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make-target-2-load.lisp
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make-target-2-load.lisp
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;;; Do warm init without compiling files.
;;; Get back to a reasonable state where all of the compiler works,
;;; as does SB-VM:HEXDUMP and MAP-ALLOCATED-OBJECTS, etc.
;;; before trying to define any more functions.
(defvar *compile-files-p* nil)
(load (merge-pathnames "src/cold/warm.lisp" *load-pathname*))
;; sb-xref-for-internals is actively harmful to tree-shaking.
;; Remove some symbols to make the hide-packages test pass.
#+sb-xref-for-internals
(progn
(fmakunbound 'sb-kernel::type-class-fun-slot)
(fmakunbound 'sb-kernel::new-ctype))
(sb-impl::!recompile-globaldb-checkfuns)
;;; Users don't want to know if there are multiple TLABs per se, but they do want
;;; to know if NEW-ARENA returns an arena, so give them a sensible feature name.
#+system-tlabs (push :arena-allocator *features*)
;;; Remove symbols from CL:*FEATURES* that should not be exposed to users.
(export 'sb-impl::+internal-features+ 'sb-impl)
(let* ((non-target-features
;;
;; FIXME: I suspect that this list should be changed to its inverse-
;; features that _SHOULD_ go into SB-IMPL:+INTERNAL-FEATURES+ and
;; comments about the reasoning behind each, rather than features to
;; discard and reasons they're not needed. The default assumption should be
;; to drop any build-time feature that lacks a rationale to preserve it.
;;
;; READ-FROM-STRING prevents making references to
;; all these keywords from the source form itself.
(read-from-string "
(;; :SB-AFTER-XC-CORE is essentially an option flag to make-host-2
:SB-AFTER-XC-CORE
;; CONS-PROFILING sets the initial compiler policy which persists
;; into the default baseline policy. It has no relevance post-build
;; in as much as policy can be changed later arbitrarily.
:CONS-PROFILING
;; Used by nothing after compiling 'target-thread.lisp' or 'thread.c'
:SB-FUTEX :OS-THREAD-STACK
;; These affect the BREAK instruction emitter, but the C code is able
;; to handle anything, and post-build we don't care which it is.
:UD2-BREAKPOINTS :INT4-BREAKPOINTS
;; Uses of OS-PROVIDES-DLOPEN and -DLADDR are confined to src/code/foreign.lisp
:OS-PROVIDES-DLOPEN :OS-PROVIDES-DLADDR
;; more-or-less confined to serve-event, except for a test which now
;; detects whether COMPUTE-POLLFDS is defined and therefore testable.
:OS-PROVIDES-POLL
;; Silly feature we add in because additive features are more sensible
;; than subtractive ones. So you opt out, not in, to having *LOAD-TRUENAME*
;; eagerly bound.
:ANSI-COMPLIANT-LOAD-TRUENAME
;; The final batch of symbols is strictly for C. The LISP_FEATURE_
;; prefix on the corresponding #define is unfortunate.
:GCC-TLS :USE-SYS-MMAP
;;; Enforce using of posix semaphores on Darwin instead of dispatch.
:USE-DARWIN-POSIX-SEMAPHORES
;; only for 'src/runtime/wrap.h'
:OS-PROVIDES-BLKSIZE-T
;; only for src/runtime/run-program.c
:OS-PROVIDES-CLOSE-RANGE-WRAPPER)"))
(public-features
(cons
sb-impl::!sbcl-architecture
(read-from-string "
(:COMMON-LISP :SBCL :ANSI-CL :IEEE-FLOATING-POINT
:64-BIT ; choice of word size. 32-bit if absent
:BIG-ENDIAN :LITTLE-ENDIAN ; endianness: pick one and only one
:BSD :UNIX :LINUX :WIN32 :DARWIN :SUNOS :ANDROID ; OS: pick one or more
:FREEBSD :GNU-KFREEBSD :OPENBSD :NETBSD :DRAGONFLY :HAIKU
:MACH-O :ELF ; obj file format: pick zero or one
;; I would argue that this should not be exposed,
;; but I would also anticipate blowback from removing it.
