0.8.0.58:
[sbcl/lichteblau.git] / make-target-2.sh
blob507ddf097df45a3717c3fd070cfcbde58cfe8837
1 #!/bin/sh
3 # This is a script to be run as part of make.sh. The only time you'd
4 # want to run it by itself is if you're trying to cross-compile the
5 # system or if you're doing some kind of troubleshooting.
7 # This software is part of the SBCL system. See the README file for
8 # more information.
10 # This software is derived from the CMU CL system, which was
11 # written at Carnegie Mellon University and released into the
12 # public domain. The software is in the public domain and is
13 # provided with absolutely no warranty. See the COPYING and CREDITS
14 # files for more information.
16 echo //entering make-target-2.sh
18 # Do warm init stuff, e.g. building and loading CLOS, and stuff which
19 # can't be done until CLOS is running.
21 # Note that it's normal for the newborn system to think rather hard at
22 # the beginning of this process (e.g. using nearly 100Mb of virtual memory
23 # and >30 seconds of CPU time on a 450MHz CPU), and unless you built the
24 # system with the :SB-SHOW feature enabled, it does it rather silently,
25 # without trying to tell you about what it's doing. So unless it hangs
26 # for much longer than that, don't worry, it's likely to be normal.
27 echo //doing warm init
28 ./src/runtime/sbcl \
29 --core output/cold-sbcl.core \
30 --sysinit /dev/null --userinit /dev/null <<-'EOF' || exit 1
32 ;; Now that we use the compiler for macros, interpreted
33 ;; /SHOW doesn't work until later in init.
34 #+sb-show (print "/hello, world!")
35 (sb!ext:purify)
37 ;; Until PRINT-OBJECT and other machinery is set up,
38 ;; we want limits on printing to avoid infinite output.
39 ;; (Don't forget to undo these tweaks after the printer
40 ;; is set up. It'd be cleaner to use LET to make sure
41 ;; that happens automatically, but LET is implemented
42 ;; in terms of the compiler, and the compiler isn't
43 ;; initialized yet.)
44 (setq *print-length* 10)
45 (setq *print-level* 5)
46 (setq *print-circle* t)
48 ;; Do warm init.
49 #+sb-show (print "/about to LOAD warm.lisp")
50 (load "src/cold/warm.lisp")
52 ;; Unintern no-longer-needed stuff before the possible PURIFY
53 ;; in SAVE-LISP-AND-DIE.
54 #-sb-fluid (sb-impl::!unintern-init-only-stuff)
56 ;; Now that the whole system is built, we don't need to
57 ;; hobble the printer any more, so we can restore printer
58 ;; control variables to their ANSI defaults.
59 (setq *print-length* nil)
60 (setq *print-level* nil)
61 (setq *print-circle* nil)
63 ;; FIXME: Why is it that, at least on x86 sbcl-0.6.12.46,
64 ;; GC :FULL T isn't nearly as effective as PURIFY here?
65 ;; (GC :FULL T gets us down to about 38 Mbytes, but PURIFY
66 ;; gets us down to about 19 Mbytes.)
67 (let ((*gc-notify-stream* *standard-output*))
68 (sb-int:/show "done with warm.lisp, about to GC :FULL T")
69 (gc :full t))
71 ;; resetting compilation policy to neutral values in
72 ;; preparation for SAVE-LISP-AND-DIE as final SBCL core (not
73 ;; in warm.lisp because SB-C::*POLICY* has file scope)
74 (sb-int:/show "setting compilation policy to neutral values")
75 (proclaim '(optimize (compilation-speed 1)
76 (debug 1)
77 (inhibit-warnings 1)
78 (safety 1)
79 (space 1)
80 (speed 1)))
82 (sb-int:/show "done with warm.lisp, about to SAVE-LISP-AND-DIE")
83 ;; Even if /SHOW output was wanted during build, it's probably
84 ;; not wanted by default after build is complete. (And if it's
85 ;; wanted, it can easily be turned back on.)
86 #+sb-show (setf sb-int:*/show* nil)
87 ;; The system is complete now, all standard functions are
88 ;; defined.
89 (setq sb-c::*flame-on-necessarily-undefined-function* t)
90 (sb-ext:save-lisp-and-die "output/sbcl.core" :purify t)
91 EOF