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1 | ;;; eieio.el --- Enhanced Implementation of Emacs Interpreted Objects |
2 | ;;; or maybe Eric's Implementation of Emacs Intrepreted Objects | |
3 | ||
9ffe3f52 | 4 | ;; Copyright (C) 1995, 1996, 1998, 1999, 2000, 2001, 2002, 2003, 2004, |
114f9c96 | 5 | ;; 2005, 2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc. |
6dd12ef2 | 6 | |
9ffe3f52 | 7 | ;; Author: Eric M. Ludlam <zappo@gnu.org> |
6dd12ef2 CY |
8 | ;; Version: 0.2 |
9 | ;; Keywords: OO, lisp | |
10 | ||
11 | ;; This file is part of GNU Emacs. | |
12 | ||
13 | ;; GNU Emacs is free software: you can redistribute it and/or modify | |
14 | ;; it under the terms of the GNU General Public License as published by | |
15 | ;; the Free Software Foundation, either version 3 of the License, or | |
16 | ;; (at your option) any later version. | |
17 | ||
18 | ;; GNU Emacs is distributed in the hope that it will be useful, | |
19 | ;; but WITHOUT ANY WARRANTY; without even the implied warranty of | |
20 | ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the | |
21 | ;; GNU General Public License for more details. | |
22 | ||
23 | ;; You should have received a copy of the GNU General Public License | |
24 | ;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>. | |
25 | ||
26 | ;;; Commentary: | |
27 | ;; | |
28 | ;; EIEIO is a series of Lisp routines which implements a subset of | |
29 | ;; CLOS, the Common Lisp Object System. In addition, EIEIO also adds | |
30 | ;; a few new features which help it integrate more strongly with the | |
31 | ;; Emacs running environment. | |
32 | ;; | |
33 | ;; See eieio.texi for complete documentation on using this package. | |
34 | ||
35 | ;; There is funny stuff going on with typep and deftype. This | |
36 | ;; is the only way I seem to be able to make this stuff load properly. | |
37 | ||
38 | ;; @TODO - fix :initform to be a form, not a quoted value | |
39 | ;; @TODO - Prefix non-clos functions with `eieio-'. | |
40 | ||
41 | ;;; Code: | |
42 | ||
67868d26 CY |
43 | (eval-when-compile |
44 | (require 'cl) | |
45 | (require 'eieio-comp)) | |
6dd12ef2 CY |
46 | |
47 | (defvar eieio-version "1.2" | |
48 | "Current version of EIEIO.") | |
49 | ||
50 | (defun eieio-version () | |
51 | "Display the current version of EIEIO." | |
52 | (interactive) | |
53 | (message eieio-version)) | |
54 | ||
55 | (eval-and-compile | |
a8f316ca | 56 | ;; About the above. EIEIO must process its own code when it compiles |
6dd12ef2 CY |
57 | ;; itself, thus, by eval-and-compiling outselves, we solve the problem. |
58 | ||
59 | ;; Compatibility | |
60 | (if (fboundp 'compiled-function-arglist) | |
61 | ||
62 | ;; XEmacs can only access a compiled functions arglist like this: | |
63 | (defalias 'eieio-compiled-function-arglist 'compiled-function-arglist) | |
64 | ||
65 | ;; Emacs doesn't have this function, but since FUNC is a vector, we can just | |
66 | ;; grab the appropriate element. | |
67 | (defun eieio-compiled-function-arglist (func) | |
68 | "Return the argument list for the compiled function FUNC." | |
69 | (aref func 0)) | |
70 | ||
71 | ) | |
72 | ||
73 | \f | |
74 | ;;; | |
75 | ;; Variable declarations. | |
76 | ;; | |
77 | ||
78 | (defvar eieio-hook nil | |
79 | "*This hook is executed, then cleared each time `defclass' is called.") | |
80 | ||
81 | (defvar eieio-error-unsupported-class-tags nil | |
db9e401b | 82 | "*Non-nil to throw an error if an encountered tag us unsupported. |
6dd12ef2 CY |
83 | This may prevent classes from CLOS applications from being used with EIEIO |
84 | since EIEIO does not support all CLOS tags.") | |
85 | ||
86 | (defvar eieio-skip-typecheck nil | |
87 | "*If non-nil, skip all slot typechecking. | |
88 | Set this to t permanently if a program is functioning well to get a | |
89 | small speed increase. This variable is also used internally to handle | |
90 | default setting for optimization purposes.") | |
91 | ||
92 | (defvar eieio-optimize-primary-methods-flag t | |
93 | "Non-nil means to optimize the method dispatch on primary methods.") | |
94 | ||
95 | ;; State Variables | |
96 | (defvar this nil | |
97 | "Inside a method, this variable is the object in question. | |
98 | DO NOT SET THIS YOURSELF unless you are trying to simulate friendly slots. | |
99 | ||
100 | Note: Embedded methods are no longer supported. The variable THIS is | |
101 | still set for CLOS methods for the sake of routines like | |
a8f316ca | 102 | `call-next-method'.") |
6dd12ef2 CY |
103 | |
104 | (defvar scoped-class nil | |
105 | "This is set to a class when a method is running. | |
106 | This is so we know we are allowed to check private parts or how to | |
107 | execute a `call-next-method'. DO NOT SET THIS YOURSELF!") | |
108 | ||
109 | (defvar eieio-initializing-object nil | |
110 | "Set to non-nil while initializing an object.") | |
111 | ||
112 | (defconst eieio-unbound | |
113 | (if (and (boundp 'eieio-unbound) (symbolp eieio-unbound)) | |
114 | eieio-unbound | |
115 | (make-symbol "unbound")) | |
116 | "Uninterned symbol representing an unbound slot in an object.") | |
117 | ||
118 | ;; This is a bootstrap for eieio-default-superclass so it has a value | |
119 | ;; while it is being built itself. | |
120 | (defvar eieio-default-superclass nil) | |
121 | ||
122 | (defconst class-symbol 1 "Class's symbol (self-referencing.).") | |
123 | (defconst class-parent 2 "Class parent slot.") | |
124 | (defconst class-children 3 "Class children class slot.") | |
125 | (defconst class-symbol-obarray 4 "Obarray permitting fast access to variable position indexes.") | |
126 | ;; @todo | |
127 | ;; the word "public" here is leftovers from the very first version. | |
128 | ;; Get rid of it! | |
129 | (defconst class-public-a 5 "Class attribute index.") | |
130 | (defconst class-public-d 6 "Class attribute defaults index.") | |
131 | (defconst class-public-doc 7 "Class documentation strings for attributes.") | |
132 | (defconst class-public-type 8 "Class type for a slot.") | |
133 | (defconst class-public-custom 9 "Class custom type for a slot.") | |
134 | (defconst class-public-custom-label 10 "Class custom group for a slot.") | |
135 | (defconst class-public-custom-group 11 "Class custom group for a slot.") | |
136 | (defconst class-public-printer 12 "Printer for a slot.") | |
137 | (defconst class-protection 13 "Class protection for a slot.") | |
138 | (defconst class-initarg-tuples 14 "Class initarg tuples list.") | |
139 | (defconst class-class-allocation-a 15 "Class allocated attributes.") | |
140 | (defconst class-class-allocation-doc 16 "Class allocated documentation.") | |
141 | (defconst class-class-allocation-type 17 "Class allocated value type.") | |
142 | (defconst class-class-allocation-custom 18 "Class allocated custom descriptor.") | |
143 | (defconst class-class-allocation-custom-label 19 "Class allocated custom descriptor.") | |
144 | (defconst class-class-allocation-custom-group 20 "Class allocated custom group.") | |
145 | (defconst class-class-allocation-printer 21 "Class allocated printer for a slot.") | |
146 | (defconst class-class-allocation-protection 22 "Class allocated protection list.") | |
147 | (defconst class-class-allocation-values 23 "Class allocated value vector.") | |
148 | (defconst class-default-object-cache 24 | |
149 | "Cache index of what a newly created object would look like. | |
150 | This will speed up instantiation time as only a `copy-sequence' will | |
151 | be needed, instead of looping over all the values and setting them | |
152 | from the default.") | |
153 | (defconst class-options 25 | |
154 | "Storage location of tagged class options. | |
155 | Stored outright without modifications or stripping.") | |
156 | ||
157 | (defconst class-num-slots 26 | |
158 | "Number of slots in the class definition object.") | |
159 | ||
160 | (defconst object-class 1 "Index in an object vector where the class is stored.") | |
161 | (defconst object-name 2 "Index in an object where the name is stored.") | |
162 | ||
163 | (defconst method-static 0 "Index into :static tag on a method.") | |
164 | (defconst method-before 1 "Index into :before tag on a method.") | |
165 | (defconst method-primary 2 "Index into :primary tag on a method.") | |
166 | (defconst method-after 3 "Index into :after tag on a method.") | |
167 | (defconst method-num-lists 4 "Number of indexes into methods vector in which groups of functions are kept.") | |
168 | (defconst method-generic-before 4 "Index into generic :before tag on a method.") | |
169 | (defconst method-generic-primary 5 "Index into generic :primary tag on a method.") | |
170 | (defconst method-generic-after 6 "Index into generic :after tag on a method.") | |
171 | (defconst method-num-slots 7 "Number of indexes into a method's vector.") | |
172 | ||
173 | ;; How to specialty compile stuff. | |
174 | (autoload 'byte-compile-file-form-defmethod "eieio-comp" | |
175 | "This function is used to byte compile methods in a nice way.") | |
176 | (put 'defmethod 'byte-hunk-handler 'byte-compile-file-form-defmethod) | |
177 | \f | |
178 | ;;; Important macros used in eieio. | |
179 | ;; | |
180 | (defmacro class-v (class) | |
181 | "Internal: Return the class vector from the CLASS symbol." | |
182 | ;; No check: If eieio gets this far, it's probably been checked already. | |
183 | `(get ,class 'eieio-class-definition)) | |
184 | ||
185 | (defmacro class-p (class) | |
186 | "Return t if CLASS is a valid class vector. | |
187 | CLASS is a symbol." | |
188 | ;; this new method is faster since it doesn't waste time checking lots of | |
189 | ;; things. | |
190 | `(condition-case nil | |
191 | (eq (aref (class-v ,class) 0) 'defclass) | |
192 | (error nil))) | |
193 | ||
194 | (defmacro eieio-object-p (obj) | |
195 | "Return non-nil if OBJ is an EIEIO object." | |
196 | `(condition-case nil | |
197 | (let ((tobj ,obj)) | |
198 | (and (eq (aref tobj 0) 'object) | |
199 | (class-p (aref tobj object-class)))) | |
200 | (error nil))) | |
201 | (defalias 'object-p 'eieio-object-p) | |
202 | ||
203 | (defmacro class-constructor (class) | |
204 | "Return the symbol representing the constructor of CLASS." | |
205 | `(aref (class-v ,class) class-symbol)) | |
206 | ||
207 | (defmacro generic-p (method) | |
208 | "Return t if symbol METHOD is a generic function. | |
a8f316ca JB |
209 | Only methods have the symbol `eieio-method-obarray' as a property |
210 | \(which contains a list of all bindings to that method type.)" | |
6dd12ef2 CY |
211 | `(and (fboundp ,method) (get ,method 'eieio-method-obarray))) |
212 | ||
213 | (defun generic-primary-only-p (method) | |
214 | "Return t if symbol METHOD is a generic function with only primary methods. | |
215 | Only methods have the symbol `eieio-method-obarray' as a property (which | |
216 | contains a list of all bindings to that method type.) | |
217 | Methods with only primary implementations are executed in an optimized way." | |
218 | (and (generic-p method) | |
219 | (let ((M (get method 'eieio-method-tree))) | |
220 | (and (< 0 (length (aref M method-primary))) | |
221 | (not (aref M method-static)) | |
222 | (not (aref M method-before)) | |
223 | (not (aref M method-after)) | |
224 | (not (aref M method-generic-before)) | |
225 | (not (aref M method-generic-primary)) | |
226 | (not (aref M method-generic-after)))) | |
227 | )) | |
228 | ||
229 | (defun generic-primary-only-one-p (method) | |
230 | "Return t if symbol METHOD is a generic function with only primary methods. | |
231 | Only methods have the symbol `eieio-method-obarray' as a property (which | |
232 | contains a list of all bindings to that method type.) | |
233 | Methods with only primary implementations are executed in an optimized way." | |
234 | (and (generic-p method) | |
235 | (let ((M (get method 'eieio-method-tree))) | |
236 | (and (= 1 (length (aref M method-primary))) | |
237 | (not (aref M method-static)) | |
238 | (not (aref M method-before)) | |
239 | (not (aref M method-after)) | |
240 | (not (aref M method-generic-before)) | |
241 | (not (aref M method-generic-primary)) | |
242 | (not (aref M method-generic-after)))) | |
243 | )) | |
244 | ||
245 | (defmacro class-option-assoc (list option) | |
a8f316ca JB |
246 | "Return from LIST the found OPTION. |
247 | Return nil if it doesn't exist." | |
6dd12ef2 CY |
248 | `(car-safe (cdr (memq ,option ,list)))) |
249 | ||
250 | (defmacro class-option (class option) | |
251 | "Return the value stored for CLASS' OPTION. | |
252 | Return nil if that option doesn't exist." | |
253 | `(class-option-assoc (aref (class-v ,class) class-options) ',option)) | |
254 | ||
255 | (defmacro class-abstract-p (class) | |
256 | "Return non-nil if CLASS is abstract. | |
257 | Abstract classes cannot be instantiated." | |
258 | `(class-option ,class :abstract)) | |
259 | ||
260 | (defmacro class-method-invocation-order (class) | |
261 | "Return the invocation order of CLASS. | |
262 | Abstract classes cannot be instantiated." | |
263 | `(or (class-option ,class :method-invocation-order) | |
264 | :breadth-first)) | |
265 | ||
266 | \f | |
267 | ;;; Defining a new class | |
268 | ;; | |
269 | (defmacro defclass (name superclass slots &rest options-and-doc) | |
270 | "Define NAME as a new class derived from SUPERCLASS with SLOTS. | |
271 | OPTIONS-AND-DOC is used as the class' options and base documentation. | |
272 | SUPERCLASS is a list of superclasses to inherit from, with SLOTS | |
273 | being the slots residing in that class definition. NOTE: Currently | |
274 | only one slot may exist in SUPERCLASS as multiple inheritance is not | |
275 | yet supported. Supported tags are: | |
276 | ||
a8f316ca JB |
277 | :initform - Initializing form. |
278 | :initarg - Tag used during initialization. | |
279 | :accessor - Tag used to create a function to access this slot. | |
280 | :allocation - Specify where the value is stored. | |
281 | Defaults to `:instance', but could also be `:class'. | |
282 | :writer - A function symbol which will `write' an object's slot. | |
283 | :reader - A function symbol which will `read' an object. | |
284 | :type - The type of data allowed in this slot (see `typep'). | |
6dd12ef2 CY |
285 | :documentation |
286 | - A string documenting use of this slot. | |
287 | ||
288 | The following are extensions on CLOS: | |
289 | :protection - Specify protection for this slot. | |
a8f316ca | 290 | Defaults to `:public'. Also use `:protected', or `:private'. |
6dd12ef2 CY |
291 | :custom - When customizing an object, the custom :type. Public only. |
292 | :label - A text string label used for a slot when customizing. | |
293 | :group - Name of a customization group this slot belongs in. | |
294 | :printer - A function to call to print the value of a slot. | |
295 | See `eieio-override-prin1' as an example. | |
296 | ||
297 | A class can also have optional options. These options happen in place | |
a8f316ca | 298 | of documentation (including a :documentation tag), in addition to |
6dd12ef2 CY |
299 | documentation, or not at all. Supported options are: |
300 | ||
301 | :documentation - The doc-string used for this class. | |
302 | ||
303 | Options added to EIEIO: | |
304 | ||
a8f316ca | 305 | :allow-nil-initform - Non-nil to skip typechecking of null initforms. |
6dd12ef2 CY |
306 | :custom-groups - List of custom group names. Organizes slots into |
307 | reasonable groups for customizations. | |
308 | :abstract - Non-nil to prevent instances of this class. | |
309 | If a string, use as an error string if someone does | |
310 | try to make an instance. | |
311 | :method-invocation-order | |
9ffe3f52 | 312 | - Control the method invocation order if there is |
6dd12ef2 CY |
313 | multiple inheritance. Valid values are: |
314 | :breadth-first - The default. | |
315 | :depth-first | |
316 | ||
317 | Options in CLOS not supported in EIEIO: | |
318 | ||
319 | :metaclass - Class to use in place of `standard-class' | |
320 | :default-initargs - Initargs to use when initializing new objects of | |
321 | this class. | |
322 | ||
a8f316ca JB |
323 | Due to the way class options are set up, you can add any tags you wish, |
324 | and reference them using the function `class-option'." | |
6dd12ef2 CY |
325 | ;; We must `eval-and-compile' this so that when we byte compile |
326 | ;; an eieio program, there is no need to load it ahead of time. | |
327 | ;; It also provides lots of nice debugging errors at compile time. | |
328 | `(eval-and-compile | |
329 | (eieio-defclass ',name ',superclass ',slots ',options-and-doc))) | |
330 | ||
331 | (defvar eieio-defclass-autoload-map (make-vector 7 nil) | |
332 | "Symbol map of superclasses we find in autoloads.") | |
333 | ||
334 | ;; We autoload this because it's used in `make-autoload'. | |
335 | ;;;###autoload | |
