(in-package "SB-PCL")
\f
-;;; FIXME: SB-PCL should probably USE-PACKAGE SB-KERNEL, since SB-PCL is built
-;;; on SB-KERNEL, and in the absence of USE-PACKAGE, it ends up using a
-;;; thundering herd of explicit prefixes to get to SB-KERNEL symbols.
-;;; Using the SB-INT and SB-EXT packages as well would help reduce
-;;; prefixing and make it more natural to reuse things (ONCE-ONLY,
-;;; *KEYWORD-PACKAGE*..) used in the main body of the system.
-;;; However, that would cause a conflict between the SB-ITERATE:ITERATE
-;;; macro and the SB-INT:ITERATE macro. (This could be resolved by
-;;; renaming SB-INT:ITERATE to SB-INT:NAMED-LET, or with
-;;; more gruntwork by punting the SB-ITERATE package and replacing
-;;; calls to SB-ITERATE:ITERATE with calls to CL:LOOP.
-
;;; The caching algorithm implemented:
;;;
;;; << put a paper here >>
;;;
-;;; For now, understand that as far as most of this code goes, a cache has
-;;; two important properties. The first is the number of wrappers used as
-;;; keys in each cache line. Throughout this code, this value is always
-;;; called NKEYS. The second is whether or not the cache lines of a cache
-;;; store a value. Throughout this code, this always called VALUEP.
+;;; For now, understand that as far as most of this code goes, a cache
+;;; has two important properties. The first is the number of wrappers
+;;; used as keys in each cache line. Throughout this code, this value
+;;; is always called NKEYS. The second is whether or not the cache
+;;; lines of a cache store a value. Throughout this code, this always
+;;; called VALUEP.
;;;
;;; Depending on these values, there are three kinds of caches.
;;;
;;; NKEYS = 1, VALUEP = NIL
;;;
-;;; In this kind of cache, each line is 1 word long. No cache locking is
-;;; needed since all read's in the cache are a single value. Nevertheless
-;;; line 0 (location 0) is reserved, to ensure that invalid wrappers will
-;;; not get a first probe hit.
+;;; In this kind of cache, each line is 1 word long. No cache locking
+;;; is needed since all read's in the cache are a single value.
+;;; Nevertheless line 0 (location 0) is reserved, to ensure that
+;;; invalid wrappers will not get a first probe hit.
;;;
-;;; To keep the code simpler, a cache lock count does appear in location 0
-;;; of these caches, that count is incremented whenever data is written to
-;;; the cache. But, the actual lookup code (see make-dlap) doesn't need to
-;;; do locking when reading the cache.
+;;; To keep the code simpler, a cache lock count does appear in
+;;; location 0 of these caches, that count is incremented whenever
+;;; data is written to the cache. But, the actual lookup code (see
+;;; make-dlap) doesn't need to do locking when reading the cache.
;;;
;;; NKEYS = 1, VALUEP = T
;;;
-;;; In this kind of cache, each line is 2 words long. Cache locking must
-;;; be done to ensure the synchronization of cache reads. Line 0 of the
-;;; cache (location 0) is reserved for the cache lock count. Location 1
-;;; of the cache is unused (in effect wasted).
+;;; In this kind of cache, each line is 2 words long. Cache locking
+;;; must be done to ensure the synchronization of cache reads. Line 0
+;;; of the cache (location 0) is reserved for the cache lock count.
+;;; Location 1 of the cache is unused (in effect wasted).
;;;
;;; NKEYS > 1
;;;
-;;; In this kind of cache, the 0 word of the cache holds the lock count.
-;;; The 1 word of the cache is line 0. Line 0 of these caches is not
-;;; reserved.
+;;; In this kind of cache, the 0 word of the cache holds the lock
+;;; count. The 1 word of the cache is line 0. Line 0 of these caches
+;;; is not reserved.
;;;
-;;; This is done because in this sort of cache, the overhead of doing the
-;;; cache probe is high enough that the 1+ required to offset the location
-;;; is not a significant cost. In addition, because of the larger line
-;;; sizes, the space that would be wasted by reserving line 0 to hold the
-;;; lock count is more significant.
+;;; This is done because in this sort of cache, the overhead of doing
+;;; the cache probe is high enough that the 1+ required to offset the
+;;; location is not a significant cost. In addition, because of the
+;;; larger line sizes, the space that would be wasted by reserving
+;;; line 0 to hold the lock count is more significant.
\f
;;; caches
;;;
-;;; A cache is essentially just a vector. The use of the individual `words'
-;;; in the vector depends on particular properties of the cache as described
-;;; above.
+;;; A cache is essentially just a vector. The use of the individual
+;;; `words' in the vector depends on particular properties of the
+;;; cache as described above.
;;;
-;;; This defines an abstraction for caches in terms of their most obvious
-;;; implementation as simple vectors. But, please notice that part of the
-;;; implementation of this abstraction, is the function lap-out-cache-ref.
-;;; This means that most port-specific modifications to the implementation
-;;; of caches will require corresponding port-specific modifications to the
-;;; lap code assembler.
+;;; This defines an abstraction for caches in terms of their most
+;;; obvious implementation as simple vectors. But, please notice that
+;;; part of the implementation of this abstraction, is the function
+;;; lap-out-cache-ref. This means that most port-specific
+;;; modifications to the implementation of caches will require
+;;; corresponding port-specific modifications to the lap code
+;;; assembler.
(defmacro cache-vector-ref (cache-vector location)
`(svref (the simple-vector ,cache-vector)
(sb-ext:truly-the fixnum ,location)))
`(cache-vector-ref ,cache-vector 0))
(defun flush-cache-vector-internal (cache-vector)
- (without-interrupts
+ (sb-sys:without-interrupts
(fill (the simple-vector cache-vector) nil)
(setf (cache-vector-lock-count cache-vector) 0))
cache-vector)
(defmacro modify-cache (cache-vector &body body)
- `(without-interrupts
+ `(sb-sys:without-interrupts
(multiple-value-prog1
(progn ,@body)
(let ((old-count (cache-vector-lock-count ,cache-vector)))
1 (the fixnum (1+ old-count))))))))
(deftype field-type ()
- '(integer 0 ;#.(position 'number wrapper-layout)
- 7)) ;#.(position 'number wrapper-layout :from-end t)
+ '(mod #.sb-kernel:layout-clos-hash-length))
(eval-when (:compile-toplevel :load-toplevel :execute)
(defun power-of-two-ceiling (x)
(declare (fixnum x))
;;(expt 2 (ceiling (log x 2)))
(the fixnum (ash 1 (integer-length (1- x)))))
-
-(defconstant *nkeys-limit* 256)
) ; EVAL-WHEN
+(defconstant +nkeys-limit+ 256)
+
(defstruct (cache (:constructor make-cache ())
(:copier copy-cache-internal))
(owner nil)
- (nkeys 1 :type (integer 1 #.*nkeys-limit*))
+ (nkeys 1 :type (integer 1 #.+nkeys-limit+))
(valuep nil :type (member nil t))
(nlines 0 :type fixnum)
(field 0 :type field-type)
(limit-fn #'default-limit-fn :type function)
(mask 0 :type fixnum)
(size 0 :type fixnum)
- (line-size 1 :type (integer 1 #.(power-of-two-ceiling (1+ *nkeys-limit*))))
+ (line-size 1 :type (integer 1 #.(power-of-two-ceiling (1+ +nkeys-limit+))))
(max-location 0 :type fixnum)
(vector #() :type simple-vector)
(overflow nil :type list))
\f
;;; some facilities for allocation and freeing caches as they are needed
-;;; This is done on the assumption that a better port of PCL will arrange
-;;; to cons these all in the same static area. Given that, the fact that
-;;; PCL tries to reuse them should be a win.
