(setf (info :type :classoid name)
(make-classoid-cell name))))
-;;; FIXME: When the system is stable, this DECLAIM FTYPE should
-;;; probably go away in favor of the DEFKNOWN for FIND-CLASS.
-(declaim (ftype (function (symbol &optional t (or null sb!c::lexenv)))
- find-classoid))
(eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute)
(defun find-classoid (name &optional (errorp t) environment)
#!+sb-doc
res
(error "class not yet defined:~% ~S" name))))
(defun (setf find-classoid) (new-value name)
- #-sb-xc (declare (type classoid new-value))
- (ecase (info :type :kind name)
- ((nil))
- (:forthcoming-defclass-type
- ;; XXX Currently, nothing needs to be done in this case. Later, when
- ;; PCL is integrated tighter into SBCL, this might need more work.
- nil)
- (:instance
- ;; KLUDGE: The reason these clauses aren't directly parallel is
- ;; that we need to use the internal CLASSOID structure ourselves,
- ;; because we don't have CLASSes to work with until PCL is built.
- ;; In the host, CLASSes have an approximately one-to-one
- ;; correspondence with the target CLASSOIDs (as well as with the
- ;; target CLASSes, modulo potential differences with respect to
- ;; conditions).
- #+sb-xc-host
- (let ((old (class-of (find-classoid name)))
- (new (class-of new-value)))
- (unless (eq old new)
- (bug "trying to change the metaclass of ~S from ~S to ~S in the ~
- cross-compiler."
- name (class-name old) (class-name new))))
- #-sb-xc-host
- (let ((old (classoid-of (find-classoid name)))
- (new (classoid-of new-value)))
- (unless (eq old new)
- (warn "changing meta-class of ~S from ~S to ~S"
- name (classoid-name old) (classoid-name new)))))
- (:primitive
- (error "illegal to redefine standard type ~S" name))
- (:defined
- (warn "redefining DEFTYPE type to be a class: ~S" name)
- (setf (info :type :expander name) nil)))
+ #-sb-xc (declare (type (or null classoid) new-value))
+ (cond
+ ((null new-value)
+ (ecase (info :type :kind name)
+ ((nil))
+ (:defined)
+ (:primitive
+ (error "attempt to redefine :PRIMITIVE type: ~S" name))
+ ((:forthcoming-defclass-type :instance)
+ (setf (info :type :kind name) nil
+ (info :type :classoid name) nil
+ (info :type :documentation name) nil
+ (info :type :compiler-layout name) nil))))
+ (t
+ (ecase (info :type :kind name)
+ ((nil))
+ (:forthcoming-defclass-type
+ ;; XXX Currently, nothing needs to be done in this
+ ;; case. Later, when PCL is integrated tighter into SBCL, this
+ ;; might need more work.
+ nil)
+ (:instance
+ ;; KLUDGE: The reason these clauses aren't directly parallel
+ ;; is that we need to use the internal CLASSOID structure
+ ;; ourselves, because we don't have CLASSes to work with until
+ ;; PCL is built. In the host, CLASSes have an approximately
+ ;; one-to-one correspondence with the target CLASSOIDs (as
+ ;; well as with the target CLASSes, modulo potential
+ ;; differences with respect to conditions).
+ #+sb-xc-host
+ (let ((old (class-of (find-classoid name)))
+ (new (class-of new-value)))
+ (unless (eq old new)
+ (bug "trying to change the metaclass of ~S from ~S to ~S in the ~
+ cross-compiler."
+ name (class-name old) (class-name new))))
+ #-sb-xc-host
+ (let ((old (classoid-of (find-classoid name)))
+ (new (classoid-of new-value)))
+ (unless (eq old new)
+ (warn "changing meta-class of ~S from ~S to ~S"
+ name (classoid-name old) (classoid-name new)))))
+ (:primitive
+ (error "illegal to redefine standard type ~S" name))
+ (:defined
+ (warn "redefining DEFTYPE type to be a class: ~S" name)
+ (setf (info :type :expander name) nil)))
- (remhash name *forward-referenced-layouts*)
- (%note-type-defined name)
- (setf (info :type :kind name) :instance)
- (setf (classoid-cell-classoid (find-classoid-cell name)) new-value)
- (unless (eq (info :type :compiler-layout name)
- (classoid-layout new-value))
- (setf (info :type :compiler-layout name) (classoid-layout new-value)))
+ (remhash name *forward-referenced-layouts*)
+ (%note-type-defined name)
+ (setf (info :type :kind name) :instance)
+ (setf (classoid-cell-classoid (find-classoid-cell name)) new-value)
+ (unless (eq (info :type :compiler-layout name)
+ (classoid-layout new-value))
+ (setf (info :type :compiler-layout name) (classoid-layout new-value)))))
new-value)
) ; EVAL-WHEN
-
+
;;; Called when we are about to define NAME as a class meeting some
;;; predicate (such as a meta-class type test.) The first result is
;;; always of the desired class. The second result is any existing
:inherits (function)
:state :read-only)
+ (number :translation number)
+ (complex
+ :translation complex
+ :inherits (number)
+ :codes (#.sb!vm:complex-widetag))
+ (complex-single-float
+ :translation (complex single-float)
+ :inherits (complex number)
+ :codes (#.sb!vm:complex-single-float-widetag))
+ (complex-double-float
+ :translation (complex double-float)
+ :inherits (complex number)
+ :codes (#.sb!vm:complex-double-float-widetag))