336 | (defun eieio-defclass-autoload (cname superclasses filename doc) | |
337 | "Create autoload symbols for the EIEIO class CNAME. | |
9ffe3f52 | 338 | SUPERCLASSES are the superclasses that CNAME inherits from. |
6dd12ef2 CY |
339 | DOC is the docstring for CNAME. |
340 | This function creates a mock-class for CNAME and adds it into | |
341 | SUPERCLASSES as children. | |
342 | It creates an autoload function for CNAME's constructor." | |
343 | ;; Assume we've already debugged inputs. | |
344 | ||
345 | (let* ((oldc (when (class-p cname) (class-v cname))) | |
346 | (newc (make-vector class-num-slots nil)) | |
347 | ) | |
348 | (if oldc | |
349 | nil ;; Do nothing if we already have this class. | |
350 | ||
351 | ;; Create the class in NEWC, but don't fill anything else in. | |
352 | (aset newc 0 'defclass) | |
353 | (aset newc class-symbol cname) | |
354 | ||
355 | (let ((clear-parent nil)) | |
356 | ;; No parents? | |
357 | (when (not superclasses) | |
358 | (setq superclasses '(eieio-default-superclass) | |
359 | clear-parent t) | |
360 | ) | |
361 | ||
362 | ;; Hook our new class into the existing structures so we can | |
363 | ;; autoload it later. | |
364 | (dolist (SC superclasses) | |
365 | ||
366 | ||
367 | ;; TODO - If we create an autoload that is in the map, that | |
368 | ;; map needs to be cleared! | |
369 | ||
370 | ||
371 | ;; Does our parent exist? | |
372 | (if (not (class-p SC)) | |
373 | ||
374 | ;; Create a symbol for this parent, and then store this | |
375 | ;; parent on that symbol. | |
376 | (let ((sym (intern (symbol-name SC) eieio-defclass-autoload-map))) | |
377 | (if (not (boundp sym)) | |
378 | (set sym (list cname)) | |
379 | (add-to-list sym cname)) | |
380 | ) | |
381 | ||
382 | ;; We have a parent, save the child in there. | |
383 | (when (not (member cname (aref (class-v SC) class-children))) | |
384 | (aset (class-v SC) class-children | |
385 | (cons cname (aref (class-v SC) class-children))))) | |
386 | ||
387 | ;; save parent in child | |
388 | (aset newc class-parent (cons SC (aref newc class-parent))) | |
389 | ) | |
390 | ||
391 | ;; turn this into a useable self-pointing symbol | |
392 | (set cname cname) | |
393 | ||
394 | ;; Store the new class vector definition into the symbol. We need to | |
395 | ;; do this first so that we can call defmethod for the accessor. | |
396 | ;; The vector will be updated by the following while loop and will not | |
397 | ;; need to be stored a second time. | |
398 | (put cname 'eieio-class-definition newc) | |
399 | ||
400 | ;; Clear the parent | |
401 | (if clear-parent (aset newc class-parent nil)) | |
402 | ||
403 | ;; Create an autoload on top of our constructor function. | |
404 | (autoload cname filename doc nil nil) | |
405 | (autoload (intern (concat (symbol-name cname) "-p")) filename "" nil nil) | |
406 | (autoload (intern (concat (symbol-name cname) "-child-p")) filename "" nil nil) | |
407 | ||
408 | )))) | |
409 | ||
410 | (defsubst eieio-class-un-autoload (cname) | |
a8f316ca | 411 | "If class CNAME is in an autoload state, load its file." |
6dd12ef2 CY |
412 | (when (eq (car-safe (symbol-function cname)) 'autoload) |
413 | (load-library (car (cdr (symbol-function cname)))))) | |
414 | ||
415 | (defun eieio-defclass (cname superclasses slots options-and-doc) | |
a8f316ca JB |
416 | "Define CNAME as a new subclass of SUPERCLASSES. |
417 | SLOTS are the slots residing in that class definition, and options or | |
418 | documentation OPTIONS-AND-DOC is the toplevel documentation for this class. | |
419 | See `defclass' for more information." | |
6dd12ef2 CY |
420 | ;; Run our eieio-hook each time, and clear it when we are done. |
421 | ;; This way people can add hooks safely if they want to modify eieio | |
422 | ;; or add definitions when eieio is loaded or something like that. | |
423 | (run-hooks 'eieio-hook) | |
424 | (setq eieio-hook nil) | |
425 | ||
426 | (if (not (symbolp cname)) (signal 'wrong-type-argument '(symbolp cname))) | |
427 | (if (not (listp superclasses)) (signal 'wrong-type-argument '(listp superclasses))) | |
428 | ||
429 | (let* ((pname (if superclasses superclasses nil)) | |
430 | (newc (make-vector class-num-slots nil)) | |
431 | (oldc (when (class-p cname) (class-v cname))) | |
432 | (groups nil) ;; list of groups id'd from slots | |
433 | (options nil) | |
434 | (clearparent nil)) | |
435 | ||
436 | (aset newc 0 'defclass) | |
437 | (aset newc class-symbol cname) | |
438 | ||
a8f316ca | 439 | ;; If this class already existed, and we are updating its structure, |
6dd12ef2 CY |
440 | ;; make sure we keep the old child list. This can cause bugs, but |
441 | ;; if no new slots are created, it also saves time, and prevents | |
442 | ;; method table breakage, particularly when the users is only | |
443 | ;; byte compiling an EIEIO file. | |
444 | (if oldc | |
445 | (aset newc class-children (aref oldc class-children)) | |
446 | ;; If the old class did not exist, but did exist in the autoload map, then adopt those children. | |
447 | ;; This is like the above, but deals with autoloads nicely. | |
448 | (let ((sym (intern-soft (symbol-name cname) eieio-defclass-autoload-map))) | |
449 | (when sym | |
450 | (condition-case nil | |
451 | (aset newc class-children (symbol-value sym)) | |
452 | (error nil)) | |
453 | (unintern (symbol-name cname) eieio-defclass-autoload-map) | |
454 | )) | |
455 | ) | |
456 | ||
457 | (cond ((and (stringp (car options-and-doc)) | |
458 | (/= 1 (% (length options-and-doc) 2))) | |
459 | (error "Too many arguments to `defclass'")) | |
460 | ((and (symbolp (car options-and-doc)) | |
461 | (/= 0 (% (length options-and-doc) 2))) | |
462 | (error "Too many arguments to `defclass'")) | |
463 | ) | |
464 | ||
465 | (setq options | |
466 | (if (stringp (car options-and-doc)) | |
467 | (cons :documentation options-and-doc) | |
468 | options-and-doc)) | |
469 | ||
470 | (if pname | |
471 | (progn | |
472 | (while pname | |
473 | (if (and (car pname) (symbolp (car pname))) | |
474 | (if (not (class-p (car pname))) | |
475 | ;; bad class | |
476 | (error "Given parent class %s is not a class" (car pname)) | |
477 | ;; good parent class... | |
478 | ;; save new child in parent | |
479 | (when (not (member cname (aref (class-v (car pname)) class-children))) | |
480 | (aset (class-v (car pname)) class-children | |
481 | (cons cname (aref (class-v (car pname)) class-children)))) | |
482 | ;; Get custom groups, and store them into our local copy. | |
483 | (mapc (lambda (g) (add-to-list 'groups g)) | |
484 | (class-option (car pname) :custom-groups)) | |
485 | ;; save parent in child | |
486 | (aset newc class-parent (cons (car pname) (aref newc class-parent)))) | |
487 | (error "Invalid parent class %s" pname)) | |
488 | (setq pname (cdr pname))) | |
489 | ;; Reverse the list of our parents so that they are prioritized in | |
490 | ;; the same order as specified in the code. | |
491 | (aset newc class-parent (nreverse (aref newc class-parent))) ) | |
492 | ;; If there is nothing to loop over, then inherit from the | |
493 | ;; default superclass. | |
494 | (unless (eq cname 'eieio-default-superclass) | |
495 | ;; adopt the default parent here, but clear it later... | |
496 | (setq clearparent t) | |
497 | ;; save new child in parent | |
498 | (if (not (member cname (aref (class-v 'eieio-default-superclass) class-children))) | |
499 | (aset (class-v 'eieio-default-superclass) class-children | |
500 | (cons cname (aref (class-v 'eieio-default-superclass) class-children)))) | |
501 | ;; save parent in child | |
502 | (aset newc class-parent (list eieio-default-superclass)))) | |
503 | ||
504 | ;; turn this into a useable self-pointing symbol | |
505 | (set cname cname) | |
506 | ||
507 | ;; These two tests must be created right away so we can have self- | |
508 | ;; referencing classes. ei, a class whose slot can contain only | |
509 | ;; pointers to itself. | |
510 | ||
511 | ;; Create the test function | |
512 | (let ((csym (intern (concat (symbol-name cname) "-p")))) | |
513 | (fset csym | |
514 | (list 'lambda (list 'obj) | |
515 | (format "Test OBJ to see if it an object of type %s" cname) | |
516 | (list 'and '(eieio-object-p obj) | |
517 | (list 'same-class-p 'obj cname))))) | |
518 | ||
519 | ;; Make sure the method invocation order is a valid value. | |
520 | (let ((io (class-option-assoc options :method-invocation-order))) | |
521 | (when (and io (not (member io '(:depth-first :breadth-first)))) | |
522 | (error "Method invocation order %s is not allowed" io) | |
523 | )) | |
524 | ||
525 | ;; Create a handy child test too | |
526 | (let ((csym (intern (concat (symbol-name cname) "-child-p")))) | |
527 | (fset csym | |
528 | `(lambda (obj) | |
529 | ,(format | |
530 | "Test OBJ to see if it an object is a child of type %s" | |
531 | cname) | |
532 | (and (eieio-object-p obj) | |
533 | (object-of-class-p obj ,cname)))) | |
534 | ||
535 | ;; When using typep, (typep OBJ 'myclass) returns t for objects which | |
536 | ;; are subclasses of myclass. For our predicates, however, it is | |
537 | ;; important for EIEIO to be backwards compatible, where | |
538 | ;; myobject-p, and myobject-child-p are different. | |
539 | ;; "cl" uses this technique to specify symbols with specific typep | |
540 | ;; test, so we can let typep have the CLOS documented behavior | |
541 | ;; while keeping our above predicate clean. | |
6dd12ef2 | 542 | |
67868d26 CY |
543 | ;; It would be cleaner to use `defsetf' here, but that requires cl |
544 | ;; at runtime. | |
545 | (put cname 'cl-deftype-handler | |
546 | (list 'lambda () `(list 'satisfies (quote ,csym))))) | |
6dd12ef2 CY |
547 | |
548 | ;; before adding new slots, lets add all the methods and classes | |
549 | ;; in from the parent class | |
550 | (eieio-copy-parents-into-subclass newc superclasses) | |
551 | ||
552 | ;; Store the new class vector definition into the symbol. We need to | |
553 | ;; do this first so that we can call defmethod for the accessor. | |
554 | ;; The vector will be updated by the following while loop and will not | |
555 | ;; need to be stored a second time. | |
556 | (put cname 'eieio-class-definition newc) | |
557 | ||
558 | ;; Query each slot in the declaration list and mangle into the | |
559 | ;; class structure I have defined. | |
560 | (while slots | |
561 | (let* ((slot1 (car slots)) | |
562 | (name (car slot1)) | |
563 | (slot (cdr slot1)) | |
564 | (acces (plist-get slot ':accessor)) | |
565 | (init (or (plist-get slot ':initform) | |
566 | (if (member ':initform slot) nil | |
567 | eieio-unbound))) | |
568 | (initarg (plist-get slot ':initarg)) | |
569 | (docstr (plist-get slot ':documentation)) | |
570 | (prot (plist-get slot ':protection)) | |
571 | (reader (plist-get slot ':reader)) | |
572 | (writer (plist-get slot ':writer)) | |
573 | (alloc (plist-get slot ':allocation)) | |
574 | (type (plist-get slot ':type)) | |
575 | (custom (plist-get slot ':custom)) | |
576 | (label (plist-get slot ':label)) | |
577 | (customg (plist-get slot ':group)) | |
578 | (printer (plist-get slot ':printer)) | |
579 | ||
580 | (skip-nil (class-option-assoc options :allow-nil-initform)) | |
581 | ) | |
582 | ||
583 | (if eieio-error-unsupported-class-tags | |
584 | (let ((tmp slot)) | |
585 | (while tmp | |
586 | (if (not (member (car tmp) '(:accessor | |
587 | :initform | |
588 | :initarg | |
589 | :documentation | |
590 | :protection | |
591 | :reader | |
592 | :writer | |
593 | :allocation | |
594 | :type | |
595 | :custom | |
596 | :label | |
597 | :group | |
598 | :printer | |
599 | :allow-nil-initform | |
600 | :custom-groups))) | |
601 | (signal 'invalid-slot-type (list (car tmp)))) | |
602 | (setq tmp (cdr (cdr tmp)))))) | |
603 | ||
604 | ;; Clean up the meaning of protection. | |
605 | (cond ((or (eq prot 'public) (eq prot :public)) (setq prot nil)) | |
606 | ((or (eq prot 'protected) (eq prot :protected)) (setq prot 'protected)) | |
607 | ((or (eq prot 'private) (eq prot :private)) (setq prot 'private)) | |
608 | ((eq prot nil) nil) | |
609 | (t (signal 'invalid-slot-type (list ':protection prot)))) | |
610 | ||
611 | ;; Make sure the :allocation parameter has a valid value. | |
612 | (if (not (or (not alloc) (eq alloc :class) (eq alloc :instance))) | |
613 | (signal 'invalid-slot-type (list ':allocation alloc))) | |
614 | ||
615 | ;; The default type specifier is supposed to be t, meaning anything. | |
616 | (if (not type) (setq type t)) | |
617 | ||
618 | ;; Label is nil, or a string | |
619 | (if (not (or (null label) (stringp label))) | |
620 | (signal 'invalid-slot-type (list ':label label))) | |
621 | ||
622 | ;; Is there an initarg, but allocation of class? | |
623 | (if (and initarg (eq alloc :class)) | |
624 | (message "Class allocated slots do not need :initarg")) | |
625 | ||
626 | ;; intern the symbol so we can use it blankly | |
627 | (if initarg (set initarg initarg)) | |
628 | ||
629 | ;; The customgroup should be a list of symbols | |
630 | (cond ((null customg) | |
631 | (setq customg '(default))) | |
632 | ((not (listp customg)) | |
633 | (setq customg (list customg)))) | |
634 | ;; The customgroup better be a symbol, or list of symbols. | |
635 | (mapc (lambda (cg) | |
636 | (if (not (symbolp cg)) | |
637 | (signal 'invalid-slot-type (list ':group cg)))) | |
638 | customg) | |
639 | ||
640 | ;; First up, add this slot into our new class. | |
641 | (eieio-add-new-slot newc name init docstr type custom label customg printer | |
642 | prot initarg alloc 'defaultoverride skip-nil) | |
643 | ||
644 | ;; We need to id the group, and store them in a group list attribute. | |
645 | (mapc (lambda (cg) (add-to-list 'groups cg)) customg) | |
646 | ||
647 | ;; anyone can have an accessor function. This creates a function | |
648 | ;; of the specified name, and also performs a `defsetf' if applicable | |
649 | ;; so that users can `setf' the space returned by this function | |
650 | (if acces | |
651 | (progn | |
652 | (eieio-defmethod acces | |
653 | (list (if (eq alloc :class) :static :primary) | |
654 | (list (list 'this cname)) | |
655 | (format | |
656 | "Retrieves the slot `%s' from an object of class `%s'" | |
657 | name cname) | |
658 | (list 'if (list 'slot-boundp 'this (list 'quote name)) | |
659 | (list 'eieio-oref 'this (list 'quote name)) | |
660 | ;; Else - Some error? nil? | |
67868d26 CY |
661 | nil))) |
662 | ||
663 | ;; Provide a setf method. It would be cleaner to use | |
664 | ;; defsetf, but that would require CL at runtime. | |
665 | (put acces 'setf-method | |
666 | `(lambda (widget) | |
667 | (let* ((--widget-sym-- (make-symbol "--widget--")) | |
668 | (--store-sym-- (make-symbol "--store--"))) | |
669 | (list | |
670 | (list --widget-sym--) | |
671 | (list widget) | |
672 | (list --store-sym--) | |
673 | (list 'eieio-oset --widget-sym-- '',name --store-sym--) | |
674 | (list 'getfoo --widget-sym--))))))) | |
675 | ||
6dd12ef2 CY |
676 | ;; If a writer is defined, then create a generic method of that |
677 | ;; name whose purpose is to set the value of the slot. | |
678 | (if writer | |
679 | (progn | |
680 | (eieio-defmethod writer | |
681 | (list (list (list 'this cname) 'value) | |
682 | (format "Set the slot `%s' of an object of class `%s'" | |
683 | name cname) | |
684 | `(setf (slot-value this ',name) value))) | |
685 | )) | |
686 | ;; If a reader is defined, then create a generic method | |
687 | ;; of that name whose purpose is to access this slot value. | |
688 | (if reader | |
689 | (progn | |
690 | (eieio-defmethod reader | |
691 | (list (list (list 'this cname)) | |
692 | (format "Access the slot `%s' from object of class `%s'" | |
693 | name cname) | |
694 | `(slot-value this ',name))))) | |
695 | ) | |
696 | (setq slots (cdr slots))) | |
697 | ||
698 | ;; Now that everything has been loaded up, all our lists are backwards! Fix that up now. | |
699 | (aset newc class-public-a (nreverse (aref newc class-public-a))) | |
700 | (aset newc class-public-d (nreverse (aref newc class-public-d))) | |
701 | (aset newc class-public-doc (nreverse (aref newc class-public-doc))) | |
702 | (aset newc class-public-type | |
703 | (apply 'vector (nreverse (aref newc class-public-type)))) | |
704 | (aset newc class-public-custom (nreverse (aref newc class-public-custom))) | |
705 | (aset newc class-public-custom-label (nreverse (aref newc class-public-custom-label))) | |
706 | (aset newc class-public-custom-group (nreverse (aref newc class-public-custom-group))) | |
707 | (aset newc class-public-printer (nreverse (aref newc class-public-printer))) | |
708 | (aset newc class-protection (nreverse (aref newc class-protection))) | |
709 | (aset newc class-initarg-tuples (nreverse (aref newc class-initarg-tuples))) | |
710 | ||
711 | ;; The storage for class-class-allocation-type needs to be turned into | |