+;;; This is done on the assumption that a better port of PCL will
+;;; arrange to cons these all in the same static area. Given that, the
+;;; fact that PCL tries to reuse them should be a win.
(defvar *free-cache-vectors* (make-hash-table :size 16 :test 'eql))
-;;; Return a cache that has had flush-cache-vector-internal called on it. This
-;;; returns a cache of exactly the size requested, it won't ever return a
-;;; larger cache.
+;;; Return a cache that has had FLUSH-CACHE-VECTOR-INTERNAL called on
+;;; it. This returns a cache of exactly the size requested, it won't
+;;; ever return a larger cache.
(defun get-cache-vector (size)
(let ((entry (gethash size *free-cache-vectors*)))
- (without-interrupts
+ (sb-sys:without-interrupts
(cond ((null entry)
(setf (gethash size *free-cache-vectors*) (cons 0 nil))
(get-cache-vector size))
(defun free-cache-vector (cache-vector)
(let ((entry (gethash (cache-vector-size cache-vector) *free-cache-vectors*)))
- (without-interrupts
+ (sb-sys:without-interrupts
(if (null entry)
(error
"attempt to free a cache-vector not allocated by GET-CACHE-VECTOR")
(setf (cdr entry) cache-vector)
nil)))))
-;;; This is just for debugging and analysis. It shows the state of the free
-;;; cache resource.
+;;; This is just for debugging and analysis. It shows the state of the
+;;; free cache resource.
#+sb-show
(defun show-free-cache-vectors ()
(let ((elements ()))
- (maphash #'(lambda (s e) (push (list s e) elements)) *free-cache-vectors*)
+ (maphash (lambda (s e) (push (list s e) elements)) *free-cache-vectors*)
(setq elements (sort elements #'< :key #'car))
(dolist (e elements)
(let* ((size (car e))
(setq head (cache-vector-ref head 0))
(incf free))
(format t
- "~&There ~4D are caches of size ~4D. (~D free ~3D%)"
+ "~&There are ~4D caches of size ~4D. (~D free ~3D%)"
allocated
size
free
\f
;;;; wrapper cache numbers
-;;; The constant WRAPPER-CACHE-NUMBER-ADDS-OK controls the number of non-zero
-;;; bits wrapper cache numbers will have.
+;;; The constant WRAPPER-CACHE-NUMBER-ADDS-OK controls the number of
+;;; non-zero bits wrapper cache numbers will have.
;;;
-;;; The value of this constant is the number of wrapper cache numbers which
-;;; can be added and still be certain the result will be a fixnum. This is
-;;; used by all the code that computes primary cache locations from multiple
-;;; wrappers.
+;;; The value of this constant is the number of wrapper cache numbers
+;;; which can be added and still be certain the result will be a
+;;; fixnum. This is used by all the code that computes primary cache
+;;; locations from multiple wrappers.
;;;
-;;; The value of this constant is used to derive the next two which are the
-;;; forms of this constant which it is more convenient for the runtime code
-;;; to use.
+;;; The value of this constant is used to derive the next two which
+;;; are the forms of this constant which it is more convenient for the
+;;; runtime code to use.
(defconstant wrapper-cache-number-length
(integer-length sb-kernel:layout-clos-hash-max))
(defconstant wrapper-cache-number-mask sb-kernel:layout-clos-hash-max)
\f
;;;; wrappers themselves
-;;; This caching algorithm requires that wrappers have more than one wrapper
-;;; cache number. You should think of these multiple numbers as being in
-;;; columns. That is, for a given cache, the same column of wrapper cache
-;;; numbers will be used.
+;;; This caching algorithm requires that wrappers have more than one
+;;; wrapper cache number. You should think of these multiple numbers
+;;; as being in columns. That is, for a given cache, the same column
+;;; of wrapper cache numbers will be used.
;;;
-;;; If at some point the cache distribution of a cache gets bad, the cache
-;;; can be rehashed by switching to a different column.
+;;; If at some point the cache distribution of a cache gets bad, the
+;;; cache can be rehashed by switching to a different column.
;;;
-;;; The columns are referred to by field number which is that number which,
-;;; when used as a second argument to wrapper-ref, will return that column
-;;; of wrapper cache number.
+;;; The columns are referred to by field number which is that number
+;;; which, when used as a second argument to wrapper-ref, will return
+;;; that column of wrapper cache number.
;;;
-;;; This code is written to allow flexibility as to how many wrapper cache
-;;; numbers will be in each wrapper, and where they will be located. It is
-;;; also set up to allow port specific modifications to `pack' the wrapper
-;;; cache numbers on machines where the addressing modes make that a good
-;;; idea.
-
-;;; In SBCL, as in CMU CL, we want to do type checking as early as possible;
-;;; structures help this.
-(eval-when (:compile-toplevel :load-toplevel :execute)
- (defconstant wrapper-cache-number-vector-length
- sb-kernel:layout-clos-hash-length)
- (defconstant wrapper-layout (make-list wrapper-cache-number-vector-length
- :initial-element 'number)))
+;;; This code is written to allow flexibility as to how many wrapper
+;;; cache numbers will be in each wrapper, and where they will be
+;;; located. It is also set up to allow port specific modifications to
+;;; `pack' the wrapper cache numbers on machines where the addressing
+;;; modes make that a good idea.
+
+;;; In SBCL, as in CMU CL, we want to do type checking as early as
+;;; possible; structures help this. The structures are hard-wired to
+;;; have a fixed number of cache hash values, and that number must
+;;; correspond to the number of cache lines we use.
+(defconstant wrapper-cache-number-vector-length
+ sb-kernel:layout-clos-hash-length)
(unless (boundp '*the-class-t*)
(setq *the-class-t* nil))
-;;; Note that for SBCL, as for CMU CL, the WRAPPER of a built-in or structure
-;;; class will be some other kind of SB-KERNEL:LAYOUT, but this shouldn't
-;;; matter, since the only two slots that WRAPPER adds are meaningless in those
-;;; cases.
-(defstruct (wrapper
- (:include sb-kernel:layout
- ;; KLUDGE: In CMU CL, the initialization default for
- ;; LAYOUT-INVALID was NIL. In SBCL, that has changed to
- ;; :UNINITIALIZED, but PCL code might still expect NIL
- ;; for the initialization default of WRAPPER-INVALID.
