(in-package "SB-PCL")
\f
-;;; This file is (almost) functionally equivalent to dlap.lisp, but easier to
-;;; read.
+;;; This file is (almost) functionally equivalent to dlap.lisp, but
+;;; easier to read.
-;;; Might generate faster code, too, depending on the compiler and whether an
-;;; implementation-specific lap assembler was used.
+;;; Might generate faster code, too, depending on the compiler and
+;;; whether an implementation-specific lap assembler was used.
(defun emit-one-class-reader (class-slot-p)
(emit-reader/writer :reader 1 class-slot-p))
;;; --------------------------------
+;;; FIXME: What do these variables mean?
(defvar *precompiling-lap* nil)
(defvar *emit-function-p* t)
(restl (when applyp '(.lap-rest-arg.))))
(generating-lisp '(emf)
dlap-lambda-list
- `(invoke-effective-method-function emf ,applyp ,@args ,@restl))))
-
-(defmacro emit-default-only-macro (metatypes applyp)
- (let ((*emit-function-p* nil)
- (*precompiling-lap* t))
- (values
- (emit-default-only metatypes applyp))))
+ `(invoke-effective-method-function emf
+ ,applyp
+ ,@args
+ ,@restl))))
;;; --------------------------------
nil)))
;;; note on implementation for CMU 17 and later (including SBCL):
-;;; Since std-instance-p is weakened, that branch may run on non-pcl
+;;; Since STD-INSTANCE-P is weakened, that branch may run on non-PCL
;;; instances (structures). The result will be the non-wrapper layout
;;; for the structure, which will cause a miss. The "slots" will be
;;; whatever the first slot is, but will be ignored. Similarly,
-;;; fsc-instance-p returns true on funcallable structures as well as
+;;; FSC-INSTANCE-P returns true on funcallable structures as well as
;;; PCL fins.
(defun emit-reader/writer (reader/writer 1-or-2-class class-slot-p)
(when (and (null *precompiling-lap*) *emit-function-p*)
(let ((instance nil)
(arglist ())
(closure-variables ())
- (field (first-wrapper-cache-number-index))
+ (field +first-wrapper-cache-number-index+)
(readp (eq reader/writer :reader))
(read-form (emit-slot-read-form class-slot-p 'index 'slots)))
;;we need some field to do the fast obsolete check
(ecase 1-or-2-class
(1 (setq closure-variables '(wrapper-0 index miss-fn)))
(2 (setq closure-variables '(wrapper-0 wrapper-1 index miss-fn))))
- (generating-lisp closure-variables
- arglist
- `(let* (,@(unless class-slot-p `((slots nil)))
+ (generating-lisp
+ closure-variables
+ arglist
+ `(let* (,@(unless class-slot-p `((slots nil)))
(wrapper (cond ((std-instance-p ,instance)
,@(unless class-slot-p
- `((setq slots (std-instance-slots ,instance))))
+ `((setq slots
+ (std-instance-slots ,instance))))
(std-instance-wrapper ,instance))
((fsc-instance-p ,instance)
,@(unless class-slot-p
- `((setq slots (fsc-instance-slots ,instance))))
+ `((setq slots
+ (fsc-instance-slots ,instance))))
(fsc-instance-wrapper ,instance)))))
- (block access
- (when (and wrapper
- (/= (wrapper-cache-number-vector-ref wrapper ,field) 0)
- ,@(if (eql 1 1-or-2-class)
- `((eq wrapper wrapper-0))
- `((or (eq wrapper wrapper-0)
- (eq wrapper wrapper-1)))))
- ,@(if readp
- `((let ((value ,read-form))
- (unless (eq value +slot-unbound+)
- (return-from access value))))
- `((return-from access (setf ,read-form ,(car arglist))))))
- (funcall miss-fn ,@arglist))))))
+ (block access
+ (when (and wrapper
+ (/= (wrapper-cache-number-vector-ref wrapper ,field) 0)
+ ,@(if (eql 1 1-or-2-class)
+ `((eq wrapper wrapper-0))
+ `((or (eq wrapper wrapper-0)
+ (eq wrapper wrapper-1)))))
+ ,@(if readp
+ `((let ((value ,read-form))
+ (unless (eq value +slot-unbound+)
+ (return-from access value))))
+ `((return-from access (setf ,read-form ,(car arglist))))))
+ (funcall miss-fn ,@arglist))))))
(defun emit-slot-read-form (class-slot-p index slots)
(if class-slot-p
(funcall ,miss-fn ,@arglist)
value)))
-(defun emit-slot-access (reader/writer class-slot-p slots index miss-fn arglist)
+(defun emit-slot-access (reader/writer
+ class-slot-p
+ slots
+ index
+ miss-fn
