1 ;;;; miscellaneous functions which use INFO
3 ;;;; (In CMU CL, these were in globaldb.lisp. They've been moved here
4 ;;;; because references to INFO can't be compiled correctly until
5 ;;;; globaldb initialization is complete, and the SBCL technique for
6 ;;;; initializing the global database in the cross-compiler isn't
7 ;;;; completed until load time.)
9 ;;;; This software is part of the SBCL system. See the README file for
10 ;;;; more information.
12 ;;;; This software is derived from the CMU CL system, which was
13 ;;;; written at Carnegie Mellon University and released into the
14 ;;;; public domain. The software is in the public domain and is
15 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
16 ;;;; files for more information.
20 ;;;; internal utilities defined in terms of INFO
22 ;;; Check that NAME is a valid function name, returning the name if
23 ;;; OK, and signalling an error if not. In addition to checking for
24 ;;; basic well-formedness, we also check that symbol names are not NIL
25 ;;; or the name of a special form.
26 (defun check-fun-name (name)
29 (unless (legal-fun-name-p name)
30 (compiler-error "illegal function name: ~S" name)))
32 (when (eq (info :function :kind name) :special-form)
33 (compiler-error "Special form is an illegal function name: ~S" name)))
35 (compiler-error "illegal function name: ~S" name)))
38 ;;; Record a new function definition, and check its legality.
39 (defun proclaim-as-fun-name (name)
45 ;; KLUDGE: This can happen when eg. compiling a NAMED-LAMBDA, and isn't
46 ;; guarded against elsewhere -- so we want to assert package locks here. The
47 ;; reason we do it only when stomping on existing stuff is because we want
49 ;; (WITHOUT-PACKAGE-LOCKS (DEFUN LOCKED:FOO ...))
50 ;; viable, which requires no compile-time violations in the harmless cases.
51 (with-single-package-locked-error ()
53 (assert-symbol-home-package-unlocked name "proclaiming ~S as a function")))
55 (let ((kind (info :function :kind name)))
56 ;; scrubbing old data I: possible collision with a macro
57 (when (and (fboundp name) (eq :macro kind))
59 (compiler-style-warn "~S was previously defined as a macro." name)
60 (setf (info :function :where-from name) :assumed)
61 (clear-info :function :macro-function name))
63 (unless (eq :function kind)
65 (setf (info :function :kind name) :function)))))
67 ;; scrubbing old data II: dangling forward references
69 ;; (This could happen if someone executes PROCLAIM FTYPE at
70 ;; macroexpansion time, which is bad style, or at compile time, e.g.
71 ;; in EVAL-WHEN (:COMPILE) inside something like DEFSTRUCT, in which
72 ;; case it's reasonable style. Either way, NAME is no longer a free
74 (when (boundp '*free-funs*) ; when compiling
75 (remhash name *free-funs*))
77 (note-if-setf-fun-and-macro name)
81 ;;; This is called to do something about SETF functions that overlap
82 ;;; with SETF macros. Perhaps we should interact with the user to see
83 ;;; whether the macro should be blown away, but for now just give a
84 ;;; warning. Due to the weak semantics of the (SETF FUNCTION) name, we
85 ;;; can't assume that they aren't just naming a function (SETF FOO)
86 ;;; for the heck of it. NAME is already known to be well-formed.
87 (defun note-if-setf-fun-and-macro (name)
89 (when (or (info :setf :inverse name)
90 (info :setf :expander name))
92 "defining as a SETF function a name that already has a SETF macro:~
97 ;;; Make NAME no longer be a function name: clear everything back to
99 (defun undefine-fun-name (name)
101 (macrolet ((frob (type &optional val)
102 `(unless (eq (info :function ,type name) ,val)
103 (setf (info :function ,type name) ,val))))
105 (frob :type (specifier-type 'function))
106 (frob :where-from :assumed)
109 (frob :inline-expansion-designator)
110 (frob :source-transform)
111 (frob :structure-accessor)
112 (frob :assumed-type)))
115 ;;; part of what happens with DEFUN, also with some PCL stuff: Make
116 ;;; NAME known to be a function definition.
