1 ;;;; This file contains functions that hack on the global function
2 ;;;; namespace (primarily concerned with SETF functions here). Also,
3 ;;;; function encapsulation and routines that set and return
4 ;;;; definitions disregarding whether they might be encapsulated.
6 ;;;; This software is part of the SBCL system. See the README file for
9 ;;;; This software is derived from the CMU CL system, which was
10 ;;;; written at Carnegie Mellon University and released into the
11 ;;;; public domain. The software is in the public domain and is
12 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
13 ;;;; files for more information.
15 (in-package "SB!IMPL")
17 (sb!int
::/show0
"fdefinition.lisp 22")
19 ;;;; fdefinition (fdefn) objects
21 (defun make-fdefn (name)
24 (defun fdefn-name (fdefn)
25 (declare (type fdefn fdefn
))
28 (defun fdefn-fun (fdefn)
29 (declare (type fdefn fdefn
)
30 (values (or function null
)))
33 (defun (setf fdefn-fun
) (fun fdefn
)
34 (declare (type function fun
)
37 (setf (fdefn-fun fdefn
) fun
))
39 (defun fdefn-makunbound (fdefn)
40 (declare (type fdefn fdefn
))
41 (fdefn-makunbound fdefn
))
43 ;;; This function is called by !COLD-INIT after the globaldb has been
44 ;;; initialized, but before anything else. We need to install these
45 ;;; fdefn objects into the globaldb before any top level forms run, or
46 ;;; we will end up with two different fdefn objects being used for the
47 ;;; same function name. *!INITIAL-FDEFN-OBJECTS* is set up by GENESIS.
48 (defvar *!initial-fdefn-objects
*)
49 (defun !fdefn-cold-init
()
50 (dolist (fdefn *!initial-fdefn-objects
*)
51 (setf (info :function
:definition
(fdefn-name fdefn
)) fdefn
)))
53 ;;; Return the fdefn object for NAME. If it doesn't already exist and
54 ;;; CREATE is non-NIL, create a new (unbound) one.
55 (defun fdefinition-object (name create
)
56 (declare (values (or fdefn null
)))
57 (legal-fun-name-or-type-error name
)
58 (let ((fdefn (info :function
:definition name
)))
59 (if (and (null fdefn
) create
)
60 (setf (info :function
:definition name
) (make-fdefn name
))
63 ;;; Return the fdefinition of NAME, including any encapsulations.
64 ;;; The compiler emits calls to this when someone tries to FUNCALL
65 ;;; something. SETFable.
66 #!-sb-fluid
(declaim (inline %coerce-name-to-fun
))
67 (defun %coerce-name-to-fun
(name)
68 (let ((fdefn (fdefinition-object name nil
)))
69 (or (and fdefn
(fdefn-fun fdefn
))
70 (error 'undefined-function
:name name
))))
71 (defun (setf %coerce-name-to-fun
) (function name
)
72 (let ((fdefn (fdefinition-object name t
)))
73 (setf (fdefn-fun fdefn
) function
)))
75 (defun %coerce-callable-to-fun
(callable)
76 (if (functionp callable
)
78 (%coerce-name-to-fun callable
)))
80 ;;;; definition encapsulation
82 (defstruct (encapsulation-info (:constructor make-encapsulation-info
85 ;; This is definition's encapsulation type. The encapsulated
86 ;; definition is in the previous ENCAPSULATION-INFO element or
87 ;; installed as the global definition of some function name.
89 ;; the previous, encapsulated definition. This used to be installed
90 ;; as a global definition for some function name, but it was
91 ;; replaced by an encapsulation of type TYPE.
92 (definition nil
:type function
))
94 ;;; Replace the definition of NAME with a function that binds NAME's
95 ;;; arguments to a variable named ARG-LIST, binds name's definition
96 ;;; to a variable named BASIC-DEFINITION, and evaluates BODY in that
97 ;;; context. TYPE is whatever you would like to associate with this
98 ;;; encapsulation for identification in case you need multiple
99 ;;; encapsulations of the same name.
100 (defun encapsulate (name type body
)
101 (let ((fdefn (fdefinition-object name nil
)))
102 (unless (and fdefn
(fdefn-fun fdefn
))
103 (error 'undefined-function
:name name
))
104 ;; We must bind and close over INFO. Consider the case where we
105 ;; encapsulate (the second) an encapsulated (the first)
106 ;; definition, and later someone unencapsulates the encapsulated
107 ;; (first) definition. We don't want our encapsulation (second) to
108 ;; bind basic-definition to the encapsulated (first) definition
109 ;; when it no longer exists. When unencapsulating, we make sure to
110 ;; clobber the appropriate INFO structure to allow
111 ;; basic-definition to be bound to the next definition instead of
112 ;; an encapsulation that no longer exists.
113 (let ((info (make-encapsulation-info type
(fdefn-fun fdefn
))))
114 (setf (fdefn-fun fdefn
)
115 (named-lambda encapsulation
(&rest arg-list
)
116 (declare (special arg-list
))
117 (let ((basic-definition (encapsulation-info-definition info
)))
118 (declare (special basic-definition
))
121 ;;; This is like FIND-IF, except that we do it on a compiled closure's
123 (defun find-if-in-closure (test fun
)
124 (declare (type function test
))
125 (dotimes (index (1- (get-closure-length fun
)))
126 (let ((elt (%closure-index-ref fun index
)))
127 (when (funcall test elt
)
130 ;;; Find the encapsulation info that has been closed over.
131 (defun encapsulation-info (fun)
133 (= (widetag-of fun
) sb
!vm
:closure-header-widetag
)
134 (find-if-in-closure #'encapsulation-info-p fun
)))
136 ;;; When removing an encapsulation, we must remember that
137 ;;; encapsulating definitions close over a reference to the
138 ;;; ENCAPSULATION-INFO that describes the encapsulating definition.