:CHENEYGC :GENCGC ; GC: pick one and only one
:ARENA-ALLOCATOR :ALLOCATION-SIZE-HISTOGRAM
;; Can't use s-l-a-d :compression safely without it
:SB-CORE-COMPRESSION
;; Features that are also in *FEATURES-POTENTIALLY-AFFECTING-FASL-FORMAT*
;; and would probably mess up something if made non-public,
;; though I don't think they should all be public.
:MSAN :UBSAN
:SB-SAFEPOINT
:SB-THREAD :SB-UNICODE
;; Things which (I think) at least one person has requested be kept around
:SB-LDB
;; We keep the :SB-PACKAGE-LOCKS feature despite it no longer
;; affecting the build. (It's not a choice any more)
:SB-PACKAGE-LOCKS
;; unsure, I think this is for end-user consumption,
;; though every release of SBCL since eons ago has had local nicknames.
:PACKAGE-LOCAL-NICKNAMES
;; Developer mode features. A release build will never have them,
;; hence it makes no difference whether they're public or not.
:SB-DEVEL :SB-DEVEL-LOCK-PACKAGES)")))
(removable-features
(append non-target-features public-features)))
(defconstant sb-impl:+internal-features+
;;; Well, who would have guessed that our internal features list would nicely
;;; repair damage induced by ASDF, namely: ASDF removes features when loaded.
;;; Take a look at (DEFUN DETECT-OS) in uiop.lisp if you don't believe it,
;;; and watch it in action after (require "ASDF") -
;;;
;;; * *FEATURES* =>
;;; (:X86-64 :64-BIT :ANSI-CL :COMMON-LISP :ELF :GENCGC :HAIKU :IEEE-FLOATING-POINT
;;; :LITTLE-ENDIAN :PACKAGE-LOCAL-NICKNAMES :SB-LDB
;;; :SB-PACKAGE-LOCKS :SB-UNICODE :SBCL :UNIX)
;;;
;;; * (require :asdf)
;;; ("ASDF" "asdf" "UIOP" "uiop")
;;; * *FEATURES*
;;; (:ASDF3.3 :ASDF3.2 :ASDF3.1 :ASDF3 :ASDF2 :ASDF :OS-UNIX
;;; :NON-BASE-CHARS-EXIST-P :ASDF-UNICODE :X86-64 :64-BIT :ANSI-CL :COMMON-LISP
;;; :ELF :GENCGC :IEEE-FLOATING-POINT :LITTLE-ENDIAN :PACKAGE-LOCAL-NICKNAMES
;;; :SB-LDB :SB-PACKAGE-LOCKS :SB-UNICODE :SBCL :UNIX)
;;;
;;; So, what the heck happened to :HAIKU? It's gone.
;;; Well this is pure evil. Just madness.
;;; However, by stashing an extra copy of :HAIKU in the internal feature list,
;;; we can stuff it back in because our contrib builder first loads ASDF
;;; and then rebinds *FEATURES* with the union of the internal ones.
(append #+haiku '(:haiku)
(remove-if (lambda (x) (member x removable-features)) *features*)))
(setq *features* (remove-if-not (lambda (x) (member x public-features))
*features*)))
;;; There's a fair amount of machinery which is needed only at cold
;;; init time, and should be discarded before freezing the final
;;; system. We discard it by uninterning the associated symbols.
;;; Rather than using a special table of symbols to be uninterned,
;;; which might be tedious to maintain, instead we use a hack:
;;; anything whose name matches a magic character pattern is
;;; uninterned.
;;; Additionally, you can specify an arbitrary way to destroy
;;; random bootstrap stuff on per-package basis.
(defun !unintern-init-only-stuff (&aux result)
(dolist (package (list-all-packages))
(sb-int:awhen (find-symbol "!REMOVE-BOOTSTRAP-SYMBOLS" package)
(funcall sb-int:it)))
(dolist (list sb-int:*!removable-symbols*)
(let ((package (find-package (car list))))
(dolist (symbol (cdr list))
(fmakunbound symbol)
(unintern symbol package))))
sb-kernel::
(flet ((uninternable-p (symbol)
(let ((name (symbol-name symbol)))
(or (and (>= (length name) 1) (char= (char name 0) #\!))