712 | ;; a vector now. | |
713 | (aset newc class-class-allocation-type | |
714 | (apply 'vector (aref newc class-class-allocation-type))) | |
715 | ||
716 | ;; Also, take class allocated values, and vectorize them for speed. | |
717 | (aset newc class-class-allocation-values | |
718 | (apply 'vector (aref newc class-class-allocation-values))) | |
719 | ||
720 | ;; Attach slot symbols into an obarray, and store the index of | |
721 | ;; this slot as the variable slot in this new symbol. We need to | |
722 | ;; know about primes, because obarrays are best set in vectors of | |
723 | ;; prime number length, and we also need to make our vector small | |
724 | ;; to save space, and also optimal for the number of items we have. | |
725 | (let* ((cnt 0) | |
726 | (pubsyms (aref newc class-public-a)) | |
727 | (prots (aref newc class-protection)) | |
728 | (l (length pubsyms)) | |
729 | (vl (let ((primes '( 3 5 7 11 13 17 19 23 29 31 37 41 43 47 | |
730 | 53 59 61 67 71 73 79 83 89 97 101 ))) | |
731 | (while (and primes (< (car primes) l)) | |
732 | (setq primes (cdr primes))) | |
733 | (car primes))) | |
734 | (oa (make-vector vl 0)) | |
735 | (newsym)) | |
736 | (while pubsyms | |
737 | (setq newsym (intern (symbol-name (car pubsyms)) oa)) | |
738 | (set newsym cnt) | |
739 | (setq cnt (1+ cnt)) | |
740 | (if (car prots) (put newsym 'protection (car prots))) | |
741 | (setq pubsyms (cdr pubsyms) | |
742 | prots (cdr prots))) | |
743 | (aset newc class-symbol-obarray oa) | |
744 | ) | |
745 | ||
746 | ;; Create the constructor function | |
747 | (if (class-option-assoc options :abstract) | |
748 | ;; Abstract classes cannot be instantiated. Say so. | |
749 | (let ((abs (class-option-assoc options :abstract))) | |
750 | (if (not (stringp abs)) | |
751 | (setq abs (format "Class %s is abstract" cname))) | |
752 | (fset cname | |
753 | `(lambda (&rest stuff) | |
754 | ,(format "You cannot create a new object of type %s" cname) | |
755 | (error ,abs)))) | |
756 | ||
757 | ;; Non-abstract classes need a constructor. | |
758 | (fset cname | |
759 | `(lambda (newname &rest slots) | |
760 | ,(format "Create a new object with name NAME of class type %s" cname) | |
761 | (apply 'constructor ,cname newname slots))) | |
762 | ) | |
763 | ||
764 | ;; Set up a specialized doc string. | |
765 | ;; Use stored value since it is calculated in a non-trivial way | |
766 | (put cname 'variable-documentation | |
767 | (class-option-assoc options :documentation)) | |
768 | ||
769 | ;; We have a list of custom groups. Store them into the options. | |
770 | (let ((g (class-option-assoc options :custom-groups))) | |
771 | (mapc (lambda (cg) (add-to-list 'g cg)) groups) | |
772 | (if (memq :custom-groups options) | |
773 | (setcar (cdr (memq :custom-groups options)) g) | |
774 | (setq options (cons :custom-groups (cons g options))))) | |
775 | ||
776 | ;; Set up the options we have collected. | |
777 | (aset newc class-options options) | |
778 | ||
779 | ;; if this is a superclass, clear out parent (which was set to the | |
780 | ;; default superclass eieio-default-superclass) | |
781 | (if clearparent (aset newc class-parent nil)) | |
782 | ||
783 | ;; Create the cached default object. | |
784 | (let ((cache (make-vector (+ (length (aref newc class-public-a)) | |
785 | 3) nil))) | |
786 | (aset cache 0 'object) | |
787 | (aset cache object-class cname) | |
788 | (aset cache object-name 'default-cache-object) | |
789 | (let ((eieio-skip-typecheck t)) | |
790 | ;; All type-checking has been done to our satisfaction | |
791 | ;; before this call. Don't waste our time in this call.. | |
792 | (eieio-set-defaults cache t)) | |
793 | (aset newc class-default-object-cache cache)) | |
794 | ||
795 | ;; Return our new class object | |
796 | ;; newc | |
797 | cname | |
798 | )) | |
799 | ||
800 | (defun eieio-perform-slot-validation-for-default (slot spec value skipnil) | |
801 | "For SLOT, signal if SPEC does not match VALUE. | |
a8f316ca | 802 | If SKIPNIL is non-nil, then if VALUE is nil return t instead." |
6dd12ef2 CY |
803 | (let ((val (eieio-default-eval-maybe value))) |
804 | (if (and (not eieio-skip-typecheck) | |
805 | (not (and skipnil (null val))) | |
806 | (not (eieio-perform-slot-validation spec val))) | |
807 | (signal 'invalid-slot-type (list slot spec val))))) | |
808 | ||
809 | (defun eieio-add-new-slot (newc a d doc type cust label custg print prot init alloc | |
810 | &optional defaultoverride skipnil) | |
811 | "Add into NEWC attribute A. | |
812 | If A already exists in NEWC, then do nothing. If it doesn't exist, | |
a8f316ca | 813 | then also add in D (default), DOC, TYPE, CUST, LABEL, CUSTG, PRINT, PROT, and INIT arg. |
6dd12ef2 CY |
814 | Argument ALLOC specifies if the slot is allocated per instance, or per class. |
815 | If optional DEFAULTOVERRIDE is non-nil, then if A exists in NEWC, | |
a8f316ca | 816 | we must override its value for a default. |
6dd12ef2 CY |
817 | Optional argument SKIPNIL indicates if type checking should be skipped |
818 | if default value is nil." | |
819 | ;; Make sure we duplicate those items that are sequences. | |
820 | (condition-case nil | |
821 | (if (sequencep d) (setq d (copy-sequence d))) | |
822 | ;; This copy can fail on a cons cell with a non-cons in the cdr. Lets skip it if it doesn't work. | |
823 | (error nil)) | |
824 | (if (sequencep type) (setq type (copy-sequence type))) | |
825 | (if (sequencep cust) (setq cust (copy-sequence cust))) | |
826 | (if (sequencep custg) (setq custg (copy-sequence custg))) | |
827 | ||
828 | ;; To prevent override information w/out specification of storage, | |
829 | ;; we need to do this little hack. | |
830 | (if (member a (aref newc class-class-allocation-a)) (setq alloc ':class)) | |
831 | ||
832 | (if (or (not alloc) (and (symbolp alloc) (eq alloc ':instance))) | |
833 | ;; In this case, we modify the INSTANCE version of a given slot. | |
834 | ||
835 | (progn | |
836 | ||
837 | ;; Only add this element if it is so-far unique | |
838 | (if (not (member a (aref newc class-public-a))) | |
839 | (progn | |
840 | (eieio-perform-slot-validation-for-default a type d skipnil) | |
841 | (aset newc class-public-a (cons a (aref newc class-public-a))) | |
842 | (aset newc class-public-d (cons d (aref newc class-public-d))) | |
843 | (aset newc class-public-doc (cons doc (aref newc class-public-doc))) | |
844 | (aset newc class-public-type (cons type (aref newc class-public-type))) | |
845 | (aset newc class-public-custom (cons cust (aref newc class-public-custom))) | |
846 | (aset newc class-public-custom-label (cons label (aref newc class-public-custom-label))) | |
847 | (aset newc class-public-custom-group (cons custg (aref newc class-public-custom-group))) | |
848 | (aset newc class-public-printer (cons print (aref newc class-public-printer))) | |
849 | (aset newc class-protection (cons prot (aref newc class-protection))) | |
850 | (aset newc class-initarg-tuples (cons (cons init a) (aref newc class-initarg-tuples))) | |
851 | ) | |
852 | ;; When defaultoverride is true, we are usually adding new local | |
853 | ;; attributes which must override the default value of any slot | |
854 | ;; passed in by one of the parent classes. | |
855 | (when defaultoverride | |
856 | ;; There is a match, and we must override the old value. | |
857 | (let* ((ca (aref newc class-public-a)) | |
858 | (np (member a ca)) | |
859 | (num (- (length ca) (length np))) | |
860 | (dp (if np (nthcdr num (aref newc class-public-d)) | |
861 | nil)) | |
862 | (tp (if np (nth num (aref newc class-public-type)))) | |
863 | ) | |
864 | (if (not np) | |
a8f316ca | 865 | (error "EIEIO internal error overriding default value for %s" |
6dd12ef2 CY |
866 | a) |
867 | ;; If type is passed in, is it the same? | |
868 | (if (not (eq type t)) | |
869 | (if (not (equal type tp)) | |
870 | (error | |
871 | "Child slot type `%s' does not match inherited type `%s' for `%s'" | |
872 | type tp a))) | |
873 | ;; If we have a repeat, only update the initarg... | |
874 | (unless (eq d eieio-unbound) | |
875 | (eieio-perform-slot-validation-for-default a tp d skipnil) | |
876 | (setcar dp d)) | |
877 | ;; If we have a new initarg, check for it. | |
878 | (when init | |
879 | (let* ((inits (aref newc class-initarg-tuples)) | |
880 | (inita (rassq a inits))) | |
881 | ;; Replace the CAR of the associate INITA. | |
882 | ;;(message "Initarg: %S replace %s" inita init) | |
883 | (setcar inita init) | |
884 | )) | |
885 | ||
886 | ;; PLN Tue Jun 26 11:57:06 2007 : The protection is | |
887 | ;; checked and SHOULD match the superclass | |
888 | ;; protection. Otherwise an error is thrown. However | |
889 | ;; I wonder if a more flexible schedule might be | |
890 | ;; implemented. | |
891 | ;; | |
892 | ;; EML - We used to have (if prot... here, | |
893 | ;; but a prot of 'nil means public. | |
894 | ;; | |
895 | (let ((super-prot (nth num (aref newc class-protection))) | |
896 | ) | |
897 | (if (not (eq prot super-prot)) | |
898 | (error "Child slot protection `%s' does not match inherited protection `%s' for `%s'" | |
899 | prot super-prot a))) | |
900 | ;; End original PLN | |
901 | ||
902 | ;; PLN Tue Jun 26 11:57:06 2007 : | |
67868d26 CY |
903 | ;; Do a non redundant combination of ancient custom |
904 | ;; groups and new ones. | |
6dd12ef2 | 905 | (when custg |
67868d26 CY |
906 | (let* ((groups |
907 | (nthcdr num (aref newc class-public-custom-group))) | |
908 | (list1 (car groups)) | |
909 | (list2 (if (listp custg) custg (list custg)))) | |
910 | (if (< (length list1) (length list2)) | |
911 | (setq list1 (prog1 list2 (setq list2 list1)))) | |
912 | (dolist (elt list2) | |
913 | (unless (memq elt list1) | |
914 | (push elt list1))) | |
915 | (setcar groups list1))) | |
6dd12ef2 CY |
916 | ;; End PLN |
917 | ||
918 | ;; PLN Mon Jun 25 22:44:34 2007 : If a new cust is | |
919 | ;; set, simply replaces the old one. | |
920 | (when cust | |
921 | ;; (message "Custom type redefined to %s" cust) | |
922 | (setcar (nthcdr num (aref newc class-public-custom)) cust)) | |
923 | ||
924 | ;; If a new label is specified, it simply replaces | |
925 | ;; the old one. | |
926 | (when label | |
927 | ;; (message "Custom label redefined to %s" label) | |
928 | (setcar (nthcdr num (aref newc class-public-custom-label)) label)) | |
929 | ;; End PLN | |
930 | ||
931 | ;; PLN Sat Jun 30 17:24:42 2007 : when a new | |
932 | ;; doc is specified, simply replaces the old one. | |
933 | (when doc | |
934 | ;;(message "Documentation redefined to %s" doc) | |
935 | (setcar (nthcdr num (aref newc class-public-doc)) | |
936 | doc)) | |
937 | ;; End PLN | |
938 | ||
939 | ;; If a new printer is specified, it simply replaces | |
940 | ;; the old one. | |
941 | (when print | |
942 | ;; (message "printer redefined to %s" print) | |
943 | (setcar (nthcdr num (aref newc class-public-printer)) print)) | |
944 | ||
945 | ))) | |
946 | )) | |
947 | ||
948 | ;; CLASS ALLOCATED SLOTS | |
949 | (let ((value (eieio-default-eval-maybe d))) | |
950 | (if (not (member a (aref newc class-class-allocation-a))) | |
951 | (progn | |
952 | (eieio-perform-slot-validation-for-default a type value skipnil) | |
953 | ;; Here we have found a :class version of a slot. This | |
954 | ;; requires a very different aproach. | |
955 | (aset newc class-class-allocation-a (cons a (aref newc class-class-allocation-a))) | |
956 | (aset newc class-class-allocation-doc (cons doc (aref newc class-class-allocation-doc))) | |
957 | (aset newc class-class-allocation-type (cons type (aref newc class-class-allocation-type))) | |
958 | (aset newc class-class-allocation-custom (cons cust (aref newc class-class-allocation-custom))) | |
959 | (aset newc class-class-allocation-custom-label (cons label (aref newc class-class-allocation-custom-label))) | |
960 | (aset newc class-class-allocation-custom-group (cons custg (aref newc class-class-allocation-custom-group))) | |
961 | (aset newc class-class-allocation-protection (cons prot (aref newc class-class-allocation-protection))) | |
962 | ;; Default value is stored in the 'values section, since new objects | |
963 | ;; can't initialize from this element. | |
964 | (aset newc class-class-allocation-values (cons value (aref newc class-class-allocation-values)))) | |
965 | (when defaultoverride | |
966 | ;; There is a match, and we must override the old value. | |
967 | (let* ((ca (aref newc class-class-allocation-a)) | |
968 | (np (member a ca)) | |
969 | (num (- (length ca) (length np))) | |
970 | (dp (if np | |
971 | (nthcdr num | |
972 | (aref newc class-class-allocation-values)) | |
973 | nil)) | |
974 | (tp (if np (nth num (aref newc class-class-allocation-type)) | |
975 | nil))) | |
976 | (if (not np) | |
a8f316ca | 977 | (error "EIEIO internal error overriding default value for %s" |
6dd12ef2 CY |
978 | a) |
979 | ;; If type is passed in, is it the same? | |
980 | (if (not (eq type t)) | |
981 | (if (not (equal type tp)) | |
982 | (error | |
983 | "Child slot type `%s' does not match inherited type `%s' for `%s'" | |
984 | type tp a))) | |
985 | ;; EML - Note: the only reason to override a class bound slot | |
986 | ;; is to change the default, so allow unbound in. | |
987 | ||
988 | ;; If we have a repeat, only update the vlaue... | |
989 | (eieio-perform-slot-validation-for-default a tp value skipnil) | |
990 | (setcar dp value)) | |
991 | ||
992 | ;; PLN Tue Jun 26 11:57:06 2007 : The protection is | |
993 | ;; checked and SHOULD match the superclass | |
994 | ;; protection. Otherwise an error is thrown. However | |
995 | ;; I wonder if a more flexible schedule might be | |
996 | ;; implemented. | |
997 | (let ((super-prot | |
998 | (car (nthcdr num (aref newc class-class-allocation-protection))))) | |
999 | (if (not (eq prot super-prot)) | |
1000 | (error "Child slot protection `%s' does not match inherited protection `%s' for `%s'" | |
1001 | prot super-prot a))) | |
67868d26 CY |
1002 | ;; Do a non redundant combination of ancient custom groups |
1003 | ;; and new ones. | |
6dd12ef2 | 1004 | (when custg |
67868d26 CY |
1005 | (let* ((groups |
1006 | (nthcdr num (aref newc class-class-allocation-custom-group))) | |
1007 | (list1 (car groups)) | |
1008 | (list2 (if (listp custg) custg (list custg)))) | |
1009 | (if (< (length list1) (length list2)) | |
1010 | (setq list1 (prog1 list2 (setq list2 list1)))) | |
1011 | (dolist (elt list2) | |
1012 | (unless (memq elt list1) | |
1013 | (push elt list1))) | |
1014 | (setcar groups list1))) | |
6dd12ef2 CY |
1015 | |
1016 | ;; PLN Sat Jun 30 17:24:42 2007 : when a new | |
1017 | ;; doc is specified, simply replaces the old one. | |
1018 | (when doc | |
1019 | ;;(message "Documentation redefined to %s" doc) | |
1020 | (setcar (nthcdr num (aref newc class-class-allocation-doc)) | |
1021 | doc)) | |
1022 | ;; End PLN | |
1023 | ||
1024 | ;; If a new printer is specified, it simply replaces | |
1025 | ;; the old one. | |
1026 | (when print | |
1027 | ;; (message "printer redefined to %s" print) | |
1028 | (setcar (nthcdr num (aref newc class-class-allocation-printer)) print)) | |
1029 | ||
1030 | )) | |
1031 | )) | |
1032 | )) | |
1033 | ||
1034 | (defun eieio-copy-parents-into-subclass (newc parents) | |
1035 | "Copy into NEWC the slots of PARENTS. | |
9ffe3f52 | 1036 | Follow the rules of not overwriting early parents when applying to |
6dd12ef2 CY |
1037 | the new child class." |
1038 | (let ((ps (aref newc class-parent)) | |
1039 | (sn (class-option-assoc (aref newc class-options) | |
1040 | ':allow-nil-initform))) | |
1041 | (while ps | |
1042 | ;; First, duplicate all the slots of the parent. | |
1043 | (let ((pcv (class-v (car ps)))) | |
1044 | (let ((pa (aref pcv class-public-a)) | |
1045 | (pd (aref pcv class-public-d)) | |
1046 | (pdoc (aref pcv class-public-doc)) | |
1047 | (ptype (aref pcv class-public-type)) | |
1048 | (pcust (aref pcv class-public-custom)) | |
1049 | (plabel (aref pcv class-public-custom-label)) | |
1050 | (pcustg (aref pcv class-public-custom-group)) | |
1051 | (printer (aref pcv class-public-printer)) | |
1052 | (pprot (aref pcv class-protection)) | |
1053 | (pinit (aref pcv class-initarg-tuples)) | |
1054 | (i 0)) | |
1055 | (while pa | |
1056 | (eieio-add-new-slot newc | |
1057 | (car pa) (car pd) (car pdoc) (aref ptype i) | |
1058 | (car pcust) (car plabel) (car pcustg) | |
1059 | (car printer) | |
1060 | (car pprot) (car-safe (car pinit)) nil nil sn) | |
1061 | ;; Increment each value. | |
1062 | (setq pa (cdr pa) | |
1063 | pd (cdr pd) | |
1064 | pdoc (cdr pdoc) | |
1065 | i (1+ i) | |
1066 | pcust (cdr pcust) | |
1067 | plabel (cdr plabel) | |
1068 | pcustg (cdr pcustg) | |
1069 | printer (cdr printer) | |
1070 | pprot (cdr pprot) | |
1071 | pinit (cdr pinit)) | |
1072 | )) ;; while/let | |
