(defun ,lisp-fun ()
(sb!alien:extern-alien ,c-var-name (sb!alien:unsigned 32))))))
-#!+(or cgc gencgc) (progn
-#!-sb-fluid (declaim (inline dynamic-usage))
-(def-c-var-frob dynamic-usage "bytes_allocated"))
-
+#!-gencgc
+(progn
+ ;; This is called once per PROFILEd function call, so it's worth a
+ ;; little possible space cost to reduce its time cost.
+ #!-sb-fluid
+ (declaim (inline current-dynamic-space-start))
+ (def-c-var-frob current-dynamic-space-start "current_dynamic_space"))
+
+#!-sb-fluid
+(declaim (inline dynamic-usage)) ; to reduce PROFILEd call overhead
+#!+(or cgc gencgc)
+(def-c-var-frob dynamic-usage "bytes_allocated")
#!-(or cgc gencgc)
(defun dynamic-usage ()
(the (unsigned-byte 32)
(- (sb!sys:sap-int (sb!c::dynamic-space-free-pointer))
(current-dynamic-space-start))))
-#!-gencgc (progn
-#!-sb-fluid (declaim (inline current-dynamic-space-start))
-(def-c-var-frob current-dynamic-space-start "current_dynamic_space"))
-
(defun static-space-usage ()
- (- (* sb!vm:*static-space-free-pointer* sb!vm:word-bytes)
+ (- (* sb!vm:*static-space-free-pointer* sb!vm:n-word-bytes)
sb!vm:static-space-start))
(defun read-only-space-usage ()
- (- (* sb!vm::*read-only-space-free-pointer* sb!vm:word-bytes)
+ (- (* sb!vm::*read-only-space-free-pointer* sb!vm:n-word-bytes)
sb!vm:read-only-space-start))
(defun control-stack-usage ()
- #!-x86 (- (sb!sys:sap-int (sb!c::control-stack-pointer-sap))
- sb!vm:control-stack-start)
- #!+x86 (- sb!vm:control-stack-end
- (sb!sys:sap-int (sb!c::control-stack-pointer-sap))))
+ #!-stack-grows-downward-not-upward
+ (- (sb!sys:sap-int (sb!c::control-stack-pointer-sap))
+ sb!vm:control-stack-start)
+ #!+stack-grows-downward-not-upward
+ (- sb!vm:control-stack-end
+ (sb!sys:sap-int (sb!c::control-stack-pointer-sap))))
(defun binding-stack-usage ()
(- (sb!sys:sap-int (sb!c::binding-stack-pointer-sap))
(room-minimal-info)
(sb!vm:memory-usage :count-spaces '(:dynamic)
:print-spaces t
- :cutoff 0.05s0
+ :cutoff 0.05f0
:print-summary nil))
(defun room-maximal-info ()
;;; (We save this so that we can calculate the total number of bytes
;;; ever allocated by adding this to the number of bytes currently
;;; allocated and never freed.)
-(declaim (type pcounter *n-bytes-freed-or-purified-pcounter*))
-(defvar *n-bytes-freed-or-purified-pcounter* (make-pcounter))
+(declaim (type unsigned-byte *n-bytes-freed-or-purified*))
+(defvar *n-bytes-freed-or-purified* 0)
+(push (lambda ()
+ (setf *n-bytes-freed-or-purified* 0))
+ ;; KLUDGE: It's probably not quite safely right either to do
+ ;; this in *BEFORE-SAVE-INITIALIZATIONS* (since consing, or even
+ ;; worse, something which depended on (GET-BYTES-CONSED), might
+ ;; happen after that) or in *AFTER-SAVE-INITIALIZATIONS*. But
+ ;; it's probably not a big problem, and there seems to be no
+ ;; other obvious time to do it. -- WHN 2001-07-30
+ *after-save-initializations*)
(declaim (ftype (function () unsigned-byte) get-bytes-consed))
(defun get-bytes-consed ()
SB-PROFILE package does), or to design a more microefficient interface
and submit it as a patch."