(and (>= (length name) 2) (string= name "*!" :end1 2))
(memq symbol
'(sb-c::sb-pcl sb-c::sb-impl sb-c::sb-kernel
sb-c::sb-c sb-c::sb-int))))))
;; Delete bootstrap-only vops
(flet ((drop-keys (table)
(loop for symbol being each hash-key of table
when (uninternable-p symbol) do (remhash symbol table))))
(drop-keys sb-c::*backend-parsed-vops*)
(drop-keys sb-c::*backend-template-names*))
;; A structure constructor name, in particular !MAKE-SAETP,
;; can't be uninterned if referenced by a defstruct-description.
;; So loop over all structure classoids and clobber any
;; symbol that should be uninternable.
(maphash (lambda (classoid layout)
(when (structure-classoid-p classoid)
(let ((dd (layout-%info layout)))
(setf (dd-constructors dd)
(delete-if (lambda (x)
(and (consp x) (uninternable-p (car x))))
(dd-constructors dd))))))
(classoid-subclasses (find-classoid t)))
;; PATHNAME is not a structure-classoid
(setf (sb-kernel:dd-constructors (sb-kernel:find-defstruct-description 'pathname))
nil)
;; Todo: perform one pass, then a full GC, then a final pass to confirm
;; it worked. It should be an error if any uninternable symbols remain,
;; but at present there are about 7 symbols with referrers.
(with-package-iterator (iter (list-all-packages) :internal :external)
(loop (multiple-value-bind (winp symbol accessibility package) (iter)
(declare (ignore accessibility))
(unless winp
(return))
(when (uninternable-p symbol)
;; Uninternable symbols which are referenced by other stuff
;; can't disappear from the image, but we don't need to preserve
;; their functions, so FMAKUNBOUND them. This doesn't have
;; the intended effect if the function shares a code-component
;; with non-cold-init lambdas. Though the cold-init function is
;; never called post-build, it is not discarded. Also, I suspect
;; that the following loop should print nothing, but it does:
#|
(sb-vm:map-allocated-objects
(lambda (obj type size)
(declare (ignore size))
(when (= type sb-vm:code-header-widetag)
(let ((name (sb-c::debug-info-name
(sb-kernel:%code-debug-info obj))))
(when (and (stringp name) (search "COLD-INIT-FORMS" name))
(print obj)))))
:dynamic)
|#
(fmakunbound symbol)
(unintern symbol package))))))
(sb-int:dohash ((k v) sb-c::*backend-parsed-vops*)
(declare (ignore k))
(setf (sb-c::vop-parse-body v) nil))
result)
;;; Check for potentially bad format-control strings
(defun scan-format-control-strings ()
(labels ((possibly-ungood-package-reference (string)
;; We want to see nothing SB-package-like at all
(or (search "sb-" string :test #'char-equal)
;; catch mistakes due to imitating the way things used to be
(search "sb!" string :test #'char-equal)))
(possibly-format-control (string)
(when (find #\~ string)
;; very likely to be a format control if it parses OK.
;; Possibly not, but false positives are acceptable.
(some (lambda (x)
(and (typep x 'sb-format::format-directive)
(eql (sb-format::directive-character x) #\/)
(possibly-ungood-package-reference
(subseq string
(sb-format::directive-start x)
(sb-format::directive-end x)))))
(ignore-errors
(sb-format::%tokenize-control-string
string 0 (length string) nil))))))
(let (wps)
(sb-vm:map-allocated-objects
(lambda (obj type size)
(declare(ignore type size))
(when (and (stringp obj) (possibly-format-control obj))
(push (make-weak-pointer obj) wps)))
:all)
(when wps
(dolist (wp wps)
(sb-int:binding* ((v (weak-pointer-value wp) :exit-if-null))
(format t "Found string ~S~%" v)))
(warn "Potential problem with format-control strings.