+ #!+long-float
+ (complex-long-float
+ :translation (complex long-float)
+ :inherits (complex number)
+ :codes (#.sb!vm:complex-long-float-widetag))
+ (real :translation real :inherits (number))
+ (float
+ :translation float
+ :inherits (real number))
+ (single-float
+ :translation single-float
+ :inherits (float real number)
+ :codes (#.sb!vm:single-float-widetag))
+ (double-float
+ :translation double-float
+ :inherits (float real number)
+ :codes (#.sb!vm:double-float-widetag))
+ #!+long-float
+ (long-float
+ :translation long-float
+ :inherits (float real number)
+ :codes (#.sb!vm:long-float-widetag))
+ (rational
+ :translation rational
+ :inherits (real number))
+ (ratio
+ :translation (and rational (not integer))
+ :inherits (rational real number)
+ :codes (#.sb!vm:ratio-widetag))
+ (integer
+ :translation integer
+ :inherits (rational real number))
+ (fixnum
+ :translation (integer #.sb!xc:most-negative-fixnum
+ #.sb!xc:most-positive-fixnum)
+ :inherits (integer rational real number)
+ :codes (#.sb!vm:even-fixnum-lowtag #.sb!vm:odd-fixnum-lowtag))
+ (bignum
+ :translation (and integer (not fixnum))
+ :inherits (integer rational real number)
+ :codes (#.sb!vm:bignum-widetag))
+
(array :translation array :codes (#.sb!vm:complex-array-widetag)
:hierarchical-p nil)
(simple-array
:direct-superclasses (vector simple-array)
:inherits (vector simple-array array sequence))
(simple-array-unsigned-byte-16
- :translation (simple-array (unsigned-byte 16) (*))
- :codes (#.sb!vm:simple-array-unsigned-byte-16-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
+ :translation (simple-array (unsigned-byte 16) (*))
+ :codes (#.sb!vm:simple-array-unsigned-byte-16-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
(simple-array-unsigned-byte-32
- :translation (simple-array (unsigned-byte 32) (*))
- :codes (#.sb!vm:simple-array-unsigned-byte-32-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
+ :translation (simple-array (unsigned-byte 32) (*))
+ :codes (#.sb!vm:simple-array-unsigned-byte-32-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
(simple-array-signed-byte-8
- :translation (simple-array (signed-byte 8) (*))
- :codes (#.sb!vm:simple-array-signed-byte-8-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
+ :translation (simple-array (signed-byte 8) (*))
+ :codes (#.sb!vm:simple-array-signed-byte-8-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
(simple-array-signed-byte-16
- :translation (simple-array (signed-byte 16) (*))
- :codes (#.sb!vm:simple-array-signed-byte-16-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
+ :translation (simple-array (signed-byte 16) (*))
+ :codes (#.sb!vm:simple-array-signed-byte-16-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
(simple-array-signed-byte-30
- :translation (simple-array (signed-byte 30) (*))
- :codes (#.sb!vm:simple-array-signed-byte-30-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
+ :translation (simple-array (signed-byte 30) (*))
+ :codes (#.sb!vm:simple-array-signed-byte-30-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
(simple-array-signed-byte-32
- :translation (simple-array (signed-byte 32) (*))
- :codes (#.sb!vm:simple-array-signed-byte-32-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
+ :translation (simple-array (signed-byte 32) (*))
+ :codes (#.sb!vm:simple-array-signed-byte-32-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
(simple-array-single-float
- :translation (simple-array single-float (*))
- :codes (#.sb!vm:simple-array-single-float-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
+ :translation (simple-array single-float (*))
+ :codes (#.sb!vm:simple-array-single-float-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
(simple-array-double-float
- :translation (simple-array double-float (*))
- :codes (#.sb!vm:simple-array-double-float-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
- #!+long-float
- (simple-array-long-float
- :translation (simple-array long-float (*))
- :codes (#.sb!vm:simple-array-long-float-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
- (simple-array-complex-single-float
- :translation (simple-array (complex single-float) (*))
- :codes (#.sb!vm:simple-array-complex-single-float-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
- (simple-array-complex-double-float
- :translation (simple-array (complex double-float) (*))
- :codes (#.sb!vm:simple-array-complex-double-float-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
- #!+long-float
- (simple-array-complex-long-float
- :translation (simple-array (complex long-float) (*))
- :codes (#.sb!vm:simple-array-complex-long-float-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence))
- (string
- :translation string
- :codes (#.sb!vm:complex-string-widetag)
- :direct-superclasses (vector)
- :inherits (vector array sequence))
- (simple-string
- :translation simple-string
