;;;; type-related stuff which exists only in the target SBCL runtime ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!KERNEL") (!begin-collecting-cold-init-forms) ;;; If TYPE is a type that we can do a compile-time test on, then ;;; return whether the object is of that type as the first value and ;;; second value true. Otherwise return NIL, NIL. ;;; ;;; We give up on unknown types and pick off FUNCTION- and COMPOUND- ;;; types. For STRUCTURE- types, we require that the type be defined ;;; in both the current and compiler environments, and that the ;;; INCLUDES be the same. ;;; ;;; KLUDGE: This should probably be a type method instead of a big ;;; ETYPECASE. But then the type method system should probably be CLOS ;;; too, and until that happens wedging more stuff into it might be ;;; messy. So I've left it a big ETYPECASE. -- 2001-03-16 (defun ctypep (obj type) (declare (type ctype type)) (etypecase type ((or numeric-type named-type member-type array-type character-set-type built-in-classoid cons-type #!+sb-simd-pack simd-pack-type) (values (%typep obj type) t)) (classoid (if (if (csubtypep type (specifier-type 'function)) (funcallable-instance-p obj) (%instancep obj)) (if (eq (classoid-layout type) (info :type :compiler-layout (classoid-name type))) (values (sb!xc:typep obj type) t) (values nil nil)) (values nil t))) (compound-type (funcall (etypecase type (intersection-type #'every/type) (union-type #'any/type)) #'ctypep obj (compound-type-types type))) (fun-type (values (functionp obj) t)) (unknown-type (values nil nil)) (alien-type-type (values (alien-typep obj (alien-type-type-alien-type type)) t)) (negation-type (multiple-value-bind (res win) (ctypep obj (negation-type-type type)) (if win (values (not res) t) (values nil nil)))) (hairy-type ;; Now the tricky stuff. (let* ((hairy-spec (hairy-type-specifier type)) (symbol (if (consp hairy-spec) (car hairy-spec) hairy-spec))) (ecase symbol (and (if (atom hairy-spec) (values t t) (dolist (spec (cdr hairy-spec) (values t t)) (multiple-value-bind (res win) (ctypep obj (specifier-type spec)) (unless win (return (values nil nil))) (unless res (return (values nil t))))))) (not (multiple-value-bind (res win) (ctypep obj (specifier-type (cadr hairy-spec))) (if win (values (not res) t) (values nil nil)))) (satisfies ;; If the SATISFIES function is not foldable, we cannot answer! (let* ((form `(,(second hairy-spec) ',obj))) (multiple-value-bind (ok result) (sb!c::constant-function-call-p form nil nil) (values (not (null result)) ok))))))))) ;;; Return the layout for an object. This is the basic operation for ;;; finding out the "type" of an object, and is used for generic ;;; function dispatch. The standard doesn't seem to say as much as it ;;; should about what this returns for built-in objects. For example, ;;; it seems that we must return NULL rather than LIST when X is NIL ;;; so that GF's can specialize on NULL. #!-sb-fluid (declaim (inline layout-of)) (defun layout-of (x) (declare (optimize (speed 3) (safety 0))) (cond ((%instancep x) (%instance-layout x)) ((funcallable-instance-p x) (%funcallable-instance-layout x)) ((null x) ;; Note: was #.((CLASS-LAYOUT (SB!XC:FIND-CLASS 'NULL))). ;; I (WHN 19990209) replaced this with an expression evaluated at ;; run time in order to make it easier to build the cross-compiler. ;; ;; KLUDGE: Since there's a DEFTRANSFORM for FIND-CLASSOID on ;; constant names which creates non-cold-loadable code, we ;; can't just use (CLASSOID-LAYOUT (FIND-CLASSOID 'NULL)) ;; here. The original (WHN 19991004) solution was to locally ;; notinline FIND-CLASSOID. However, the full call to ;; FIND-CLASSOID caused suboptimal register allocation in PCL ;; dfuns. So instead we now use a special variable which is ;; initialized during cold init. -- JES, 2006-07-04 *null-classoid-layout*) (t (svref *built-in-class-codes* (widetag-of x))))) #!-sb-fluid (declaim (inline classoid-of)) (defun classoid-of (object) #!+sb-doc "Return the class of the supplied object, which may be any Lisp object, not just a CLOS STANDARD-OBJECT." (layout-classoid (layout-of object))) ;;;; miscellaneous interfaces ;;; Clear memoization of all type system operations that can be ;;; altered by type definition/redefinition. ;;; (defun clear-type-caches () ;; FIXME: We would like to differentiate between different cache ;; kinds, but at the moment all our caches pretty much are type ;; caches. (drop-all-hash-caches) (values)) ;;; This is like TYPE-OF, only we return a CTYPE structure instead of ;;; a type specifier, and we try to return the type most useful for ;;; type checking, rather than trying to come up with the one that the ;;; user might find most informative. (declaim (ftype (function (t) ctype) ctype-of)) (defun-cached (ctype-of :hash-function (lambda (x) (logand (sxhash x) #x1FF)) :hash-bits 9 :init-wrapper !cold-init-forms) ((x eq)) (typecase x (function (if (funcallable-instance-p x) (classoid-of x) (specifier-type (sb!impl::%fun-type x)))) (symbol (make-member-type :members (list x))) (number (ctype-of-number x)) (array (let ((etype (specifier-type (array-element-type x)))) (make-array-type :dimensions (array-dimensions x) :complexp (not (typep x 'simple-array)) :element-type etype :specialized-element-type etype))) (cons (make-cons-type *universal-type* *universal-type*)) (character (specifier-type 'character)) #!+sb-simd-pack (simd-pack (let ((type (nth (%simd-pack-tag x) *simd-pack-element-types*))) (if type (specifier-type `(simd-pack ,type)) (specifier-type 'simd-pack)))) (t (classoid-of x)))) (!defun-from-collected-cold-init-forms !target-type-cold-init)