1 ;;;; garbage collection and allocation-related code
3 ;;;; This software is part of the SBCL system. See the README file for
6 ;;;; This software is derived from the CMU CL system, which was
7 ;;;; written at Carnegie Mellon University and released into the
8 ;;;; public domain. The software is in the public domain and is
9 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
10 ;;;; files for more information.
12 (in-package "SB!KERNEL")
14 ;;;; DYNAMIC-USAGE and friends
16 (declaim (special sb
!vm
:*read-only-space-free-pointer
*
17 sb
!vm
:*static-space-free-pointer
*))
19 (eval-when (:compile-toplevel
:execute
)
20 (sb!xc
:defmacro def-c-var-fun
(lisp-fun c-var-name
)
22 (sb!alien
:extern-alien
,c-var-name
(sb!alien
:unsigned
32)))))
25 (declaim (inline current-dynamic-space-start
))
27 (defun current-dynamic-space-start () sb
!vm
:dynamic-space-start
)
29 (def-c-var-fun current-dynamic-space-start
"current_dynamic_space")
32 (declaim (inline dynamic-usage
))
34 (def-c-var-fun dynamic-usage
"bytes_allocated")
36 (defun dynamic-usage ()
37 (the (unsigned-byte 32)
38 (- (sb!sys
:sap-int
(sb!c
::dynamic-space-free-pointer
))
39 (current-dynamic-space-start))))
41 (defun static-space-usage ()
42 (- (* sb
!vm
:*static-space-free-pointer
* sb
!vm
:n-word-bytes
)
43 sb
!vm
:static-space-start
))
45 (defun read-only-space-usage ()
46 (- (* sb
!vm
::*read-only-space-free-pointer
* sb
!vm
:n-word-bytes
)
47 sb
!vm
:read-only-space-start
))
49 (defun control-stack-usage ()
50 #!-stack-grows-downward-not-upward
51 (- (sb!sys
:sap-int
(sb!c
::control-stack-pointer-sap
))
52 (sb!sys
:sap-int
(sb!di
::descriptor-sap sb
!vm
:*control-stack-start
*)))
53 #!+stack-grows-downward-not-upward
54 (- (sb!sys
:sap-int
(sb!di
::descriptor-sap sb
!vm
:*control-stack-end
*))
55 (sb!sys
:sap-int
(sb!c
::control-stack-pointer-sap
))))
57 (defun binding-stack-usage ()
58 (- (sb!sys
:sap-int
(sb!c
::binding-stack-pointer-sap
))
59 (sb!sys
:sap-int
(sb!di
::descriptor-sap sb
!vm
:*binding-stack-start
*))))
63 (defun room-minimal-info ()
64 (format t
"Dynamic space usage is: ~10:D bytes.~%" (dynamic-usage))
65 (format t
"Read-only space usage is: ~10:D bytes.~%" (read-only-space-usage))
66 (format t
"Static space usage is: ~10:D bytes.~%" (static-space-usage))
67 (format t
"Control stack usage is: ~10:D bytes.~%" (control-stack-usage))
68 (format t
"Binding stack usage is: ~10:D bytes.~%" (binding-stack-usage))
71 "Control and binding stack usage is for the current thread only.~%")
72 (format t
"Garbage collection is currently ~:[enabled~;DISABLED~].~%"
75 (defun room-intermediate-info ()
77 (sb!vm
:memory-usage
:count-spaces
'(:dynamic
)
82 (defun room-maximal-info ()
83 ;; FIXME: SB!VM:INSTANCE-USAGE calls suppressed until bug 344 is fixed
84 (room-intermediate-info)
85 ;; old way, could be restored when bug 344 fixed:
86 ;;x (room-minimal-info)
87 ;;x (sb!vm:memory-usage :count-spaces '(:static :dynamic))
88 ;;x (sb!vm:instance-usage :dynamic :top-n 10)
89 ;;x (sb!vm:instance-usage :static :top-n 10)
92 (defun room (&optional
(verbosity :default
))
94 "Print to *STANDARD-OUTPUT* information about the state of internal
95 storage and its management. The optional argument controls the
96 verbosity of output. If it is T, ROOM prints out a maximal amount of
97 information. If it is NIL, ROOM prints out a minimal amount of
98 information. If it is :DEFAULT or it is not supplied, ROOM prints out
99 an intermediate amount of information."
107 (room-intermediate-info)))
110 ;;;; GET-BYTES-CONSED
112 ;;; the total number of bytes freed so far (including any freeing
113 ;;; which goes on in PURIFY)
115 ;;; (We save this so that we can calculate the total number of bytes
116 ;;; ever allocated by adding this to the number of bytes currently
117 ;;; allocated and never freed.)
118 (declaim (type unsigned-byte
*n-bytes-freed-or-purified
*))
119 (defvar *n-bytes-freed-or-purified
* 0)
123 (setf *n-bytes-freed-or-purified
* 0
125 ;; See comment in interr.lisp
126 *heap-exhausted-error-condition
* (make-condition 'heap-exhausted-error
)))
128 (declaim (ftype (function () unsigned-byte
) get-bytes-consed
))
129 (defun get-bytes-consed ()
131 "Return the number of bytes consed since the program began. Typically
132 this result will be a consed bignum, so if you have an application (e.g.
133 profiling) which can't tolerate the overhead of consing bignums, you'll
134 probably want either to hack in at a lower level (as the code in the
135 SB-PROFILE package does), or to design a more microefficient interface
136 and submit it as a patch."