1073 | ;; Now duplicate all the class alloc slots. | |
1074 | (let ((pa (aref pcv class-class-allocation-a)) | |
1075 | (pdoc (aref pcv class-class-allocation-doc)) | |
1076 | (ptype (aref pcv class-class-allocation-type)) | |
1077 | (pcust (aref pcv class-class-allocation-custom)) | |
1078 | (plabel (aref pcv class-class-allocation-custom-label)) | |
1079 | (pcustg (aref pcv class-class-allocation-custom-group)) | |
1080 | (printer (aref pcv class-class-allocation-printer)) | |
1081 | (pprot (aref pcv class-class-allocation-protection)) | |
1082 | (pval (aref pcv class-class-allocation-values)) | |
1083 | (i 0)) | |
1084 | (while pa | |
1085 | (eieio-add-new-slot newc | |
1086 | (car pa) (aref pval i) (car pdoc) (aref ptype i) | |
1087 | (car pcust) (car plabel) (car pcustg) | |
1088 | (car printer) | |
1089 | (car pprot) nil ':class sn) | |
1090 | ;; Increment each value. | |
1091 | (setq pa (cdr pa) | |
1092 | pdoc (cdr pdoc) | |
1093 | pcust (cdr pcust) | |
1094 | plabel (cdr plabel) | |
1095 | pcustg (cdr pcustg) | |
1096 | printer (cdr printer) | |
1097 | pprot (cdr pprot) | |
1098 | i (1+ i)) | |
1099 | ))) ;; while/let | |
1100 | ;; Loop over each parent class | |
1101 | (setq ps (cdr ps))) | |
1102 | )) | |
1103 | ||
1104 | ;;; CLOS style implementation of object creators. | |
1105 | ;; | |
1106 | (defun make-instance (class &rest initargs) | |
1107 | "Make a new instance of CLASS based on INITARGS. | |
1108 | CLASS is a class symbol. For example: | |
1109 | ||
1110 | (make-instance 'foo) | |
1111 | ||
1112 | INITARGS is a property list with keywords based on the :initarg | |
1113 | for each slot. For example: | |
1114 | ||
1115 | (make-instance 'foo :slot1 value1 :slotN valueN) | |
1116 | ||
9ffe3f52 | 1117 | Compatibility note: |
6dd12ef2 CY |
1118 | |
1119 | If the first element of INITARGS is a string, it is used as the | |
1120 | name of the class. | |
1121 | ||
1122 | In EIEIO, the class' constructor requires a name for use when printing. | |
1123 | `make-instance' in CLOS doesn't use names the way Emacs does, so the | |
1124 | class is used as the name slot instead when INITARGS doesn't start with | |
1125 | a string." | |
1126 | (if (and (car initargs) (stringp (car initargs))) | |
1127 | (apply (class-constructor class) initargs) | |
1128 | (apply (class-constructor class) | |
1129 | (cond ((symbolp class) (symbol-name class)) | |
1130 | (t (format "%S" class))) | |
1131 | initargs))) | |
1132 | ||
1133 | \f | |
1134 | ;;; CLOS methods and generics | |
1135 | ;; | |
1136 | (defmacro defgeneric (method args &optional doc-string) | |
a8f316ca | 1137 | "Create a generic function METHOD. |
6dd12ef2 | 1138 | DOC-STRING is the base documentation for this class. A generic |
a8f316ca JB |
1139 | function has no body, as its purpose is to decide which method body |
1140 | is appropriate to use. Uses `defmethod' to create methods, and calls | |
1141 | `defgeneric' for you. With this implementation the ARGS are | |
6dd12ef2 CY |
1142 | currently ignored. You can use `defgeneric' to apply specialized |
1143 | top level documentation to a method." | |
1144 | `(eieio-defgeneric (quote ,method) ,doc-string)) | |
1145 | ||
1146 | (defun eieio-defgeneric-form (method doc-string) | |
1147 | "The lambda form that would be used as the function defined on METHOD. | |
1148 | All methods should call the same EIEIO function for dispatch. | |
1149 | DOC-STRING is the documentation attached to METHOD." | |
1150 | `(lambda (&rest local-args) | |
1151 | ,doc-string | |
1152 | (eieio-generic-call (quote ,method) local-args))) | |
1153 | ||
1154 | (defsubst eieio-defgeneric-reset-generic-form (method) | |
1155 | "Setup METHOD to call the generic form." | |
1156 | (let ((doc-string (documentation method))) | |
1157 | (fset method (eieio-defgeneric-form method doc-string)))) | |
1158 | ||
1159 | (defun eieio-defgeneric-form-primary-only (method doc-string) | |
1160 | "The lambda form that would be used as the function defined on METHOD. | |
1161 | All methods should call the same EIEIO function for dispatch. | |
1162 | DOC-STRING is the documentation attached to METHOD." | |
1163 | `(lambda (&rest local-args) | |
1164 | ,doc-string | |
1165 | (eieio-generic-call-primary-only (quote ,method) local-args))) | |
1166 | ||
1167 | (defsubst eieio-defgeneric-reset-generic-form-primary-only (method) | |
1168 | "Setup METHOD to call the generic form." | |
1169 | (let ((doc-string (documentation method))) | |
1170 | (fset method (eieio-defgeneric-form-primary-only method doc-string)))) | |
1171 | ||
1172 | (defun eieio-defgeneric-form-primary-only-one (method doc-string | |
1173 | class | |
1174 | impl | |
1175 | ) | |
1176 | "The lambda form that would be used as the function defined on METHOD. | |
1177 | All methods should call the same EIEIO function for dispatch. | |
1178 | DOC-STRING is the documentation attached to METHOD. | |
1179 | CLASS is the class symbol needed for private method access. | |
1180 | IMPL is the symbol holding the method implementation." | |
1181 | ;; NOTE: I tried out byte compiling this little fcn. Turns out it | |
1182 | ;; is faster to execute this for not byte-compiled. ie, install this, | |
1183 | ;; then measure calls going through here. I wonder why. | |
1184 | (require 'bytecomp) | |
1185 | (let ((byte-compile-free-references nil) | |
1186 | (byte-compile-warnings nil) | |
1187 | ) | |
1188 | (byte-compile-lambda | |
1189 | `(lambda (&rest local-args) | |
1190 | ,doc-string | |
1191 | ;; This is a cool cheat. Usually we need to look up in the | |
1192 | ;; method table to find out if there is a method or not. We can | |
1193 | ;; instead make that determination at load time when there is | |
1194 | ;; only one method. If the first arg is not a child of the class | |
1195 | ;; of that one implementation, then clearly, there is no method def. | |
1196 | (if (not (eieio-object-p (car local-args))) | |
1197 | ;; Not an object. Just signal. | |
1198 | (signal 'no-method-definition (list ,(list 'quote method) local-args)) | |
1199 | ||
1200 | ;; We do have an object. Make sure it is the right type. | |
1201 | (if ,(if (eq class eieio-default-superclass) | |
1202 | nil ; default superclass means just an obj. Already asked. | |
1203 | `(not (child-of-class-p (aref (car local-args) object-class) | |
1204 | ,(list 'quote class))) | |
1205 | ) | |
1206 | ||
1207 | ;; If not the right kind of object, call no applicable | |
1208 | (apply 'no-applicable-method (car local-args) | |
1209 | ,(list 'quote method) local-args) | |
1210 | ||
1211 | ;; It is ok, do the call. | |
1212 | ;; Fill in inter-call variables then evaluate the method. | |
1213 | (let ((scoped-class ,(list 'quote class)) | |
1214 | (eieio-generic-call-next-method-list nil) | |
1215 | (eieio-generic-call-key method-primary) | |
1216 | (eieio-generic-call-methodname ,(list 'quote method)) | |
1217 | (eieio-generic-call-arglst local-args) | |
1218 | ) | |
1219 | (apply ,(list 'quote impl) local-args) | |
1220 | ;(,impl local-args) | |
1221 | )))) | |
1222 | ) | |
1223 | )) | |
1224 | ||
1225 | (defsubst eieio-defgeneric-reset-generic-form-primary-only-one (method) | |
1226 | "Setup METHOD to call the generic form." | |
1227 | (let* ((doc-string (documentation method)) | |
1228 | (M (get method 'eieio-method-tree)) | |
1229 | (entry (car (aref M method-primary))) | |
1230 | ) | |
1231 | (fset method (eieio-defgeneric-form-primary-only-one | |
1232 | method doc-string | |
1233 | (car entry) | |
1234 | (cdr entry) | |
1235 | )))) | |
1236 | ||
1237 | (defun eieio-defgeneric (method doc-string) | |
1238 | "Engine part to `defgeneric' macro defining METHOD with DOC-STRING." | |
1239 | (if (and (fboundp method) (not (generic-p method)) | |
1240 | (or (byte-code-function-p (symbol-function method)) | |
1241 | (not (eq 'autoload (car (symbol-function method))))) | |
1242 | ) | |
1243 | (error "You cannot create a generic/method over an existing symbol: %s" | |
1244 | method)) | |
1245 | ;; Don't do this over and over. | |
1246 | (unless (fboundp 'method) | |
1247 | ;; This defun tells emacs where the first definition of this | |
1248 | ;; method is defined. | |
1249 | `(defun ,method nil) | |
1250 | ;; Make sure the method tables are installed. | |
1251 | (eieiomt-install method) | |
1252 | ;; Apply the actual body of this function. | |
1253 | (fset method (eieio-defgeneric-form method doc-string)) | |
1254 | ;; Return the method | |
1255 | 'method)) | |
1256 | ||
1257 | (defun eieio-unbind-method-implementations (method) | |
a8f316ca JB |
1258 | "Make the generic method METHOD have no implementations. |
1259 | It will leave the original generic function in place, | |
1260 | but remove reference to all implementations of METHOD." | |
6dd12ef2 CY |
1261 | (put method 'eieio-method-tree nil) |
1262 | (put method 'eieio-method-obarray nil)) | |
1263 | ||
1264 | (defmacro defmethod (method &rest args) | |
1265 | "Create a new METHOD through `defgeneric' with ARGS. | |
1266 | ||
a8f316ca | 1267 | The optional second argument KEY is a specifier that |
6dd12ef2 | 1268 | modifies how the method is called, including: |
a8f316ca JB |
1269 | :before - Method will be called before the :primary |
1270 | :primary - The default if not specified | |
1271 | :after - Method will be called after the :primary | |
1272 | :static - First arg could be an object or class | |
6dd12ef2 CY |
1273 | The next argument is the ARGLIST. The ARGLIST specifies the arguments |
1274 | to the method as with `defun'. The first argument can have a type | |
1275 | specifier, such as: | |
1276 | ((VARNAME CLASS) ARG2 ...) | |
1277 | where VARNAME is the name of the local variable for the method being | |
1278 | created. The CLASS is a class symbol for a class made with `defclass'. | |
1279 | A DOCSTRING comes after the ARGLIST, and is optional. | |
1280 | All the rest of the args are the BODY of the method. A method will | |
1281 | return the value of the last form in the BODY. | |
1282 | ||
1283 | Summary: | |
1284 | ||
1285 | (defmethod mymethod [:before | :primary | :after | :static] | |
1286 | ((typearg class-name) arg2 &optional opt &rest rest) | |
1287 | \"doc-string\" | |
1288 | body)" | |
1289 | `(eieio-defmethod (quote ,method) (quote ,args))) | |
1290 | ||
1291 | (defun eieio-defmethod (method args) | |
1292 | "Work part of the `defmethod' macro defining METHOD with ARGS." | |
1293 | (let ((key nil) (body nil) (firstarg nil) (argfix nil) (argclass nil) loopa) | |
1294 | ;; find optional keys | |
1295 | (setq key | |
1296 | (cond ((or (eq ':BEFORE (car args)) | |
1297 | (eq ':before (car args))) | |
1298 | (setq args (cdr args)) | |
1299 | method-before) | |
1300 | ((or (eq ':AFTER (car args)) | |
1301 | (eq ':after (car args))) | |
1302 | (setq args (cdr args)) | |
1303 | method-after) | |
1304 | ((or (eq ':PRIMARY (car args)) | |
1305 | (eq ':primary (car args))) | |
1306 | (setq args (cdr args)) | |
1307 | method-primary) | |
1308 | ((or (eq ':STATIC (car args)) | |
1309 | (eq ':static (car args))) | |
1310 | (setq args (cdr args)) | |
1311 | method-static) | |
1312 | ;; Primary key | |
1313 | (t method-primary))) | |
1314 | ;; get body, and fix contents of args to be the arguments of the fn. | |
1315 | (setq body (cdr args) | |
1316 | args (car args)) | |
1317 | (setq loopa args) | |
1318 | ;; Create a fixed version of the arguments | |
1319 | (while loopa | |
1320 | (setq argfix (cons (if (listp (car loopa)) (car (car loopa)) (car loopa)) | |
1321 | argfix)) | |
1322 | (setq loopa (cdr loopa))) | |
1323 | ;; make sure there is a generic | |
1324 | (eieio-defgeneric | |
1325 | method | |
1326 | (if (stringp (car body)) | |
a8f316ca | 1327 | (car body) (format "Generically created method `%s'." method))) |
6dd12ef2 CY |
1328 | ;; create symbol for property to bind to. If the first arg is of |
1329 | ;; the form (varname vartype) and `vartype' is a class, then | |
1330 | ;; that class will be the type symbol. If not, then it will fall | |
1331 | ;; under the type `primary' which is a non-specific calling of the | |
1332 | ;; function. | |
1333 | (setq firstarg (car args)) | |
1334 | (if (listp firstarg) | |
1335 | (progn | |
1336 | (setq argclass (nth 1 firstarg)) | |
1337 | (if (not (class-p argclass)) | |
1338 | (error "Unknown class type %s in method parameters" | |
1339 | (nth 1 firstarg)))) | |
1340 | (if (= key -1) | |
1341 | (signal 'wrong-type-argument (list :static 'non-class-arg))) | |
1342 | ;; generics are higher | |
1343 | (setq key (+ key 3))) | |
1344 | ;; Put this lambda into the symbol so we can find it | |
1345 | (if (byte-code-function-p (car-safe body)) | |
1346 | (eieiomt-add method (car-safe body) key argclass) | |
1347 | (eieiomt-add method (append (list 'lambda (reverse argfix)) body) | |
1348 | key argclass)) | |
1349 | ) | |
1350 | ||
1351 | (when eieio-optimize-primary-methods-flag | |
1352 | ;; Optimizing step: | |
1353 | ;; | |
1354 | ;; If this method, after this setup, only has primary methods, then | |
1355 | ;; we can setup the generic that way. | |
1356 | (if (generic-primary-only-p method) | |
1357 | ;; If there is only one primary method, then we can go one more | |
1358 | ;; optimization step. | |
1359 | (if (generic-primary-only-one-p method) | |
1360 | (eieio-defgeneric-reset-generic-form-primary-only-one method) | |
1361 | (eieio-defgeneric-reset-generic-form-primary-only method)) | |
1362 | (eieio-defgeneric-reset-generic-form method))) | |
1363 | ||
1364 | method) | |
1365 | ||
1366 | ;;; Slot type validation | |
67868d26 CY |
1367 | |
1368 | ;; This is a hideous hack for replacing `typep' from cl-macs, to avoid | |
1369 | ;; requiring the CL library at run-time. It can be eliminated if/when | |
1370 | ;; `typep' is merged into Emacs core. | |
1371 | (defun eieio--typep (val type) | |
1372 | (if (symbolp type) | |
1373 | (cond ((get type 'cl-deftype-handler) | |
1374 | (eieio--typep val (funcall (get type 'cl-deftype-handler)))) | |
1375 | ((eq type t) t) | |
1376 | ((eq type 'null) (null val)) | |
1377 | ((eq type 'atom) (atom val)) | |
1378 | ((eq type 'float) (and (numberp val) (not (integerp val)))) | |
1379 | ((eq type 'real) (numberp val)) | |
1380 | ((eq type 'fixnum) (integerp val)) | |
1381 | ((memq type '(character string-char)) (characterp val)) | |
1382 | (t | |
1383 | (let* ((name (symbol-name type)) | |
1384 | (namep (intern (concat name "p")))) | |
1385 | (if (fboundp namep) | |
1386 | (funcall `(lambda () (,namep val))) | |
1387 | (funcall `(lambda () | |
1388 | (,(intern (concat name "-p")) val))))))) | |
1389 | (cond ((get (car type) 'cl-deftype-handler) | |
1390 | (eieio--typep val (apply (get (car type) 'cl-deftype-handler) | |
1391 | (cdr type)))) | |
1392 | ((memq (car type) '(integer float real number)) | |
1393 | (and (eieio--typep val (car type)) | |
1394 | (or (memq (cadr type) '(* nil)) | |
1395 | (if (consp (cadr type)) | |
1396 | (> val (car (cadr type))) | |
1397 | (>= val (cadr type)))) | |
1398 | (or (memq (caddr type) '(* nil)) | |
1399 | (if (consp (car (cddr type))) | |
1400 | (< val (caar (cddr type))) | |
1401 | (<= val (car (cddr type))))))) | |
1402 | ((memq (car type) '(and or not)) | |
1403 | (eval (cons (car type) | |
1404 | (mapcar (lambda (x) | |
1405 | `(eieio--typep (quote ,val) (quote ,x))) | |
1406 | (cdr type))))) | |
1407 | ((memq (car type) '(member member*)) | |
1408 | (memql val (cdr type))) | |
1409 | ((eq (car type) 'satisfies) | |
1410 | (funcall `(lambda () (,(cadr type) val)))) | |
1411 | (t (error "Bad type spec: %s" type))))) | |
1412 | ||
6dd12ef2 CY |
1413 | (defun eieio-perform-slot-validation (spec value) |
1414 | "Return non-nil if SPEC does not match VALUE." | |
6dd12ef2 CY |
1415 | (or (eq spec t) ; t always passes |
1416 | (eq value eieio-unbound) ; unbound always passes | |
67868d26 | 1417 | (eieio--typep value spec))) |
6dd12ef2 CY |
1418 | |
1419 | (defun eieio-validate-slot-value (class slot-idx value slot) | |
a8f316ca | 1420 | "Make sure that for CLASS referencing SLOT-IDX, VALUE is valid. |
6dd12ef2 CY |
1421 | Checks the :type specifier. |
1422 | SLOT is the slot that is being checked, and is only used when throwing | |
a8f316ca | 1423 | an error." |
6dd12ef2 CY |
1424 | (if eieio-skip-typecheck |
1425 | nil | |
1426 | ;; Trim off object IDX junk added in for the object index. | |
1427 | (setq slot-idx (- slot-idx 3)) | |
1428 | (let ((st (aref (aref (class-v class) class-public-type) slot-idx))) | |
1429 | (if (not (eieio-perform-slot-validation st value)) | |
1430 | (signal 'invalid-slot-type (list class slot st value)))))) | |
1431 | ||
1432 | (defun eieio-validate-class-slot-value (class slot-idx value slot) | |
a8f316ca | 1433 | "Make sure that for CLASS referencing SLOT-IDX, VALUE is valid. |
6dd12ef2 CY |
1434 | Checks the :type specifier. |