- ;; Instead of trying to find out, I just overrode the
- ;; LAYOUT default here. -- WHN 19991204
- (invalid nil))
- (:conc-name %wrapper-)
- (:constructor make-wrapper-internal))
- (instance-slots-layout nil :type list)
- (class-slots nil :type list))
-#-sb-fluid (declaim (sb-ext:freeze-type wrapper))
-
(defmacro wrapper-class (wrapper)
`(sb-kernel:class-pcl-class (sb-kernel:layout-class ,wrapper)))
(defmacro wrapper-no-of-instance-slots (wrapper)
`(sb-kernel:layout-length ,wrapper))
-;;; WRAPPER-STATE returns T (not generalized boolean, but T exactly) iff the
-;;; wrapper is valid. Any other return value denotes some invalid state.
-;;; Special conventions have been set up for certain invalid states, e.g.
-;;; obsoleteness or flushedness, but I (WHN 19991204) haven't been motivated to
-;;; reverse engineer them from the code and document them here.
-;;;
-;;; FIXME: This is awkward and unmnemonic. There is a function
-;;; (INVALID-WRAPPER-P) to test this return result abstractly for invalidness
-;;; but it's not called consistently; the functions that need to know whether a
-;;; wrapper is invalid often test (EQ (WRAPPER-STATE X) T), ick. It would be
-;;; good to use the abstract test instead. It would probably be even better to
-;;; switch the sense of the WRAPPER-STATE function, renaming it to
-;;; WRAPPER-INVALID and making it synonymous with LAYOUT-INVALID. Then the
-;;; INVALID-WRAPPER-P function would become trivial and would go away (replaced
-;;; with WRAPPER-INVALID), since all the various invalid wrapper states would
-;;; become generalized boolean "true" values. -- WHN 19991204
-#-sb-fluid (declaim (inline wrapper-state (setf wrapper-state)))
-(defun wrapper-state (wrapper)
- (let ((invalid (sb-kernel:layout-invalid wrapper)))
- (cond ((null invalid)
- t)
- ((atom invalid)
- ;; some non-PCL object. INVALID is probably :INVALID. We should
- ;; arguably compute the new wrapper here instead of returning NIL,
- ;; but we don't bother, since OBSOLETE-INSTANCE-TRAP can't use it.
- '(:obsolete nil))
- (t
- invalid))))
-(defun (setf wrapper-state) (new-value wrapper)
- (setf (sb-kernel:layout-invalid wrapper)
- (if (eq new-value 't)
- nil
- new-value)))
-
(defmacro wrapper-instance-slots-layout (wrapper)
`(%wrapper-instance-slots-layout ,wrapper))
(defmacro wrapper-class-slots (wrapper)
`(%wrapper-class-slots ,wrapper))
(defmacro wrapper-cache-number-vector (x) x)
-;;; This is called in BRAID when we are making wrappers for classes whose slots
-;;; are not initialized yet, and which may be built-in classes. We pass in the
-;;; class name in addition to the class.
+;;; This is called in BRAID when we are making wrappers for classes
+;;; whose slots are not initialized yet, and which may be built-in
+;;; classes. We pass in the class name in addition to the class.
(defun boot-make-wrapper (length name &optional class)
(let ((found (cl:find-class name nil)))
(cond
(found
(unless (sb-kernel:class-pcl-class found)
(setf (sb-kernel:class-pcl-class found) class))
- (assert (eq (sb-kernel:class-pcl-class found) class))
+ (aver (eq (sb-kernel:class-pcl-class found) class))
(let ((layout (sb-kernel:class-layout found)))
- (assert layout)
+ (aver layout)
layout))
(t
(make-wrapper-internal
:length length
:class (sb-kernel:make-standard-class :name name :pcl-class class))))))
-;;; The following variable may be set to a standard-class that has
+;;; The following variable may be set to a STANDARD-CLASS that has
;;; already been created by the lisp code and which is to be redefined
-;;; by PCL. This allows standard-classes to be defined and used for
+;;; by PCL. This allows STANDARD-CLASSes to be defined and used for
;;; type testing and dispatch before PCL is loaded.
(defvar *pcl-class-boot* nil)
-;;; In SBCL, as in CMU CL, the layouts (a.k.a wrappers) for built-in and
-;;; structure classes already exist when PCL is initialized, so we don't
-;;; necessarily always make a wrapper. Also, we help maintain the mapping
-;;; between cl:class and pcl::class objects.
+;;; In SBCL, as in CMU CL, the layouts (a.k.a wrappers) for built-in
+;;; and structure classes already exist when PCL is initialized, so we
+;;; don't necessarily always make a wrapper. Also, we help maintain
+;;; the mapping between CL:CLASS and PCL::CLASS objects.
(defun make-wrapper (length class)
(cond
((typep class 'std-class)
(let ((found (cl:find-class (slot-value class 'name))))
(unless (sb-kernel:class-pcl-class found)
(setf (sb-kernel:class-pcl-class found) class))
- (assert (eq (sb-kernel:class-pcl-class found) class))
+ (aver (eq (sb-kernel:class-pcl-class found) class))
found))
(t
(sb-kernel:make-standard-class :pcl-class class))))
(layout (sb-kernel:class-layout found)))
(unless (sb-kernel:class-pcl-class found)
(setf (sb-kernel:class-pcl-class found) class))
- (assert (eq (sb-kernel:class-pcl-class found) class))
- (assert layout)
+ (aver (eq (sb-kernel:class-pcl-class found) class))
+ (aver layout)
layout))))
-;;; FIXME: The immediately following macros could become inline functions.
+(defconstant +first-wrapper-cache-number-index+ 0)
-(defmacro first-wrapper-cache-number-index ()
- 0)
-
-(defmacro next-wrapper-cache-number-index (field-number)
- `(and (< ,field-number #.(1- wrapper-cache-number-vector-length))
- (1+ ,field-number)))
+(declaim (inline next-wrapper-cache-number-index))
+(defun next-wrapper-cache-number-index (field-number)
+ (and (< field-number #.(1- wrapper-cache-number-vector-length))
+ (1+ field-number)))
+;;; FIXME: Why are there two layers here, with one operator trivially
+;;; defined in terms of the other? It'd be nice either to have a
+;;; comment explaining why the separation is valuable, or to collapse
+;;; it into a single layer.
+;;;
+;;; FIXME (?): These are logically inline functions, but they need to
+;;; be SETFable, and for now it seems not worth the trouble to DEFUN
+;;; both inline FOO and inline (SETF FOO) for each one instead of a
+;;; single macro. Perhaps the best thing would be to make them
+;;; immutable (since it seems sort of surprising and gross to be able
+;;; to modify hash values) so that they can become inline functions
+;;; with no muss or fuss. I (WHN) didn't do this only because I didn't
+;;; know whether any code anywhere depends on the values being
+;;; modified.