117 (defun become-defined-fun-name (name)
118 (proclaim-as-fun-name name)
119 (when (eq (info :function :where-from name) :assumed)
120 (setf (info :function :where-from name) :defined)
121 (if (info :function :assumed-type name)
122 (setf (info :function :assumed-type name) nil))))
124 ;;; Decode any raw (INFO :FUNCTION :INLINE-EXPANSION-DESIGNATOR FUN-NAME)
125 ;;; value into a lambda expression, or return NIL if there is none.
126 (declaim (ftype (function ((or symbol cons)) list) fun-name-inline-expansion))
127 (defun fun-name-inline-expansion (fun-name)
128 (let ((info (info :function :inline-expansion-designator fun-name)))
133 ;;;; ANSI Common Lisp functions which are defined in terms of the info
136 (defun sb!xc:macro-function (symbol &optional env)
138 "If SYMBOL names a macro in ENV, returns the expansion function,
139 else returns NIL. If ENV is unspecified or NIL, use the global environment
141 (declare (symbol symbol))
142 (let* ((fenv (when env (lexenv-funs env)))
143 (local-def (cdr (assoc symbol fenv))))
145 (if (and (consp local-def) (eq (car local-def) 'macro))
148 ((eq (info :function :kind symbol) :macro)
149 (values (info :function :macro-function symbol)))
153 (defun (setf sb!xc:macro-function) (function symbol &optional environment)
154 (declare (symbol symbol) (type function function))
156 ;; Note: Technically there could be an ENV optional argument to SETF
157 ;; MACRO-FUNCTION, but since ANSI says that the consequences of
158 ;; supplying a non-nil one are undefined, we don't allow it.
159 ;; (Thus our implementation of this unspecified behavior is to
160 ;; complain. SInce the behavior is unspecified, this is conforming.:-)
161 (error "Non-NIL environment argument in SETF of MACRO-FUNCTION ~S: ~S"
163 (when (eq (info :function :kind symbol) :special-form)
164 (error "~S names a special form." symbol))
165 (with-single-package-locked-error (:symbol symbol "setting the macro-function of ~S")
166 (setf (info :function :kind symbol) :macro)
167 (setf (info :function :macro-function symbol) function)
168 ;; This is a nice thing to have in the target SBCL, but in the
169 ;; cross-compilation host it's not nice to mess with
170 ;; (SYMBOL-FUNCTION FOO) where FOO might be a symbol in the
171 ;; cross-compilation host's COMMON-LISP package.
173 (setf (symbol-function symbol)
175 (declare (ignore args))
176 ;; (ANSI specification of FUNCALL says that this should be
177 ;; an error of type UNDEFINED-FUNCTION, not just SIMPLE-ERROR.)
178 (error 'undefined-function :name symbol))))
181 (defun fun-locally-defined-p (name env)
183 (let ((fun (cdr (assoc name (lexenv-funs env) :test #'equal))))
184 (and fun (not (global-var-p fun))))))
186 (defun sb!xc:compiler-macro-function (name &optional env)
188 "If NAME names a compiler-macro in ENV, return the expansion function, else
189 return NIL. Can be set with SETF when ENV is NIL."
190 (legal-fun-name-or-type-error name)
191 ;; CLHS 3.2.2.1: Creating a lexical binding for the function name
192 ;; not only creates a new local function or macro definition, but
193 ;; also shadows[2] the compiler macro.