1435 | SLOT is the slot that is being checked, and is only used when throwing | |
a8f316ca | 1436 | an error." |
6dd12ef2 CY |
1437 | (if eieio-skip-typecheck |
1438 | nil | |
1439 | (let ((st (aref (aref (class-v class) class-class-allocation-type) | |
1440 | slot-idx))) | |
1441 | (if (not (eieio-perform-slot-validation st value)) | |
1442 | (signal 'invalid-slot-type (list class slot st value)))))) | |
1443 | ||
1444 | (defun eieio-barf-if-slot-unbound (value instance slotname fn) | |
1445 | "Throw a signal if VALUE is a representation of an UNBOUND slot. | |
1446 | INSTANCE is the object being referenced. SLOTNAME is the offending | |
1447 | slot. If the slot is ok, return VALUE. | |
1448 | Argument FN is the function calling this verifier." | |
1449 | (if (and (eq value eieio-unbound) (not eieio-skip-typecheck)) | |
1450 | (slot-unbound instance (object-class instance) slotname fn) | |
1451 | value)) | |
1452 | ||
6dd12ef2 CY |
1453 | ;;; Get/Set slots in an object. |
1454 | ;; | |
1455 | (defmacro oref (obj slot) | |
1456 | "Retrieve the value stored in OBJ in the slot named by SLOT. | |
1457 | Slot is the name of the slot when created by `defclass' or the label | |
1458 | created by the :initarg tag." | |
1459 | `(eieio-oref ,obj (quote ,slot))) | |
1460 | ||
1461 | (defun eieio-oref (obj slot) | |
1462 | "Return the value in OBJ at SLOT in the object vector." | |
1463 | (if (not (or (eieio-object-p obj) (class-p obj))) | |
1464 | (signal 'wrong-type-argument (list '(or eieio-object-p class-p) obj))) | |
1465 | (if (not (symbolp slot)) | |
1466 | (signal 'wrong-type-argument (list 'symbolp slot))) | |
1467 | (if (class-p obj) (eieio-class-un-autoload obj)) | |
1468 | (let* ((class (if (class-p obj) obj (aref obj object-class))) | |
1469 | (c (eieio-slot-name-index class obj slot))) | |
1470 | (if (not c) | |
1471 | ;; It might be missing because it is a :class allocated slot. | |
1472 | ;; Lets check that info out. | |
1473 | (if (setq c (eieio-class-slot-name-index class slot)) | |
1474 | ;; Oref that slot. | |
1475 | (aref (aref (class-v class) class-class-allocation-values) c) | |
1476 | ;; The slot-missing method is a cool way of allowing an object author | |
1477 | ;; to intercept missing slot definitions. Since it is also the LAST | |
a8f316ca | 1478 | ;; thing called in this fn, its return value would be retrieved. |
6dd12ef2 CY |
1479 | (slot-missing obj slot 'oref) |
1480 | ;;(signal 'invalid-slot-name (list (object-name obj) slot)) | |
1481 | ) | |
1482 | (if (not (eieio-object-p obj)) | |
1483 | (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1484 | (eieio-barf-if-slot-unbound (aref obj c) obj slot 'oref)))) | |
1485 | ||
1486 | (defalias 'slot-value 'eieio-oref) | |
1487 | (defalias 'set-slot-value 'eieio-oset) | |
1488 | ||
1489 | (defmacro oref-default (obj slot) | |
a8f316ca | 1490 | "Get the default value of OBJ (maybe a class) for SLOT. |
6dd12ef2 CY |
1491 | The default value is the value installed in a class with the :initform |
1492 | tag. SLOT can be the slot name, or the tag specified by the :initarg | |
1493 | tag in the `defclass' call." | |
1494 | `(eieio-oref-default ,obj (quote ,slot))) | |
1495 | ||
1496 | (defun eieio-oref-default (obj slot) | |
a8f316ca JB |
1497 | "Do the work for the macro `oref-default' with similar parameters. |
1498 | Fills in OBJ's SLOT with its default value." | |
6dd12ef2 CY |
1499 | (if (not (or (eieio-object-p obj) (class-p obj))) (signal 'wrong-type-argument (list 'eieio-object-p obj))) |
1500 | (if (not (symbolp slot)) (signal 'wrong-type-argument (list 'symbolp slot))) | |
1501 | (let* ((cl (if (eieio-object-p obj) (aref obj object-class) obj)) | |
1502 | (c (eieio-slot-name-index cl obj slot))) | |
1503 | (if (not c) | |
1504 | ;; It might be missing because it is a :class allocated slot. | |
1505 | ;; Lets check that info out. | |
1506 | (if (setq c | |
1507 | (eieio-class-slot-name-index cl slot)) | |
1508 | ;; Oref that slot. | |
1509 | (aref (aref (class-v cl) class-class-allocation-values) | |
1510 | c) | |
1511 | (slot-missing obj slot 'oref-default) | |
1512 | ;;(signal 'invalid-slot-name (list (class-name cl) slot)) | |
1513 | ) | |
1514 | (eieio-barf-if-slot-unbound | |
1515 | (let ((val (nth (- c 3) (aref (class-v cl) class-public-d)))) | |
1516 | (eieio-default-eval-maybe val)) | |
1517 | obj cl 'oref-default)))) | |
1518 | ||
1519 | (defun eieio-default-eval-maybe (val) | |
1520 | "Check VAL, and return what `oref-default' would provide." | |
1521 | ;; check for quoted things, and unquote them | |
1522 | (if (and (listp val) (eq (car val) 'quote)) | |
1523 | (car (cdr val)) | |
1524 | ;; return it verbatim | |
1525 | val)) | |
1526 | ||
1527 | ;;; Object Set macros | |
1528 | ;; | |
1529 | (defmacro oset (obj slot value) | |
1530 | "Set the value in OBJ for slot SLOT to VALUE. | |
1531 | SLOT is the slot name as specified in `defclass' or the tag created | |
1532 | with in the :initarg slot. VALUE can be any Lisp object." | |
1533 | `(eieio-oset ,obj (quote ,slot) ,value)) | |
1534 | ||
1535 | (defun eieio-oset (obj slot value) | |
a8f316ca | 1536 | "Do the work for the macro `oset'. |
6dd12ef2 CY |
1537 | Fills in OBJ's SLOT with VALUE." |
1538 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1539 | (if (not (symbolp slot)) (signal 'wrong-type-argument (list 'symbolp slot))) | |
1540 | (let ((c (eieio-slot-name-index (object-class-fast obj) obj slot))) | |
1541 | (if (not c) | |
1542 | ;; It might be missing because it is a :class allocated slot. | |
1543 | ;; Lets check that info out. | |
1544 | (if (setq c | |
1545 | (eieio-class-slot-name-index (aref obj object-class) slot)) | |
1546 | ;; Oset that slot. | |
1547 | (progn | |
1548 | (eieio-validate-class-slot-value (object-class-fast obj) c value slot) | |
1549 | (aset (aref (class-v (aref obj object-class)) | |
1550 | class-class-allocation-values) | |
1551 | c value)) | |
1552 | ;; See oref for comment on `slot-missing' | |
1553 | (slot-missing obj slot 'oset value) | |
1554 | ;;(signal 'invalid-slot-name (list (object-name obj) slot)) | |
1555 | ) | |
1556 | (eieio-validate-slot-value (object-class-fast obj) c value slot) | |
1557 | (aset obj c value)))) | |
1558 | ||
1559 | (defmacro oset-default (class slot value) | |
1560 | "Set the default slot in CLASS for SLOT to VALUE. | |
1561 | The default value is usually set with the :initform tag during class | |
1562 | creation. This allows users to change the default behavior of classes | |
1563 | after they are created." | |
1564 | `(eieio-oset-default ,class (quote ,slot) ,value)) | |
1565 | ||
1566 | (defun eieio-oset-default (class slot value) | |
a8f316ca | 1567 | "Do the work for the macro `oset-default'. |
6dd12ef2 CY |
1568 | Fills in the default value in CLASS' in SLOT with VALUE." |
1569 | (if (not (class-p class)) (signal 'wrong-type-argument (list 'class-p class))) | |
1570 | (if (not (symbolp slot)) (signal 'wrong-type-argument (list 'symbolp slot))) | |
1571 | (let* ((scoped-class class) | |
1572 | (c (eieio-slot-name-index class nil slot))) | |
1573 | (if (not c) | |
1574 | ;; It might be missing because it is a :class allocated slot. | |
1575 | ;; Lets check that info out. | |
1576 | (if (setq c (eieio-class-slot-name-index class slot)) | |
1577 | (progn | |
1578 | ;; Oref that slot. | |
1579 | (eieio-validate-class-slot-value class c value slot) | |
1580 | (aset (aref (class-v class) class-class-allocation-values) c | |
1581 | value)) | |
1582 | (signal 'invalid-slot-name (list (class-name class) slot))) | |
1583 | (eieio-validate-slot-value class c value slot) | |
1584 | ;; Set this into the storage for defaults. | |
1585 | (setcar (nthcdr (- c 3) (aref (class-v class) class-public-d)) | |
1586 | value) | |
1587 | ;; Take the value, and put it into our cache object. | |
1588 | (eieio-oset (aref (class-v class) class-default-object-cache) | |
1589 | slot value) | |
1590 | ))) | |
1591 | ||
1592 | ;;; Handy CLOS macros | |
1593 | ;; | |
1594 | (defmacro with-slots (spec-list object &rest body) | |
1595 | "Bind SPEC-LIST lexically to slot values in OBJECT, and execute BODY. | |
1596 | This establishes a lexical environment for referring to the slots in | |
1597 | the instance named by the given slot-names as though they were | |
1598 | variables. Within such a context the value of the slot can be | |
1599 | specified by using its slot name, as if it were a lexically bound | |
1600 | variable. Both setf and setq can be used to set the value of the | |
1601 | slot. | |
1602 | ||
1603 | SPEC-LIST is of a form similar to `let'. For example: | |
1604 | ||
1605 | ((VAR1 SLOT1) | |
1606 | SLOT2 | |
1607 | SLOTN | |
1608 | (VARN+1 SLOTN+1)) | |
1609 | ||
1610 | Where each VAR is the local variable given to the associated | |
a8f316ca | 1611 | SLOT. A slot specified without a variable name is given a |
6dd12ef2 CY |
1612 | variable name of the same name as the slot." |
1613 | ;; Transform the spec-list into a symbol-macrolet spec-list. | |
1614 | (let ((mappings (mapcar (lambda (entry) | |
1615 | (let ((var (if (listp entry) (car entry) entry)) | |
1616 | (slot (if (listp entry) (cadr entry) entry))) | |
1617 | (list var `(slot-value ,object ',slot)))) | |
1618 | spec-list))) | |
1619 | (append (list 'symbol-macrolet mappings) | |
1620 | body))) | |
1621 | (put 'with-slots 'lisp-indent-function 2) | |
1622 | ||
1623 | \f | |
1624 | ;;; Simple generators, and query functions. None of these would do | |
1625 | ;; well embedded into an object. | |
1626 | ;; | |
1627 | (defmacro object-class-fast (obj) "Return the class struct defining OBJ with no check." | |
1628 | `(aref ,obj object-class)) | |
1629 | ||
1630 | (defun class-name (class) "Return a Lisp like symbol name for CLASS." | |
1631 | (if (not (class-p class)) (signal 'wrong-type-argument (list 'class-p class))) | |
1632 | ;; I think this is supposed to return a symbol, but to me CLASS is a symbol, | |
1633 | ;; and I wanted a string. Arg! | |
1634 | (format "#<class %s>" (symbol-name class))) | |
1635 | ||
1636 | (defun object-name (obj &optional extra) | |
1637 | "Return a Lisp like symbol string for object OBJ. | |
1638 | If EXTRA, include that in the string returned to represent the symbol." | |
1639 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1640 | (format "#<%s %s%s>" (symbol-name (object-class-fast obj)) | |
1641 | (aref obj object-name) (or extra ""))) | |
1642 | ||
1643 | (defun object-name-string (obj) "Return a string which is OBJ's name." | |
1644 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1645 | (aref obj object-name)) | |
1646 | ||
1647 | (defun object-set-name-string (obj name) "Set the string which is OBJ's NAME." | |
1648 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1649 | (if (not (stringp name)) (signal 'wrong-type-argument (list 'stringp name))) | |
1650 | (aset obj object-name name)) | |
1651 | ||
1652 | (defun object-class (obj) "Return the class struct defining OBJ." | |
1653 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1654 | (object-class-fast obj)) | |
1655 | (defalias 'class-of 'object-class) | |
1656 | ||
1657 | (defun object-class-name (obj) "Return a Lisp like symbol name for OBJ's class." | |
1658 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1659 | (class-name (object-class-fast obj))) | |
1660 | ||
1661 | (defmacro class-parents-fast (class) "Return parent classes to CLASS with no check." | |
1662 | `(aref (class-v ,class) class-parent)) | |
1663 | ||
1664 | (defun class-parents (class) | |
1665 | "Return parent classes to CLASS. (overload of variable). | |
1666 | ||
1667 | The CLOS function `class-direct-superclasses' is aliased to this function." | |
1668 | (if (not (class-p class)) (signal 'wrong-type-argument (list 'class-p class))) | |
1669 | (class-parents-fast class)) | |
1670 | ||
1671 | (defmacro class-children-fast (class) "Return child classes to CLASS with no check." | |
1672 | `(aref (class-v ,class) class-children)) | |
1673 | ||
1674 | (defun class-children (class) | |
9ffe3f52 | 1675 | "Return child classes to CLASS. |
6dd12ef2 CY |
1676 | |
1677 | The CLOS function `class-direct-subclasses' is aliased to this function." | |
1678 | (if (not (class-p class)) (signal 'wrong-type-argument (list 'class-p class))) | |
1679 | (class-children-fast class)) | |
1680 | ||
1681 | ;; Official CLOS functions. | |
1682 | (defalias 'class-direct-superclasses 'class-parents) | |
1683 | (defalias 'class-direct-subclasses 'class-children) | |
1684 | ||
1685 | (defmacro class-parent-fast (class) "Return first parent class to CLASS with no check." | |
1686 | `(car (class-parents-fast ,class))) | |
1687 | ||
1688 | (defmacro class-parent (class) "Return first parent class to CLASS. (overload of variable)." | |
1689 | `(car (class-parents ,class))) | |
1690 | ||
1691 | (defmacro same-class-fast-p (obj class) "Return t if OBJ is of class-type CLASS with no error checking." | |
1692 | `(eq (aref ,obj object-class) ,class)) | |
1693 | ||
1694 | (defun same-class-p (obj class) "Return t if OBJ is of class-type CLASS." | |
1695 | (if (not (class-p class)) (signal 'wrong-type-argument (list 'class-p class))) | |
1696 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1697 | (same-class-fast-p obj class)) | |
1698 | ||
1699 | (defun object-of-class-p (obj class) | |
1700 | "Return non-nil if OBJ is an instance of CLASS or CLASS' subclasses." | |
1701 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) | |
1702 | ;; class will be checked one layer down | |
1703 | (child-of-class-p (aref obj object-class) class)) | |
1704 | ;; Backwards compatibility | |
1705 | (defalias 'obj-of-class-p 'object-of-class-p) | |
1706 | ||
1707 | (defun child-of-class-p (child class) | |
a8f316ca | 1708 | "Return non-nil if CHILD class is a subclass of CLASS." |
6dd12ef2 CY |
1709 | (if (not (class-p class)) (signal 'wrong-type-argument (list 'class-p class))) |
1710 | (if (not (class-p child)) (signal 'wrong-type-argument (list 'class-p child))) | |
1711 | (let ((p nil)) | |
1712 | (while (and child (not (eq child class))) | |
1713 | (setq p (append p (aref (class-v child) class-parent)) | |
1714 | child (car p) | |
1715 | p (cdr p))) | |
1716 | (if child t))) | |
1717 | ||
a8f316ca | 1718 | (defun object-slots (obj) "Return list of slots available in OBJ." |
6dd12ef2 CY |
1719 | (if (not (eieio-object-p obj)) (signal 'wrong-type-argument (list 'eieio-object-p obj))) |
1720 | (aref (class-v (object-class-fast obj)) class-public-a)) | |
1721 | ||
1722 | (defun class-slot-initarg (class slot) "Fetch from CLASS, SLOT's :initarg." | |
1723 | (if (not (class-p class)) (signal 'wrong-type-argument (list 'class-p class))) | |
1724 | (let ((ia (aref (class-v class) class-initarg-tuples)) | |
1725 | (f nil)) | |
1726 | (while (and ia (not f)) | |
1727 | (if (eq (cdr (car ia)) slot) | |
1728 | (setq f (car (car ia)))) | |
1729 | (setq ia (cdr ia))) | |
1730 | f)) | |
1731 | ||
1732 | ;;; CLOS queries into classes and slots | |
1733 | ;; | |
1734 | (defun slot-boundp (object slot) | |
a8f316ca | 1735 | "Return non-nil if OBJECT's SLOT is bound. |
6dd12ef2 CY |
1736 | Setting a slot's value makes it bound. Calling `slot-makeunbound' will |
1737 | make a slot unbound. | |
1738 | OBJECT can be an instance or a class." | |
1739 | ;; Skip typechecking while retrieving this value. | |
1740 | (let ((eieio-skip-typecheck t)) | |
1741 | ;; Return nil if the magic symbol is in there. | |
1742 | (if (eieio-object-p object) | |
1743 | (if (eq (eieio-oref object slot) eieio-unbound) nil t) | |
1744 | (if (class-p object) | |
1745 | (if (eq (eieio-oref-default object slot) eieio-unbound) nil t) | |
1746 | (signal 'wrong-type-argument (list 'eieio-object-p object)))))) | |
1747 | ||
1748 | (defun slot-makeunbound (object slot) | |
1749 | "In OBJECT, make SLOT unbound." | |
1750 | (eieio-oset object slot eieio-unbound)) | |
1751 | ||
1752 | (defun slot-exists-p (object-or-class slot) | |
a8f316ca | 1753 | "Return non-nil if OBJECT-OR-CLASS has SLOT." |
6dd12ef2 CY |
1754 | (let ((cv (class-v (cond ((eieio-object-p object-or-class) |
1755 | (object-class object-or-class)) | |
1756 | ((class-p object-or-class) | |
1757 | object-or-class)) | |
1758 | ))) | |
1759 | (or (memq slot (aref cv class-public-a)) | |
1760 | (memq slot (aref cv class-class-allocation-a))) | |
1761 | )) | |
1762 | ||
1763 | (defun find-class (symbol &optional errorp) | |
1764 | "Return the class that SYMBOL represents. | |
1765 | If there is no class, nil is returned if ERRORP is nil. | |
1766 | If ERRORP is non-nil, `wrong-argument-type' is signaled." | |
1767 | (if (not (class-p symbol)) | |
1768 | (if errorp (signal 'wrong-type-argument (list 'class-p symbol)) | |
1769 | nil) | |
1770 | (class-v symbol))) | |
1771 | ||
1772 | ;;; Slightly more complex utility functions for objects | |