Please check that all strings which were not recognizable to the compiler
(as the first argument to WARN, etc.) are wrapped in SB-FORMAT:TOKENS"))
wps)))
;;; If the SB-DOC internal feature is not present, remove any and all
;;; docstrings that snuck in (as can happen with any file compiled in
;;; warm load).
(unless (member :sb-doc sb-impl:+internal-features+)
(let ((count 0))
(macrolet ((clear-it (place)
`(when ,place
,(if (typep place '(cons (eql sb-int:info)))
`(sb-int:clear-info ,@(cdr place))
`(setf ,place nil))
(incf count))))
;; 1. Functions, macros, special operators
(sb-vm:map-allocated-objects
(lambda (obj type size)
(declare (ignore size))
(case type
(#.sb-vm:code-header-widetag
(dotimes (i (sb-kernel:code-n-entries obj))
(let ((f (sb-kernel:%code-entry-point obj i)))
(clear-it (sb-kernel:%simple-fun-doc f)))))
(#.sb-vm:instance-widetag
(when (typep obj 'class)
(when (slot-boundp obj 'sb-pcl::%documentation)
(clear-it (slot-value obj 'sb-pcl::%documentation)))))
(#.sb-vm:funcallable-instance-widetag
(when (typep obj 'standard-generic-function)
(when (slot-boundp obj 'sb-pcl::%documentation)
(clear-it (slot-value obj 'sb-pcl::%documentation)))))))
:all)
;; 2. Variables, types, and anything else
(do-all-symbols (s)
(let ((expander (sb-int:info :setf :expander s)))
(when (typep expander '(cons t (cons string)))
(setf (second expander) nil)))
(dolist (category '(:variable :type :typed-structure))
(clear-it (sb-int:info category :documentation s)))
(clear-it (sb-int:info :random-documentation :stuff s))))
(when (plusp count)
(format t "~&Removed ~D doc string~:P" count)))
)
(progn
;; Remove source forms of compiled-to-memory lambda expressions.
;; The disassembler is the major culprit for retention of these,
;; but there are others and I don't feel like figuring out where from.
;; Globally declaiming EVAL-STORE-SOURCE-FORM 0 would work too,
;; but isn't it nice to know that the logic for storing the forms
;; actually works? (Yes)
(sb-vm:map-allocated-objects
(lambda (obj type size)
(declare (ignore size))
(case type
(#.sb-vm:instance-widetag
(when (typep obj 'sb-c::core-debug-source)
(setf (sb-c::core-debug-source-form obj) nil)))
(#.sb-vm:code-header-widetag
(dotimes (i (sb-kernel:code-n-entries obj))
(let ((fun (sb-kernel:%code-entry-point obj i)))
(when (sb-kernel:%simple-fun-lexpr fun)
(setf (sb-impl::%simple-fun-source fun)
(sb-impl::%simple-fun-doc fun))))))))
:all)
;; Disable the format-control optimizer for ERROR and WARN
;; while preserving the argument-checking logic. Technically the optimizer is
;; probably ok to leave in, but the spec is ambiguous as to whether
;; implicit compile-time transformations on format strings is permitted.
;; http://www.lispworks.com/documentation/HyperSpec/Issues/iss170_w.htm
;; seems to imply that it is, but I would imagine that users don't expect it.
(setq sb-c::*optimize-format-strings* nil)
;; Fix unknown types in globaldb
(let ((l nil))
(do-all-symbols (s)
(flet ((fixup (kind)
(multiple-value-bind (type present)
(sb-int:info kind :type s)
(when (and present
(sb-kernel:ctype-p type)
(sb-kernel:contains-unknown-type-p type))
(setf (sb-int:info kind :type s)
(sb-kernel:specifier-type (sb-kernel:type-specifier type)))
(push s l)))))
(fixup :function)
(fixup :variable)))
(unless (sb-impl::!c-runtime-noinform-p)
(let ((*print-pretty* nil)
(*print-length* nil))
(format t "~&; Fixed types: ~S~%" (sort l #'string<)))))
;; Unintern no-longer-needed stuff before the possible PURIFY in
;; SAVE-LISP-AND-DIE.
