(defun %instance-set (instance index new-value)
(setf (%instance-ref instance index) new-value))
-(defun %raw-ref-single (vec index)
+;;; Normally IR2 converted, definition needed for interpreted structure
+;;; constructors only.
+#!+sb-eval
+(defun %make-structure-instance (dd slot-specs &rest slot-values)
+ (let ((instance (%make-instance (dd-instance-length dd))))
+ (setf (%instance-layout instance) (dd-layout-or-lose dd))
+ (mapc (lambda (spec value)
+ (destructuring-bind (raw-type . index) (cdr spec)
+ (macrolet ((make-case ()
+ `(ecase raw-type
+ ((t)
+ (setf (%instance-ref instance index) value))
+ ,@(mapcar
+ (lambda (rsd)
+ `(,(raw-slot-data-raw-type rsd)
+ (setf (,(raw-slot-data-accessor-name rsd)
+ instance index)
+ value)))
+ *raw-slot-data-list*))))
+ (make-case))))
+ slot-specs slot-values)
+ instance))
+
+(defun %raw-instance-ref/word (instance index)
(declare (type index index))
- (%raw-ref-single vec index))
+ (%raw-instance-ref/word instance index))
+(defun %raw-instance-set/word (instance index new-value)
+ (declare (type index index)
+ (type sb!vm:word new-value))
+ (%raw-instance-set/word instance index new-value))
-(defun %raw-ref-double (vec index)
+(defun %raw-instance-ref/single (instance index)
(declare (type index index))
- (%raw-ref-double vec index))
+ (%raw-instance-ref/single instance index))
+(defun %raw-instance-set/single (instance index new-value)
+ (declare (type index index)
+ (type single-float new-value))
+ (%raw-instance-set/single instance index new-value))
-#!+long-float
-(defun %raw-ref-long (vec index)
+(defun %raw-instance-ref/double (instance index)
(declare (type index index))
- (%raw-ref-long vec index))
+ (%raw-instance-ref/double instance index))
+(defun %raw-instance-set/double (instance index new-value)
+ (declare (type index index)
+ (type double-float new-value))
+ (%raw-instance-set/double instance index new-value))
-(defun %raw-set-single (vec index val)
+(defun %raw-instance-ref/complex-single (instance index)
(declare (type index index))
- (%raw-set-single vec index val))
+ (%raw-instance-ref/complex-single instance index))
+(defun %raw-instance-set/complex-single (instance index new-value)
+ (declare (type index index)
+ (type (complex single-float) new-value))
+ (%raw-instance-set/complex-single instance index new-value))
-(defun %raw-set-double (vec index val)
+(defun %raw-instance-ref/complex-double (instance index)
(declare (type index index))
- (%raw-set-double vec index val))
-
-#!+long-float
-(defun %raw-set-long (vec index val)
- (declare (type index index))
- (%raw-set-long vec index val))
-
-(defun %raw-ref-complex-single (vec index)
- (declare (type index index))
- (%raw-ref-complex-single vec index))
-
-(defun %raw-ref-complex-double (vec index)
- (declare (type index index))
- (%raw-ref-complex-double vec index))
-
-#!+long-float
-(defun %raw-ref-complex-long (vec index)
- (declare (type index index))
- (%raw-ref-complex-long vec index))
-
-(defun %raw-set-complex-single (vec index val)
- (declare (type index index))
- (%raw-set-complex-single vec index val))
-
-(defun %raw-set-complex-double (vec index val)
- (declare (type index index))
- (%raw-set-complex-double vec index val))
-
-#!+long-float
-(defun %raw-set-complex-long (vec index val)
- (declare (type index index))
- (%raw-set-complex-long vec index val))
+ (%raw-instance-ref/complex-double instance index))
+(defun %raw-instance-set/complex-double (instance index new-value)
+ (declare (type index index)
+ (type (complex double-float) new-value))
+ (%raw-instance-set/complex-double instance index new-value))
(defun %instance-layout (instance)
(%instance-layout instance))
(defun %set-instance-layout (instance new-value)
(%set-instance-layout instance new-value))
-(defun %make-funcallable-instance (len layout)
- (%make-funcallable-instance len layout))
+(defun %make-funcallable-instance (len)
+ (%make-funcallable-instance len))
-(defun funcallable-instance-p (x) (funcallable-instance-p x))
+(defun funcallable-instance-p (x)
+ (funcallable-instance-p x))
+
+(deftype funcallable-instance ()
+ `(satisfies funcallable-instance-p))
(defun %funcallable-instance-info (fin i)
(%funcallable-instance-info fin i))
(%set-funcallable-instance-info fin i new-value))
(defun funcallable-instance-fun (fin)
- (%funcallable-instance-lexenv fin))
-
-;;; The heart of the magic of funcallable instances ("FINs"). The
-;;; function for a FIN must be a magical INSTANCE-LAMBDA form. When
-;;; called (as with any other function), we grab the code pointer, and
-;;; call it, leaving the original function object in LEXENV (in case
-;;; it was a closure). If it is actually a FIN, then we need to do an
-;;; extra indirection with funcallable-instance-lexenv to get at any
-;;; closure environment. This extra indirection is set up when
-;;; accessing the closure environment of an INSTANCE-LAMBDA. Note that
-;;; the original FIN pointer is lost, so if the called function wants
-;;; to get at the original object to do some slot accesses, it must
-;;; close over the FIN object.