+ arglist)
(let ((read-form (emit-slot-read-form class-slot-p index slots))
(write-form (emit-slot-write-form
class-slot-p index slots (car arglist))))
(values
(emit-reader/writer reader/writer 1-or-2-class class-slot-p))))
-(defun emit-one-or-n-index-reader/writer (reader/writer cached-index-p class-slot-p)
+(defun emit-one-or-n-index-reader/writer (reader/writer
+ cached-index-p
+ class-slot-p)
(when (and (null *precompiling-lap*) *emit-function-p*)
(return-from emit-one-or-n-index-reader/writer
(emit-one-or-n-index-reader/writer-function
'(standard-instance)))
(:writer (values (list (dfun-arg-symbol 0) (dfun-arg-symbol 1))
'(t standard-instance))))
- (generating-lisp `(cache ,@(unless cached-index-p '(index)) miss-fn)
- arglist
- `(let (,@(unless class-slot-p '(slots))
- ,@(when cached-index-p '(index)))
- ,(emit-dlap arglist metatypes
- (emit-slot-access reader/writer class-slot-p
- 'slots 'index 'miss-fn arglist)
- `(funcall miss-fn ,@arglist)
- (when cached-index-p 'index)
- (unless class-slot-p '(slots)))))))
+ (generating-lisp
+ `(cache ,@(unless cached-index-p '(index)) miss-fn)
+ arglist
+ `(let (,@(unless class-slot-p '(slots))
+ ,@(when cached-index-p '(index)))
+ ,(emit-dlap arglist metatypes
+ (emit-slot-access reader/writer class-slot-p
+ 'slots 'index 'miss-fn arglist)
+ `(funcall miss-fn ,@arglist)
+ (when cached-index-p 'index)
+ (unless class-slot-p '(slots)))))))
(defmacro emit-one-or-n-index-reader/writer-macro
(reader/writer cached-index-p class-slot-p)
(let ((*emit-function-p* nil)
(*precompiling-lap* t))
(values
- (emit-one-or-n-index-reader/writer reader/writer cached-index-p class-slot-p))))
+ (emit-one-or-n-index-reader/writer reader/writer
+ cached-index-p
+ class-slot-p))))
(defun emit-miss (miss-fn args &optional applyp)
(let ((restl (when applyp '(.lap-rest-arg.))))
(let* ((dlap-lambda-list (make-dlap-lambda-list metatypes applyp))
(args (remove '&rest dlap-lambda-list))
(restl (when applyp '(.lap-rest-arg.))))
- (generating-lisp `(cache ,@(unless cached-emf-p '(emf)) miss-fn)
- dlap-lambda-list
- `(let (,@(when cached-emf-p '(emf)))
- ,(emit-dlap args
- metatypes
- (if return-value-p
- (if cached-emf-p 'emf t)
- `(invoke-effective-method-function emf ,applyp
- ,@args ,@restl))
- (emit-miss 'miss-fn args applyp)
- (when cached-emf-p 'emf))))))
-
-(defmacro emit-checking-or-caching-macro (cached-emf-p return-value-p metatypes applyp)
+ (generating-lisp
+ `(cache ,@(unless cached-emf-p '(emf)) miss-fn)
+ dlap-lambda-list
+ `(let (,@(when cached-emf-p '(emf)))
+ ,(emit-dlap args
+ metatypes
+ (if return-value-p
+ (if cached-emf-p 'emf t)
+ `(invoke-effective-method-function
+ emf ,applyp ,@args ,@restl))
+ (emit-miss 'miss-fn args applyp)
+ (when cached-emf-p 'emf))))))
+
+(defmacro emit-checking-or-caching-macro (cached-emf-p
+ return-value-p
+ metatypes
+ applyp)
(let ((*emit-function-p* nil)
(*precompiling-lap* t))
(values
(defun emit-dlap (args metatypes hit miss value-reg &optional slot-regs)
(let* ((index -1)
- (wrapper-bindings (mapcan #'(lambda (arg mt)
- (unless (eq mt 't)
- (incf index)
- `((,(intern (format nil
- "WRAPPER-~D"
- index)
- *pcl-package*)
- ,(emit-fetch-wrapper mt arg 'miss
- (pop slot-regs))))))
+ (wrapper-bindings (mapcan (lambda (arg mt)
+ (unless (eq mt t)
+ (incf index)
+ `((,(intern (format nil
+ "WRAPPER-~D"
+ index)
+ *pcl-package*)
+ ,(emit-fetch-wrapper
+ mt arg 'miss (pop slot-regs))))))
args metatypes))
(wrappers (mapcar #'car wrapper-bindings)))
(declare (fixnum index))
(return-from dfun ,miss)))))
(defun emit-1-nil-dlap (wrapper miss-label)
- `(let* ((primary ,(emit-1-wrapper-compute-primary-cache-location wrapper miss-label))
+ `(let* ((primary ,(emit-1-wrapper-compute-primary-cache-location wrapper
+ miss-label))
(location primary))
(declare (fixnum primary location))
(block search
(the fixnum lock-count)))
(defun emit-1-t-dlap (wrapper miss-label value)
- `(let ((primary ,(emit-1-wrapper-compute-primary-cache-location wrapper miss-label))
