(defstruct (unknown-type (:include hairy-type)
(:copier nil)))
+(defun maybe-reparse-specifier (type)
+ (when (unknown-type-p type)
+ (let* ((spec (unknown-type-specifier type))
+ (name (if (consp spec)
+ (car spec)
+ spec)))
+ (when (info :type :kind name)
+ (let ((new-type (specifier-type spec)))
+ (unless (unknown-type-p new-type)
+ new-type))))))
+
+;;; Evil macro.
+(defmacro maybe-reparse-specifier! (type)
+ (assert (symbolp type))
+ (with-unique-names (new-type)
+ `(let ((,new-type (maybe-reparse-specifier ,type)))
+ (when ,new-type
+ (setf ,type ,new-type)
+ t))))
+
(defstruct (negation-type (:include ctype
(class-info (type-class-or-lose 'negation))
;; FIXME: is this right? It's
(:include args-type
(class-info (type-class-or-lose 'values)))
(:constructor %make-values-type)
+ (:predicate %values-type-p)
(:copier nil)))
+(declaim (inline value-type-p))
+(defun values-type-p (x)
+ (or (eq x *wild-type*)
+ (%values-type-p x)))
+
(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)))
+ :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)
+ ;; Results (logand #xFF (sxhash t/nil))
+ ;; hardcoded to avoid relying on the xc host.
+ (if allowp
+ 194
+ 11))
+ #xFF)))
((required equal-but-no-car-recursion)
(optional equal-but-no-car-recursion)
(rest eq)
(t (values min :maybe))))
()))
+;;; A SIMD-PACK-TYPE is used to represent a SIMD-PACK type.
+#!+sb-simd-pack
+(defstruct (simd-pack-type
+ (:include ctype (class-info (type-class-or-lose 'simd-pack)))
+ (:constructor %make-simd-pack-type (element-type))
+ (:copier nil))
+ (element-type (missing-arg)
+ :type (cons #||(member #.*simd-pack-element-types*) ||#)
+ :read-only t))
+
+#!+sb-simd-pack
+(defun make-simd-pack-type (element-type)
+ (aver (neq element-type *wild-type*))
+ (if (eq element-type *empty-type*)
+ *empty-type*
+ (%make-simd-pack-type
+ (dolist (pack-type *simd-pack-element-types*
+ (error "~S element type must be a subtype of ~
+ ~{~S~#[~;, or ~:;, ~]~}."
+ 'simd-pack *simd-pack-element-types*))
+ (when (csubtypep element-type (specifier-type pack-type))
+ (return (list pack-type)))))))
+
\f
;;;; type utilities
((orig equal-but-no-car-recursion))
(let ((u (uncross orig)))
(or (info :type :builtin u)
- (let ((spec (type-expand u)))
+ (let ((spec (typexpand u)))
(cond
((and (not (eq spec u))
(info :type :builtin spec)))
+ ((and (consp spec) (symbolp (car spec))
+ (info :type :builtin (car spec))
+ (let ((expander (info :type :expander (car spec))))
+ (and expander (values-specifier-type (funcall expander spec))))))
((eq (info :type :kind spec) :instance)
(find-classoid spec))
((typep spec 'classoid)
(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))))
+ (let ((fun (info :type :translator (if (consp spec) (car spec) spec))))
(cond (fun
- (funcall fun lspec))
+ (funcall fun (if (atom spec) (list spec) spec)))
((or (and (consp spec) (symbolp (car spec))
(not (info :type :builtin (car spec))))
(and (symbolp spec) (not (info :type :builtin spec))))
(not (eq (info :type :kind spec)
:forthcoming-defclass-type)))
(signal 'parse-unknown-type :specifier spec))
- ;; (The RETURN-FROM here inhibits caching.)
+ ;; (The RETURN-FROM here inhibits caching; this
+ ;; does not only make sense from a compiler
+ ;; diagnostics point of view but is also
+ ;; indispensable for proper workingness of
+ ;; VALID-TYPE-SPECIFIER-P.)
(return-from values-specifier-type
(make-unknown-type :specifier spec)))
(t
*universal-type*
(specifier-type x)))
-;;; Similar to MACROEXPAND, but expands DEFTYPEs. We don't bother
-;;; returning a second value.
-(defun type-expand (form)
- (let ((def (cond ((symbolp form)
- (info :type :expander form))
- ((and (consp form) (symbolp (car form)))
- (info :type :expander (car form)))
- (t nil))))
- (if def
- (type-expand (funcall def (if (consp form) form (list form))))
- form)))
+(defun typexpand-1 (type-specifier &optional env)
+ #!+sb-doc
+ "Takes and expands a type specifier once like MACROEXPAND-1.