-;;;
-;;; If we set the FIN function to be a FIN, we directly copy across
-;;; both the code pointer and the lexenv, since that code pointer (for
-;;; an instance-lambda) is expecting that lexenv to be accessed. This
-;;; effectively pre-flattens what would otherwise be a chain of
-;;; indirections. (That used to happen when PCL dispatch functions
-;;; were byte-compiled; now that the byte compiler is gone, I can't
-;;; think of another example offhand. -- WHN 2001-10-06)
-;;;
-;;; The only loss is that if someone accesses the
-;;; FUNCALLABLE-INSTANCE-FUN, then won't get a FIN back. This probably
-;;; doesn't matter, since PCL only sets the FIN function.
+ (%funcallable-instance-function fin))
+
(defun (setf funcallable-instance-fun) (new-value fin)
- (setf (%funcallable-instance-fun fin)
- (%closure-fun new-value))
- (setf (%funcallable-instance-lexenv fin)
- (if (funcallable-instance-p new-value)
- (%funcallable-instance-lexenv new-value)
- new-value)))
-
-;;; service function for structure constructors
-(defun %make-instance-with-layout (layout)
- (let ((result (%make-instance (layout-length layout))))
- (setf (%instance-layout result) layout)
- result))
+ (setf (%funcallable-instance-function fin) new-value))
\f
;;;; target-only parts of the DEFSTRUCT top level code
(/show0 "entering PROTECT-CL, SYMBOL=..")
(/hexstr symbol)
(when (and *cold-init-complete-p*
- (eq (symbol-package symbol) *cl-package*))
+ (eq (symbol-package symbol) *cl-package*))
(cerror "Go ahead and patch the system."
- "attempting to modify a symbol in the COMMON-LISP package: ~S"
- symbol))
+ "attempting to modify a symbol in the COMMON-LISP package: ~S"
+ symbol))
(/show0 "leaving PROTECT-CL")
(values))
+(defun make-defstruct-predicate (dd layout)
+ (ecase (dd-type dd)
+ ;; structures with LAYOUTs
+ ((structure funcallable-structure)
+ (/show0 "with-LAYOUT case")
+ #'(lambda (object)
+ (locally ; <- to keep SAFETY 0 from affecting arg count checking
+ (declare (optimize (speed 3) (safety 0)))
+ (/noshow0 "in with-LAYOUT structure predicate closure,")
+ (/noshow0 " OBJECT,LAYOUT=..")
+ (/nohexstr object)
+ (/nohexstr layout)
+ (typep-to-layout object layout))))
+ ;; structures with no LAYOUT (i.e. :TYPE VECTOR or :TYPE LIST)
+ ;;
+ ;; FIXME: should handle the :NAMED T case in these cases
+ (vector
+ (/show0 ":TYPE VECTOR case")
+ #'vectorp)
+ (list
+ (/show0 ":TYPE LIST case")
+ #'listp)))
+
+(defun make-defstruct-copier (dd layout)
+ (ecase (dd-type dd)
+ (structure
+ #'(lambda (instance)
+ (%check-structure-type-from-layout instance layout)
+ (copy-structure instance)))))
+
;;; the part of %DEFSTRUCT which makes sense only on the target SBCL
;;;
;;; (The "static" in the name is because it needs to be done not only
(let ((accessor-name (dsd-accessor-name dsd)))
;; We mustn't step on any inherited accessors
(unless (accessor-inherited-data accessor-name dd)
- (/show0 "ACCESSOR-NAME=..")