(defmacro cache-number-vector-ref (cnv n)
`(wrapper-cache-number-vector-ref ,cnv ,n))
-
(defmacro wrapper-cache-number-vector-ref (wrapper n)
`(sb-kernel:layout-clos-hash ,wrapper ,n))
-(defmacro class-no-of-instance-slots (class)
- `(wrapper-no-of-instance-slots (class-wrapper ,class)))
-
-(defmacro wrapper-class* (wrapper)
- `(let ((wrapper ,wrapper))
- (or (wrapper-class wrapper)
- (find-structure-class
- (cl:class-name (sb-kernel:layout-class wrapper))))))
-
-;;; The wrapper cache machinery provides general mechanism for trapping on the
-;;; next access to any instance of a given class. This mechanism is used to
-;;; implement the updating of instances when the class is redefined
-;;; (MAKE-INSTANCES-OBSOLETE). The same mechanism is also used to update
-;;; generic function caches when there is a change to the superclasses of a
-;;; class.
+(declaim (inline wrapper-class*))
+(defun wrapper-class* (wrapper)
+ (or (wrapper-class wrapper)
+ (find-structure-class
+ (cl:class-name (sb-kernel:layout-class wrapper)))))
+
+;;; The wrapper cache machinery provides general mechanism for
+;;; trapping on the next access to any instance of a given class. This
+;;; mechanism is used to implement the updating of instances when the
+;;; class is redefined (MAKE-INSTANCES-OBSOLETE). The same mechanism
+;;; is also used to update generic function caches when there is a
+;;; change to the superclasses of a class.
;;;
-;;; Basically, a given wrapper can be valid or invalid. If it is invalid,
-;;; it means that any attempt to do a wrapper cache lookup using the wrapper
-;;; should trap. Also, methods on SLOT-VALUE-USING-CLASS check the wrapper
-;;; validity as well. This is done by calling CHECK-WRAPPER-VALIDITY.
+;;; Basically, a given wrapper can be valid or invalid. If it is
+;;; invalid, it means that any attempt to do a wrapper cache lookup
+;;; using the wrapper should trap. Also, methods on
+;;; SLOT-VALUE-USING-CLASS check the wrapper validity as well. This is
+;;; done by calling CHECK-WRAPPER-VALIDITY.
-;;; FIXME: could become inline function
-(defmacro invalid-wrapper-p (wrapper)
- `(neq (wrapper-state ,wrapper) 't))
+(declaim (inline invalid-wrapper-p))
+(defun invalid-wrapper-p (wrapper)
+ (not (null (sb-kernel:layout-invalid wrapper))))
(defvar *previous-nwrappers* (make-hash-table))
(defun invalidate-wrapper (owrapper state nwrapper)
- (ecase state
- ((:flush :obsolete)
- (let ((new-previous ()))
- ;; First off, a previous call to invalidate-wrapper may have recorded
- ;; owrapper as an nwrapper to update to. Since owrapper is about to
- ;; be invalid, it no longer makes sense to update to it.
- ;;
- ;; We go back and change the previously invalidated wrappers so that
- ;; they will now update directly to nwrapper. This corresponds to a
- ;; kind of transitivity of wrapper updates.
- (dolist (previous (gethash owrapper *previous-nwrappers*))
- (when (eq state ':obsolete)
- (setf (car previous) ':obsolete))
- (setf (cadr previous) nwrapper)
- (push previous new-previous))
-
- (let ((ocnv (wrapper-cache-number-vector owrapper)))
- (iterate ((type (list-elements wrapper-layout))
- (i (interval :from 0)))
- (when (eq type 'number) (setf (cache-number-vector-ref ocnv i) 0))))
- (push (setf (wrapper-state owrapper) (list state nwrapper))
- new-previous)
-
- (setf (gethash owrapper *previous-nwrappers*) ()
- (gethash nwrapper *previous-nwrappers*) new-previous)))))
+ (aver (member state '(:flush :obsolete) :test #'eq))
+ (let ((new-previous ()))
+ ;; First off, a previous call to INVALIDATE-WRAPPER may have
+ ;; recorded OWRAPPER as an NWRAPPER to update to. Since OWRAPPER
+ ;; is about to be invalid, it no longer makes sense to update to
+ ;; it.
+ ;;
+ ;; We go back and change the previously invalidated wrappers so
+ ;; that they will now update directly to NWRAPPER. This
+ ;; corresponds to a kind of transitivity of wrapper updates.
+ (dolist (previous (gethash owrapper *previous-nwrappers*))
+ (when (eq state :obsolete)
+ (setf (car previous) :obsolete))
+ (setf (cadr previous) nwrapper)
+ (push previous new-previous))
+
+ (let ((ocnv (wrapper-cache-number-vector owrapper)))
+ (dotimes (i sb-kernel:layout-clos-hash-length)
+ (setf (cache-number-vector-ref ocnv i) 0)))
+
+ (push (setf (sb-kernel:layout-invalid owrapper) (list state nwrapper))
+ new-previous)
+
+ (setf (gethash owrapper *previous-nwrappers*) ()
+ (gethash nwrapper *previous-nwrappers*) new-previous)))
(defun check-wrapper-validity (instance)
(let* ((owrapper (wrapper-of instance))
- (state (wrapper-state owrapper)))
- (if (eq state 't)
+ (state (sb-kernel:layout-invalid owrapper)))
+ (if (null state)
owrapper
- (let ((nwrapper
- (ecase (car state)
- (:flush
- (flush-cache-trap owrapper (cadr state) instance))
- (:obsolete
- (obsolete-instance-trap owrapper (cadr state) instance)))))
- ;; This little bit of error checking is superfluous. It only
- ;; checks to see whether the person who implemented the trap
- ;; handling screwed up. Since that person is hacking internal
- ;; PCL code, and is not a user, this should be needless. Also,
- ;; since this directly slows down instance update and generic
- ;; function cache refilling, feel free to take it out sometime
- ;; soon.
- ;;
- ;; FIXME: We probably need to add a #+SB-PARANOID feature to make
- ;; stuff like this optional. Until then, it stays in.