139 ;;; When you find an info with the target type, the previous info in
140 ;;; the chain has the ensulating definition of that type. We take the
141 ;;; encapsulated definition from the info with the target type, and we
142 ;;; store it in the previous info structure whose encapsulating
143 ;;; definition it describes looks to this previous info structure for
144 ;;; a definition to bind (see ENCAPSULATE). When removing the first
145 ;;; info structure, we do something conceptually equal, but
146 ;;; mechanically it is different.
147 (defun unencapsulate (name type
)
149 "Removes NAME's most recent encapsulation of the specified TYPE."
150 (let* ((fdefn (fdefinition-object name nil
))
151 (encap-info (encapsulation-info (fdefn-fun fdefn
))))
152 (declare (type (or encapsulation-info null
) encap-info
))
153 (cond ((not encap-info
)
154 ;; It disappeared on us, so don't worry about it.
156 ((eq (encapsulation-info-type encap-info
) type
)
157 ;; It's the first one, so change the fdefn object.
158 (setf (fdefn-fun fdefn
)
159 (encapsulation-info-definition encap-info
)))
161 ;; It must be an interior one, so find it.
163 (let ((next-info (encapsulation-info
164 (encapsulation-info-definition encap-info
))))
166 ;; Not there, so don't worry about it.
168 (when (eq (encapsulation-info-type next-info
) type
)
169 ;; This is it, so unlink us.
170 (setf (encapsulation-info-definition encap-info
)
171 (encapsulation-info-definition next-info
))
173 (setf encap-info next-info
))))))
176 ;;; Does NAME have an encapsulation of the given TYPE?
177 (defun encapsulated-p (name type
)
178 (let ((fdefn (fdefinition-object name nil
)))
179 (do ((encap-info (encapsulation-info (fdefn-fun fdefn
))
181 (encapsulation-info-definition encap-info
))))
182 ((null encap-info
) nil
)
183 (declare (type (or encapsulation-info null
) encap-info
))
184 (when (eq (encapsulation-info-type encap-info
) type
)
189 ;;; KLUDGE: Er, it looks as though this means that
190 ;;; (FUNCALL (FDEFINITION 'FOO))
191 ;;; doesn't do the same thing as
193 ;;; and (SYMBOL-FUNCTION 'FOO) isn't in general the same thing
194 ;;; as (FDEFINITION 'FOO). That doesn't look like ANSI behavior to me.
195 ;;; Look e.g. at the ANSI definition of TRACE: "Whenever a traced
196 ;;; function is invoked, information about the call, ..". Try this:
197 ;;; (DEFUN FOO () (PRINT "foo"))
200 ;;; (FUNCALL (FDEFINITION 'FOO))
201 ;;; What to do? ANSI says TRACE "Might change the definitions of the
202 ;;; functions named by function-names." Might it be OK to just get
203 ;;; punt all this encapsulation stuff and go back to a simple but
204 ;;; correct implementation of TRACE? We'd lose the ability to redefine
205 ;;; a TRACEd function and keep the trace in place, but that seems
206 ;;; tolerable to me. (Is the wrapper stuff needed for anything else
209 ;;; The only problem I can see with not having a wrapper: If tracing
210 ;;; EQ, EQL, EQUAL, or EQUALP causes its function address to change,
211 ;;; it will mess up the MAKE-HASH-TABLE logic which uses EQ tests
212 ;;; on those function values. But given the ANSI statement about
213 ;;; TRACE causing things to change, that doesn't seem too unreasonable;
214 ;;; and we might even be able to forbid tracing these functions.
215 ;;; -- WHN 2001-11-02
216 (defun fdefinition (name)
218 "Return name's global function definition taking care to respect any
219 encapsulations and to return the innermost encapsulated definition.
221 (let ((fun (%coerce-name-to-fun name
)))
223 (let ((encap-info (encapsulation-info fun
)))
225 (setf fun
(encapsulation-info-definition encap-info
))
228 (defvar *setf-fdefinition-hook
* nil
230 "A list of functions that (SETF FDEFINITION) invokes before storing the
231 new value. The functions take the function name and the new value.")
233 (defun %set-fdefinition
(name new-value
)
235 "Set NAME's global function definition."
236 (declare (type function new-value
) (optimize (safety 1)))
237 (with-single-package-locked-error (:symbol name
"setting fdefinition of ~A")
238 (let ((fdefn (fdefinition-object name t
)))
239 ;; *SETF-FDEFINITION-HOOK* won't be bound when initially running
240 ;; top level forms in the kernel core startup.
241 (when (boundp '*setf-fdefinition-hook
*)
242 (dolist (f *setf-fdefinition-hook
*)
243 (declare (type function f
))
244 (funcall f name new-value
)))
246 (let ((encap-info (encapsulation-info (fdefn-fun fdefn
))))
251 (encapsulation-info-definition encap-info
))))
253 (setf encap-info more-info
)
255 (setf (encapsulation-info-definition encap-info
)
258 (setf (fdefn-fun fdefn
) new-value
)))))))
260 ;;;; FBOUNDP and FMAKUNBOUND
262 (defun fboundp (name)
264 "Return true if name has a global function definition."
265 (let ((fdefn (fdefinition-object name nil
)))
266 (and fdefn
(fdefn-fun fdefn
) t
)))
268 (defun fmakunbound (name)
270 "Make NAME have no global function definition."
271 (with-single-package-locked-error
272 (:symbol name
"removing the function or macro definition of ~A")
273 (let ((fdefn (fdefinition-object name nil
)))
275 (fdefn-makunbound fdefn
)))
276 (sb!kernel
:undefine-fun-name name
)