;;;; provided with absolutely no warranty. See the COPYING and CREDITS
;;;; files for more information.
-(in-package "SB!IMPL")
+(in-package "SB!KERNEL")
;;; Is X a fixnum in the target Lisp?
(defun fixnump (x)
((call :initarg :call
:reader cross-type-style-warning-call)
(message :reader cross-type-style-warning-message
- #+cmu :initarg #+cmu :message ; to stop bogus non-STYLE WARNING
+ #+cmu :initarg #+cmu :message ; (to stop bogus non-STYLE WARNING)
))
(:report (lambda (c s)
(format
;;; like SUBTYPEP: the first value for its conservative opinion (never
;;; T unless it's certain) and the second value to tell whether it's
;;; certain.
-(defun cross-typep (host-object target-type)
- (flet ((warn-and-give-up ()
- ;; We don't have to keep track of this as long as system performance
- ;; is acceptable, since giving up conservatively is a safe way out.
+(defun cross-typep (host-object raw-target-type)
+ (let ((target-type (type-expand raw-target-type)))
+ (flet ((warn-and-give-up ()
+ ;; We don't have to keep track of this as long as system
+ ;; performance is acceptable, since giving up
+ ;; conservatively is a safe way out.
#+nil
(warn 'cross-type-giving-up-conservatively
- :call `(cross-typep ,host-object ,target-type))
+ :call `(cross-typep ,host-object ,raw-target-type))
(values nil nil))
- (warn-about-possible-float-info-loss ()
- (warn-possible-cross-type-float-info-loss
- `(cross-typep ,host-object ,target-type))))
- (cond (;; Handle various SBCL-specific types which can't exist on
- ;; the ANSI cross-compilation host. KLUDGE: This code will
- ;; need to be tweaked by hand if the names of these types
- ;; ever change, ugh!
- (if (consp target-type)
- (member (car target-type)
- '(sb!alien:alien))
- (member target-type
- '(system-area-pointer
- funcallable-instance
- sb!alien-internals:alien-value)))
- (values nil t))
- (;; special case when TARGET-TYPE isn't a type spec, but
- ;; instead a CLASS object
- (typep target-type 'sb!xc::structure-class)
- ;; SBCL-specific types which have an analogue specially
- ;; created on the host system
- (if (sb!xc:subtypep (sb!xc:class-name target-type)
- 'sb!kernel::structure!object)
- (values (typep host-object (sb!xc:class-name target-type)) t)
- (values nil t)))
- ((and (symbolp target-type)
- (find-class target-type nil)
- (subtypep target-type 'sb!kernel::structure!object))
- (values (typep host-object target-type) t))
- ((and (symbolp target-type)
- (sb!xc:find-class target-type nil)
- (sb!xc:subtypep target-type 'cl:structure-object)
- (typep host-object '(or symbol number list character)))
- (values nil t))
- (;; easy cases of arrays and vectors
- (member target-type
- '(array simple-string simple-vector string vector))
- (values (typep host-object target-type) t))
- (;; general cases of vectors
- (and (not (unknown-type-p (values-specifier-type target-type)))
- (sb!xc:subtypep target-type 'cl:vector))
- (if (vectorp host-object)
- (warn-and-give-up) ; general case of vectors being way too hard
- (values nil t))) ; but "obviously not a vector" being easy
- (;; general cases of arrays
- (and (not (unknown-type-p (values-specifier-type target-type)))
- (sb!xc:subtypep target-type 'cl:array))
- (if (arrayp host-object)
- (warn-and-give-up) ; general case of arrays being way too hard
- (values nil t))) ; but "obviously not an array" being easy
- ((consp target-type)
- (let ((first (first target-type))
- (rest (rest target-type)))
- (case first
- ;; Many complex types are guaranteed to correspond exactly
- ;; between any host ANSI Common Lisp and the target SBCL.