- (cond ((neq nwrapper (wrapper-of instance))
- (error "wrapper returned from trap not wrapper of instance"))
- ((invalid-wrapper-p nwrapper)
- (error "wrapper returned from trap invalid")))
- nwrapper))))
-
-(defmacro check-wrapper-validity1 (object)
- (let ((owrapper (gensym)))
- `(let ((,owrapper (sb-kernel:layout-of object)))
- (if (sb-kernel:layout-invalid ,owrapper)
- (check-wrapper-validity ,object)
- ,owrapper))))
+ (ecase (car state)
+ (:flush
+ (flush-cache-trap owrapper (cadr state) instance))
+ (:obsolete
+ (obsolete-instance-trap owrapper (cadr state) instance))))))
+
+(declaim (inline check-obsolete-instance))
+(defun check-obsolete-instance (instance)
+ (when (invalid-wrapper-p (sb-kernel:layout-of instance))
+ (check-wrapper-validity instance)))
\f
(defvar *free-caches* nil)
(defun get-cache (nkeys valuep limit-fn nlines)
- (let ((cache (or (without-interrupts (pop *free-caches*)) (make-cache))))
+ (let ((cache (or (sb-sys:without-interrupts (pop *free-caches*))
+ (make-cache))))
(declare (type cache cache))
(multiple-value-bind (cache-mask actual-size line-size nlines)
(compute-cache-parameters nkeys valuep nlines)
(setf (cache-nkeys cache) nkeys
(cache-valuep cache) valuep
(cache-nlines cache) nlines
- (cache-field cache) (first-wrapper-cache-number-index)
+ (cache-field cache) +first-wrapper-cache-number-index+
(cache-limit-fn cache) limit-fn
(cache-mask cache) cache-mask
(cache-size cache) actual-size
cache)))
(defun get-cache-from-cache (old-cache new-nlines
- &optional (new-field (first-wrapper-cache-number-index)))
+ &optional (new-field +first-wrapper-cache-number-index+))
(let ((nkeys (cache-nkeys old-cache))
(valuep (cache-valuep old-cache))
- (cache (or (without-interrupts (pop *free-caches*)) (make-cache))))
+ (cache (or (sb-sys:without-interrupts (pop *free-caches*))
+ (make-cache))))
(declare (type cache cache))
(multiple-value-bind (cache-mask actual-size line-size nlines)
(if (= new-nlines (cache-nlines old-cache))
(values (logxor (the fixnum (1- cache-size)) (the fixnum (1- line-size)))
cache-size
line-size
- (the fixnum (floor cache-size line-size))))
+ (the (values fixnum t) (floor cache-size line-size))))
(let* ((line-size (power-of-two-ceiling (if valuep (1+ nkeys) nkeys)))
(cache-size (if (typep nlines-or-cache-vector 'fixnum)
(the fixnum
(values (logxor (the fixnum (1- cache-size)) (the fixnum (1- line-size)))
(the fixnum (1+ cache-size))
line-size
- (the fixnum (floor cache-size line-size))))))
+ (the (values fixnum t) (floor cache-size line-size))))))
\f
;;; the various implementations of computing a primary cache location from
;;; wrappers. Because some implementations of this must run fast there are
;;; ENSURING that the result is a fixnum
;;; MASK the result against the mask argument.
-;;; COMPUTE-PRIMARY-CACHE-LOCATION
-;;;
;;; The basic functional version. This is used by the cache miss code to
;;; compute the primary location of an entry.
(defun compute-primary-cache-location (field mask wrappers)
(incf i))
(the fixnum (1+ (logand mask location))))))
-;;; COMPUTE-PRIMARY-CACHE-LOCATION-FROM-LOCATION
-;;;
-;;; This version is called on a cache line. It fetches the wrappers from
-;;; the cache line and determines the primary location. Various parts of
-;;; the cache filling code call this to determine whether it is appropriate
-;;; to displace a given cache entry.
+;;; This version is called on a cache line. It fetches the wrappers
+;;; from the cache line and determines the primary location. Various
+;;; parts of the cache filling code call this to determine whether it
+;;; is appropriate to displace a given cache entry.
;;;
-;;; If this comes across a wrapper whose cache-no is 0, it returns the symbol
-;;; invalid to suggest to its caller that it would be provident to blow away
-;;; the cache line in question.
+;;; If this comes across a wrapper whose CACHE-NO is 0, it returns the
+;;; symbol invalid to suggest to its caller that it would be provident
+;;; to blow away the cache line in question.
(defun compute-primary-cache-location-from-location (to-cache
from-location
&optional
(wrapper nil)
,@(when wrappers
`((class *the-class-t*)
- (type 't))))
- (unless (eq mt 't)
+ (type t))))
+ (unless (eq mt t)
(setq wrapper (wrapper-of arg))
(when (invalid-wrapper-p wrapper)
(setq ,invalid-wrapper-p t)
(let* (,@(when wrappers
`((,wrappers (nreverse wrappers-rev))
(,classes (nreverse classes-rev))
- (,types (mapcar #'(lambda (class)
- `(class-eq ,class))
+ (,types (mapcar (lambda (class)
+ `(class-eq ,class))
,classes)))))
,@body))))
\f
(or (nth arg-number (the list *slot-vector-symbols*))
(intern (format nil ".SLOTS~A." arg-number) *pcl-package*)))
+;; FIXME: There ought to be a good way to factor out the idiom:
+;;
+;; (dotimes (i (length metatypes))
+;; (push (dfun-arg-symbol i) lambda-list))
+;;
+;; used in the following four functions into common code that we can
+;; declare inline or something. --njf 2001-12-20
(defun make-dfun-lambda-list (metatypes applyp)
- (gathering1 (collecting)
- (iterate ((i (interval :from 0))
- (s (list-elements metatypes)))
- (progn s)
- (gather1 (dfun-arg-symbol i)))
+ (let ((lambda-list nil))
+ (dotimes (i (length metatypes))
+ (push (dfun-arg-symbol i) lambda-list))
(when applyp
- (gather1 '&rest)
- (gather1 '.dfun-rest-arg.))))
+ (push '&rest lambda-list)
+ (push '.dfun-rest-arg. lambda-list))
+ (nreverse lambda-list)))
(defun make-dlap-lambda-list (metatypes applyp)
- (gathering1 (collecting)
- (iterate ((i (interval :from 0))
- (s (list-elements metatypes)))
- (progn s)
- (gather1 (dfun-arg-symbol i)))
+ (let ((lambda-list nil))
+ (dotimes (i (length metatypes))
+ (push (dfun-arg-symbol i) lambda-list))
+ ;; FIXME: This is translated directly from the old PCL code.
+ ;; It didn't have a (PUSH '.DFUN-REST-ARG. LAMBDA-LIST) or
+ ;; something similar, so we don't either. It's hard to see how
+ ;; this could be correct, since &REST wants an argument after
+ ;; it. This function works correctly because the caller
+ ;; magically tacks on something after &REST. The calling functions
+ ;; (in dlisp.lisp) should be fixed and this function rewritten.
+ ;; --njf 2001-12-20
(when applyp
- (gather1 '&rest))))
-
+ (push '&rest lambda-list))
+ (nreverse lambda-list)))
+
+;; FIXME: The next two functions suffer from having a `.DFUN-REST-ARG.'
+;; in their lambda lists, but no corresponding `&REST' symbol. We assume
+;; this should be the case by analogy with the previous two functions.
+;; It works, and I don't know why. Check the calling functions and
+;; fix these too. --njf 2001-12-20
(defun make-emf-call (metatypes applyp fn-variable &optional emf-type)
(let ((required
- (gathering1 (collecting)
- (iterate ((i (interval :from 0))
- (s (list-elements metatypes)))
- (progn s)
- (gather1 (dfun-arg-symbol i))))))
+ (let ((required nil))
+ (dotimes (i (length metatypes))
+ (push (dfun-arg-symbol i) required))
+ (nreverse required))))
`(,(if (eq emf-type 'fast-method-call)
'invoke-effective-method-function-fast
'invoke-effective-method-function)
,fn-variable ,applyp ,@required ,@(when applyp `(.dfun-rest-arg.)))))