(+ (dynamic-usage)
- (pcounter->integer *n-bytes-freed-or-purified-pcounter*)))
+ *n-bytes-freed-or-purified*))
\f
;;;; variables and constants
;;;
;;; Unlike CMU CL, we don't export this variable. (There's no need to,
;;; since our BYTES-CONSED-BETWEEN-GCS function is SETFable.)
-(defvar *bytes-consed-between-gcs* (* 2 (expt 10 6)))
+(defvar *bytes-consed-between-gcs*
+ #!+gencgc (* 4 (expt 10 6))
+ ;; Stop-and-copy GC is really really slow when used too often. CSR
+ ;; reported that even on his old 64 Mb SPARC, 20 Mb is much faster
+ ;; than 4 Mb when rebuilding SBCL ca. 0.7.1. For modern machines
+ ;; with >> 128 Mb memory, the optimum could be significantly more
+ ;; than this, but at least 20 Mb should be better than 4 Mb.
+ #!-gencgc (* 20 (expt 10 6)))
(declaim (type index *bytes-consed-between-gcs*))
;;;; GC hooks
;;; a limit to help catch programs which allocate too much memory,
;;; since a hard heap overflow is so hard to recover from
+;;;
+;;; FIXME: Like *GC-TRIGGER*, this variable (1) should probably be
+;;; denominated in a larger unit than bytes and (2) should probably be
+;;; renamed so that it's clear from the name what unit it's
+;;; denominated in.
(declaim (type (or unsigned-byte null) *soft-heap-limit*))
-(defvar *soft-heap-limit* nil)
+(defvar *soft-heap-limit*
+ ;; As long as *GC-TRIGGER* is DECLAIMed as INDEX, we know that
+ ;; MOST-POSITIVE-FIXNUM is a hard limit on how much memory can be
+ ;; allocated. (Not necessarily *the* hard limit, which is fairly
+ ;; likely something like a Unix per-process limit that we don't know
+ ;; about, but a hard limit anyway.) And this gives us a reasonable
+ ;; conservative default for the soft limit...
+ (- most-positive-fixnum
+ *bytes-consed-between-gcs*))
+
+;;;; The following specials are used to control when garbage
+;;;; collection occurs.
;;; When the dynamic usage increases beyond this amount, the system
;;; notes that a garbage collection needs to occur by setting
;;; *NEED-TO-COLLECT-GARBAGE* to T. It starts out as NIL meaning
;;; nobody has figured out what it should be yet.
-(defvar *gc-trigger* nil)
-
+;;;
+;;; FIXME: *GC-TRIGGER* seems to be denominated in bytes, not words.
+;;; And limiting it to INDEX is fairly reasonable in order to avoid
+;;; bignum arithmetic on every allocation, and to minimize the need
+;;; for thought about weird gotchas of the GC-control mechanism itself
+;;; consing as it operates. But as of sbcl-0.7.5, 512Mbytes of memory
+;;; costs $54.95 at Fry's in Dallas but cheap consumer 64-bit machines
+;;; are still over the horizon, so gratuitously limiting our heap size
+;;; to FIXNUM bytes seems fairly stupid. It'd be reasonable to
+;;; (1) allow arbitrary UNSIGNED-BYTE values of *GC-TRIGGER*, or
+;;; (2) redenominate this variable in words instead of bytes, postponing
+;;; the problem to heaps which exceed 50% of the machine's address
+;;; space, or even
+;;; (3) redemoninate this variable in CONS-sized two-word units,
+;;; allowing it to cover the entire memory space at the price of
+;;; possible loss of clarity.
+;;; (And whatever is done, it'd also be good to rename the variable so
+;;; that it's clear what unit it's denominated in.)
(declaim (type (or index null) *gc-trigger*))
-
-;;; On the X86, we store the GC trigger in a ``static'' symbol instead
-;;; of letting magic C code handle it. It gets initialized by the
-;;; startup code.
-#!+x86
-(defvar sb!vm::*internal-gc-trigger*)
-
-;;;; The following specials are used to control when garbage collection
-;;;; occurs.