- ((integer member mod rational real signed-byte unsigned-byte)
- (values (typep host-object target-type) t))
- ;; Floating point types are guaranteed to correspond,
- ;; too, but less exactly.
- ((single-float double-float)
- (cond ((floatp host-object)
- (warn-about-possible-float-info-loss)
- (values (typep host-object target-type) t))
- (t
- (values nil t))))
- ;; Some complex types have translations that are less
- ;; trivial.
- (and (every/type #'cross-typep host-object rest))
- (or (any/type #'cross-typep host-object rest))
- ;; If we want to work with the KEYWORD type, we need
- ;; to grok (SATISFIES KEYWORDP).
- (satisfies
- (destructuring-bind (predicate-name) rest
- (if (and (in-cl-package-p predicate-name)
- (fboundp predicate-name))
- ;; Many things like KEYWORDP, ODDP, PACKAGEP,
- ;; and NULL correspond between host and target.
- (values (not (null (funcall predicate-name host-object)))
- t)
- ;; For symbols not in the CL package, it's not
- ;; in general clear how things correspond
- ;; between host and target, so we punt.
- (warn-and-give-up))))
- ;; Some complex types are too hard to handle in the positive
- ;; case, but at least we can be confident in a large fraction of
- ;; the negative cases..
- ((base-string simple-base-string simple-string)
- (if (stringp host-object)
- (warn-and-give-up)
- (values nil t)))
- ((vector simple-vector)
- (if (vectorp host-object)
- (warn-and-give-up)
- (values nil t)))
- ((array simple-array)
- (if (arrayp host-object)
- (warn-and-give-up)
- (values nil t)))
- (function
- (if (functionp host-object)
- (warn-and-give-up)
- (values nil t)))
- ;; And the Common Lisp type system is complicated, and
- ;; we don't try to implement everything.
- (otherwise (warn-and-give-up)))))
- (t
- (case target-type
- ((*)
- ;; KLUDGE: SBCL has * as an explicit wild type. While this is
- ;; sort of logical (because (e.g. (ARRAY * 1)) is a valid type)
- ;; it's not ANSI: looking at the ANSI definitions of complex
- ;; types like like ARRAY shows that they consider * different
- ;; from other type names. Someday we should probably get rid of
- ;; this non-ANSIism in base SBCL, but until we do, we might as
- ;; well here in the cross compiler. And in order to make sure
- ;; that we don't continue doing it after we someday patch SBCL's
- ;; type system so that * is no longer a type, we make this
- ;; assertion:
- (aver (typep (specifier-type '*) 'named-type))
- (values t t))
- ;; Many simple types are guaranteed to correspond exactly
+ (warn-about-possible-float-info-loss ()
+ (warn-possible-cross-type-float-info-loss
+ `(cross-typep ,host-object ,raw-target-type)))
+ ;; a convenient idiom for making more matches to special cases:
+ ;; Test both forms of target type for membership in LIST.
+ ;;
+ ;; (In order to avoid having to use too much deep knowledge
+ ;; of types, it's sometimes convenient to test RAW-TARGET-TYPE
+ ;; as well as the expanded type, since we can get matches with
+ ;; just EQL. E.g. SIMPLE-STRING can be matched with EQL, while
+ ;; safely matching its expansion,
+ ;; (OR (SIMPLE-ARRAY CHARACTER (*)) (SIMPLE-BASE-STRING *))
+ ;; would require logic clever enough to know that, e.g., OR is
+ ;; commutative.)
+ (target-type-is-in (list)
+ (or (member raw-target-type list)
+ (member target-type list))))
+ (cond (;; Handle various SBCL-specific types which can't exist on
+ ;; the ANSI cross-compilation host. KLUDGE: This code will
+ ;; need to be tweaked by hand if the names of these types
+ ;; ever change, ugh!