-(defun make-dfun-call (metatypes applyp fn-variable)
- (let ((required
- (gathering1 (collecting)
- (iterate ((i (interval :from 0))
- (s (list-elements metatypes)))
- (progn s)
- (gather1 (dfun-arg-symbol i))))))
- (if applyp
- `(function-apply ,fn-variable ,@required .dfun-rest-arg.)
- `(function-funcall ,fn-variable ,@required))))
-
-(defun make-dfun-arg-list (metatypes applyp)
- (let ((required
- (gathering1 (collecting)
- (iterate ((i (interval :from 0))
- (s (list-elements metatypes)))
- (progn s)
- (gather1 (dfun-arg-symbol i))))))
- (if applyp
- `(list* ,@required .dfun-rest-arg.)
- `(list ,@required))))
-
(defun make-fast-method-call-lambda-list (metatypes applyp)
- (gathering1 (collecting)
- (gather1 '.pv-cell.)
- (gather1 '.next-method-call.)
- (iterate ((i (interval :from 0))
- (s (list-elements metatypes)))
- (progn s)
- (gather1 (dfun-arg-symbol i)))
+ (let ((reversed-lambda-list nil))
+ (push '.pv-cell. reversed-lambda-list)
+ (push '.next-method-call. reversed-lambda-list)
+ (dotimes (i (length metatypes))
+ (push (dfun-arg-symbol i) reversed-lambda-list))
(when applyp
- (gather1 '.dfun-rest-arg.))))
+ (push '.dfun-rest-arg. reversed-lambda-list))
+ (nreverse reversed-lambda-list)))
\f
-;;;; a comment from some PCL implementor:
-;;;; Its too bad Common Lisp compilers freak out when you have a
-;;;; DEFUN with a lot of LABELS in it. If I could do that I could
-;;;; make this code much easier to read and work with.
-;;;; Ahh Scheme...
-;;;; In the absence of that, the following little macro makes the
-;;;; code that follows a little bit more reasonable. I would like to
-;;;; add that having to practically write my own compiler in order to
-;;;; get just this simple thing is something of a drag.
-;;;;
-;;;; KLUDGE: Maybe we could actually implement this as LABELS now, since AFAIK
-;;;; CMU CL doesn't freak out when you have a defun with a lot of LABELS in it
-;;;; (and if it does we can fix it instead of working around it). -- WHN
-;;;; 19991204
-
-(eval-when (:compile-toplevel :load-toplevel :execute)
-
-(defvar *cache* nil)
-
-;;; FIXME:
-;;; (1) shouldn't be DEFCONSTANT, since it's not an EQL thing
-;;; (2) should be undefined after bootstrapping
-(defconstant *local-cache-functions*
- '((cache () .cache.)
- (nkeys () (cache-nkeys .cache.))
- (line-size () (cache-line-size .cache.))
- (vector () (cache-vector .cache.))
- (valuep () (cache-valuep .cache.))
- (nlines () (cache-nlines .cache.))
- (max-location () (cache-max-location .cache.))
- (limit-fn () (cache-limit-fn .cache.))
- (size () (cache-size .cache.))
- (mask () (cache-mask .cache.))
- (field () (cache-field .cache.))
- (overflow () (cache-overflow .cache.))
-
- ;; Return T IFF this cache location is reserved. The only time
- ;; this is true is for line number 0 of an nkeys=1 cache.
- (line-reserved-p (line)
- (declare (fixnum line))
- (and (= (nkeys) 1)
- (= line 0)))
- (location-reserved-p (location)
- (declare (fixnum location))
- (and (= (nkeys) 1)
- (= location 0)))
- ;; Given a line number, return the cache location. This is the
- ;; value that is the second argument to cache-vector-ref. Basically,
- ;; this deals with the offset of nkeys>1 caches and multiplies
- ;; by line size.
- (line-location (line)
- (declare (fixnum line))
- (when (line-reserved-p line)
- (error "Line is reserved."))
- (if (= (nkeys) 1)
- (the fixnum (* line (line-size)))
- (the fixnum (1+ (the fixnum (* line (line-size)))))))
-
- ;; Given a cache location, return the line. This is the inverse
- ;; of LINE-LOCATION.
- (location-line (location)
- (declare (fixnum location))
- (if (= (nkeys) 1)
- (floor location (line-size))
- (floor (the fixnum (1- location)) (line-size))))
-
- ;; Given a line number, return the wrappers stored at that line.
- ;; As usual, if nkeys=1, this returns a single value. Only when
- ;; nkeys>1 does it return a list. An error is signalled if the
- ;; line is reserved.
- (line-wrappers (line)
- (declare (fixnum line))
- (when (line-reserved-p line) (error "Line is reserved."))
- (location-wrappers (line-location line)))
- (location-wrappers (location) ; avoid multiplies caused by line-location
- (declare (fixnum location))
- (if (= (nkeys) 1)
- (cache-vector-ref (vector) location)
- (let ((list (make-list (nkeys)))
- (vector (vector)))
- (declare (simple-vector vector))
- (dotimes-fixnum (i (nkeys) list)
- (setf (nth i list) (cache-vector-ref vector (+ location i)))))))
-
- ;; Given a line number, return true IFF the line's
- ;; wrappers are the same as wrappers.
- (line-matches-wrappers-p (line wrappers)
- (declare (fixnum line))
- (and (not (line-reserved-p line))
- (location-matches-wrappers-p (line-location line) wrappers)))
- (location-matches-wrappers-p (loc wrappers) ; must not be reserved
- (declare (fixnum loc))
- (let ((cache-vector (vector)))
- (declare (simple-vector cache-vector))
- (if (= (nkeys) 1)
- (eq wrappers (cache-vector-ref cache-vector loc))
- (dotimes-fixnum (i (nkeys) t)
- (unless (eq (pop wrappers)
- (cache-vector-ref cache-vector (+ loc i)))
- (return nil))))))
-
- ;; Given a line number, return the value stored at that line.
- ;; If valuep is NIL, this returns NIL. As with line-wrappers,
- ;; an error is signalled if the line is reserved.
- (line-value (line)
- (declare (fixnum line))
- (when (line-reserved-p line) (error "Line is reserved."))
- (location-value (line-location line)))
- (location-value (loc)
- (declare (fixnum loc))
- (and (valuep)
- (cache-vector-ref (vector) (+ loc (nkeys)))))
-
- ;; Given a line number, return true iff that line has data in
- ;; it. The state of the wrappers stored in the line is not
- ;; checked. An error is signalled if line is reserved.
- (line-full-p (line)
- (when (line-reserved-p line) (error "Line is reserved."))
- (not (null (cache-vector-ref (vector) (line-location line)))))
-
- ;; Given a line number, return true iff the line is full and
- ;; there are no invalid wrappers in the line, and the line's
- ;; wrappers are different from wrappers.
- ;; An error is signalled if the line is reserved.
- (line-valid-p (line wrappers)
- (declare (fixnum line))
- (when (line-reserved-p line) (error "Line is reserved."))
