X-Git-Url: http://repo.macrolet.net/gitweb/?a=blobdiff_plain;f=src%2Fcompiler%2Ftypetran.lisp;h=e569f477e63648dfdb07d4d175df22ec58df2637;hb=872175cd9cb5b4966a36d4bd92421cc407a0355b;hp=a883da01ee2d398fbdf9d4db66b5d63c5927e769;hpb=82e0a78df47685519b12683f495d7ae19e07d3cf;p=sbcl.git diff --git a/src/compiler/typetran.lisp b/src/compiler/typetran.lisp index a883da0..e569f47 100644 --- a/src/compiler/typetran.lisp +++ b/src/compiler/typetran.lisp @@ -12,6 +12,9 @@ ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. +;;; FIXME: Many of the functions in this file could probably be +;;; byte-compiled, since they're one-pass, cons-heavy code. + (in-package "SB!C") ;;;; type predicate translation @@ -34,12 +37,10 @@ ;;;; part of the backend; different backends can support different ;;;; sets of predicates. +;;; Establish an association between the type predicate NAME and the +;;; corresponding TYPE. This causes the type predicate to be +;;; recognized for purposes of optimization. (defmacro define-type-predicate (name type) - #!+sb-doc - "Define-Type-Predicate Name Type - Establish an association between the type predicate Name and the - corresponding Type. This causes the type predicate to be recognized for - purposes of optimization." `(%define-type-predicate ',name ',type)) (defun %define-type-predicate (name specifier) (let ((type (specifier-type specifier))) @@ -70,10 +71,10 @@ (defun ir1-transform-type-predicate (object type) (declare (type continuation object) (type ctype type)) (let ((otype (continuation-type object))) - (cond ((not (types-intersect otype type)) - 'nil) + (cond ((not (types-equal-or-intersect otype type)) + nil) ((csubtypep otype type) - 't) + t) (t (give-up-ir1-transform))))) @@ -93,7 +94,7 @@ (continuation-use (basic-combination-fun node)))) *backend-predicate-types*))) - (assert ctype) + (aver ctype) (ir1-transform-type-predicate object ctype))) ;;; If FIND-CLASS is called on a constant class, locate the CLASS-CELL @@ -105,11 +106,15 @@ `(or (class-cell-class ',cell) (error "class not yet defined: ~S" name)))) -;;;; standard type predicates +;;;; standard type predicates, i.e. those defined in package COMMON-LISP, +;;;; plus at least one oddball (%INSTANCEP) +;;;; +;;;; Various other type predicates (e.g. low-level representation +;;;; stuff like SIMPLE-ARRAY-SINGLE-FLOAT-P) are defined elsewhere. -;;; FIXME: needed only at cold load time, can be uninterned afterwards; -;;; or perhaps could just be done at toplevel -(defun define-standard-type-predicates () +;;; FIXME: This function is only called once, at top level. Why not +;;; just expand all its operations into toplevel code? +(defun !define-standard-type-predicates () (define-type-predicate arrayp array) ; (The ATOM predicate is handled separately as (NOT CONS).) (define-type-predicate bit-vector-p bit-vector) @@ -136,8 +141,7 @@ (define-type-predicate funcallable-instance-p funcallable-instance) (define-type-predicate symbolp symbol) (define-type-predicate vectorp vector)) - -(define-standard-type-predicates) +(!define-standard-type-predicates) ;;;; transforms for type predicates not implemented primitively ;;;; @@ -260,7 +264,7 @@ (declare (type hairy-type type)) (let ((spec (hairy-type-specifier type))) (cond ((unknown-type-p type) - (when (policy nil (> speed inhibit-warnings)) + (when (policy *lexenv* (> speed inhibit-warnings)) (compiler-note "can't open-code test of unknown type ~S" (type-specifier type))) `(%typep ,object ',spec)) @@ -283,21 +287,26 @@ (let* ((types (union-type-types type)) (ltype (specifier-type 'list)) (mtype (find-if #'member-type-p types))) - (cond ((and mtype (csubtypep ltype type)) - (let ((members (member-type-members mtype))) - (once-only ((n-obj object)) - `(if (listp ,n-obj) - t - (typep ,n-obj - '(or ,@(mapcar #'type-specifier - (remove (specifier-type 'cons) - (remove mtype types))) - (member ,@(remove nil members)))))))) - (t - (once-only ((n-obj object)) - `(or ,@(mapcar #'(lambda (x) - `(typep ,n-obj ',(type-specifier x))) - types))))))) + (if (and mtype (csubtypep ltype type)) + (let ((members (member-type-members mtype))) + (once-only ((n-obj object)) + `(or (listp ,n-obj) + (typep ,n-obj + '(or ,@(mapcar #'type-specifier + (remove (specifier-type 'cons) + (remove mtype types))) + (member ,@(remove nil members))))))) + (once-only ((n-obj object)) + `(or ,@(mapcar (lambda (x) + `(typep ,n-obj ',(type-specifier x))) + types)))))) + +;;; Do source transformation for TYPEP of a known intersection type. +(defun source-transform-intersection-typep (object type) + (once-only ((n-obj object)) + `(and ,@(mapcar (lambda (x) + `(typep ,n-obj ',(type-specifier x))) + (intersection-type-types type))))) ;;; If necessary recurse to check the cons type. (defun source-transform-cons-typep (object type) @@ -352,7 +361,7 @@ (res `(= (array-dimension ,obj ,i) ,dim))))) (res))))) -;;; If we can find a type predicate that tests for the type w/o +;;; If we can find a type predicate that tests for the type without ;;; dimensions, then use that predicate and test for dimensions. ;;; Otherwise, just do %TYPEP. (defun source-transform-array-typep (obj type) @@ -388,8 +397,8 @@ ;;; generated in byte compiled code. (As of sbcl-0.6.5, they could ;;; sometimes be generated when byte compiling inline functions, but ;;; it's quite uncommon.) -- WHN 20000523 -(deftransform %instance-typep ((object spec) * * :when :both) - (assert (constant-continuation-p spec)) +(deftransform %instance-typep ((object spec) (* *) * :node node :when :both) + (aver (constant-continuation-p spec)) (let* ((spec (continuation-value spec)) (class (specifier-type spec)) (name (sb!xc:class-name class)) @@ -398,14 +407,11 @@ (if (and res (not (layout-invalid res))) res nil)))) - (/noshow "entering DEFTRANSFORM %INSTANCE-TYPEP" otype spec class name layout) (cond ;; Flush tests whose result is known at compile time. - ((not (types-intersect otype class)) - (/noshow "flushing constant NIL") + ((not (types-equal-or-intersect otype class)) nil) ((csubtypep otype class) - (/noshow "flushing constant T") t) ;; If not properly named, error. ((not (and name (eq (sb!xc:find-class name) class))) @@ -413,6 +419,9 @@ class:~% ~S" class)) (t + ;; Delay the type transform to give type propagation a chance. + (delay-ir1-transform node :constraint) + ;; Otherwise transform the type test. (multiple-value-bind (pred get-layout) (cond @@ -422,27 +431,24 @@ (values '%instancep '%instance-layout)) (t (values '(lambda (x) (declare (ignore x)) t) 'layout-of))) - (/noshow pred get-layout) (cond ((and (eq (class-state class) :sealed) layout (not (class-subclasses class))) ;; Sealed and has no subclasses. - (/noshow "sealed and has no subclasses") (let ((n-layout (gensym))) `(and (,pred object) (let ((,n-layout (,get-layout object))) - ,@(when (policy nil (>= safety speed)) + ,@(when (policy *lexenv* (>= safety speed)) `((when (layout-invalid ,n-layout) (%layout-invalid-error object ',layout)))) (eq ,n-layout ',layout))))) ((and (typep class 'basic-structure-class) layout) - (/noshow "structure type tests; hierarchical layout depths") ;; structure type tests; hierarchical layout depths (let ((depthoid (layout-depthoid layout)) (n-layout (gensym))) `(and (,pred object) (let ((,n-layout (,get-layout object))) - ,@(when (policy nil (>= safety speed)) + ,@(when (policy *lexenv* (>= safety speed)) `((when (layout-invalid ,n-layout) (%layout-invalid-error object ',layout)))) (if (eq ,n-layout ',layout) @@ -453,6 +459,24 @@ (eq (svref (layout-inherits ,n-layout) ,depthoid) ',layout)))))))) + ((and layout (>= (layout-depthoid layout) 0)) + ;; hierarchical layout depths for other things (e.g. + ;; CONDITIONs) + (let ((depthoid (layout-depthoid layout)) + (n-layout (gensym)) + (n-inherits (gensym))) + `(and (,pred object) + (let ((,n-layout (,get-layout object))) + ,@(when (policy *lexenv* (>= safety speed)) + `((when (layout-invalid ,n-layout) + (%layout-invalid-error object ',layout)))) + (if (eq ,n-layout ',layout) + t + (let ((,n-inherits (layout-inherits ,n-layout))) + (declare (optimize (safety 0))) + (and (> (length ,n-inherits) ,depthoid) + (eq (svref ,n-inherits ,depthoid) + ',layout)))))))) (t (/noshow "default case -- ,PRED and CLASS-CELL-TYPEP") `(and (,pred object) @@ -460,19 +484,6 @@ ',(find-class-cell name) object))))))))) -#| -;;; Return (VALUES BEST-GUESS EXACT?), where BEST-GUESS is a CTYPE -;;; which corresponds to the value returned by -;;; CL:UPGRADED-ARRAY-ELEMENT-TYPE, and EXACT? tells whether that -;;; result might change when we encounter a DEFTYPE. -(declaim (maybe-inline upgraded-array-element-ctype-2)) -(defun upgraded-array-element-ctype-2 (spec) - (let ((ctype (specifier-type `(array ,spec)))) - (values (array-type-specialized-element-type - (specifier-type `(array ,spec))) - (not (unknown-type-p (array-type-element-type ctype)))))) -|# - ;;; If the specifier argument is a quoted constant, then we consider ;;; converting into a simple predicate or other stuff. If the type is ;;; constant, but we can't transform the call, then we convert to @@ -490,6 +501,12 @@ ;;; simplification. Instance type tests are converted to ;;; %INSTANCE-TYPEP to allow type propagation. (def-source-transform typep (object spec) + ;; KLUDGE: It looks bad to only do this on explicitly quoted forms, + ;; since that would overlook other kinds of constants. But it turns + ;; out that the DEFTRANSFORM for TYPEP detects any constant + ;; continuation, transforms it into a quoted form, and gives this + ;; source transform another chance, so it all works out OK, in a + ;; weird roundabout way. -- WHN 2001-03-18 (if (and (consp spec) (eq (car spec) 'quote)) (let ((type (specifier-type (cadr spec)))) (or (let ((pred (cdr (assoc type *backend-type-predicates* @@ -500,6 +517,8 @@ (source-transform-hairy-typep object type)) (union-type (source-transform-union-typep object type)) + (intersection-type + (source-transform-intersection-typep object type)) (member-type `(member ,object ',(member-type-members type))) (args-type @@ -523,54 +542,23 @@ ;;;; coercion -;;; old working version (deftransform coerce ((x type) (* *) * :when :both) (unless (constant-continuation-p type) (give-up-ir1-transform)) (let ((tspec (specifier-type (continuation-value type)))) (if (csubtypep (continuation-type x) tspec) 'x + ;; Note: The THE here makes sure that specifiers like + ;; (SINGLE-FLOAT 0.0 1.0) can raise a TYPE-ERROR. `(the ,(continuation-value type) - ,(cond ((csubtypep tspec (specifier-type 'double-float)) - '(%double-float x)) - ;; FIXME: If LONG-FLOAT is to be supported, we - ;; need to pick it off here before falling through - ;; to %SINGLE-FLOAT. - ((csubtypep tspec (specifier-type 'float)) - '(%single-float x)) - (t - (give-up-ir1-transform))))))) + ,(cond + ((csubtypep tspec (specifier-type 'double-float)) + '(%double-float x)) + ;; FIXME: #!+long-float (t ,(error "LONG-FLOAT case needed")) + ((csubtypep tspec (specifier-type 'float)) + '(%single-float x)) + ((csubtypep tspec (specifier-type 'simple-vector)) + '(coerce-to-simple-vector x)) + (t + (give-up-ir1-transform))))))) -;;; KLUDGE: new broken version -- 20000504 -;;; FIXME: should be fixed or deleted -#+nil -(deftransform coerce ((x type) (* *) * :when :both) - (unless (constant-continuation-p type) - (give-up-ir1-transform)) - (let ((tspec (specifier-type (continuation-value type)))) - (if (csubtypep (continuation-type x) tspec) - 'x - `(if #+nil (typep x type) #-nil nil - x - (the ,(continuation-value type) - ,(cond ((csubtypep tspec (specifier-type 'double-float)) - '(%double-float x)) - ;; FIXME: If LONG-FLOAT is to be supported, - ;; we need to pick it off here before falling - ;; through to %SINGLE-FLOAT. - ((csubtypep tspec (specifier-type 'float)) - '(%single-float x)) - #+nil - ((csubtypep tspec (specifier-type 'list)) - '(coerce-to-list x)) - #+nil - ((csubtypep tspec (specifier-type 'string)) - '(coerce-to-simple-string x)) - #+nil - ((csubtypep tspec (specifier-type 'bit-vector)) - '(coerce-to-bit-vector x)) - #+nil - ((csubtypep tspec (specifier-type 'vector)) - '(coerce-to-vector x type)) - (t - (give-up-ir1-transform))))))))