- (/hexstr accessor-name)
- (protect-cl accessor-name)
- (/hexstr "getting READER-FUN and WRITER-FUN")
- (multiple-value-bind (reader-fun writer-fun)
- (slot-accessor-funs dd dsd)
- (declare (type function reader-fun writer-fun))
- (/show0 "got READER-FUN and WRITER-FUN=..")
- (/hexstr reader-fun)
- (setf (symbol-function accessor-name) reader-fun)
- (unless (dsd-read-only dsd)
- (/show0 "setting FDEFINITION for WRITER-FUN=..")
- (/hexstr writer-fun)
- (setf (fdefinition `(setf ,accessor-name)) writer-fun))))))
+ (/show0 "ACCESSOR-NAME=..")
+ (/hexstr accessor-name)
+ (protect-cl accessor-name)
+ (/hexstr "getting READER-FUN and WRITER-FUN")
+ (multiple-value-bind (reader-fun writer-fun)
+ (slot-accessor-funs dd dsd)
+ (declare (type function reader-fun writer-fun))
+ (/show0 "got READER-FUN and WRITER-FUN=..")
+ (/hexstr reader-fun)
+ (setf (symbol-function accessor-name) reader-fun)
+ (unless (dsd-read-only dsd)
+ (/show0 "setting FDEFINITION for WRITER-FUN=..")
+ (/hexstr writer-fun)
+ (setf (fdefinition `(setf ,accessor-name)) writer-fun))))))
;; Set FDEFINITION for copier.
(when (dd-copier-name dd)
;; (And funcallable instances don't need copiers anyway.)
(aver (eql (dd-type dd) 'structure))
(setf (symbol-function (dd-copier-name dd))
- ;; FIXME: should use a closure which checks arg type before copying
- #'copy-structure))
+ (make-defstruct-copier dd layout)))
;; Set FDEFINITION for predicate.
(when (dd-predicate-name dd)
(/show0 "doing FDEFINITION for predicate")
(protect-cl (dd-predicate-name dd))
(setf (symbol-function (dd-predicate-name dd))
- (ecase (dd-type dd)
- ;; structures with LAYOUTs
- ((structure funcallable-structure)
- (/show0 "with-LAYOUT case")
- (lambda (object)
- (locally ; <- to keep SAFETY 0 from affecting arg count checking
- (declare (optimize (speed 3) (safety 0)))
- (/noshow0 "in with-LAYOUT structure predicate closure, OBJECT,LAYOUT=..")
- (/nohexstr object)
- (/nohexstr layout)
- (typep-to-layout object layout))))
- ;; structures with no LAYOUT (i.e. :TYPE VECTOR or :TYPE LIST)
- ;;
- ;; FIXME: should handle the :NAMED T case in these cases
- (vector
- (/show0 ":TYPE VECTOR case")
- #'vectorp)
- (list
- (/show0 ":TYPE LIST case")
- #'listp))))
+ (make-defstruct-predicate dd layout)))
(when (dd-doc dd)
- (setf (fdocumentation (dd-name dd) 'type)
- (dd-doc dd)))
+ (setf (fdocumentation (dd-name dd) 'structure)
+ (dd-doc dd)))
;; the BOUNDP test here is to get past cold-init.
(when (boundp '*defstruct-hooks*)
(dolist (fun *defstruct-hooks*)
(funcall fun (find-classoid (dd-name dd)))))
-
+
(/show0 "leaving %TARGET-DEFSTRUCT")
(values))
\f
;;; of expansion of DEFSTRUCT. (For now we're just doing the simpler
;;; thing, putting in the type checks unconditionally.)
+;;; KLUDGE: Why use this closure approach at all? The macrology in
+;;; SLOT-ACCESSOR-FUNS seems to be half stub, half OAOOM to me. --DFL
+
;;; Return (VALUES SLOT-READER-FUN SLOT-WRITER-FUN).
(defun slot-accessor-funs (dd dsd)
;; things like INSTANCE and DSD-INDEX from the namespace they're
;; expanded in.