- (location-valid-p (line-location line) wrappers))
- (location-valid-p (loc wrappers)
- (declare (fixnum loc))
- (let ((cache-vector (vector))
- (wrappers-mismatch-p (null wrappers)))
- (declare (simple-vector cache-vector))
- (dotimes-fixnum (i (nkeys) wrappers-mismatch-p)
- (let ((wrapper (cache-vector-ref cache-vector (+ loc i))))
- (when (or (null wrapper)
- (invalid-wrapper-p wrapper))
- (return nil))
- (unless (and wrappers
- (eq wrapper
- (if (consp wrappers) (pop wrappers) wrappers)))
- (setq wrappers-mismatch-p t))))))
-
- ;; how many unreserved lines separate line-1 and line-2
- (line-separation (line-1 line-2)
- (declare (fixnum line-1 line-2))
- (let ((diff (the fixnum (- line-2 line-1))))
- (declare (fixnum diff))
- (when (minusp diff)
- (setq diff (+ diff (nlines)))
- (when (line-reserved-p 0)
- (setq diff (1- diff))))
- diff))
-
- ;; Given a cache line, get the next cache line. This will not
- ;; return a reserved line.
- (next-line (line)
- (declare (fixnum line))
- (if (= line (the fixnum (1- (nlines))))
- (if (line-reserved-p 0) 1 0)
- (the fixnum (1+ line))))
- (next-location (loc)
- (declare (fixnum loc))
- (if (= loc (max-location))
- (if (= (nkeys) 1)
- (line-size)
- 1)
- (the fixnum (+ loc (line-size)))))
-
- ;; Given a line which has a valid entry in it, this will return
- ;; the primary cache line of the wrappers in that line. We just
- ;; call COMPUTE-PRIMARY-CACHE-LOCATION-FROM-LOCATION, this is an
- ;; easier packaging up of the call to it.
- (line-primary (line)
- (declare (fixnum line))
- (location-line (line-primary-location line)))
- (line-primary-location (line)
- (declare (fixnum line))
- (compute-primary-cache-location-from-location
- (cache) (line-location line)))))
-
(defmacro with-local-cache-functions ((cache) &body body)
`(let ((.cache. ,cache))
(declare (type cache .cache.))
- (macrolet ,(mapcar #'(lambda (fn)
- `(,(car fn) ,(cadr fn)
- `(let (,,@(mapcar #'(lambda (var)
- ``(,',var ,,var))
- (cadr fn)))
- ,@',(cddr fn))))
- *local-cache-functions*)
+ (labels ((cache () .cache.)
+ (nkeys () (cache-nkeys .cache.))
+ (line-size () (cache-line-size .cache.))
+ (vector () (cache-vector .cache.))
+ (valuep () (cache-valuep .cache.))
+ (nlines () (cache-nlines .cache.))
+ (max-location () (cache-max-location .cache.))
+ (limit-fn () (cache-limit-fn .cache.))
+ (size () (cache-size .cache.))
+ (mask () (cache-mask .cache.))
+ (field () (cache-field .cache.))
+ (overflow () (cache-overflow .cache.))
+ ;;
+ ;; Return T IFF this cache location is reserved. The
+ ;; only time this is true is for line number 0 of an
+ ;; nkeys=1 cache.
+ ;;
+ (line-reserved-p (line)
+ (declare (fixnum line))
+ (and (= (nkeys) 1)
+ (= line 0)))
+ ;;
+ (location-reserved-p (location)
+ (declare (fixnum location))
+ (and (= (nkeys) 1)
+ (= location 0)))
+ ;;
+ ;; Given a line number, return the cache location.
+ ;; This is the value that is the second argument to
+ ;; cache-vector-ref. Basically, this deals with the
+ ;; offset of nkeys>1 caches and multiplies by line
+ ;; size.
+ ;;
+ (line-location (line)
+ (declare (fixnum line))
+ (when (line-reserved-p line)
+ (error "line is reserved"))
+ (if (= (nkeys) 1)
+ (the fixnum (* line (line-size)))
+ (the fixnum (1+ (the fixnum (* line (line-size)))))))
+ ;;
+ ;; Given a cache location, return the line. This is
+ ;; the inverse of LINE-LOCATION.
+ ;;
+ (location-line (location)
+ (declare (fixnum location))
+ (if (= (nkeys) 1)
+ (floor location (line-size))
+ (floor (the fixnum (1- location)) (line-size))))
+ ;;
+ ;; Given a line number, return the wrappers stored at
+ ;; that line. As usual, if nkeys=1, this returns a
+ ;; single value. Only when nkeys>1 does it return a
+ ;; list. An error is signalled if the line is
+ ;; reserved.
+ ;;
+ (line-wrappers (line)
+ (declare (fixnum line))
+ (when (line-reserved-p line) (error "Line is reserved."))
+ (location-wrappers (line-location line)))
+ ;;
+ (location-wrappers (location) ; avoid multiplies caused by line-location
+ (declare (fixnum location))
+ (if (= (nkeys) 1)
+ (cache-vector-ref (vector) location)
+ (let ((list (make-list (nkeys)))
+ (vector (vector)))
+ (declare (simple-vector vector))
+ (dotimes (i (nkeys) list)
+ (declare (fixnum i))
+ (setf (nth i list)
+ (cache-vector-ref vector (+ location i)))))))
+ ;;
+ ;; Given a line number, return true IFF the line's
+ ;; wrappers are the same as wrappers.
+ ;;
+ (line-matches-wrappers-p (line wrappers)
+ (declare (fixnum line))
+ (and (not (line-reserved-p line))
+ (location-matches-wrappers-p (line-location line)
+ wrappers)))
+ ;;
+ (location-matches-wrappers-p (loc wrappers) ; must not be reserved
+ (declare (fixnum loc))
+ (let ((cache-vector (vector)))
+ (declare (simple-vector cache-vector))
+ (if (= (nkeys) 1)
+ (eq wrappers (cache-vector-ref cache-vector loc))
+ (dotimes (i (nkeys) t)
+ (declare (fixnum i))
+ (unless (eq (pop wrappers)
+ (cache-vector-ref cache-vector (+ loc i)))
+ (return nil))))))
+ ;;
+ ;; Given a line number, return the value stored at that line.
+ ;; If valuep is NIL, this returns NIL. As with line-wrappers,
+ ;; an error is signalled if the line is reserved.
+ ;;
+ (line-value (line)
+ (declare (fixnum line))
+ (when (line-reserved-p line) (error "Line is reserved."))
+ (location-value (line-location line)))
+ ;;
+ (location-value (loc)
+ (declare (fixnum loc))
+ (and (valuep)
+ (cache-vector-ref (vector) (+ loc (nkeys)))))
+ ;;
+ ;; Given a line number, return true IFF that line has data in
+ ;; it. The state of the wrappers stored in the line is not
+ ;; checked. An error is signalled if line is reserved.
+ (line-full-p (line)
+ (when (line-reserved-p line) (error "Line is reserved."))