+(defvar *gc-trigger* nil)
;;; When non-NIL, inhibits garbage collection.
(defvar *gc-inhibit*) ; initialized in cold init
\f
(defun default-gc-notify-before (notify-stream bytes-in-use)
(declare (type stream notify-stream))
- (format notify-stream
- "~&; GC is beginning with ~:D bytes in use at internal runtime ~D.~%"
- bytes-in-use
- (get-internal-run-time))
+ (format
+ notify-stream
+ "~&; GC is beginning with ~:D bytes in use at internal runtime ~:D.~%"
+ bytes-in-use
+ (get-internal-run-time))
(finish-output notify-stream))
(defparameter *gc-notify-before* #'default-gc-notify-before
#!+sb-doc
(declare (type stream notify-stream))
(format notify-stream
"~&; GC has finished with ~:D bytes in use (~:D bytes freed)~@
- ; at internal runtime ~D. The new GC trigger is ~:D bytes.~%"
+ ; at internal runtime ~:D. The new GC trigger is ~:D bytes.~%"
bytes-retained
bytes-freed
(get-internal-run-time)
(finish-output notify-stream))
(defparameter *gc-notify-after* #'default-gc-notify-after
#!+sb-doc
- "The function bound to this variable is invoked after GC'ing with
-the value of *GC-NOTIFY-STREAM*, the amount of dynamic usage (in
-bytes) now free, the number of bytes freed by the GC, and the new GC
-trigger threshold. The function should notify the user that the system
-has finished GC'ing.")
+ "The function bound to this variable is invoked after GC'ing with the
+value of *GC-NOTIFY-STREAM*, the amount of dynamic usage (in bytes) now
+free, the number of bytes freed by the GC, and the new GC trigger
+threshold; or if *GC-NOTIFY-STREAM* is NIL, it's not invoked. The
+function should notify the user that the system has finished GC'ing.")
\f
;;;; internal GC
-(sb!alien:def-alien-routine collect-garbage sb!c-call:int
- #!+gencgc (last-gen sb!c-call:int))
+(sb!alien:define-alien-routine collect-garbage sb!alien:int
+ #!+gencgc (last-gen sb!alien:int))
-(sb!alien:def-alien-routine set-auto-gc-trigger sb!c-call:void
- (dynamic-usage sb!c-call:unsigned-long))
+(sb!alien:define-alien-routine set-auto-gc-trigger sb!alien:void
+ (dynamic-usage sb!alien:unsigned-long))
-(sb!alien:def-alien-routine clear-auto-gc-trigger sb!c-call:void)
+(sb!alien:define-alien-routine clear-auto-gc-trigger sb!alien:void)
;;; This variable contains the function that does the real GC. This is
;;; for low-level GC experimentation. Do not touch it if you do not
\f
;;;; SUB-GC
-;;; Used to carefully invoke hooks.
+;;; This is used to carefully invoke hooks.
(eval-when (:compile-toplevel :execute)
(sb!xc:defmacro carefully-funcall (function &rest args)
`(handler-case (funcall ,function ,@args)
*soft-heap-limit*)))
(when soft-heap-limit-exceeded?
(cerror "Continue with GC."
- "soft heap limit exceeded (temporary new limit=~D)"
+ "soft heap limit exceeded (temporary new limit=~W)"
*soft-heap-limit*))
(when (and *gc-trigger* (> pre-gc-dynamic-usage *gc-trigger*))
(setf *need-to-collect-garbage* t))
(eff-n-bytes-freed (max 0 n-bytes-freed)))
(declare (ignore ignore-me))
(/show0 "got (DYNAMIC-USAGE) and EFF-N-BYTES-FREED")
- (incf-pcounter *n-bytes-freed-or-purified-pcounter*
- eff-n-bytes-freed)
+ (incf *n-bytes-freed-or-purified*
+ eff-n-bytes-freed)
(/show0 "clearing *NEED-TO-COLLECT-GARBAGE*")
(setf *need-to-collect-garbage* nil)
(/show0 "calculating NEW-GC-TRIGGER")