(macrolet (;; code shared between funcallable instance case and the
- ;; ordinary STRUCTURE-OBJECT case: Handle native
- ;; structures with LAYOUTs and (possibly) raw slots.
- (%native-slot-accessor-funs (dd-ref-fun-name)
- (let ((instance-type-check-form
- '(%check-structure-type-from-layout instance layout)))
- (/show "macroexpanding %NATIVE-SLOT-ACCESSOR-FUNS" dd-ref-fun-name instance-type-check-form)
- `(let ((layout (dd-layout-or-lose dd))
- (dsd-raw-type (dsd-raw-type dsd)))
- #+sb-xc (/show0 "in %NATIVE-SLOT-ACCESSOR-FUNS macroexpanded code")
- ;; Map over all the possible RAW-TYPEs, compiling
- ;; a different closure function for each one, so
- ;; that once the COND over RAW-TYPEs happens (at
- ;; the time closure is allocated) there are no
- ;; more decisions to be made and things execute
- ;; reasonably efficiently.
- (cond
- ;; nonraw slot case
- ((eql dsd-raw-type t)
- #+sb-xc (/show0 "in nonraw slot case")
- (%slotplace-accessor-funs
- (,dd-ref-fun-name instance dsd-index)
- ,instance-type-check-form))
- ;; raw slot cases
- ,@(mapcar (lambda (rtd)
- (let ((raw-type (raw-slot-data-raw-type rtd))
- (accessor-name
- (raw-slot-data-accessor-name rtd))
- (n-words (raw-slot-data-n-words rtd)))
- `((equal dsd-raw-type ',raw-type)
- #+sb-xc (/show0 "in raw slot case")
- (let ((raw-index (dd-raw-index dd)))
- (multiple-value-bind (scaled-dsd-index
- misalignment)
- (floor dsd-index ,n-words)
- (aver (zerop misalignment))
- (%slotplace-accessor-funs
- (,accessor-name (,dd-ref-fun-name
- instance
- raw-index)
- scaled-dsd-index)
- ,instance-type-check-form))))))
- *raw-slot-data-list*)
- ;; oops
- (t
- (bug "unexpected DSD-RAW-TYPE ~S" dsd-raw-type))))))
- ;; code shared between DEFSTRUCT :TYPE LIST and
- ;; DEFSTRUCT :TYPE VECTOR cases: Handle the "typed
- ;; structure" case, with no LAYOUTs and no raw slots.
- (%colontyped-slot-accessor-funs () (error "stub"))
- ;; the common structure of the raw-slot and not-raw-slot
- ;; cases, defined in terms of the writable SLOTPLACE. All
- ;; possible flavors of slot access should be able to pass
- ;; through here.
- (%slotplace-accessor-funs (slotplace instance-type-check-form)
- (/show "macroexpanding %SLOTPLACE-ACCESSOR-FUNS" slotplace instance-type-check-form)
- `(values (lambda (instance)
- (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined reader")
- ,instance-type-check-form
- (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM")
- ,slotplace)
- (let ((typecheckfun (typespec-typecheckfun dsd-type)))
- (lambda (new-value instance)
- (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined writer")
- ,instance-type-check-form
- (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM")
- (funcall typecheckfun new-value)
- (/noshow0 "back from TYPECHECKFUN")
- (setf ,slotplace new-value))))))
+ ;; ordinary STRUCTURE-OBJECT case: Handle native
+ ;; structures with LAYOUTs and (possibly) raw slots.
+ (%native-slot-accessor-funs (dd-ref-fun-name)
+ (let ((instance-type-check-form
+ '(%check-structure-type-from-layout instance layout)))
+ (/show "macroexpanding %NATIVE-SLOT-ACCESSOR-FUNS" dd-ref-fun-name instance-type-check-form)
+ `(let ((layout (dd-layout-or-lose dd))
+ (dsd-raw-type (dsd-raw-type dsd)))
+ #+sb-xc (/show0 "in %NATIVE-SLOT-ACCESSOR-FUNS macroexpanded code")
+ ;; Map over all the possible RAW-TYPEs, compiling
+ ;; a different closure function for each one, so
+ ;; that once the COND over RAW-TYPEs happens (at
+ ;; the time closure is allocated) there are no
+ ;; more decisions to be made and things execute
+ ;; reasonably efficiently.