#-sb-devel (!unintern-init-only-stuff)
;; A symbol whose INFO slot underwent any kind of manipulation
;; such that it now has neither properties nor globaldb info,
;; can have the slot set back to NIL if it wasn't already.
(do-all-symbols (symbol)
(when (and (sb-kernel:symbol-%info symbol) ; "raw" value is something
;; but both "cooked" values are empty
(null (sb-kernel:symbol-dbinfo symbol))
(null (symbol-plist symbol)))
(sb-sys:%primitive sb-c:set-slot symbol nil
'make-symbol sb-vm:symbol-info-slot sb-vm:other-pointer-lowtag)))
)
(sb-ext:gc :full t)
;;; resetting compilation policy to neutral values in preparation for
;;; SAVE-LISP-AND-DIE as final SBCL core (not in warm.lisp because
;;; SB-C::*POLICY* has file scope)
(setq sb-c::*policy* (copy-structure sb-c::**baseline-policy**))
;;; Adjust READTABLE-BASE-CHAR-PREFERENCE back to the advertised default.
(dolist (rt (list sb-impl::*standard-readtable* *debug-readtable*))
(setf (readtable-base-char-preference rt) :symbols))
;;; Change the internal constructor's default too.
(let ((dsd sb-kernel::(find 'sb-impl::%readtable-string-preference
(dd-slots (find-defstruct-description 'readtable))
:key #'dsd-name)))
(funcall #'(setf slot-value) 'character dsd 'sb-kernel::default))
;;; The system is complete now, all standard functions are
;;; defined.
;;; In case there is xref data for internals, repack it here to
;;; achieve a more compact encoding.
;;;
;;; However, repacking changes
;;; SB-C::**MOST-COMMON-XREF-NAMES-BY-{INDEX,NAME}** thereby changing
;;; the interpretation of xref data written into and loaded from
;;; fasls. Since fasls should be compatible between images originating
;;; from the same SBCL build, REPACK-XREF is of no use after the
;;; target image has been built.
(when (member :sb-xref-for-internals sb-impl:+internal-features+)
(sb-c::repack-xref :verbose 1))
(fmakunbound 'sb-c::repack-xref)
(load (merge-pathnames "src/code/shaketree" *load-pathname*))
(defun asm-inst-p (symbol)
;; Assembler instruction names can't be made external because to do so would
;; conflict with common-lisp symbols. Notable examples are PUSH and POP.
;; So other criteria must pertain to detecting the important symbols.
;; And as we don't need to preserve Lisp macros but do need to retain
;; assembler macro instructions, those merit special consideration.
;; Additionally, a DEFUN may co-exist with an identically named macro
;; instruction. (I'm not happy about it, but that's historical baggage).
;; A macro instruction is recognizable to INST by a naming convention
;; that is unused for anything else by way of being inconvenient to use -
;; a symbol whose print name start with "M:" is a macro instruction.
(or (get symbol 'sb-disassem::instructions)
(let ((name (string symbol)))
(and (> (length name) 2)
(string= name "M:" :end1 2)))))
(let ((counts
(mapcar (lambda (x)
(list x
(sb-impl::package-external-symbol-count x)
(sb-impl::package-internal-symbol-count x)))
(sort (list-all-packages) #'string< :key 'package-name))))
(sb-impl::shake-packages
;; Development mode: retain all symbols with any system-related properties
#+sb-devel
(lambda (symbol accessibility)
(declare (ignore accessibility))
(or (sb-kernel:symbol-%info symbol)
(sb-kernel:%symbol-function symbol)
(and (boundp symbol) (not (keywordp symbol)))))
;; Release mode: retain all symbols satisfying this intricate test
#-sb-devel
(lambda (symbol accessibility)
(case (symbol-package symbol)
(#.(find-package "SB-VM")
(or (eq accessibility :external)
;; overapproximate what we need for contribs and tests
(member symbol '(sb-vm::map-referencing-objects
sb-vm::map-stack-references
sb-vm::reconstitute-object
sb-vm::points-to-arena
;; need this for defining a vop which
;; tests the x86-64 allocation profiler
sb-vm::pseudo-atomic
;; Naughty outside-world code uses these.