194 (unless (fun-locally-defined-p name env)
195 ;; Note: CMU CL used to return NIL here when a NOTINLINE
196 ;; declaration was in force. That's fairly logical, given the
197 ;; specified effect of NOTINLINE declarations on compiler-macro
198 ;; expansion. However, (1) it doesn't seem to be consistent with
199 ;; the ANSI spec for COMPILER-MACRO-FUNCTION, and (2) it would
200 ;; give surprising behavior for (SETF (COMPILER-MACRO-FUNCTION
201 ;; FOO) ...) in the presence of a (PROCLAIM '(NOTINLINE FOO)). So
203 (values (info :function :compiler-macro-function name))))
205 (defun (setf sb!xc:compiler-macro-function) (function name &optional env)
206 (declare (type (or symbol list) name)
207 (type (or function null) function))
209 ;; ANSI says this operation is undefined.
210 (error "can't SETF COMPILER-MACRO-FUNCTION when ENV is non-NIL"))
211 (when (eq (info :function :kind name) :special-form)
212 (error "~S names a special form." name))
213 (with-single-package-locked-error
214 (:symbol name "setting the compiler-macro-function of ~A")
215 (setf (info :function :compiler-macro-function name) function)
218 ;;;; a subset of DOCUMENTATION functionality for bootstrapping
220 ;;; FDOCUMENTATION is like DOCUMENTATION, but with less functionality,
221 ;;; and implemented with DEFUN instead of DEFGENERIC so that it can
222 ;;; run before CLOS is set up. Supported DOC-TYPE values are
229 ;;; FIXME: Other types end up in INFO :RANDOM-DOCUMENTATION :STUFF. I
230 ;;; should add some code to monitor this and make sure that nothing is
231 ;;; unintentionally being sent to never never land this way.
232 ;;; FIXME: Rename FDOCUMENTATION to BDOCUMENTATION, by analogy with
233 ;;; DEF!STRUCT and DEF!MACRO and so forth. And consider simply saving
234 ;;; all the BDOCUMENTATION entries in a *BDOCUMENTATION* hash table
235 ;;; and slamming them into PCL once PCL gets going.
236 (defun fdocumentation (x doc-type)
240 (symbol (values (info :variable :documentation x)))))
241 ;; FUNCTION is not used at the momemnt, just here for symmetry.
245 ((and (legal-fun-name-p x) (fboundp x))
246 (%fun-doc (or (and (symbolp x) (macro-function x))
251 ((eq (info :type :kind x) :instance)
252 (values (info :type :documentation x)))
253 ((info :typed-structure :info x)
254 (values (info :typed-structure :documentation x)))))))
257 (structure-class (values (info :type :documentation (class-name x))))
258 (t (and (typep x 'symbol) (values (info :type :documentation x))))))
259 (setf (values (info :setf :documentation x)))
262 (function (%fun-doc x))
263 (package (package-doc-string x))
264 (structure-class (values (info :type :documentation (class-name x))))
266 (random-documentation x doc-type))))
268 (when (typep x '(or symbol cons))
269 (random-documentation x doc-type)))))
271 (defun (setf fdocumentation) (string name doc-type)
272 (declare (type (or null string) string))
274 (variable (setf (info :variable :documentation name) string))
276 ;; KLUDGE: FDEFINITION isn't ready early enough during cold-init, so
277 ;; special case for symbols.
279 (setf (%fun-doc (symbol-function name)) string)
280 (when (legal-fun-name-p name)
281 (setf (%fun-doc (fdefinition name)) string))))
283 ((eq (info :type :kind name) :instance)
284 (setf (info :type :documentation name) string))
285 ((info :typed-structure :info name)
286 (setf (info :typed-structure :documentation name) string))))
287 (type (setf (info :type :documentation name) string))
288 (setf (setf (info :setf :documentation name) string))
290 (when (typep name '(or symbol cons))
291 (setf (random-documentation name doc-type) string))))
294 (defun random-documentation (name type)
295 (cdr (assoc type (info :random-documentation :stuff name))))
297 (defun (setf random-documentation) (new-value name type)
298 (let ((pair (assoc type (info :random-documentation :stuff name))))
300 (setf (cdr pair) new-value)
301 (push (cons type new-value)
302 (info :random-documentation :stuff name))))