+ (cond
+ ;; nonraw slot case
+ ((eql dsd-raw-type t)
+ #+sb-xc (/show0 "in nonraw slot case")
+ (%slotplace-accessor-funs
+ (,dd-ref-fun-name instance dsd-index)
+ ,instance-type-check-form))
+ ;; raw slot cases
+ ,@(mapcar (lambda (rtd)
+ (let ((raw-type (raw-slot-data-raw-type rtd))
+ (accessor-name
+ (raw-slot-data-accessor-name rtd)))
+ `((equal dsd-raw-type ',raw-type)
+ #+sb-xc (/show0 "in raw slot case")
+ (%slotplace-accessor-funs
+ (,accessor-name instance dsd-index)
+ ,instance-type-check-form))))
+ *raw-slot-data-list*)
+ ;; oops
+ (t
+ (bug "unexpected DSD-RAW-TYPE ~S" dsd-raw-type))))))
+ ;; code shared between DEFSTRUCT :TYPE LIST and
+ ;; DEFSTRUCT :TYPE VECTOR cases: Handle the "typed
+ ;; structure" case, with no LAYOUTs and no raw slots.
+ (%colontyped-slot-accessor-funs () (error "stub"))
+ ;; the common structure of the raw-slot and not-raw-slot
+ ;; cases, defined in terms of the writable SLOTPLACE. All
+ ;; possible flavors of slot access should be able to pass
+ ;; through here.
+ (%slotplace-accessor-funs (slotplace instance-type-check-form)
+ (/show "macroexpanding %SLOTPLACE-ACCESSOR-FUNS" slotplace instance-type-check-form)
+ `(let ((typecheckfun (typespec-typecheckfun dsd-type)))
+ (values (if (dsd-safe-p dsd)
+ (lambda (instance)
+ (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined reader")
+ ,instance-type-check-form
+ (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM")
+ ,slotplace)
+ (lambda (instance)
+ (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined reader")
+ ,instance-type-check-form
+ (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM")
+ (let ((value ,slotplace))
+ (funcall typecheckfun value)
+ value)))
+ (lambda (new-value instance)
+ (/noshow0 "in %SLOTPLACE-ACCESSOR-FUNS-defined writer")
+ ,instance-type-check-form
+ (/noshow0 "back from INSTANCE-TYPE-CHECK-FORM")
+ (funcall typecheckfun new-value)
+ (/noshow0 "back from TYPECHECKFUN")
+ (setf ,slotplace new-value))))))
(let ((dsd-index (dsd-index dsd))
- (dsd-type (dsd-type dsd)))
-
+ (dsd-type (dsd-type dsd)))
+
#+sb-xc (/show0 "got DSD-TYPE=..")
#+sb-xc (/hexstr dsd-type)
(ecase (dd-type dd)
- ;; native structures
- (structure
- #+sb-xc (/show0 "case of DSD-TYPE = STRUCTURE")
- (%native-slot-accessor-funs %instance-ref))
-
- ;; structures with the :TYPE option
+ ;; native structures
+ (structure
+ #+sb-xc (/show0 "case of DSD-TYPE = STRUCTURE")
+ (%native-slot-accessor-funs %instance-ref))
- ;; FIXME: Worry about these later..
- #|
+ ;; structures with the :TYPE option
+
+ ;; FIXME: Worry about these later..
+ #|
;; In :TYPE LIST and :TYPE VECTOR structures, ANSI specifies the
;; layout completely, so that raw slots are impossible.
(list
(dd-type-slot-accessor-funs nth-but-with-sane-arg-order
- `(%check-structure-type-from-dd
- :maybe-raw-p nil))
+ `(%check-structure-type-from-dd
+ :maybe-raw-p nil))
(vector
(dd-type-slot-accessor-funs aref
- :maybe-raw-p nil)))
+ :maybe-raw-p nil)))
|#
- ))))
+ ))))
\f
;;; Copy any old kind of structure.
(defun copy-structure (structure)
"Return a copy of STRUCTURE with the same (EQL) slot values."
(declare (type structure-object structure))
(let* ((len (%instance-length structure))
- (res (%make-instance len))
- (layout (%instance-layout structure)))
+ (res (%make-instance len))
+ (layout (%instance-layout structure))
+ (nuntagged (layout-n-untagged-slots layout)))
(declare (type index len))
(when (layout-invalid layout)
(error "attempt to copy an obsolete structure:~% ~S" structure))
- ;; Copy ordinary slots.