+ (if (consp target-type)
+ (member (car target-type)
+ '(sb!alien:alien))
+ (member target-type
+ '(system-area-pointer
+ funcallable-instance
+ sb!alien-internals:alien-value)))
+ (values nil t))
+ (;; special case when TARGET-TYPE isn't a type spec, but
+ ;; instead a CLASS object
+ (typep target-type 'sb!xc::structure-class)
+ ;; SBCL-specific types which have an analogue specially
+ ;; created on the host system
+ (if (sb!xc:subtypep (sb!xc:class-name target-type)
+ 'sb!kernel::structure!object)
+ (values (typep host-object (sb!xc:class-name target-type)) t)
+ (values nil t)))
+ ((and (symbolp target-type)
+ (find-class target-type nil)
+ (subtypep target-type 'sb!kernel::structure!object))
+ (values (typep host-object target-type) t))
+ ((and (symbolp target-type)
+ (sb!xc:find-class target-type nil)
+ (sb!xc:subtypep target-type 'cl:structure-object)
+ (typep host-object '(or symbol number list character)))
+ (values nil t))
+ (;; easy cases of arrays and vectors
+ (target-type-is-in
+ '(array simple-string simple-vector string vector))
+ (values (typep host-object target-type) t))
+ (;; general cases of vectors
+ (and (not (unknown-type-p (values-specifier-type target-type)))
+ (sb!xc:subtypep target-type 'cl:vector))
+ (if (vectorp host-object)
+ (warn-and-give-up) ; general-case vectors being way too hard
+ (values nil t))) ; but "obviously not a vector" being easy
+ (;; general cases of arrays
+ (and (not (unknown-type-p (values-specifier-type target-type)))
+ (sb!xc:subtypep target-type 'cl:array))
+ (if (arrayp host-object)
+ (warn-and-give-up) ; general-case arrays being way too hard
+ (values nil t))) ; but "obviously not an array" being easy
+ ((target-type-is-in '(*))
+ ;; KLUDGE: SBCL has * as an explicit wild type. While
+ ;; this is sort of logical (because (e.g. (ARRAY * 1)) is
+ ;; a valid type) it's not ANSI: looking at the ANSI
+ ;; definitions of complex types like like ARRAY shows
+ ;; that they consider * different from other type names.
+ ;; Someday we should probably get rid of this non-ANSIism
+ ;; in base SBCL, but until we do, we might as well here
+ ;; in the cross compiler. And in order to make sure that
+ ;; we don't continue doing it after we someday patch
+ ;; SBCL's type system so that * is no longer a type, we
+ ;; make this assertion. -- WHN 2001-08-08
+ (aver (typep (specifier-type '*) 'named-type))
+ (values t t))
+ (;; Many simple types are guaranteed to correspond exactly
;; between any host ANSI Common Lisp and the target
;; Common Lisp. (Some array types are too, but they
;; were picked off earlier.)
- ((bit character complex cons float function integer keyword
- list nil null number rational real signed-byte symbol t
- unsigned-byte)
- (values (typep host-object target-type) t))
- ;; Floating point types are guaranteed to correspond,
+ (target-type-is-in
+ '(bit character complex cons float function integer keyword
+ list nil null number rational real signed-byte symbol t
+ unsigned-byte))
+ (values (typep host-object target-type) t))
+ (;; Floating point types are guaranteed to correspond,
;; too, but less exactly.
- ((single-float double-float)
- (cond ((floatp host-object)
- (warn-about-possible-float-info-loss)
- (values (typep host-object target-type) t))
- (t
- (values nil t))))
- ;; Some types require translation between the cross-compilation
- ;; host Common Lisp and the target SBCL.
- (sb!xc:class (values (typep host-object 'sb!xc:class) t))
- (fixnum (values (fixnump host-object) t))
- ;; Some types are too hard to handle in the positive
- ;; case, but at least we can be confident in a large
- ;; fraction of the negative cases..