#+x86-64 sb-vm::reg-in-size))
(let ((s (string symbol))) (and (search "THREAD-" s) (search "-SLOT" s)))
(search "-OFFSET" (string symbol))
(search "-TN" (string symbol))))
(#.(find-package "SB-ALIEN")
(or (eq accessibility :external) (eq symbol 'sb-alien::alien-callback-p)))
(#.(mapcar 'find-package
'("SB-ASSEM" "SB-BROTHERTREE" "SB-C" "SB-DISASSEM" "SB-FORMAT"
"SB-IMPL" "SB-KERNEL" "SB-MOP" "SB-PCL" "SB-PRETTY" "SB-PROFILE"
"SB-REGALLOC" "SB-SYS" "SB-UNICODE" "SB-UNIX" "SB-WALKER"))
;; Assume all and only external symbols must be retained
(eq accessibility :external))
(#.(find-package "SB-LOOP")
(or (eq accessibility :external)
;; Retain some internals to keep CLSQL working.
(member symbol '(sb-loop::*loop-epilogue*
sb-loop::add-loop-path))))
(#.(find-package "SB-LOCKLESS")
(or (eq accessibility :external)
(member symbol '(sb-lockless::+hash-nbits+)))) ; for a test
(#.(find-package "SB-THREAD")
(or (eq accessibility :external)
;; for some reason a recent change caused the tree-shaker to drop MAKE-SPINLOCK
;; which makes sense. I'm not sure what was rooting the symbol.
;; However the :spinlock-api test in threads.impure asserts that spinlock symbols
;; exist despite being internal symbols.
(sb-int:info :function :deprecated symbol)))
(#.(find-package "SB-FASL")
;; Retain +BACKEND-FASL-FILE-IMPLEMENTATION+ and +FASL-FILE-VERSION+
;; (and anything else otherwise reachable)
(and (eq accessibility :external)
(constantp symbol)))
(#.(find-package "SB-BIGNUM")
;; There are 2 important external symbols for sb-gmp.
;; Other externals can disappear.
(member symbol '(sb-bignum:%allocate-bignum
sb-bignum:make-small-bignum)))
(t
(if (eq (symbol-package symbol)
sb-assem::*backend-instruction-set-package*)
(or (eq accessibility :external) (asm-inst-p symbol))
;; By default, retain any symbol with any attachments
(or (sb-kernel:symbol-%info symbol)
(sb-kernel:%symbol-function symbol)
(and (boundp symbol) (not (keywordp symbol))))))))
:verbose nil :print nil)
(unintern 'sb-impl::shake-packages 'sb-impl)
(let ((sum-delta-ext 0)
(sum-delta-int 0))
(format t "~&~26TExternal | Internal~%")
(dolist (entry counts)
(let* ((ext (sb-impl::package-external-symbol-count (car entry)))
(int (sb-impl::package-internal-symbol-count (car entry)))
(delta-ext (- ext (cadr entry)))
(delta-int (- int (caddr entry))))
(incf sum-delta-ext delta-ext)
(incf sum-delta-int delta-int)
(assert (<= delta-ext 0))
(assert (<= delta-int 0))
(format t "~20a | ~5d (~5@d) | ~5d (~5@d)~%"
(package-name (car entry))
ext delta-ext int delta-int)))
(format t "~28t (~5@d) | (~5@d) = (~d)~%"
sum-delta-ext sum-delta-int
(+ sum-delta-ext sum-delta-int))))
(scan-format-control-strings)
#+sb-devel
(rename-package "COMMON-LISP" "COMMON-LISP" '("SB-XC" "CL"))
;;; Lock internal packages
#-(and sb-devel
(not sb-devel-lock-packages))
(dolist (p (list-all-packages))
(unless (member p (mapcar #'find-package '("KEYWORD" "CL-USER")))
(sb-ext:lock-package p)))
;;; Clean up stray symbols from the CL-USER package.