- (dotimes (i len)
+ ;; Copy ordinary slots and layout.
+ (dotimes (i (- len nuntagged))
(declare (type index i))
(setf (%instance-ref res i)
- (%instance-ref structure i)))
+ (%instance-ref structure i)))
;; Copy raw slots.
- (let ((raw-index (dd-raw-index (layout-info layout))))
- (when raw-index
- (let* ((data (%instance-ref structure raw-index))
- (raw-len (length data))
- (new (make-array raw-len :element-type '(unsigned-byte 32))))
- (declare (type (simple-array (unsigned-byte 32) (*)) data))
- (setf (%instance-ref res raw-index) new)
- (dotimes (i raw-len)
- (setf (aref new i) (aref data i))))))
+ (dotimes (i nuntagged)
+ (declare (type index i))
+ (setf (%raw-instance-ref/word res i)
+ (%raw-instance-ref/word structure i)))
res))
+
+\f
+
+;; Do an EQUALP comparison on the raw slots (only, not the normal slots) of a
+;; structure.
+(defun raw-instance-slots-equalp (layout x y)
+ ;; This implementation sucks, but hopefully EQUALP on raw structures
+ ;; won't be a major bottleneck for anyone. It'd be tempting to do
+ ;; all this with %RAW-INSTANCE-REF/WORD and bitwise comparisons, but
+ ;; that'll fail in some cases. For example -0.0 and 0.0 are EQUALP
+ ;; but have different bit patterns. -- JES, 2007-08-21
+ (loop with i = -1
+ for dsd in (dd-slots (layout-info layout))
+ for raw-type = (dsd-raw-type dsd)
+ for rsd = (when raw-type
+ (find raw-type
+ *raw-slot-data-list*
+ :key 'raw-slot-data-raw-type))
+ for accessor = (when rsd
+ (raw-slot-data-accessor-name rsd))
+ always (or (not accessor)
+ (progn
+ (incf i)
+ (equalp (funcall accessor x i)
+ (funcall accessor y i))))))
\f
;;; default PRINT-OBJECT method
+(defun %print-structure-sans-layout-info (name stream)
+ ;; KLUDGE: during PCL build debugging, we can sometimes
+ ;; attempt to print out a PCL object (with null LAYOUT-INFO).
+ (pprint-logical-block (stream nil :prefix "#<" :suffix ">")
+ (prin1 name stream)
+ (write-char #\space stream)
+ (write-string "(no LAYOUT-INFO)" stream)))
+
+(defun %print-structure-sans-slots (name stream)
+ ;; the structure type doesn't count as a component for *PRINT-LEVEL*
+ ;; processing. We can likewise elide the logical block processing,
+ ;; since all we have to print is the type name. -- CSR, 2004-10-05
+ (write-string "#S(" stream)
+ (prin1 name stream)
+ (write-char #\) stream))
+
(defun %default-structure-pretty-print (structure stream)
(let* ((layout (%instance-layout structure))
- (name (classoid-name (layout-classoid layout)))
- (dd (layout-info layout)))
- ;; KLUDGE: during the build process with SB-SHOW, we can sometimes
- ;; attempt to print out a PCL object (with null LAYOUT-INFO).