1773 | ;; | |
1774 | (defun object-assoc (key slot list) | |
1775 | "Return an object if KEY is `equal' to SLOT's value of an object in LIST. | |
a8f316ca | 1776 | LIST is a list of objects whose slots are searched. |
6dd12ef2 CY |
1777 | Objects in LIST do not need to have a slot named SLOT, nor does |
1778 | SLOT need to be bound. If these errors occur, those objects will | |
1779 | be ignored." | |
1780 | (if (not (listp list)) (signal 'wrong-type-argument (list 'listp list))) | |
1781 | (while (and list (not (condition-case nil | |
1782 | ;; This prevents errors for missing slots. | |
1783 | (equal key (eieio-oref (car list) slot)) | |
1784 | (error nil)))) | |
1785 | (setq list (cdr list))) | |
1786 | (car list)) | |
1787 | ||
1788 | (defun object-assoc-list (slot list) | |
1789 | "Return an association list with the contents of SLOT as the key element. | |
1790 | LIST must be a list of objects with SLOT in it. | |
1791 | This is useful when you need to do completing read on an object group." | |
1792 | (if (not (listp list)) (signal 'wrong-type-argument (list 'listp list))) | |
1793 | (let ((assoclist nil)) | |
1794 | (while list | |
1795 | (setq assoclist (cons (cons (eieio-oref (car list) slot) | |
1796 | (car list)) | |
1797 | assoclist)) | |
1798 | (setq list (cdr list))) | |
1799 | (nreverse assoclist))) | |
1800 | ||
1801 | (defun object-assoc-list-safe (slot list) | |
1802 | "Return an association list with the contents of SLOT as the key element. | |
1803 | LIST must be a list of objects, but those objects do not need to have | |
1804 | SLOT in it. If it does not, then that element is left out of the association | |
1805 | list." | |
1806 | (if (not (listp list)) (signal 'wrong-type-argument (list 'listp list))) | |
1807 | (let ((assoclist nil)) | |
1808 | (while list | |
1809 | (if (slot-exists-p (car list) slot) | |
1810 | (setq assoclist (cons (cons (eieio-oref (car list) slot) | |
1811 | (car list)) | |
1812 | assoclist))) | |
1813 | (setq list (cdr list))) | |
1814 | (nreverse assoclist))) | |
1815 | ||
1816 | (defun object-add-to-list (object slot item &optional append) | |
1817 | "In OBJECT's SLOT, add ITEM to the list of elements. | |
1818 | Optional argument APPEND indicates we need to append to the list. | |
1819 | If ITEM already exists in the list in SLOT, then it is not added. | |
1820 | Comparison is done with `equal' through the `member' function call. | |
1821 | If SLOT is unbound, bind it to the list containing ITEM." | |
1822 | (let (ov) | |
1823 | ;; Find the originating list. | |
1824 | (if (not (slot-boundp object slot)) | |
1825 | (setq ov (list item)) | |
1826 | (setq ov (eieio-oref object slot)) | |
1827 | ;; turn it into a list. | |
1828 | (unless (listp ov) | |
1829 | (setq ov (list ov))) | |
1830 | ;; Do the combination | |
1831 | (if (not (member item ov)) | |
1832 | (setq ov | |
1833 | (if append | |
1834 | (append ov (list item)) | |
1835 | (cons item ov))))) | |
1836 | ;; Set back into the slot. | |
1837 | (eieio-oset object slot ov))) | |
1838 | ||
1839 | (defun object-remove-from-list (object slot item) | |
1840 | "In OBJECT's SLOT, remove occurrences of ITEM. | |
a8f316ca | 1841 | Deletion is done with `delete', which deletes by side effect, |
6dd12ef2 CY |
1842 | and comparisons are done with `equal'. |
1843 | If SLOT is unbound, do nothing." | |
1844 | (if (not (slot-boundp object slot)) | |
1845 | nil | |
1846 | (eieio-oset object slot (delete item (eieio-oref object slot))))) | |
1847 | \f | |
1848 | ;;; EIEIO internal search functions | |
1849 | ;; | |
1850 | (defun eieio-slot-originating-class-p (start-class slot) | |
a8f316ca | 1851 | "Return non-nil if START-CLASS is the first class to define SLOT. |
6dd12ef2 CY |
1852 | This is for testing if `scoped-class' is the class that defines SLOT |
1853 | so that we can protect private slots." | |
1854 | (let ((par (class-parents start-class)) | |
1855 | (ret t)) | |
1856 | (if (not par) | |
1857 | t | |
1858 | (while (and par ret) | |
1859 | (if (intern-soft (symbol-name slot) | |
1860 | (aref (class-v (car par)) | |
1861 | class-symbol-obarray)) | |
1862 | (setq ret nil)) | |
1863 | (setq par (cdr par))) | |
1864 | ret))) | |
1865 | ||
1866 | (defun eieio-slot-name-index (class obj slot) | |
1867 | "In CLASS for OBJ find the index of the named SLOT. | |
1868 | The slot is a symbol which is installed in CLASS by the `defclass' | |
1869 | call. OBJ can be nil, but if it is an object, and the slot in question | |
a8f316ca | 1870 | is protected, access will be allowed if OBJ is a child of the currently |
6dd12ef2 CY |
1871 | `scoped-class'. |
1872 | If SLOT is the value created with :initarg instead, | |
1873 | reverse-lookup that name, and recurse with the associated slot value." | |
1874 | ;; Removed checks to outside this call | |
1875 | (let* ((fsym (intern-soft (symbol-name slot) | |
1876 | (aref (class-v class) | |
1877 | class-symbol-obarray))) | |
1878 | (fsi (if (symbolp fsym) (symbol-value fsym) nil))) | |
1879 | (if (integerp fsi) | |
1880 | (cond | |
1881 | ((not (get fsym 'protection)) | |
1882 | (+ 3 fsi)) | |
1883 | ((and (eq (get fsym 'protection) 'protected) | |
1884 | scoped-class | |
1885 | (or (child-of-class-p class scoped-class) | |
1886 | (and (eieio-object-p obj) | |
1887 | (child-of-class-p class (object-class obj))))) | |
1888 | (+ 3 fsi)) | |
1889 | ((and (eq (get fsym 'protection) 'private) | |
1890 | (or (and scoped-class | |
1891 | (eieio-slot-originating-class-p scoped-class slot)) | |
1892 | eieio-initializing-object)) | |
1893 | (+ 3 fsi)) | |
1894 | (t nil)) | |
1895 | (let ((fn (eieio-initarg-to-attribute class slot))) | |
1896 | (if fn (eieio-slot-name-index class obj fn) nil))))) | |
1897 | ||
1898 | (defun eieio-class-slot-name-index (class slot) | |
1899 | "In CLASS find the index of the named SLOT. | |
1900 | The slot is a symbol which is installed in CLASS by the `defclass' | |
1901 | call. If SLOT is the value created with :initarg instead, | |
1902 | reverse-lookup that name, and recurse with the associated slot value." | |
1903 | ;; This will happen less often, and with fewer slots. Do this the | |
1904 | ;; storage cheap way. | |
1905 | (let* ((a (aref (class-v class) class-class-allocation-a)) | |
1906 | (l1 (length a)) | |
1907 | (af (memq slot a)) | |
1908 | (l2 (length af))) | |
1909 | ;; Slot # is length of the total list, minus the remaining list of | |
1910 | ;; the found slot. | |
1911 | (if af (- l1 l2)))) | |
1912 | \f | |
1913 | ;;; CLOS generics internal function handling | |
1914 | ;; | |
1915 | (defvar eieio-generic-call-methodname nil | |
1916 | "When using `call-next-method', provides a context on how to do it.") | |
1917 | (defvar eieio-generic-call-arglst nil | |
1918 | "When using `call-next-method', provides a context for parameters.") | |
1919 | (defvar eieio-generic-call-key nil | |
1920 | "When using `call-next-method', provides a context for the current key. | |
1921 | Keys are a number representing :before, :primary, and :after methods.") | |
1922 | (defvar eieio-generic-call-next-method-list nil | |
1923 | "When executing a PRIMARY or STATIC method, track the 'next-method'. | |
1924 | During executions, the list is first generated, then as each next method | |
1925 | is called, the next method is popped off the stack.") | |
1926 | ||
1927 | (defvar eieio-pre-method-execution-hooks nil | |
1928 | "*Hooks run just before a method is executed. | |
a8f316ca | 1929 | The hook function must accept one argument, the list of forms |
6dd12ef2 CY |
1930 | about to be executed.") |
1931 | ||
1932 | (defun eieio-generic-call (method args) | |
1933 | "Call METHOD with ARGS. | |
1934 | ARGS provides the context on which implementation to use. | |
1935 | This should only be called from a generic function." | |
1936 | ;; We must expand our arguments first as they are always | |
1937 | ;; passed in as quoted symbols | |
1938 | (let ((newargs nil) (mclass nil) (lambdas nil) (tlambdas nil) (keys nil) | |
1939 | (eieio-generic-call-methodname method) | |
1940 | (eieio-generic-call-arglst args) | |
1941 | (firstarg nil) | |
1942 | (primarymethodlist nil)) | |
1943 | ;; get a copy | |
1944 | (setq newargs args | |
1945 | firstarg (car newargs)) | |
1946 | ;; Is the class passed in autoloaded? | |
1947 | ;; Since class names are also constructors, they can be autoloaded | |
1948 | ;; via the autoload command. Check for this, and load them in. | |
1949 | ;; It's ok if it doesn't turn out to be a class. Probably want that | |
1950 | ;; function loaded anyway. | |
1951 | (if (and (symbolp firstarg) | |
1952 | (fboundp firstarg) | |
1953 | (listp (symbol-function firstarg)) | |
1954 | (eq 'autoload (car (symbol-function firstarg)))) | |
1955 | (load (nth 1 (symbol-function firstarg)))) | |
1956 | ;; Determine the class to use. | |
1957 | (cond ((eieio-object-p firstarg) | |
1958 | (setq mclass (object-class-fast firstarg))) | |
1959 | ((class-p firstarg) | |
1960 | (setq mclass firstarg)) | |
1961 | ) | |
1962 | ;; Make sure the class is a valid class | |
1963 | ;; mclass can be nil (meaning a generic for should be used. | |
1964 | ;; mclass cannot have a value that is not a class, however. | |
1965 | (when (and (not (null mclass)) (not (class-p mclass))) | |
1966 | (error "Cannot dispatch method %S on class %S" | |
1967 | method mclass) | |
1968 | ) | |
1969 | ;; Now create a list in reverse order of all the calls we have | |
1970 | ;; make in order to successfully do this right. Rules: | |
1971 | ;; 1) Only call generics if scoped-class is not defined | |
1972 | ;; This prevents multiple calls in the case of recursion | |
1973 | ;; 2) Only call static if this is a static method. | |
1974 | ;; 3) Only call specifics if the definition allows for them. | |
1975 | ;; 4) Call in order based on :before, :primary, and :after | |
1976 | (when (eieio-object-p firstarg) | |
1977 | ;; Non-static calls do all this stuff. | |
1978 | ||
1979 | ;; :after methods | |
1980 | (setq tlambdas | |
1981 | (if mclass | |
1982 | (eieiomt-method-list method method-after mclass) | |
1983 | (list (eieio-generic-form method method-after nil))) | |
1984 | ;;(or (and mclass (eieio-generic-form method method-after mclass)) | |
1985 | ;; (eieio-generic-form method method-after nil)) | |
1986 | ) | |
1987 | (setq lambdas (append tlambdas lambdas) | |
1988 | keys (append (make-list (length tlambdas) method-after) keys)) | |
1989 | ||
1990 | ;; :primary methods | |
1991 | (setq tlambdas | |
1992 | (or (and mclass (eieio-generic-form method method-primary mclass)) | |
1993 | (eieio-generic-form method method-primary nil))) | |
1994 | (when tlambdas | |
1995 | (setq lambdas (cons tlambdas lambdas) | |
1996 | keys (cons method-primary keys) | |
1997 | primarymethodlist | |
1998 | (eieiomt-method-list method method-primary mclass))) | |
1999 | ||
2000 | ;; :before methods | |
2001 | (setq tlambdas | |
2002 | (if mclass | |
2003 | (eieiomt-method-list method method-before mclass) | |
2004 | (list (eieio-generic-form method method-before nil))) | |
2005 | ;;(or (and mclass (eieio-generic-form method method-before mclass)) | |
2006 | ;; (eieio-generic-form method method-before nil)) | |
2007 | ) | |
2008 | (setq lambdas (append tlambdas lambdas) | |
2009 | keys (append (make-list (length tlambdas) method-before) keys)) | |
2010 | ) | |
2011 | ||
2012 | ;; If there were no methods found, then there could be :static methods. | |
2013 | (when (not lambdas) | |
2014 | (setq tlambdas | |
2015 | (eieio-generic-form method method-static mclass)) | |
2016 | (setq lambdas (cons tlambdas lambdas) | |
2017 | keys (cons method-static keys) | |
2018 | primarymethodlist ;; Re-use even with bad name here | |
2019 | (eieiomt-method-list method method-static mclass))) | |
2020 | ||
2021 | (run-hook-with-args 'eieio-pre-method-execution-hooks | |
2022 | primarymethodlist) | |
2023 | ||
db9e401b | 2024 | ;; Now loop through all occurrences forms which we must execute |
6dd12ef2 CY |
2025 | ;; (which are happily sorted now) and execute them all! |
2026 | (let ((rval nil) (lastval nil) (rvalever nil) (found nil)) | |
2027 | (while lambdas | |
2028 | (if (car lambdas) | |
2029 | (let* ((scoped-class (cdr (car lambdas))) | |
2030 | (eieio-generic-call-key (car keys)) | |
2031 | (has-return-val | |
2032 | (or (= eieio-generic-call-key method-primary) | |
2033 | (= eieio-generic-call-key method-static))) | |
2034 | (eieio-generic-call-next-method-list | |
2035 | ;; Use the cdr, as the first element is the fcn | |
2036 | ;; we are calling right now. | |
2037 | (when has-return-val (cdr primarymethodlist))) | |
2038 | ) | |
2039 | (setq found t) | |
2040 | ;;(setq rval (apply (car (car lambdas)) newargs)) | |
2041 | (setq lastval (apply (car (car lambdas)) newargs)) | |
2042 | (when has-return-val | |
2043 | (setq rval lastval | |
2044 | rvalever t)) | |
2045 | )) | |
2046 | (setq lambdas (cdr lambdas) | |
2047 | keys (cdr keys))) | |
2048 | (if (not found) | |
2049 | (if (eieio-object-p (car args)) | |
2050 | (setq rval (apply 'no-applicable-method (car args) method args) | |
2051 | rvalever t) | |
2052 | (signal | |
2053 | 'no-method-definition | |
2054 | (list method args)))) | |
2055 | ;; Right Here... it could be that lastval is returned when | |
2056 | ;; rvalever is nil. Is that right? | |
2057 | rval))) | |
2058 | ||
2059 | (defun eieio-generic-call-primary-only (method args) | |
2060 | "Call METHOD with ARGS for methods with only :PRIMARY implementations. | |
2061 | ARGS provides the context on which implementation to use. | |
2062 | This should only be called from a generic function. | |
2063 | ||
2064 | This method is like `eieio-generic-call', but only | |
2065 | implementations in the :PRIMARY slot are queried. After many | |
2066 | years of use, it appears that over 90% of methods in use | |
2067 | have :PRIMARY implementations only. We can therefore optimize | |
2068 | for this common case to improve performance." | |
2069 | ;; We must expand our arguments first as they are always | |
2070 | ;; passed in as quoted symbols | |
2071 | (let ((newargs nil) (mclass nil) (lambdas nil) | |
2072 | (eieio-generic-call-methodname method) | |
2073 | (eieio-generic-call-arglst args) | |
2074 | (firstarg nil) | |
2075 | (primarymethodlist nil) | |
2076 | ) | |
2077 | ;; get a copy | |
2078 | (setq newargs args | |
2079 | firstarg (car newargs)) | |
2080 | ||
2081 | ;; Determine the class to use. | |
2082 | (cond ((eieio-object-p firstarg) | |
2083 | (setq mclass (object-class-fast firstarg))) | |
2084 | ((not firstarg) | |
2085 | (error "Method %s called on nil" method)) | |
2086 | ((not (eieio-object-p firstarg)) | |
2087 | (error "Primary-only method %s called on something not an object" method)) | |
2088 | (t | |
2089 | (error "EIEIO Error: Improperly classified method %s as primary only" | |
2090 | method) | |
2091 | )) | |
2092 | ;; Make sure the class is a valid class | |
2093 | ;; mclass can be nil (meaning a generic for should be used. | |
2094 | ;; mclass cannot have a value that is not a class, however. | |
2095 | (when (null mclass) | |
2096 | (error "Cannot dispatch method %S on class %S" method mclass) | |
2097 | ) | |
2098 | ||
2099 | ;; :primary methods | |
2100 | (setq lambdas (eieio-generic-form method method-primary mclass)) | |
2101 | (setq primarymethodlist ;; Re-use even with bad name here | |
2102 | (eieiomt-method-list method method-primary mclass)) | |
2103 | ||
db9e401b | 2104 | ;; Now loop through all occurrences forms which we must execute |
6dd12ef2 CY |
2105 | ;; (which are happily sorted now) and execute them all! |
2106 | (let* ((rval nil) (lastval nil) (rvalever nil) | |
2107 | (scoped-class (cdr lambdas)) | |
2108 | (eieio-generic-call-key method-primary) | |
2109 | ;; Use the cdr, as the first element is the fcn | |
2110 | ;; we are calling right now. | |
2111 | (eieio-generic-call-next-method-list (cdr primarymethodlist)) | |
2112 | ) | |
2113 | ||
2114 | (if (or (not lambdas) (not (car lambdas))) | |
2115 | ||
2116 | ;; No methods found for this impl... | |
2117 | (if (eieio-object-p (car args)) | |
2118 | (setq rval (apply 'no-applicable-method (car args) method args) | |
2119 | rvalever t) | |
2120 | (signal | |
2121 | 'no-method-definition | |
2122 | (list method args))) | |
2123 | ||
2124 | ;; Do the regular implementation here. | |
2125 | ||
2126 | (run-hook-with-args 'eieio-pre-method-execution-hooks | |
2127 | lambdas) | |
2128 | ||
2129 | (setq lastval (apply (car lambdas) newargs)) | |
2130 | (setq rval lastval | |
2131 | rvalever t) | |
2132 | ) | |
2133 | ||
2134 | ;; Right Here... it could be that lastval is returned when | |
2135 | ;; rvalever is nil. Is that right? | |
2136 | rval))) | |
2137 | ||
2138 | (defun eieiomt-method-list (method key class) | |