138 *n-bytes-freed-or-purified
*))
142 (defvar *after-gc-hooks
* nil
143 "Called after each garbage collection, except for garbage collections
144 triggered during thread exits. In a multithreaded environment these hooks may
150 (sb!alien
:define-alien-routine collect-garbage sb
!alien
:int
151 (#!+gencgc last-gen
#!-gencgc ignore sb
!alien
:int
))
155 (sb!alien
:define-alien-routine gc-stop-the-world sb
!alien
:void
)
156 (sb!alien
:define-alien-routine gc-start-the-world sb
!alien
:void
))
159 (defun gc-stop-the-world ())
160 (defun gc-start-the-world ()))
165 ;;; SUB-GC does a garbage collection. This is called from three places:
166 ;;; (1) The C runtime will call here when it detects that we've consed
167 ;;; enough to exceed the gc trigger threshold. This is done in
168 ;;; alloc() for gencgc or interrupt_maybe_gc() for cheneygc
169 ;;; (2) The user may request a collection using GC, below
170 ;;; (3) At the end of a WITHOUT-GCING section, we are called if
171 ;;; *NEED-TO-COLLECT-GARBAGE* is true
173 ;;; This is different from the behaviour in 0.7 and earlier: it no
174 ;;; longer decides whether to GC based on thresholds. If you call
175 ;;; SUB-GC you will definitely get a GC either now or when the
176 ;;; WITHOUT-GCING is over
178 ;;; For GENCGC all generations < GEN will be GC'ed.
180 (defvar *already-in-gc
*
181 (sb!thread
:make-mutex
:name
"GC lock") "ID of thread running SUB-GC")
183 (defun sub-gc (&key
(gen 0))
184 (unless (eq sb
!thread
:*current-thread
*
185 (sb!thread
::mutex-value
*already-in-gc
*))
186 ;; With gencgc, unless *GC-PENDING* every allocation in this
187 ;; function triggers another gc, potentially exceeding maximum
188 ;; interrupt nesting.
189 (setq *gc-pending
* t
)
191 (sb!thread
:with-mutex
(*already-in-gc
*)
192 (let ((old-usage (dynamic-usage))
195 ;; We need to disable interrupts for GC, but we also want
196 ;; to run as little as possible without them.
199 (let ((start-time (get-internal-run-time)))
200 (collect-garbage gen
)
202 (- (get-internal-run-time) start-time
)))
203 (setf *gc-pending
* nil
204 new-usage
(dynamic-usage))
205 (gc-start-the-world))
206 ;; Interrupts re-enabled, but still inside the mutex.
207 ;; In a multithreaded environment the other threads will
208 ;; see *n-b-f-o-p* change a little late, but that's OK.
209 (let ((freed (- old-usage new-usage
)))
210 ;; GENCGC occasionally reports negative here, but the
211 ;; current belief is that it is part of the normal order
212 ;; of things and not a bug.
214 (incf *n-bytes-freed-or-purified
* freed
)))))
215 ;; Outside the mutex, these may cause another GC. FIXME: it can
216 ;; potentially exceed maximum interrupt nesting by triggering
219 ;; Can that be avoided by having the finalizers and hooks run only
220 ;; from the outermost SUB-GC?
222 ;; KLUDGE: Don't run the hooks in GC's triggered by dying threads,
223 ;; so that user-code never runs with
224 ;; (thread-alive-p *current-thread*) => nil
225 ;; The long-term solution will be to keep a separate thread for
226 ;; finalizers and after-gc hooks.
227 (when (sb!thread
:thread-alive-p sb
!thread
:*current-thread
*)
228 (run-pending-finalizers)
229 (dolist (hook *after-gc-hooks
*)
233 (warn "Error calling after-GC hook ~S:~% ~A" hook c
))))))))
235 ;;; This is the user-advertised garbage collection function.
236 (defun gc (&key
(gen 0) (full nil
) &allow-other-keys
)
237 #!+(and sb-doc gencgc
)
238 "Initiate a garbage collection. GEN controls the number of generations
240 #!+(and sb-doc
(not gencgc
))
241 "Initiate a garbage collection. GEN may be provided for compatibility with
242 generational garbage collectors, but is ignored in this implementation."
243 (sub-gc :gen
(if full
6 gen
)))
245 (defun unsafe-clear-roots ()
246 ;; KLUDGE: Do things in an attempt to get rid of extra roots. Unsafe
247 ;; as having these cons more then we have space left leads to huge
249 (scrub-control-stack)
250 ;; FIXME: CTYPE-OF-CACHE-CLEAR isn't thread-safe.
252 (ctype-of-cache-clear))
255 ;;;; auxiliary functions
257 (defun bytes-consed-between-gcs ()
259 "Return the amount of memory that will be allocated before the next garbage
260 collection is initiated. This can be set with SETF."
261 (sb!alien
:extern-alien
"bytes_consed_between_gcs"
262 (sb!alien
:unsigned
32)))
264 (defun (setf bytes-consed-between-gcs
) (val)
265 (declare (type index val
))
266 (setf (sb!alien
:extern-alien
"bytes_consed_between_gcs"
267 (sb!alien
:unsigned
32))
270 (declaim (inline maybe-handle-pending-gc
))
271 (defun maybe-handle-pending-gc ()
272 (when (and (not *gc-inhibit
*)
273 (or #!+sb-thread
*stop-for-gc-pending
*
275 (sb!unix
::receive-pending-interrupt
)))
277 ;;; These work both regardless of whether we're inside WITHOUT-GCING
281 "Enable the garbage collector."
282 (setq *gc-inhibit
* nil
)
283 (maybe-handle-pending-gc)
288 "Disable the garbage collector."
289 (setq *gc-inhibit
* t
)