+Returns two values: the expansion, and a boolean that is true when
+expansion happened."
+ (declare (type type-specifier type-specifier))
+ (declare (ignore env))
+ (multiple-value-bind (expander lspec)
+ (let ((spec type-specifier))
+ (cond ((and (symbolp spec) (info :type :builtin spec))
+ ;; We do not expand builtins even though it'd be
+ ;; possible to do so sometimes (e.g. STRING) for two
+ ;; reasons:
+ ;;
+ ;; a) From a user's point of view, CL types are opaque.
+ ;;
+ ;; b) so (EQUAL (TYPEXPAND 'STRING) (TYPEXPAND-ALL 'STRING))
+ (values nil nil))
+ ((symbolp spec)
+ (values (info :type :expander spec) spec))
+ ((and (consp spec) (symbolp (car spec)) (info :type :builtin (car spec)))
+ ;; see above
+ (values nil nil))
+ ((and (consp spec) (symbolp (car spec)))
+ (values (info :type :expander (car spec)) spec))
+ (t nil)))
+ (if expander
+ (values (funcall expander (if (symbolp lspec)
+ (list lspec)
+ lspec))
+ t)
+ (values type-specifier nil))))
+
+(defun typexpand (type-specifier &optional env)
+ #!+sb-doc
+ "Takes and expands a type specifier repeatedly like MACROEXPAND.
+Returns two values: the expansion, and a boolean that is true when
+expansion happened."
+ (declare (type type-specifier type-specifier))
+ (multiple-value-bind (expansion flag)
+ (typexpand-1 type-specifier env)
+ (if flag
+ (values (typexpand expansion env) t)
+ (values expansion flag))))
+
+(defun typexpand-all (type-specifier &optional env)
+ #!+sb-doc
+ "Takes and expands a type specifier recursively like MACROEXPAND-ALL."
+ (declare (type type-specifier type-specifier))
+ (declare (ignore env))
+ ;; I first thought this would not be a good implementation because
+ ;; it signals an error on e.g. (CONS 1 2) until I realized that
+ ;; walking and calling TYPEXPAND would also result in errors, and
+ ;; it actually makes sense.
+ ;;
+ ;; There's still a small problem in that
+ ;; (TYPEXPAND-ALL '(CONS * FIXNUM)) => (CONS T FIXNUM)
+ ;; whereas walking+typexpand would result in (CONS * FIXNUM).
+ ;;
+ ;; Similiarly, (TYPEXPAND-ALL '(FUNCTION (&REST T) *)) => FUNCTION.
+ (type-specifier (values-specifier-type type-specifier)))
+
+(defun defined-type-name-p (name &optional env)
+ #!+sb-doc
+ "Returns T if NAME is known to name a type specifier, otherwise NIL."
+ (declare (symbol name))
+ (declare (ignore env))
+ (and (info :type :kind name) t))
+
+(defun valid-type-specifier-p (type-specifier &optional env)
+ #!+sb-doc
+ "Returns T if TYPE-SPECIFIER is a valid type specifier, otherwise NIL.
+
+There may be different metrics on what constitutes a \"valid type
+specifier\" depending on context. If this function does not suit your
+exact need, you may be able to craft a particular solution using a
+combination of DEFINED-TYPE-NAME-P and the TYPEXPAND functions.
+
+The definition of \"valid type specifier\" employed by this function
+is based on the following mnemonic:
+
+ \"Would TYPEP accept it as second argument?\"
+
+Except that unlike TYPEP, this function fully supports compound
+FUNCTION type specifiers, and the VALUES type specifier, too.
+
+In particular, VALID-TYPE-SPECIFIER-P will return NIL if
+TYPE-SPECIFIER is not a class, not a symbol that is known to name a
+type specifier, and not a cons that represents a known compound type
+specifier in a syntactically and recursively correct way.
+
+Examples:
+
+ (valid-type-specifier-p '(cons * *)) => T
+ (valid-type-specifier-p '#:foo) => NIL
+ (valid-type-specifier-p '(cons * #:foo)) => NIL
+ (valid-type-specifier-p '(cons 1 *) => NIL
+
+Experimental."
+ (declare (ignore env))
+ (handler-case (prog1 t (values-specifier-type type-specifier))
+ (parse-unknown-type () nil)
+ (error () nil)))
;;; Note that the type NAME has been (re)defined, updating the
;;; undefined warnings and VALUES-SPECIFIER-TYPE cache.
(defun %note-type-defined (name)
(declare (symbol name))
(note-name-defined name :type)
- (when (boundp 'sb!kernel::*values-specifier-type-cache-vector*)
- (values-specifier-type-cache-clear))
+ (values-specifier-type-cache-clear)
(values))
\f