPLE-STRING.
+;;; things such as SIMPLE-BASE-STRING.
(defstruct (array-type (:include ctype
- (class-info (type-class-or-lose 'array)))
+ (class-info (type-class-or-lose 'array)))
(:constructor %make-array-type)
- (:copier nil))
+ (:copier nil))
;; the dimensions of the array, or * if unspecified. If a dimension
;; is unspecified, it is *.
(dimensions '* :type (or list (member *)))
;;; bother with this at this level because MEMBER types are fairly
;;; important and union and intersection are well defined.
(defstruct (member-type (:include ctype
- (class-info (type-class-or-lose 'member))
- (enumerable t))
- (:copier nil)
- (:constructor %make-member-type (members))
- #-sb-xc-host (:pure nil))
+ (class-info (type-class-or-lose 'member))
+ (enumerable t))
+ (:copier nil)
+ (:constructor %make-member-type (members))
+ #-sb-xc-host (:pure nil))
;; the things in the set, with no duplications
(members nil :type list))
(defun make-member-type (&key members)
(declare (type list members))
- ;; make sure that we've removed duplicates
- (aver (= (length members) (length (remove-duplicates members))))
;; if we have a pair of zeros (e.g. 0.0d0 and -0.0d0), then we can
;; canonicalize to (DOUBLE-FLOAT 0.0d0 0.0d0), because numeric
;; ranges are compared by arithmetic operators (while MEMBERship is
;; compared by EQL). -- CSR, 2003-04-23
- (let ((singlep (subsetp '(-0.0f0 0.0f0) members))
- (doublep (subsetp '(-0.0d0 0.0d0) members))
- #!+long-float
- (longp (subsetp '(-0.0l0 0.0l0) members)))
- (if (or singlep doublep #!+long-float longp)
- (let (union-types)
- (when singlep
- (push (ctype-of 0.0f0) union-types)
- (setf members (set-difference members '(-0.0f0 0.0f0))))
- (when doublep
- (push (ctype-of 0.0d0) union-types)
- (setf members (set-difference members '(-0.0d0 0.0d0))))
- #!+long-float
- (when longp
- (push (ctype-of 0.0l0) union-types)
- (setf members (set-difference members '(-0.0l0 0.0l0))))
- (aver (not (null union-types)))
- (make-union-type t
- (if (null members)
- union-types
- (cons (%make-member-type members)
- union-types))))
- (%make-member-type members))))
+ (let ((n-single (load-time-value
+ (make-unportable-float :single-float-negative-zero)))
+ (n-double (load-time-value
+ (make-unportable-float :double-float-negative-zero)))
+ #!+long-float
+ (n-long (load-time-value
+ (make-unportable-float :long-float-negative-zero)))
+ (singles nil)
+ (doubles nil)
+ #!+long-float
+ (longs nil))
+ ;; Just a single traversal, please! MEMBERS2 starts as with MEMBERS,
+ ;; sans any zeroes -- if there are any paired zeroes then the
+ ;; unpaired ones are added back to it.
+ (let (members2)
+ (dolist (elt members)
+ (if (and (numberp elt) (zerop elt))
+ (typecase elt
+ (single-float (push elt singles))
+ (double-float (push elt doubles))
+ #!+long-float
+ (long-float (push elt longs)))
+ (push elt members2)))
+ (let ((singlep (and (member 0.0f0 singles)
+ (member n-single singles)
+ (or (aver (= 2 (length singles))) t)))
+ (doublep (and (member 0.0d0 doubles)
+ (member n-double doubles)
+ (or (aver (= 2 (length doubles))) t)))
+ #!+long-float
+ (longp (and (member 0.0l0 longs)
+ (member n-long longs)
+ (or (aver (= 2 (lenght longs))) t))))
+ (if (or singlep doublep #!+long-float longp)
+ (let (union-types)
+ (if singlep
+ (push (ctype-of 0.0f0) union-types)
+ (setf members2 (nconc singles members2)))
+ (if doublep
+ (push (ctype-of 0.0d0) union-types)
+ (setf members2 (nconc doubles members2)))
+ #!+long-float
+ (if longp
+ (push (ctype-of 0.0l0) union-types)
+ (setf members2 (nconc longs members2)))
+ (aver (not (null union-types)))
+ (make-union-type t
+ (if (null members2)
+ union-types
+ (cons (%make-member-type members2)
+ union-types))))
+ (%make-member-type members))))))
;;; A COMPOUND-TYPE is a type defined out of a set of types, the
;;; common parent of UNION-TYPE and INTERSECTION-TYPE.