2139 | "Return an alist list of methods lambdas. | |
2140 | METHOD is the method name. | |
2141 | KEY represents either :before, or :after methods. | |
2142 | CLASS is the starting class to search from in the method tree. | |
2143 | If CLASS is nil, then an empty list of methods should be returned." | |
2144 | ;; Note: eieiomt - the MT means MethodTree. See more comments below | |
2145 | ;; for the rest of the eieiomt methods. | |
2146 | (let ((lambdas nil) | |
2147 | (mclass (list class))) | |
2148 | (while mclass | |
2149 | ;; Note: a nil can show up in the class list once we start | |
2150 | ;; searching through the method tree. | |
2151 | (when (car mclass) | |
2152 | ;; lookup the form to use for the PRIMARY object for the next level | |
2153 | (let ((tmpl (eieio-generic-form method key (car mclass)))) | |
2154 | (when (or (not lambdas) | |
2155 | ;; This prevents duplicates coming out of the | |
2156 | ;; class method optimizer. Perhaps we should | |
2157 | ;; just not optimize before/afters? | |
2158 | (not (eq (car tmpl) (car (car lambdas))))) | |
2159 | (setq lambdas (cons tmpl lambdas)) | |
2160 | (if (null (car lambdas)) | |
2161 | (setq lambdas (cdr lambdas)))))) | |
2162 | ;; Add new classes to mclass. Since our input might not be a class | |
2163 | ;; protect against that. | |
2164 | (if (car mclass) | |
2165 | ;; If there is a class, append any methods it may provide | |
2166 | ;; to the remainder of the class list. | |
2167 | (let ((io (class-method-invocation-order (car mclass)))) | |
2168 | (if (eq io :depth-first) | |
2169 | ;; Depth first. | |
2170 | (setq mclass (append (eieiomt-next (car mclass)) (cdr mclass))) | |
2171 | ;; Breadth first. | |
2172 | (setq mclass (append (cdr mclass) (eieiomt-next (car mclass))))) | |
2173 | ) | |
2174 | ;; Advance to next entry in mclass if it is nil. | |
2175 | (setq mclass (cdr mclass))) | |
2176 | ) | |
2177 | (if (eq key method-after) | |
2178 | lambdas | |
2179 | (nreverse lambdas)))) | |
2180 | ||
2181 | (defun next-method-p () | |
a8f316ca | 2182 | "Return non-nil if there is a next method. |
6dd12ef2 CY |
2183 | Returns a list of lambda expressions which is the `next-method' |
2184 | order." | |
2185 | eieio-generic-call-next-method-list) | |
2186 | ||
2187 | (defun call-next-method (&rest replacement-args) | |
2188 | "Call the superclass method from a subclass method. | |
2189 | The superclass method is specified in the current method list, | |
2190 | and is called the next method. | |
2191 | ||
2192 | If REPLACEMENT-ARGS is non-nil, then use them instead of | |
2193 | `eieio-generic-call-arglst'. The generic arg list are the | |
2194 | arguments passed in at the top level. | |
2195 | ||
2196 | Use `next-method-p' to find out if there is a next method to call." | |
2197 | (if (not scoped-class) | |
a8f316ca | 2198 | (error "`call-next-method' not called within a class specific method")) |
6dd12ef2 CY |
2199 | (if (and (/= eieio-generic-call-key method-primary) |
2200 | (/= eieio-generic-call-key method-static)) | |
2201 | (error "Cannot `call-next-method' except in :primary or :static methods") | |
2202 | ) | |
2203 | (let ((newargs (or replacement-args eieio-generic-call-arglst)) | |
2204 | (next (car eieio-generic-call-next-method-list)) | |
2205 | ) | |
2206 | (if (or (not next) (not (car next))) | |
2207 | (apply 'no-next-method (car newargs) (cdr newargs)) | |
2208 | (let* ((eieio-generic-call-next-method-list | |
2209 | (cdr eieio-generic-call-next-method-list)) | |
2210 | (scoped-class (cdr next)) | |
2211 | (fcn (car next)) | |
2212 | ) | |
2213 | (apply fcn newargs) | |
2214 | )))) | |
2215 | \f | |
2216 | ;;; | |
2217 | ;; eieio-method-tree : eieiomt- | |
2218 | ;; | |
2219 | ;; Stored as eieio-method-tree in property list of a generic method | |
2220 | ;; | |
2221 | ;; (eieio-method-tree . [BEFORE PRIMARY AFTER | |
2222 | ;; genericBEFORE genericPRIMARY genericAFTER]) | |
2223 | ;; and | |
2224 | ;; (eieio-method-obarray . [BEFORE PRIMARY AFTER | |
2225 | ;; genericBEFORE genericPRIMARY genericAFTER]) | |
2226 | ;; where the association is a vector. | |
2227 | ;; (aref 0 -- all static methods. | |
2228 | ;; (aref 1 -- all methods classified as :before | |
2229 | ;; (aref 2 -- all methods classified as :primary | |
2230 | ;; (aref 3 -- all methods classified as :after | |
2231 | ;; (aref 4 -- a generic classified as :before | |
2232 | ;; (aref 5 -- a generic classified as :primary | |
2233 | ;; (aref 6 -- a generic classified as :after | |
2234 | ;; | |
2235 | (defvar eieiomt-optimizing-obarray nil | |
2236 | "While mapping atoms, this contain the obarray being optimized.") | |
2237 | ||
2238 | (defun eieiomt-install (method-name) | |
2239 | "Install the method tree, and obarray onto METHOD-NAME. | |
2240 | Do not do the work if they already exist." | |
2241 | (let ((emtv (get method-name 'eieio-method-tree)) | |
2242 | (emto (get method-name 'eieio-method-obarray))) | |
2243 | (if (or (not emtv) (not emto)) | |
2244 | (progn | |
2245 | (setq emtv (put method-name 'eieio-method-tree | |
2246 | (make-vector method-num-slots nil)) | |
2247 | emto (put method-name 'eieio-method-obarray | |
2248 | (make-vector method-num-slots nil))) | |
2249 | (aset emto 0 (make-vector 11 0)) | |
2250 | (aset emto 1 (make-vector 11 0)) | |
2251 | (aset emto 2 (make-vector 41 0)) | |
2252 | (aset emto 3 (make-vector 11 0)) | |
2253 | )))) | |
2254 | ||
2255 | (defun eieiomt-add (method-name method key class) | |
2256 | "Add to METHOD-NAME the forms METHOD in a call position KEY for CLASS. | |
2257 | METHOD-NAME is the name created by a call to `defgeneric'. | |
2258 | METHOD are the forms for a given implementation. | |
2259 | KEY is an integer (see comment in eieio.el near this function) which | |
2260 | is associated with the :static :before :primary and :after tags. | |
2261 | It also indicates if CLASS is defined or not. | |
2262 | CLASS is the class this method is associated with." | |
2263 | (if (or (> key method-num-slots) (< key 0)) | |
a8f316ca | 2264 | (error "eieiomt-add: method key error!")) |
6dd12ef2 CY |
2265 | (let ((emtv (get method-name 'eieio-method-tree)) |
2266 | (emto (get method-name 'eieio-method-obarray))) | |
2267 | ;; Make sure the method tables are available. | |
2268 | (if (or (not emtv) (not emto)) | |
2269 | (error "Programmer error: eieiomt-add")) | |
2270 | ;; only add new cells on if it doesn't already exist! | |
2271 | (if (assq class (aref emtv key)) | |
2272 | (setcdr (assq class (aref emtv key)) method) | |
2273 | (aset emtv key (cons (cons class method) (aref emtv key)))) | |
2274 | ;; Add function definition into newly created symbol, and store | |
2275 | ;; said symbol in the correct obarray, otherwise use the | |
2276 | ;; other array to keep this stuff | |
2277 | (if (< key method-num-lists) | |
2278 | (let ((nsym (intern (symbol-name class) (aref emto key)))) | |
2279 | (fset nsym method))) | |
2280 | ;; Now optimize the entire obarray | |
2281 | (if (< key method-num-lists) | |
2282 | (let ((eieiomt-optimizing-obarray (aref emto key))) | |
2283 | ;; @todo - Is this overkill? Should we just clear the symbol? | |
2284 | (mapatoms 'eieiomt-sym-optimize eieiomt-optimizing-obarray))) | |
2285 | )) | |
2286 | ||
2287 | (defun eieiomt-next (class) | |
2288 | "Return the next parent class for CLASS. | |
a8f316ca JB |
2289 | If CLASS is a superclass, return variable `eieio-default-superclass'. |
2290 | If CLASS is variable `eieio-default-superclass' then return nil. | |
2291 | This is different from function `class-parent' as class parent returns | |
2292 | nil for superclasses. This function performs no type checking!" | |
6dd12ef2 CY |
2293 | ;; No type-checking because all calls are made from functions which |
2294 | ;; are safe and do checking for us. | |
2295 | (or (class-parents-fast class) | |
2296 | (if (eq class 'eieio-default-superclass) | |
2297 | nil | |
2298 | '(eieio-default-superclass)))) | |
2299 | ||
2300 | (defun eieiomt-sym-optimize (s) | |
2301 | "Find the next class above S which has a function body for the optimizer." | |
2302 | ;; (message "Optimizing %S" s) | |
2303 | (let* ((es (intern-soft (symbol-name s))) ;external symbol of class | |
2304 | (io (class-method-invocation-order es)) | |
2305 | (ov nil) | |
2306 | (cont t)) | |
2307 | ;; This converts ES from a single symbol to a list of parent classes. | |
2308 | (setq es (eieiomt-next es)) | |
a8f316ca | 2309 | ;; Loop over ES, then its children individually. |
6dd12ef2 CY |
2310 | ;; We can have multiple hits only at one level of the parent tree. |
2311 | (while (and es cont) | |
2312 | (setq ov (intern-soft (symbol-name (car es)) eieiomt-optimizing-obarray)) | |
2313 | (if (fboundp ov) | |
2314 | (progn | |
2315 | (set s ov) ;store ov as our next symbol | |
2316 | (setq cont nil)) | |
2317 | (if (eq io :depth-first) | |
2318 | ;; Pre-pend the subclasses of (car es) so we get | |
2319 | ;; DEPTH FIRST optimization. | |
2320 | (setq es (append (eieiomt-next (car es)) (cdr es))) | |
2321 | ;; Else, we are breadth first. | |
2322 | ;; (message "Class %s is breadth first" es) | |
2323 | (setq es (append (cdr es) (eieiomt-next (car es)))) | |
2324 | ))) | |
2325 | ;; If there is no nearest call, then set our value to nil | |
2326 | (if (not es) (set s nil)) | |
2327 | )) | |
2328 | ||
2329 | (defun eieio-generic-form (method key class) | |
2330 | "Return the lambda form belonging to METHOD using KEY based upon CLASS. | |
a8f316ca JB |
2331 | If CLASS is not a class then use `generic' instead. If class has |
2332 | no form, but has a parent class, then trace to that parent class. | |
2333 | The first time a form is requested from a symbol, an optimized path | |
db9e401b | 2334 | is memorized for faster future use." |
6dd12ef2 CY |
2335 | (let ((emto (aref (get method 'eieio-method-obarray) |
2336 | (if class key (+ key 3))))) | |
2337 | (if (class-p class) | |
2338 | ;; 1) find our symbol | |
2339 | (let ((cs (intern-soft (symbol-name class) emto))) | |
2340 | (if (not cs) | |
2341 | ;; 2) If there isn't one, then make one. | |
2342 | ;; This can be slow since it only occurs once | |
2343 | (progn | |
2344 | (setq cs (intern (symbol-name class) emto)) | |
a8f316ca | 2345 | ;; 2.1) Cache its nearest neighbor with a quick optimize |
6dd12ef2 CY |
2346 | ;; which should only occur once for this call ever |
2347 | (let ((eieiomt-optimizing-obarray emto)) | |
2348 | (eieiomt-sym-optimize cs)))) | |
2349 | ;; 3) If it's bound return this one. | |
2350 | (if (fboundp cs) | |
2351 | (cons cs (aref (class-v class) class-symbol)) | |
2352 | ;; 4) If it's not bound then this variable knows something | |
2353 | (if (symbol-value cs) | |
2354 | (progn | |
a8f316ca | 2355 | ;; 4.1) This symbol holds the next class in its value |
6dd12ef2 CY |
2356 | (setq class (symbol-value cs) |
2357 | cs (intern-soft (symbol-name class) emto)) | |
2358 | ;; 4.2) The optimizer should always have chosen a | |
2359 | ;; function-symbol | |
2360 | ;;(if (fboundp cs) | |
2361 | (cons cs (aref (class-v (intern (symbol-name class))) | |
2362 | class-symbol)) | |
2363 | ;;(error "EIEIO optimizer: erratic data loss!")) | |
2364 | ) | |
2365 | ;; There never will be a funcall... | |
2366 | nil))) | |
2367 | ;; for a generic call, what is a list, is the function body we want. | |
2368 | (let ((emtl (aref (get method 'eieio-method-tree) | |
2369 | (if class key (+ key 3))))) | |
2370 | (if emtl | |
2371 | ;; The car of EMTL is supposed to be a class, which in this | |
2372 | ;; case is nil, so skip it. | |
2373 | (cons (cdr (car emtl)) nil) | |
2374 | nil))))) | |
2375 | ||
2376 | ;;; | |
2377 | ;; Way to assign slots based on a list. Used for constructors, or | |
2378 | ;; even resetting an object at run-time | |
2379 | ;; | |
2380 | (defun eieio-set-defaults (obj &optional set-all) | |
2381 | "Take object OBJ, and reset all slots to their defaults. | |
2382 | If SET-ALL is non-nil, then when a default is nil, that value is | |
2383 | reset. If SET-ALL is nil, the slots are only reset if the default is | |
2384 | not nil." | |
2385 | (let ((scoped-class (aref obj object-class)) | |
2386 | (eieio-initializing-object t) | |
2387 | (pub (aref (class-v (aref obj object-class)) class-public-a))) | |
2388 | (while pub | |
2389 | (let ((df (eieio-oref-default obj (car pub)))) | |
2390 | (if (or df set-all) | |
2391 | (eieio-oset obj (car pub) df))) | |
2392 | (setq pub (cdr pub))))) | |
2393 | ||
2394 | (defun eieio-initarg-to-attribute (class initarg) | |
2395 | "For CLASS, convert INITARG to the actual attribute name. | |
2396 | If there is no translation, pass it in directly (so we can cheat if | |
a8f316ca | 2397 | need be... May remove that later...)" |
6dd12ef2 CY |
2398 | (let ((tuple (assoc initarg (aref (class-v class) class-initarg-tuples)))) |
2399 | (if tuple | |
2400 | (cdr tuple) | |
2401 | nil))) | |
2402 | ||
2403 | (defun eieio-attribute-to-initarg (class attribute) | |
2404 | "In CLASS, convert the ATTRIBUTE into the corresponding init argument tag. | |
2405 | This is usually a symbol that starts with `:'." | |
2406 | (let ((tuple (rassoc attribute (aref (class-v class) class-initarg-tuples)))) | |
2407 | (if tuple | |
2408 | (car tuple) | |
2409 | nil))) | |
2410 | ||
2411 | \f | |
2412 | ;;; Here are some special types of errors | |
2413 | ;; | |
2414 | (intern "no-method-definition") | |
2415 | (put 'no-method-definition 'error-conditions '(no-method-definition error)) | |
2416 | (put 'no-method-definition 'error-message "No method definition") | |
2417 | ||
2418 | (intern "no-next-method") | |
2419 | (put 'no-next-method 'error-conditions '(no-next-method error)) | |
2420 | (put 'no-next-method 'error-message "No next method") | |
2421 | ||
2422 | (intern "invalid-slot-name") | |
2423 | (put 'invalid-slot-name 'error-conditions '(invalid-slot-name error)) | |
2424 | (put 'invalid-slot-name 'error-message "Invalid slot name") | |
2425 | ||
2426 | (intern "invalid-slot-type") | |
2427 | (put 'invalid-slot-type 'error-conditions '(invalid-slot-type error nil)) | |
2428 | (put 'invalid-slot-type 'error-message "Invalid slot type") | |
2429 | ||
2430 | (intern "unbound-slot") | |
2431 | (put 'unbound-slot 'error-conditions '(unbound-slot error nil)) | |
2432 | (put 'unbound-slot 'error-message "Unbound slot") | |
2433 | ||
2434 | ;;; Here are some CLOS items that need the CL package | |
2435 | ;; | |
2436 | ||
2437 | (defsetf slot-value (obj slot) (store) (list 'eieio-oset obj slot store)) | |
2438 | (defsetf eieio-oref (obj slot) (store) (list 'eieio-oset obj slot store)) | |
2439 | ||
2440 | ;; The below setf method was written by Arnd Kohrs <kohrs@acm.org> | |
2441 | (define-setf-method oref (obj slot) | |
67868d26 CY |
2442 | (with-no-warnings |
2443 | (require 'cl) | |
2444 | (let ((obj-temp (gensym)) | |
2445 | (slot-temp (gensym)) | |
2446 | (store-temp (gensym))) | |
2447 | (list (list obj-temp slot-temp) | |
2448 | (list obj `(quote ,slot)) | |
2449 | (list store-temp) | |
2450 | (list 'set-slot-value obj-temp slot-temp | |
2451 | store-temp) | |
2452 | (list 'slot-value obj-temp slot-temp))))) | |
6dd12ef2 CY |
2453 | |
2454 | \f | |
2455 | ;;; | |
2456 | ;; We want all objects created by EIEIO to have some default set of | |
2457 | ;; behaviours so we can create object utilities, and allow various | |
2458 | ;; types of error checking. To do this, create the default EIEIO | |
2459 | ;; class, and when no parent class is specified, use this as the | |
2460 | ;; default. (But don't store it in the other classes as the default, | |
2461 | ;; allowing for transparent support.) | |
2462 | ;; | |
2463 | ||
2464 | (defclass eieio-default-superclass nil | |
2465 | nil | |
2466 | "Default parent class for classes with no specified parent class. | |
a8f316ca JB |
2467 | Its slots are automatically adopted by classes with no specified parents. |
2468 | This class is not stored in the `parent' slot of a class vector." | |
6dd12ef2 CY |
2469 | :abstract t) |
2470 | ||
2471 | (defalias 'standard-class 'eieio-default-superclass) | |
2472 | ||
2473 | (defgeneric constructor (class newname &rest slots) | |
a8f316ca | 2474 | "Default constructor for CLASS `eieio-default-superclass'.") |
6dd12ef2 CY |
2475 | |
2476 | (defmethod constructor :static | |
2477 | ((class eieio-default-superclass) newname &rest slots) | |
a8f316ca | 2478 | "Default constructor for CLASS `eieio-default-superclass'. |
6dd12ef2 CY |
2479 | NEWNAME is the name to be given to the constructed object. |
2480 | SLOTS are the initialization slots used by `shared-initialize'. | |
2481 | This static method is called when an object is constructed. | |
2482 | It allocates the vector used to represent an EIEIO object, and then | |
2483 | calls `shared-initialize' on that object." | |