- #!+sb-show
- (when (null dd)
- (pprint-logical-block (stream nil :prefix "#<" :suffix ">")
- (prin1 name stream)
- (write-char #\space stream)
- (write-string "(no LAYOUT-INFO)"))
- (return-from %default-structure-pretty-print nil))
- (pprint-logical-block (stream nil :prefix "#S(" :suffix ")")
- (prin1 name stream)
- (let ((remaining-slots (dd-slots dd)))
- (when remaining-slots
- (write-char #\space stream)
- ;; CMU CL had (PPRINT-INDENT :BLOCK 2 STREAM) here,
- ;; but I can't see why. -- WHN 20000205
- (pprint-newline :linear stream)
- (loop
- (pprint-pop)
- (let ((slot (pop remaining-slots)))
- (write-char #\: stream)
- (output-symbol-name (dsd-%name slot) stream)
- (write-char #\space stream)
- (pprint-newline :miser stream)
- (output-object (funcall (fdefinition (dsd-accessor-name slot))
- structure)
- stream)
- (when (null remaining-slots)
- (return))
- (write-char #\space stream)
- (pprint-newline :linear stream))))))))
+ (name (classoid-name (layout-classoid layout)))
+ (dd (layout-info layout)))
+ (cond ((not dd)
+ (%print-structure-sans-layout-info name stream))
+ ((not (dd-slots dd))
+ (%print-structure-sans-slots name stream))
+ (t
+ (pprint-logical-block (stream nil :prefix "#S(" :suffix ")")
+ (prin1 name stream)
+ (let ((remaining-slots (dd-slots dd)))
+ (when remaining-slots
+ (write-char #\space stream)
+ ;; CMU CL had (PPRINT-INDENT :BLOCK 2 STREAM) here,
+ ;; but I can't see why. -- WHN 20000205
+ (pprint-newline :linear stream)
+ (loop
+ (pprint-pop)
+ (let ((slot (pop remaining-slots)))
+ (write-char #\: stream)
+ (output-symbol-name (symbol-name (dsd-name slot)) stream)
+ (write-char #\space stream)
+ (pprint-newline :miser stream)
+ (output-object (funcall (fdefinition (dsd-accessor-name slot))
+ structure)
+ stream)
+ (when (null remaining-slots)
+ (return))
+ (write-char #\space stream)
+ (pprint-newline :linear stream))))))))))
+
(defun %default-structure-ugly-print (structure stream)
(let* ((layout (%instance-layout structure))
- (name (classoid-name (layout-classoid layout)))
- (dd (layout-info layout)))
- (descend-into (stream)
- (write-string "#S(" stream)
- (prin1 name stream)
- (do ((index 0 (1+ index))
- (remaining-slots (dd-slots dd) (cdr remaining-slots)))
- ((or (null remaining-slots)
- (and (not *print-readably*)
- *print-length*
- (>= index *print-length*)))
- (if (null remaining-slots)
- (write-string ")" stream)
- (write-string " ...)" stream)))
- (declare (type index index))
- (write-char #\space stream)
- (write-char #\: stream)
- (let ((slot (first remaining-slots)))
- (output-symbol-name (dsd-%name slot) stream)
- (write-char #\space stream)
- (output-object
- (funcall (fdefinition (dsd-accessor-name slot))
- structure)
- stream))))))
+ (name (classoid-name (layout-classoid layout)))
+ (dd (layout-info layout)))
+ (cond ((not dd)
+ (%print-structure-sans-layout-info name stream))
+ ((not (dd-slots dd))
+ (%print-structure-sans-slots name stream))
+ (t
+ (descend-into (stream)
+ (write-string "#S(" stream)
+ (prin1 name stream)
+ (do ((index 0 (1+ index))
+ (remaining-slots (dd-slots dd) (cdr remaining-slots)))
+ ((or (null remaining-slots)
+ (and (not *print-readably*)
+ *print-length*
+ (>= index *print-length*)))
+ (if (null remaining-slots)
+ (write-string ")" stream)
+ (write-string " ...)" stream)))
+ (declare (type index index))
+ (write-string " :" stream)
+ (let ((slot (first remaining-slots)))
+ (output-symbol-name (symbol-name (dsd-name slot)) stream)
+ (write-char #\space stream)
+ (output-object
+ (funcall (fdefinition (dsd-accessor-name slot))
+ structure)
+ stream))))))))
+
(defun default-structure-print (structure stream depth)
(declare (ignore depth))
(cond ((funcallable-instance-p structure)
- (print-unreadable-object (structure stream :identity t :type t)))
- (*print-pretty*
- (%default-structure-pretty-print structure stream))
- (t
- (%default-structure-ugly-print structure stream))))
+ (print-unreadable-object (structure stream :identity t :type t)))
+ (*print-pretty*
+ (%default-structure-pretty-print structure stream))
+ (t
+ (%default-structure-ugly-print structure stream))))
+
(def!method print-object ((x structure-object) stream)
(default-structure-print x stream *current-level-in-print*))
\f
(when (layout-invalid layout)
(error "An obsolete structure accessor function was called."))
(/noshow0 "back from testing LAYOUT-INVALID LAYOUT")
- ;; FIXME: CMU CL used (%INSTANCEP OBJ) here. Check that
- ;; (TYPEP OBJ 'INSTANCE) is optimized to equally efficient code.