(defstruct (compound-type (:include ctype
- (might-contain-other-types-p t))
- (:constructor nil)
- (:copier nil))
+ (might-contain-other-types-p t))
+ (:constructor nil)
+ (:copier nil))
(types nil :type list :read-only t))
;;; A UNION-TYPE represents a use of the OR type specifier which we
;;; this hadn't been fully implemented yet.
;;; 2. There are never any UNION-TYPE components.
(defstruct (union-type (:include compound-type
- (class-info (type-class-or-lose 'union)))
- (:constructor %make-union-type (enumerable types))
- (:copier nil)))
+ (class-info (type-class-or-lose 'union)))
+ (:constructor %make-union-type (enumerable types))
+ (:copier nil)))
(define-cached-synonym make-union-type)
;;; An INTERSECTION-TYPE represents a use of the AND type specifier
;;; unions contain intersections and not vice versa, or we
;;; should just punt to using a HAIRY-TYPE.
(defstruct (intersection-type (:include compound-type
- (class-info (type-class-or-lose
- 'intersection)))
- (:constructor %make-intersection-type
- (enumerable types))
- (:copier nil)))
+ (class-info (type-class-or-lose
+ 'intersection)))
+ (:constructor %make-intersection-type
+ (enumerable types))
+ (:copier nil)))
;;; Return TYPE converted to canonical form for a situation where the
;;; "type" '* (which SBCL still represents as a type even though ANSI
;;; A CONS-TYPE is used to represent a CONS type.
(defstruct (cons-type (:include ctype (class-info (type-class-or-lose 'cons)))
- (:constructor
- ;; ANSI says that for CAR and CDR subtype
- ;; specifiers '* is equivalent to T. In order
- ;; to avoid special cases in SUBTYPEP and
- ;; possibly elsewhere, we slam all CONS-TYPE
- ;; objects into canonical form w.r.t. this
- ;; equivalence at creation time.
- %make-cons-type (car-raw-type
- cdr-raw-type
- &aux
- (car-type (type-*-to-t car-raw-type))
- (cdr-type (type-*-to-t cdr-raw-type))))
- (:copier nil))
+ (:constructor
+ %make-cons-type (car-type
+ cdr-type))
+ (:copier nil))
;; the CAR and CDR element types (to support ANSI (CONS FOO BAR) types)
;;
;; FIXME: Most or all other type structure slots could also be :READ-ONLY.
(car-type (missing-arg) :type ctype :read-only t)
(cdr-type (missing-arg) :type ctype :read-only t))
(defun make-cons-type (car-type cdr-type)
+ (aver (not (or (eq car-type *wild-type*)
+ (eq cdr-type *wild-type*))))
(if (or (eq car-type *empty-type*)
- (eq cdr-type *empty-type*))
+ (eq cdr-type *empty-type*))
*empty-type*
(%make-cons-type car-type cdr-type)))
+
+(defun cons-type-length-info (type)
+ (declare (type cons-type type))
+ (do ((min 1 (1+ min))
+ (cdr (cons-type-cdr-type type) (cons-type-cdr-type cdr)))
+ ((not (cons-type-p cdr))
+ (cond
+ ((csubtypep cdr (specifier-type 'null))
+ (values min t))
+ ((csubtypep *universal-type* cdr)
+ (values min nil))
+ ((type/= (type-intersection (specifier-type 'cons) cdr) *empty-type*)
+ (values min nil))
+ ((type/= (type-intersection (specifier-type 'null) cdr) *empty-type*)
+ (values min t))
+ (t (values min :maybe))))
+ ()))
+
\f
;;;; type utilities
;;; Note: VALUES-SPECIFIER-TYPE-CACHE-CLEAR must be called whenever a
;;; type is defined (or redefined).