2484 | (let* ((new-object (copy-sequence (aref (class-v class) | |
2485 | class-default-object-cache)))) | |
2486 | ;; Update the name for the newly created object. | |
2487 | (aset new-object object-name newname) | |
2488 | ;; Call the initialize method on the new object with the slots | |
2489 | ;; that were passed down to us. | |
2490 | (initialize-instance new-object slots) | |
2491 | ;; Return the created object. | |
2492 | new-object)) | |
2493 | ||
2494 | (defgeneric shared-initialize (obj slots) | |
2495 | "Set slots of OBJ with SLOTS which is a list of name/value pairs. | |
2496 | Called from the constructor routine.") | |
2497 | ||
2498 | (defmethod shared-initialize ((obj eieio-default-superclass) slots) | |
2499 | "Set slots of OBJ with SLOTS which is a list of name/value pairs. | |
2500 | Called from the constructor routine." | |
2501 | (let ((scoped-class (aref obj object-class))) | |
2502 | (while slots | |
2503 | (let ((rn (eieio-initarg-to-attribute (object-class-fast obj) | |
2504 | (car slots)))) | |
2505 | (if (not rn) | |
2506 | (slot-missing obj (car slots) 'oset (car (cdr slots))) | |
2507 | (eieio-oset obj rn (car (cdr slots))))) | |
2508 | (setq slots (cdr (cdr slots)))))) | |
2509 | ||
2510 | (defgeneric initialize-instance (this &optional slots) | |
a8f316ca | 2511 | "Construct the new object THIS based on SLOTS.") |
6dd12ef2 CY |
2512 | |
2513 | (defmethod initialize-instance ((this eieio-default-superclass) | |
2514 | &optional slots) | |
a8f316ca | 2515 | "Construct the new object THIS based on SLOTS. |
6dd12ef2 | 2516 | SLOTS is a tagged list where odd numbered elements are tags, and |
a8f316ca JB |
2517 | even numbered elements are the values to store in the tagged slot. |
2518 | If you overload the `initialize-instance', there you will need to | |
2519 | call `shared-initialize' yourself, or you can call `call-next-method' | |
2520 | to have this constructor called automatically. If these steps are | |
2521 | not taken, then new objects of your class will not have their values | |
6dd12ef2 CY |
2522 | dynamically set from SLOTS." |
2523 | ;; First, see if any of our defaults are `lambda', and | |
2524 | ;; re-evaluate them and apply the value to our slots. | |
2525 | (let* ((scoped-class (class-v (aref this object-class))) | |
2526 | (slot (aref scoped-class class-public-a)) | |
2527 | (defaults (aref scoped-class class-public-d))) | |
2528 | (while slot | |
2529 | (setq slot (cdr slot) | |
2530 | defaults (cdr defaults)))) | |
2531 | ;; Shared initialize will parse our slots for us. | |
2532 | (shared-initialize this slots)) | |
2533 | ||
2534 | (defgeneric slot-missing (object slot-name operation &optional new-value) | |
2535 | "Method invoked when an attempt to access a slot in OBJECT fails.") | |
2536 | ||
2537 | (defmethod slot-missing ((object eieio-default-superclass) slot-name | |
2538 | operation &optional new-value) | |
2539 | "Method invoked when an attempt to access a slot in OBJECT fails. | |
2540 | SLOT-NAME is the name of the failed slot, OPERATION is the type of access | |
2541 | that was requested, and optional NEW-VALUE is the value that was desired | |
2542 | to be set. | |
2543 | ||
2544 | This method is called from `oref', `oset', and other functions which | |
2545 | directly reference slots in EIEIO objects." | |
2546 | (signal 'invalid-slot-name (list (object-name object) | |
2547 | slot-name))) | |
2548 | ||
2549 | (defgeneric slot-unbound (object class slot-name fn) | |
2550 | "Slot unbound is invoked during an attempt to reference an unbound slot.") | |
2551 | ||
2552 | (defmethod slot-unbound ((object eieio-default-superclass) | |
2553 | class slot-name fn) | |
2554 | "Slot unbound is invoked during an attempt to reference an unbound slot. | |
2555 | OBJECT is the instance of the object being reference. CLASS is the | |
2556 | class of OBJECT, and SLOT-NAME is the offending slot. This function | |
2557 | throws the signal `unbound-slot'. You can overload this function and | |
2558 | return the value to use in place of the unbound value. | |
2559 | Argument FN is the function signaling this error. | |
2560 | Use `slot-boundp' to determine if a slot is bound or not. | |
2561 | ||
2562 | In CLOS, the argument list is (CLASS OBJECT SLOT-NAME), but | |
2563 | EIEIO can only dispatch on the first argument, so the first two are swapped." | |
2564 | (signal 'unbound-slot (list (class-name class) (object-name object) | |
2565 | slot-name fn))) | |
2566 | ||
2567 | (defgeneric no-applicable-method (object method &rest args) | |
2568 | "Called if there are no implementations for OBJECT in METHOD.") | |
2569 | ||
2570 | (defmethod no-applicable-method ((object eieio-default-superclass) | |
2571 | method &rest args) | |
2572 | "Called if there are no implementations for OBJECT in METHOD. | |
2573 | OBJECT is the object which has no method implementation. | |
2574 | ARGS are the arguments that were passed to METHOD. | |
2575 | ||
2576 | Implement this for a class to block this signal. The return | |
2577 | value becomes the return value of the original method call." | |
2578 | (signal 'no-method-definition (list method (object-name object))) | |
2579 | ) | |
2580 | ||
2581 | (defgeneric no-next-method (object &rest args) | |
2582 | "Called from `call-next-method' when no additional methods are available.") | |
2583 | ||
2584 | (defmethod no-next-method ((object eieio-default-superclass) | |
2585 | &rest args) | |
2586 | "Called from `call-next-method' when no additional methods are available. | |
2587 | OBJECT is othe object being called on `call-next-method'. | |
a8f316ca | 2588 | ARGS are the arguments it is called by. |
6dd12ef2 | 2589 | This method signals `no-next-method' by default. Override this |
a8f316ca | 2590 | method to not throw an error, and its return value becomes the |
6dd12ef2 CY |
2591 | return value of `call-next-method'." |
2592 | (signal 'no-next-method (list (object-name object) args)) | |
2593 | ) | |
2594 | ||
2595 | (defgeneric clone (obj &rest params) | |
2596 | "Make a copy of OBJ, and then supply PARAMS. | |
2597 | PARAMS is a parameter list of the same form used by `initialize-instance'. | |
2598 | ||
2599 | When overloading `clone', be sure to call `call-next-method' | |
2600 | first and modify the returned object.") | |
2601 | ||
2602 | (defmethod clone ((obj eieio-default-superclass) &rest params) | |
2603 | "Make a copy of OBJ, and then apply PARAMS." | |
2604 | (let ((nobj (copy-sequence obj)) | |
2605 | (nm (aref obj object-name)) | |
2606 | (passname (and params (stringp (car params)))) | |
2607 | (num 1)) | |
2608 | (if params (shared-initialize nobj (if passname (cdr params) params))) | |
2609 | (if (not passname) | |
2610 | (save-match-data | |
2611 | (if (string-match "-\\([0-9]+\\)" nm) | |
2612 | (setq num (1+ (string-to-number (match-string 1 nm))) | |
2613 | nm (substring nm 0 (match-beginning 0)))) | |
2614 | (aset nobj object-name (concat nm "-" (int-to-string num)))) | |
2615 | (aset nobj object-name (car params))) | |
2616 | nobj)) | |
2617 | ||
2618 | (defgeneric destructor (this &rest params) | |
2619 | "Destructor for cleaning up any dynamic links to our object.") | |
2620 | ||
2621 | (defmethod destructor ((this eieio-default-superclass) &rest params) | |
2622 | "Destructor for cleaning up any dynamic links to our object. | |
2623 | Argument THIS is the object being destroyed. PARAMS are additional | |
2624 | ignored parameters." | |
2625 | ;; No cleanup... yet. | |
2626 | ) | |
2627 | ||
2628 | (defgeneric object-print (this &rest strings) | |
2629 | "Pretty printer for object THIS. Call function `object-name' with STRINGS. | |
2630 | ||
2631 | It is sometimes useful to put a summary of the object into the | |
a8f316ca | 2632 | default #<notation> string when using EIEIO browsing tools. |
6dd12ef2 CY |
2633 | Implement this method to customize the summary.") |
2634 | ||
2635 | (defmethod object-print ((this eieio-default-superclass) &rest strings) | |
2636 | "Pretty printer for object THIS. Call function `object-name' with STRINGS. | |
2637 | The default method for printing object THIS is to use the | |
2638 | function `object-name'. | |
2639 | ||
2640 | It is sometimes useful to put a summary of the object into the | |
a8f316ca | 2641 | default #<notation> string when using EIEIO browsing tools. |
6dd12ef2 CY |
2642 | |
2643 | Implement this function and specify STRINGS in a call to | |
2644 | `call-next-method' to provide additional summary information. | |
2645 | When passing in extra strings from child classes, always remember | |
2646 | to prepend a space." | |
2647 | (object-name this (apply 'concat strings))) | |
2648 | ||
2649 | (defvar eieio-print-depth 0 | |
2650 | "When printing, keep track of the current indentation depth.") | |
2651 | ||
2652 | (defgeneric object-write (this &optional comment) | |
2653 | "Write out object THIS to the current stream. | |
a8f316ca | 2654 | Optional COMMENT will add comments to the beginning of the output.") |
6dd12ef2 CY |
2655 | |
2656 | (defmethod object-write ((this eieio-default-superclass) &optional comment) | |
2657 | "Write object THIS out to the current stream. | |
2658 | This writes out the vector version of this object. Complex and recursive | |
2659 | object are discouraged from being written. | |
2660 | If optional COMMENT is non-nil, include comments when outputting | |
2661 | this object." | |
2662 | (when comment | |
2663 | (princ ";; Object ") | |
2664 | (princ (object-name-string this)) | |
2665 | (princ "\n") | |
2666 | (princ comment) | |
2667 | (princ "\n")) | |
2668 | (let* ((cl (object-class this)) | |
2669 | (cv (class-v cl))) | |
2670 | ;; Now output readable lisp to recreate this object | |
2671 | ;; It should look like this: | |
2672 | ;; (<constructor> <name> <slot> <slot> ... ) | |
2673 | ;; Each slot's slot is writen using its :writer. | |
2674 | (princ (make-string (* eieio-print-depth 2) ? )) | |
2675 | (princ "(") | |
2676 | (princ (symbol-name (class-constructor (object-class this)))) | |
2677 | (princ " \"") | |
2678 | (princ (object-name-string this)) | |
2679 | (princ "\"\n") | |
2680 | ;; Loop over all the public slots | |
2681 | (let ((publa (aref cv class-public-a)) | |
2682 | (publd (aref cv class-public-d)) | |
2683 | (publp (aref cv class-public-printer)) | |
2684 | (eieio-print-depth (1+ eieio-print-depth))) | |
2685 | (while publa | |
2686 | (when (slot-boundp this (car publa)) | |
2687 | (let ((i (class-slot-initarg cl (car publa))) | |
2688 | (v (eieio-oref this (car publa))) | |
2689 | ) | |
2690 | (unless (or (not i) (equal v (car publd))) | |
2691 | (princ (make-string (* eieio-print-depth 2) ? )) | |
2692 | (princ (symbol-name i)) | |
2693 | (princ " ") | |
2694 | (if (car publp) | |
2695 | ;; Use our public printer | |
2696 | (funcall (car publp) v) | |
2697 | ;; Use our generic override prin1 function. | |
2698 | (eieio-override-prin1 v)) | |
2699 | (princ "\n")))) | |
2700 | (setq publa (cdr publa) publd (cdr publd) | |
2701 | publp (cdr publp))) | |
2702 | (princ (make-string (* eieio-print-depth 2) ? ))) | |
2703 | (princ ")\n"))) | |
2704 | ||
2705 | (defun eieio-override-prin1 (thing) | |
a8f316ca | 2706 | "Perform a `prin1' on THING taking advantage of object knowledge." |
6dd12ef2 CY |
2707 | (cond ((eieio-object-p thing) |
2708 | (object-write thing)) | |
2709 | ((listp thing) | |
2710 | (eieio-list-prin1 thing)) | |
2711 | ((class-p thing) | |
2712 | (princ (class-name thing))) | |
2713 | ((symbolp thing) | |
2714 | (princ (concat "'" (symbol-name thing)))) | |
2715 | (t (prin1 thing)))) | |
2716 | ||
2717 | (defun eieio-list-prin1 (list) | |
2718 | "Display LIST where list may contain objects." | |
2719 | (if (not (eieio-object-p (car list))) | |
2720 | (progn | |
2721 | (princ "'") | |
2722 | (prin1 list)) | |
2723 | (princ "(list ") | |
2724 | (if (eieio-object-p (car list)) (princ "\n ")) | |
2725 | (while list | |
2726 | (if (eieio-object-p (car list)) | |
2727 | (object-write (car list)) | |
2728 | (princ "'") | |
2729 | (prin1 (car list))) | |
2730 | (princ " ") | |
2731 | (setq list (cdr list))) | |
2732 | (princ (make-string (* eieio-print-depth 2) ? )) | |
2733 | (princ ")"))) | |
2734 | ||
2735 | \f | |
2736 | ;;; Unimplemented functions from CLOS | |
2737 | ;; | |
2738 | (defun change-class (obj class) | |
2739 | "Change the class of OBJ to type CLASS. | |
2740 | This may create or delete slots, but does not affect the return value | |
2741 | of `eq'." | |
a8f316ca | 2742 | (error "EIEIO: `change-class' is unimplemented")) |
6dd12ef2 CY |
2743 | |
2744 | ) | |
2745 | ||
2746 | \f | |
2747 | ;;; Interfacing with edebug | |
2748 | ;; | |
2749 | (defun eieio-edebug-prin1-to-string (object &optional noescape) | |
a8f316ca JB |
2750 | "Display EIEIO OBJECT in fancy format. |
2751 | Overrides the edebug default. | |
6dd12ef2 CY |
2752 | Optional argument NOESCAPE is passed to `prin1-to-string' when appropriate." |
2753 | (cond ((class-p object) (class-name object)) | |
2754 | ((eieio-object-p object) (object-print object)) | |
2755 | ((and (listp object) (or (class-p (car object)) | |
2756 | (eieio-object-p (car object)))) | |
2757 | (concat "(" (mapconcat 'eieio-edebug-prin1-to-string object " ") ")")) | |
2758 | (t (prin1-to-string object noescape)))) | |
2759 | ||
2760 | (add-hook 'edebug-setup-hook | |
2761 | (lambda () | |
2762 | (def-edebug-spec defmethod | |
2763 | (&define ; this means we are defining something | |
2764 | [&or name ("setf" :name setf name)] | |
2765 | ;; ^^ This is the methods symbol | |
2766 | [ &optional symbolp ] ; this is key :before etc | |
2767 | list ; arguments | |
2768 | [ &optional stringp ] ; documentation string | |
2769 | def-body ; part to be debugged | |
2770 | )) | |
2771 | ;; The rest of the macros | |
2772 | (def-edebug-spec oref (form quote)) | |
2773 | (def-edebug-spec oref-default (form quote)) | |
2774 | (def-edebug-spec oset (form quote form)) | |
2775 | (def-edebug-spec oset-default (form quote form)) | |
2776 | (def-edebug-spec class-v form) | |
2777 | (def-edebug-spec class-p form) | |
2778 | (def-edebug-spec eieio-object-p form) | |
2779 | (def-edebug-spec class-constructor form) | |
2780 | (def-edebug-spec generic-p form) | |
2781 | (def-edebug-spec with-slots (list list def-body)) | |
2782 | ;; I suspect this isn't the best way to do this, but when | |
2783 | ;; cust-print was used on my system all my objects | |
2784 | ;; appeared as "#1 =" which was not useful. This allows | |
2785 | ;; edebug to print my objects in the nice way they were | |
2786 | ;; meant to with `object-print' and `class-name' | |
2787 | ;; (defalias 'edebug-prin1-to-string 'eieio-edebug-prin1-to-string) | |
2788 | ) | |
2789 | ) | |
2790 | ||
6dd12ef2 CY |
2791 | ;;; Interfacing with imenu in emacs lisp mode |
2792 | ;; (Only if the expression is defined) | |
2793 | ;; | |
2794 | (if (eval-when-compile (boundp 'list-imenu-generic-expression)) | |
2795 | (progn | |
2796 | ||
2797 | (defun eieio-update-lisp-imenu-expression () | |
2798 | "Examine `lisp-imenu-generic-expression' and modify it to find `defmethod'." | |
2799 | (let ((exp lisp-imenu-generic-expression)) | |
2800 | (while exp | |
2801 | ;; it's of the form '( ( title expr indx ) ... ) | |
2802 | (let* ((subcar (cdr (car exp))) | |
2803 | (substr (car subcar))) | |
2804 | (if (and (not (string-match "|method\\\\" substr)) | |
2805 | (string-match "|advice\\\\" substr)) | |
2806 | (setcar subcar | |
2807 | (replace-match "|advice\\|method\\" t t substr 0)))) | |
2808 | (setq exp (cdr exp))))) | |
2809 | ||
2810 | (eieio-update-lisp-imenu-expression) | |
2811 | ||
2812 | )) | |
2813 | ||
2814 | ;;; Autoloading some external symbols, and hooking into the help system | |
2815 | ;; | |
2816 | ||
db9e401b JB |
2817 | (autoload 'eieio-help-mode-augmentation-maybee "eieio-opt" "For buffers thrown into help mode, augment for EIEIO.") |
2818 | (autoload 'eieio-browse "eieio-opt" "Create an object browser window." t) | |
6dd12ef2 CY |
2819 | (autoload 'eieio-describe-class "eieio-opt" "Describe CLASS defined by a string or symbol" t) |
2820 | (autoload 'eieio-describe-constructor "eieio-opt" "Describe the constructor function FCN." t) | |
db9e401b JB |
2821 | (autoload 'describe-class "eieio-opt" "Describe CLASS defined by a string or symbol." t) |
2822 | (autoload 'eieio-describe-generic "eieio-opt" "Describe GENERIC defined by a string or symbol." t) | |
2823 | (autoload 'describe-generic "eieio-opt" "Describe GENERIC defined by a string or symbol." t) | |
6dd12ef2 CY |
2824 | |
2825 | (autoload 'customize-object "eieio-custom" "Create a custom buffer editing OBJ.") | |
2826 | ||
2827 | (provide 'eieio) | |
2828 | ||
3999968a | 2829 | ;; arch-tag: c1aeab9c-2938-41a3-842b-1a38bd26e9f2 |
6dd12ef2 | 2830 | ;;; eieio ends here |