+ (not (null (cache-vector-ref (vector) (line-location line)))))
+ ;;
+ ;; Given a line number, return true IFF the line is full and
+ ;; there are no invalid wrappers in the line, and the line's
+ ;; wrappers are different from wrappers.
+ ;; An error is signalled if the line is reserved.
+ ;;
+ (line-valid-p (line wrappers)
+ (declare (fixnum line))
+ (when (line-reserved-p line) (error "Line is reserved."))
+ (location-valid-p (line-location line) wrappers))
+ ;;
+ (location-valid-p (loc wrappers)
+ (declare (fixnum loc))
+ (let ((cache-vector (vector))
+ (wrappers-mismatch-p (null wrappers)))
+ (declare (simple-vector cache-vector))
+ (dotimes (i (nkeys) wrappers-mismatch-p)
+ (declare (fixnum i))
+ (let ((wrapper (cache-vector-ref cache-vector (+ loc i))))
+ (when (or (null wrapper)
+ (invalid-wrapper-p wrapper))
+ (return nil))
+ (unless (and wrappers
+ (eq wrapper
+ (if (consp wrappers)
+ (pop wrappers)
+ wrappers)))
+ (setq wrappers-mismatch-p t))))))
+ ;;
+ ;; How many unreserved lines separate line-1 and line-2.
+ ;;
+ (line-separation (line-1 line-2)
+ (declare (fixnum line-1 line-2))
+ (let ((diff (the fixnum (- line-2 line-1))))
+ (declare (fixnum diff))
+ (when (minusp diff)
+ (setq diff (+ diff (nlines)))
+ (when (line-reserved-p 0)
+ (setq diff (1- diff))))
+ diff))
+ ;;
+ ;; Given a cache line, get the next cache line. This will not
+ ;; return a reserved line.
+ ;;
+ (next-line (line)
+ (declare (fixnum line))
+ (if (= line (the fixnum (1- (nlines))))
+ (if (line-reserved-p 0) 1 0)
+ (the fixnum (1+ line))))
+ ;;
+ (next-location (loc)
+ (declare (fixnum loc))
+ (if (= loc (max-location))
+ (if (= (nkeys) 1)
+ (line-size)
+ 1)
+ (the fixnum (+ loc (line-size)))))
+ ;;
+ ;; Given a line which has a valid entry in it, this
+ ;; will return the primary cache line of the wrappers
+ ;; in that line. We just call
+ ;; COMPUTE-PRIMARY-CACHE-LOCATION-FROM-LOCATION, this
+ ;; is an easier packaging up of the call to it.
+ ;;
+ (line-primary (line)
+ (declare (fixnum line))
+ (location-line (line-primary-location line)))
+ ;;
+ (line-primary-location (line)
+ (declare (fixnum line))
+ (compute-primary-cache-location-from-location
+ (cache) (line-location line))))
+ (declare (ignorable #'cache #'nkeys #'line-size #'vector #'valuep
+ #'nlines #'max-location #'limit-fn #'size
+ #'mask #'field #'overflow #'line-reserved-p
+ #'location-reserved-p #'line-location
+ #'location-line #'line-wrappers #'location-wrappers
+ #'line-matches-wrappers-p
+ #'location-matches-wrappers-p
+ #'line-value #'location-value #'line-full-p
+ #'line-valid-p #'location-valid-p
+ #'line-separation #'next-line #'next-location
+ #'line-primary #'line-primary-location))
,@body)))
-
-) ; EVAL-WHEN
\f
;;; Here is where we actually fill, recache and expand caches.
;;;
;;; a cache
;;; a mask
;;; an absolute cache size (the size of the actual vector)
-;;; It tries to re-adjust the cache every time it makes a new fill. The
-;;; intuition here is that we want uniformity in the number of probes needed to
-;;; find an entry. Furthermore, adjusting has the nice property of throwing out
-;;; any entries that are invalid.
+;;; It tries to re-adjust the cache every time it makes a new fill.
+;;; The intuition here is that we want uniformity in the number of
+;;; probes needed to find an entry. Furthermore, adjusting has the
+;;; nice property of throwing out any entries that are invalid.
(defvar *cache-expand-threshold* 1.25)
(defun fill-cache (cache wrappers value &optional free-cache-p)
(sep (when home (line-separation home i))))
(when (and sep (> sep limit))
(error "bad cache ~S ~@
- value at location ~D: ~D lines from its home. The limit is ~D."
+ value at location ~W: ~W lines from its home. The limit is ~W."
cache location sep limit))))
(setq location (next-location location))))))
;;; Returns NIL or (values <field> <cache-vector>)
;;;
-;;; This is only called when it isn't possible to put the entry in the cache
-;;; the easy way. That is, this function assumes that FILL-CACHE-P has been
-;;; called as returned NIL.
+;;; This is only called when it isn't possible to put the entry in the
+;;; cache the easy way. That is, this function assumes that
+;;; FILL-CACHE-P has been called as returned NIL.
;;;
-;;; If this returns NIL, it means that it wasn't possible to find a wrapper
-;;; field for which all of the entries could be put in the cache (within the
-;;; limit).
+;;; If this returns NIL, it means that it wasn't possible to find a
+;;; wrapper field for which all of the entries could be put in the
+;;; cache (within the limit).
(defun adjust-cache (cache wrappers value free-old-cache-p)
(with-local-cache-functions (cache)
(let ((ncache (get-cache-from-cache cache (nlines) (field))))
(when free-old-cache-p (free-cache cache))
(maybe-check-cache ncache)))))
\f
-;;; This is the heart of the cache filling mechanism. It implements the
-;;; decisions about where entries are placed.
+;;; This is the heart of the cache filling mechanism. It implements
+;;; the decisions about where entries are placed.
;;;
;;; Find a line in the cache at which a new entry can be inserted.
;;;
(otherwise 6)))
(defvar *empty-cache* (make-cache)) ; for defstruct slot initial value forms
-\f
-;;; Pre-allocate generic function caches. The hope is that this will put
-;;; them nicely together in memory, and that that may be a win. Of course
-;;; the first gc copy will probably blow that out, this really wants to be
-;;; wrapped in something that declares the area static.
-;;;
-;;; This preallocation only creates about 25% more caches than PCL itself
-;;; uses. Some ports may want to preallocate some more of these.
-;;;
-;;; KLUDGE: Isn't something very similar going on in precom1.lisp? Do we need
-;;; it both here and there? Why? -- WHN 19991203
-(eval-when (:load-toplevel)
- (dolist (n-size '((1 513)(3 257)(3 129)(14 128)(6 65)(2 64)(7 33)(16 32)
- (16 17)(32 16)(64 9)(64 8)(6 5)(128 4)(35 2)))
- (let ((n (car n-size))
- (size (cadr n-size)))
- (mapcar #'free-cache-vector
- (mapcar #'get-cache-vector
- (make-list n :initial-element size))))))
-
-(defun caches-to-allocate ()
- (sort (let ((l nil))
- (maphash #'(lambda (size entry)
- (push (list (car entry) size) l))
- sb-pcl::*free-caches*)
- l)
- #'>
- :key #'cadr))