+ `(let ((primary ,(emit-1-wrapper-compute-primary-cache-location wrapper
+ miss-label))
(initial-lock-count (get-cache-vector-lock-count cache-vector)))
(declare (fixnum primary initial-lock-count))
(let ((location primary))
(defun emit-greater-than-1-dlap (wrappers miss-label value)
(declare (type list wrappers))
- (let ((cache-line-size (compute-line-size (+ (length wrappers) (if value 1 0)))))
- `(let ((primary 0) (size-1 (the fixnum (- size 1))))
+ (let ((cache-line-size (compute-line-size (+ (length wrappers)
+ (if value 1 0)))))
+ `(let ((primary 0)
+ (size-1 (the fixnum (- size 1))))
(declare (fixnum primary size-1))
,(emit-n-wrapper-compute-primary-cache-location wrappers miss-label)
(let ((initial-lock-count (get-cache-vector-lock-count cache-vector)))
(declare (fixnum initial-lock-count))
- (let ((location primary) (next-location 0))
+ (let ((location primary)
+ (next-location 0))
(declare (fixnum location next-location))
(block search
- (loop (setq next-location (the fixnum (+ location ,cache-line-size)))
+ (loop (setq next-location
+ (the fixnum (+ location ,cache-line-size)))
(when (and ,@(mapcar
- #'(lambda (wrapper)
- `(eq ,wrapper
- (cache-vector-ref cache-vector
- (setq location
- (the fixnum (+ location 1))))))
+ (lambda (wrapper)
+ `(eq ,wrapper
+ (cache-vector-ref
+ cache-vector
+ (setq location
+ (the fixnum (+ location 1))))))
wrappers))
,@(when value
`((setq location (the fixnum (+ location 1)))
- (setq ,value (cache-vector-ref cache-vector location))))
+ (setq ,value (cache-vector-ref cache-vector
+ location))))
(return-from search nil))
(setq location next-location)
(when (= location size-1)
(when (= location primary)
(dolist (entry overflow)
(let ((entry-wrappers (car entry)))
- (when (and ,@(mapcar #'(lambda (wrapper)
- `(eq ,wrapper (pop entry-wrappers)))
+ (when (and ,@(mapcar (lambda (wrapper)
+ `(eq ,wrapper
+ (pop entry-wrappers)))
wrappers))
,@(when value
`((setq ,value (cdr entry))))
`(progn
,@(let ((adds 0) (len (length wrappers)))
(declare (fixnum adds len))
- (mapcar #'(lambda (wrapper)
- `(let ((wrapper-cache-no (wrapper-cache-number-vector-ref
- ,wrapper field)))
- (declare (fixnum wrapper-cache-no))
- (when (zerop wrapper-cache-no) (go ,miss-label))
- (setq primary (the fixnum (+ primary wrapper-cache-no)))
- ,@(progn
- (incf adds)
- (when (or (zerop (mod adds wrapper-cache-number-adds-ok))
- (eql adds len))
- `((setq primary
- ,(let ((form `(logand primary mask)))
- `(the fixnum ,form))))))))
+ (mapcar (lambda (wrapper)
+ `(let ((wrapper-cache-no (wrapper-cache-number-vector-ref
+ ,wrapper field)))
+ (declare (fixnum wrapper-cache-no))
+ (when (zerop wrapper-cache-no) (go ,miss-label))
+ (setq primary (the fixnum (+ primary wrapper-cache-no)))
+ ,@(progn
+ (incf adds)
+ (when (or (zerop (mod adds
+ wrapper-cache-number-adds-ok))
+ (eql adds len))
+ `((setq primary
+ ,(let ((form `(logand primary mask)))
+ `(the fixnum ,form))))))))
wrappers))))
-;;; CMU17 (and SBCL) note: Since STD-INSTANCE-P is weakened in the CMU/SBCL
-;;; approach of using funcallable instances, that branch may run
-;;; on non-pcl instances (structures). The result will be the
-;;; non-wrapper layout for the structure, which will cause a miss. The "slots"
-;;; will be whatever the first slot is, but will be ignored. Similarly,
-;;; fsc-instance-p returns true on funcallable structures as well as PCL fins.
+;;; CMU17 (and SBCL) note: Since STD-INSTANCE-P is weakened in the
+;;; CMU/SBCL approach of using funcallable instances, that branch may
+;;; run on non-pcl instances (structures). The result will be the
+;;; non-wrapper layout for the structure, which will cause a miss. The
+;;; "slots" will be whatever the first slot is, but will be ignored.
+;;; Similarly, FSC-INSTANCE-P returns true on funcallable structures
+;;; as well as PCL fins.
(defun emit-fetch-wrapper (metatype argument miss-label &optional slot)
(ecase metatype
((standard-instance)