- :codes (#.sb!vm:simple-string-widetag)
- :direct-superclasses (string simple-array)
- :inherits (string vector simple-array
- array sequence))
- (list
- :translation (or cons (member nil))
- :inherits (sequence))
- (cons
- :codes (#.sb!vm:list-pointer-lowtag)
- :translation cons
- :inherits (list sequence))
- (null
- :translation (member nil)
- :inherits (symbol list sequence)
- :direct-superclasses (symbol list))
- (number :translation number)
- (complex
- :translation complex
- :inherits (number)
- :codes (#.sb!vm:complex-widetag))
- (complex-single-float
- :translation (complex single-float)
- :inherits (complex number)
- :codes (#.sb!vm:complex-single-float-widetag))
- (complex-double-float
- :translation (complex double-float)
- :inherits (complex number)
- :codes (#.sb!vm:complex-double-float-widetag))
- #!+long-float
- (complex-long-float
- :translation (complex long-float)
- :inherits (complex number)
- :codes (#.sb!vm:complex-long-float-widetag))
- (real :translation real :inherits (number))
- (float
- :translation float
- :inherits (real number))
- (single-float
- :translation single-float
- :inherits (float real number)
- :codes (#.sb!vm:single-float-widetag))
- (double-float
- :translation double-float
- :inherits (float real number)
- :codes (#.sb!vm:double-float-widetag))
- #!+long-float
- (long-float
- :translation long-float
- :inherits (float real number)
- :codes (#.sb!vm:long-float-widetag))
- (rational
- :translation rational
- :inherits (real number))
- (ratio
- :translation (and rational (not integer))
- :inherits (rational real number)
- :codes (#.sb!vm:ratio-widetag))
- (integer
- :translation integer
- :inherits (rational real number))
- (fixnum
- :translation (integer #.sb!xc:most-negative-fixnum
- #.sb!xc:most-positive-fixnum)
- :inherits (integer rational real number)
- :codes (#.sb!vm:even-fixnum-lowtag #.sb!vm:odd-fixnum-lowtag))
- (bignum
- :translation (and integer (not fixnum))
- :inherits (integer rational real number)
- :codes (#.sb!vm:bignum-widetag))
- (stream
- :state :read-only
- :depth 3
- :inherits (instance)))))
+ :translation (simple-array double-float (*))
+ :codes (#.sb!vm:simple-array-double-float-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
+ #!+long-float
+ (simple-array-long-float
+ :translation (simple-array long-float (*))
+ :codes (#.sb!vm:simple-array-long-float-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
+ (simple-array-complex-single-float
+ :translation (simple-array (complex single-float) (*))
+ :codes (#.sb!vm:simple-array-complex-single-float-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
+ (simple-array-complex-double-float
+ :translation (simple-array (complex double-float) (*))
+ :codes (#.sb!vm:simple-array-complex-double-float-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
+ #!+long-float
+ (simple-array-complex-long-float
+ :translation (simple-array (complex long-float) (*))
+ :codes (#.sb!vm:simple-array-complex-long-float-widetag)
+ :direct-superclasses (vector simple-array)
+ :inherits (vector simple-array array sequence))
+ (string
+ :translation string
+ :direct-superclasses (vector)
+ :inherits (vector array sequence))
+ (simple-string
+ :translation simple-string
+ :direct-superclasses (string simple-array)
+ :inherits (string vector simple-array array sequence))
+ (vector-nil
+ ;; FIXME: Should this be (AND (VECTOR NIL) (NOT (SIMPLE-ARRAY NIL (*))))?
+ :translation (vector nil)
+ :codes (#.sb!vm:complex-vector-nil-widetag)
+ :direct-superclasses (string)
+ :inherits (string vector array sequence))
+ (simple-array-nil
+ :translation (simple-array nil (*))
+ :codes (#.sb!vm:simple-array-nil-widetag)
+ :direct-superclasses (vector-nil simple-string)
+ :inherits (vector-nil simple-string string vector simple-array array sequence))
+ (base-string
+ :translation base-string
+ :codes (#.sb!vm:complex-base-string-widetag)
+ :direct-superclasses (string)
+ :inherits (string vector array sequence))
+ (simple-base-string
+ :translation simple-base-string
+ :codes (#.sb!vm:simple-base-string-widetag)
+ :direct-superclasses (base-string simple-string)
+ :inherits (base-string simple-string string vector simple-array
+ array sequence))
+ (list
+ :translation (or cons (member nil))
+ :inherits (sequence))
+ (cons
+ :codes (#.sb!vm:list-pointer-lowtag)
+ :translation cons
+ :inherits (list sequence))
+ (null
+ :translation (member nil)
+ :inherits (symbol list sequence)
+ :direct-superclasses (symbol list))
+
+ (stream
+ :state :read-only
+ :depth 3
+ :inherits (instance)))))
-;;; comment from CMU CL:
-;;; See also type-init.lisp where we finish setting up the
-;;; translations for built-in types.
+;;; See also src/code/class-init.lisp where we finish setting up the
+;;; translations for built-in types.
(!cold-init-forms
(dolist (x *built-in-classes*)
#-sb-xc-host (/show0 "at head of loop over *BUILT-IN-CLASSES*")