(defun-cached (values-specifier-type
- :hash-function (lambda (x)
+ :hash-function (lambda (x)
(logand (sxhash x) #x3FF))
- :hash-bits 10
- :init-wrapper !cold-init-forms)
- ((orig equal-but-no-car-recursion))
+ :hash-bits 10
+ :init-wrapper !cold-init-forms)
+ ((orig equal-but-no-car-recursion))
(let ((u (uncross orig)))
(or (info :type :builtin u)
- (let ((spec (type-expand u)))
- (cond
- ((and (not (eq spec u))
- (info :type :builtin spec)))
- ((eq (info :type :kind spec) :instance)
- (find-classoid spec))
- ((typep spec 'classoid)
- ;; There doesn't seem to be any way to translate
- ;; (TYPEP SPEC 'BUILT-IN-CLASS) into something which can be
- ;; executed on the host Common Lisp at cross-compilation time.
- #+sb-xc-host (error
- "stub: (TYPEP SPEC 'BUILT-IN-CLASS) on xc host")
- (if (typep spec 'built-in-classoid)
- (or (built-in-classoid-translation spec) spec)
- spec))
- (t
- (let* (;; FIXME: This automatic promotion of FOO-style
- ;; specs to (FOO)-style specs violates the ANSI
- ;; standard. Unfortunately, we can't fix the
- ;; problem just by removing it, since then things
- ;; downstream should break. But at some point we
- ;; should fix this and the things downstream too.
- (lspec (if (atom spec) (list spec) spec))
- (fun (info :type :translator (car lspec))))
- (cond (fun
- (funcall fun lspec))
- ((or (and (consp spec) (symbolp (car spec)))
- (symbolp spec))
- (when (and *type-system-initialized*
+ (let ((spec (type-expand u)))
+ (cond
+ ((and (not (eq spec u))
+ (info :type :builtin spec)))
+ ((eq (info :type :kind spec) :instance)
+ (find-classoid spec))
+ ((typep spec 'classoid)
+ (if (typep spec 'built-in-classoid)
+ (or (built-in-classoid-translation spec) spec)
+ spec))
+ (t
+ (when (and (atom spec)
+ (member spec '(and or not member eql satisfies values)))
+ (error "The symbol ~S is not valid as a type specifier." spec))
+ (let* ((lspec (if (atom spec) (list spec) spec))
+ (fun (info :type :translator (car lspec))))
+ (cond (fun
+ (funcall fun lspec))
+ ((or (and (consp spec) (symbolp (car spec))
+ (not (info :type :builtin (car spec))))
+ (and (symbolp spec) (not (info :type :builtin spec))))
+ (when (and *type-system-initialized*
(not (eq (info :type :kind spec)
:forthcoming-defclass-type)))
- (signal 'parse-unknown-type :specifier spec))
- ;; (The RETURN-FROM here inhibits caching.)
- (return-from values-specifier-type
- (make-unknown-type :specifier spec)))
- (t
- (error "bad thing to be a type specifier: ~S"
- spec))))))))))
+ (signal 'parse-unknown-type :specifier spec))
+ ;; (The RETURN-FROM here inhibits caching.)
+ (return-from values-specifier-type
+ (make-unknown-type :specifier spec)))
+ (t
+ (error "bad thing to be a type specifier: ~S"
+ spec))))))))))
;;; This is like VALUES-SPECIFIER-TYPE, except that we guarantee to
;;; never return a VALUES type.
(defun specifier-type (x)
(let ((res (values-specifier-type x)))
- (when (values-type-p res)
+ (when (or (values-type-p res)
+ ;; bootstrap magic :-(
+ (and (named-type-p res)
+ (eq (named-type-name res) '*)))
(error "VALUES type illegal in this context:~% ~S" x))
res))
(defun single-value-specifier-type (x)
- (let ((res (specifier-type x)))
- (if (eq res *wild-type*)
- *universal-type*
- res)))
+ (if (eq x '*)
+ *universal-type*
+ (specifier-type x)))
;;; Similar to MACROEXPAND, but expands DEFTYPEs. We don't bother
;;; returning a second value.
(when (boundp 'sb!kernel::*values-specifier-type-cache-vector*)
(values-specifier-type-cache-clear))
(values))
+
\f
(!defun-from-collected-cold-init-forms !early-type-cold-init)