(with-package-iterator (iter "CL-USER" :internal :external)
(loop (multiple-value-bind (winp symbol) (iter)
(if winp (unintern symbol "CL-USER") (return)))))
(setq sb-c:*compile-to-memory-space* :auto)
(when (find-package "SB-INTERPRETER") (setq sb-ext:*evaluator-mode* :interpret))
#+x86-64 (sb-ext:fold-identical-code :aggressive t :preserve-docstrings t)
;; See comments in 'readtable.lisp'
(setf (readtable-base-char-preference *readtable*) :symbols)
"done with warm.lisp, about to SAVE-LISP-AND-DIE"
#|
This is the actual "name" of a toplevel code component that gets dumped to fasl
when compiling src/pcl/boot. Not only does it contain a format control string in
its raw representation, this is a complete and utter waste of time to dump.
We really ought to try a LOT harder not to produce such garbage metadata:
* (progn (terpri)
(write (sb-c::compiled-debug-fun-toplevel-name
(elt (sb-c::compiled-debug-info-fun-map *cdi*) 0))
:level nil :length nil))
(SB-C::TOP-LEVEL-FORM
(LABELS ((WARN-PARSE (SPECIALIZER &OPTIONAL CONDITION)
(STYLE-WARN "~@<Cannot parse specializer ~S in ~S~@[: ~A~].~@:>"
SPECIALIZER # CONDITION))
(WARN-FIND (CONDITION NAME PROTO-GENERIC-FUNCTION PROTO-METHOD)
(WARN CONDITION :FORMAT-CONTROL
#<(SIMPLE-BASE-STRING
228) ~@<Cannot find type for specializer ~
~/sb-ext:print-symbol-with-prefix/ when executing ~S ~
for a ~/sb-impl:print-type-specifier/ of a ~
~/sb-imp... {1003A2BC8F}>
:FORMAT-ARGUMENTS #))
(CLASS-NAME-TYPE-SPECIFIER
(NAME PROTO-GENERIC-FUNCTION PROTO-METHOD &OPTIONAL #)
(LET #
#)))
(DEFUN REAL-SPECIALIZER-TYPE-SPECIFIER/SYMBOL
(PROTO-GENERIC-FUNCTION PROTO-METHOD SPECIALIZER)
(LET (#)
(WHEN SPECIALIZER #)))
(DEFUN REAL-SPECIALIZER-TYPE-SPECIFIER/T
(PROTO-GENERIC-FUNCTION PROTO-METHOD SPECIALIZER)
(LET (#)
(WHEN SPECIALIZER #)))
(DEFUN REAL-SPECIALIZER-TYPE-SPECIFIER/CLASS-EQ-SPECIALIZER
(PROTO-GENERIC-FUNCTION PROTO-METHOD SPECIALIZER)
(SPECIALIZER-TYPE-SPECIFIER PROTO-GENERIC-FUNCTION PROTO-METHOD
(SPECIALIZER-CLASS SPECIALIZER)))
(DEFUN REAL-SPECIALIZER-TYPE-SPECIFIER/EQL-SPECIALIZER
(PROTO-GENERIC-FUNCTION PROTO-METHOD SPECIALIZER)
(DECLARE (IGNORE PROTO-GENERIC-FUNCTION PROTO-METHOD))
`(EQL SB-IMPL::COMMA))
(DEFUN REAL-SPECIALIZER-TYPE-SPECIFIER/STRUCTURE-CLASS
(PROTO-GENERIC-FUNCTION PROTO-METHOD SPECIALIZER)
(DECLARE (IGNORE PROTO-GENERIC-FUNCTION PROTO-METHOD))
(CLASS-NAME SPECIALIZER))
(DEFUN REAL-SPECIALIZER-TYPE-SPECIFIER/SYSTEM-CLASS
(PROTO-GENERIC-FUNCTION PROTO-METHOD SPECIALIZER)
(DECLARE (IGNORE PROTO-GENERIC-FUNCTION PROTO-METHOD))
(CLASS-NAME SPECIALIZER))
(DEFUN REAL-SPECIALIZER-TYPE-SPECIFIER/CLASS
(PROTO-GENERIC-FUNCTION PROTO-METHOD SPECIALIZER)
(LET (#)
(WHEN # #)))))
|#