(define-alien-routine "save" (boolean)
(file c-string)
- (initial-fun (unsigned #.sb!vm:n-word-bits)))
+ (initial-fun (unsigned #.sb!vm:n-word-bits))
+ (prepend-runtime int))
#!+gencgc
(define-alien-routine "gc_and_save" void
- (file c-string))
+ (file c-string)
+ (prepend-runtime int))
#!+gencgc
(defvar sb!vm::*restart-lisp-function*)
(purify #!+gencgc nil
#!-gencgc t)
(root-structures ())
- (environment-name "auxiliary"))
+ (environment-name "auxiliary")
+ (executable nil))
#!+sb-doc
"Save a \"core image\", i.e. enough information to restart a Lisp
process later in the same state, in the file of the specified name.
and runs the top level read-eval-print loop. This function should
not return.
+ :EXECUTABLE
+ If true, arrange to combine the SBCL runtime and the core image
+ to create a standalone executable. If false (the default), the
+ core image will not be executable on its own.
+
:PURIFY
If true (the default on cheneygc), do a purifying GC which moves all
dynamically allocated objects into static space. This takes
;; A normal GC will leave huge amounts of storage unreclaimed
;; (over 50% on x86). This needs to be done by a single function
;; since the GC will invalidate the stack.
- #!+gencgc (gc-and-save (unix-namestring core-file-name nil)))
+ #!+gencgc (gc-and-save (unix-namestring core-file-name nil)
+ (if executable 1 0)))
(without-gcing
(save (unix-namestring core-file-name nil)
- (get-lisp-obj-address #'restart-lisp)))))
+ (get-lisp-obj-address #'restart-lisp)
+ (if executable 1 0)))))
;; Save the restart function into a static symbol, to allow GC-AND-SAVE
;; access to it even after the GC has moved it.
#!+gencgc