- ((base-string simple-base-string simple-string)
- (if (stringp host-object)
- (warn-and-give-up)
- (values nil t)))
- ((character base-char)
- (cond ((typep host-object 'standard-char)
- (values t t))
- ((not (characterp host-object))
- (values nil t))
- (t
- (warn-and-give-up))))
- ((stream instance)
- ;; Neither target CL:STREAM nor target
- ;; SB!KERNEL:INSTANCE is implemented as a
- ;; STRUCTURE-OBJECT, so they'll fall through the tests
- ;; above. We don't want to assume too much about them
- ;; here, but at least we know enough about them to say
- ;; that neither T nor NIL nor indeed any other symbol in
- ;; the cross-compilation host is one. That knowledge
- ;; suffices to answer so many of the questions that the
- ;; cross-compiler asks that it's well worth
- ;; special-casing it here.
- (if (symbolp host-object)
- (values nil t)
- (warn-and-give-up)))
- ;; And the Common Lisp type system is complicated, and we
- ;; don't try to implement everything.
- (otherwise (warn-and-give-up)))))))
+ (target-type-is-in
+ '(single-float double-float))
+ (cond ((floatp host-object)
+ (warn-about-possible-float-info-loss)
+ (values (typep host-object target-type) t))
+ (t
+ (values nil t))))
+ ;; Some types require translation between the cross-compilation
+ ;; host Common Lisp and the target SBCL.
+ ((target-type-is-in '(sb!xc:class))
+ (values (typep host-object 'sb!xc:class) t))
+ ((target-type-is-in '(fixnum))
+ (values (fixnump host-object) t))
+ ;; Some types are too hard to handle in the positive
+ ;; case, but at least we can be confident in a large
+ ;; fraction of the negative cases..
+ ((target-type-is-in
+ '(base-string simple-base-string simple-string))
+ (if (stringp host-object)
+ (warn-and-give-up)
+ (values nil t)))
+ ((target-type-is-in '(character base-char))
+ (cond ((typep host-object 'standard-char)
+ (values t t))
+ ((not (characterp host-object))
+ (values nil t))
+ (t
+ (warn-and-give-up))))
+ ((target-type-is-in '(stream instance))
+ ;; Neither target CL:STREAM nor target SB!KERNEL:INSTANCE
+ ;; is implemented as a STRUCTURE-OBJECT, so they'll fall
+ ;; through the tests above. We don't want to assume too
+ ;; much about them here, but at least we know enough
+ ;; about them to say that neither T nor NIL nor indeed
+ ;; any other symbol in the cross-compilation host is one.
+ ;; That knowledge suffices to answer so many of the
+ ;; questions that the cross-compiler asks that it's well
+ ;; worth special-casing it here.
+ (if (symbolp host-object)
+ (values nil t)
+ (warn-and-give-up)))
+ ;; various hacks for composite types..
+ ((consp target-type)
+ (let ((first (first target-type))
+ (rest (rest target-type)))
+ (case first
+ ;; Many complex types are guaranteed to correspond exactly
+ ;; between any host ANSI Common Lisp and the target SBCL.
+ ((integer member mod rational real signed-byte unsigned-byte)
+ (values (typep host-object target-type) t))
+ ;; Floating point types are guaranteed to correspond,
+ ;; too, but less exactly.
+ ((single-float double-float)
+ (cond ((floatp host-object)
+ (warn-about-possible-float-info-loss)
+ (values (typep host-object target-type) t))
+ (t
+ (values nil t))))
+ ;; Some complex types have translations that are less
+ ;; trivial.
+ (and (every/type #'cross-typep host-object rest))
+ (or (any/type #'cross-typep host-object rest))
+ ;; If we want to work with the KEYWORD type, we need
+ ;; to grok (SATISFIES KEYWORDP).
+ (satisfies
+ (destructuring-bind (predicate-name) rest
+ (if (and (in-cl-package-p predicate-name)
+ (fboundp predicate-name))
+ ;; Many things like KEYWORDP, ODDP, PACKAGEP,
+ ;; and NULL correspond between host and target.