- (and (typep obj 'instance)
+ (and (%instancep obj)
(let ((obj-layout (%instance-layout obj)))
- (cond ((eq obj-layout layout)
- ;; (In this case OBJ-LAYOUT can't be invalid, because
- ;; we determined LAYOUT is valid in the test above.)
- (/noshow0 "EQ case")
- t)
- ((layout-invalid obj-layout)
- (/noshow0 "LAYOUT-INVALID case")
- (error 'layout-invalid
- :expected-type (layout-classoid obj-layout)
- :datum obj))
- (t
- (let ((depthoid (layout-depthoid layout)))
- (/noshow0 "DEPTHOID case, DEPTHOID,LAYOUT-INHERITS=..")
- (/nohexstr depthoid)
- (/nohexstr layout-inherits)
- (and (> (layout-depthoid obj-layout) depthoid)
- (eq (svref (layout-inherits obj-layout) depthoid)
- layout))))))))
+ (cond ((eq obj-layout layout)
+ ;; (In this case OBJ-LAYOUT can't be invalid, because
+ ;; we determined LAYOUT is valid in the test above.)
+ (/noshow0 "EQ case")
+ t)
+ ((layout-invalid obj-layout)
+ (/noshow0 "LAYOUT-INVALID case")
+ (error 'layout-invalid
+ :expected-type (layout-classoid layout)
+ :datum obj))
+ (t
+ (let ((depthoid (layout-depthoid layout)))
+ (/noshow0 "DEPTHOID case, DEPTHOID,LAYOUT-INHERITS=..")
+ (/nohexstr depthoid)
+ (/nohexstr layout-inherits)
+ (and (> (layout-depthoid obj-layout) depthoid)
+ (eq (svref (layout-inherits obj-layout) depthoid)
+ layout))))))))
\f
;;;; checking structure types
(ecase (dd-type dd)
((structure funcallable-instance)
`(%check-structure-type-from-layout
- ,x
- ,(compiler-layout-or-lose class-name)))
+ ,x
+ ,(compiler-layout-or-lose class-name)))
((vector)
(with-unique-names (xx)
- `(let ((,xx ,x))
- (declare (type vector ,xx))
- ,@(when (dd-named dd)
- `((unless (eql (aref ,xx 0) ',class-name)
- (error
- 'simple-type-error
- :datum (aref ,xx 0)
- :expected-type `(member ,class-name)
- :format-control
- "~@<missing name in instance of ~
+ `(let ((,xx ,x))
+ (declare (type vector ,xx))
+ ,@(when (dd-named dd)
+ `((unless (eql (aref ,xx 0) ',class-name)
+ (error
+ 'simple-type-error
+ :datum (aref ,xx 0)
+ :expected-type `(member ,class-name)
+ :format-control
+ "~@<missing name in instance of ~
VECTOR-typed structure ~S: ~2I~_S~:>"
- :format-arguments (list ',class-name ,xx)))))
- (values))))
+ :format-arguments (list ',class-name ,xx)))))
+ (values))))
((list)
(with-unique-names (xx)
- `(let ((,xx ,x))
- (declare (type list ,xx))
- ,@(when (dd-named dd)
- `((unless (eql (first ,xx) ',class-name)
- (error
- 'simple-type-error
- :datum (aref ,xx 0)
- :expected-type `(member ,class-name)
- :format-control
- "~@<missing name in instance of LIST-typed structure ~S: ~
+ `(let ((,xx ,x))
+ (declare (type list ,xx))
+ ,@(when (dd-named dd)
+ `((unless (eql (first ,xx) ',class-name)
+ (error
+ 'simple-type-error
+ :datum (aref ,xx 0)
+ :expected-type `(member ,class-name)
+ :format-control
+ "~@<missing name in instance of LIST-typed structure ~S: ~
~2I~_S~:>"
- :format-arguments (list ',class-name ,xx)))))
- (values)))))))
+ :format-arguments (list ',class-name ,xx)))))
+ (values)))))))
;;; Check that X is an instance of the structure class with layout LAYOUT.
(defun %check-structure-type-from-layout (x layout)
(unless (typep-to-layout x layout)
(error 'type-error
- :datum x
- :expected-type (classoid-name (layout-classoid layout))))
+ :datum x
+ :expected-type (classoid-name (layout-classoid layout))))
(values))
+
\f
(/show0 "target-defstruct.lisp end of file")