+ (values (not (null (funcall predicate-name
+ host-object)))
+ t)
+ ;; For symbols not in the CL package, it's not
+ ;; in general clear how things correspond
+ ;; between host and target, so we punt.
+ (warn-and-give-up))))
+ ;; Some complex types are too hard to handle in the
+ ;; positive case, but at least we can be confident in
+ ;; a large fraction of the negative cases..
+ ((base-string simple-base-string simple-string)
+ (if (stringp host-object)
+ (warn-and-give-up)
+ (values nil t)))
+ ((vector simple-vector)
+ (if (vectorp host-object)
+ (warn-and-give-up)
+ (values nil t)))
+ ((array simple-array)
+ (if (arrayp host-object)
+ (warn-and-give-up)
+ (values nil t)))
+ (function
+ (if (functionp host-object)
+ (warn-and-give-up)
+ (values nil t)))
+ ;; And the Common Lisp type system is complicated,
+ ;; and we don't try to implement everything.
+ (otherwise (warn-and-give-up)))))
+ ;; And the Common Lisp type system is complicated, and
+ ;; we don't try to implement everything.
+ (t
+ (warn-and-give-up))))))
-;;; An incomplete TYPEP which runs at cross-compile time to tell whether OBJECT
-;;; is the host Lisp representation of a target SBCL type specified by
-;;; TARGET-TYPE-SPEC. It need make no pretense to completeness, since it
-;;; need only handle the cases which arise when building SBCL itself, e.g.
-;;; testing that range limits FOO and BAR in (INTEGER FOO BAR) are INTEGERs.
+;;; This is an incomplete TYPEP which runs at cross-compile time to
+;;; tell whether OBJECT is the host Lisp representation of a target
+;;; SBCL type specified by TARGET-TYPE-SPEC. It need make no pretense
+;;; to completeness, since it need only handle the cases which arise
+;;; when building SBCL itself, e.g. testing that range limits FOO and
+;;; BAR in (INTEGER FOO BAR) are INTEGERs.
(defun sb!xc:typep (host-object target-type-spec &optional (env nil env-p))
(declare (ignore env))
(aver (null env-p)) ; 'cause we're too lazy to think about it
(multiple-value-bind (opinion certain-p)
(cross-typep host-object target-type-spec)
- ;; A program that calls TYPEP doesn't want uncertainty and probably
- ;; can't handle it.
+ ;; A program that calls TYPEP doesn't want uncertainty and
+ ;; probably can't handle it.
(if certain-p
opinion
(error "uncertain in SB!XC:TYPEP ~S ~S"
host-object
target-type-spec))))
-;;; This implementation is an incomplete, portable version for use at
+;;; This is an incomplete, portable implementation for use at
;;; cross-compile time only.
(defun ctypep (obj ctype)
(check-type ctype ctype)
(check-type type (or symbol cons))
(cross-typep obj type)))
-(defparameter *universal-function-type*
- (make-function-type :wild-args t
- :returns *wild-type*))
-
(defun ctype-of (x)
(typecase x
(function
;; There's no ANSI way to find out what the function is
;; declared to be, so we just return the CTYPE for the
;; most-general function.
- *universal-function-type*))
+ *universal-fun-type*))
(symbol
(make-member-type :members (list x)))
(number
- (let* ((num (if (complexp x) (realpart x) x))
- (res (make-numeric-type
- :class (etypecase num
- (integer 'integer)
- (rational 'rational)
- (float 'float))
- :format (if (floatp num)
- (float-format-name num)
- nil))))
- (cond ((complexp x)
- (setf (numeric-type-complexp res) :complex)
- (let ((imag (imagpart x)))
- (setf (numeric-type-low res) (min num imag))
- (setf (numeric-type-high res) (max num imag))))
- (t
- (setf (numeric-type-low res) num)
- (setf (numeric-type-high res) num)))
- res))
+ (ctype-of-number x))
(array
(let ((etype (specifier-type (array-element-type x))))
(make-array-type :dimensions (array-dimensions x)