1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
821
822
823
824
825
826
827
828
829
830
831
832
833
834
835
836
837
838
839
840
841
842
843
844
845
846
847
848
849
850
851
852
853
854
855
856
857
858
859
860
861
862
863
864
865
866
867
868
869
870
871
872
873
874
875
876
877
878
879
880
881
882
883
884
885
886
887
888
889
890
891
892
893
894
895
896
897
898
899
900
901
902
903
904
905
906
907
908
909
910
911
912
913
914
915
916
917
918
919
920
921
922
923
924
925
926
927
928
929
930
931
932
933
934
935
936
937
938
939
940
941
942
943
944
945
946
947
948
949
950
951
952
953
954
955
956
957
958
959
960
961
962
963
964
965
966
967
968
969
970
971
972
973
974
975
976
977
978
979
980
981
982
983
984
985
986
987
988
989
990
991
992
993
994
995
996
997
998
999
1000
1001
1002
1003
1004
1005
1006
1007
1008
1009
1010
|
;;; eieio.el --- Enhanced Implementation of Emacs Interpreted Objects -*- lexical-binding:t -*-
;;; or maybe Eric's Implementation of Emacs Interpreted Objects
;; Copyright (C) 1995-1996, 1998-2015 Free Software Foundation, Inc.
;; Author: Eric M. Ludlam <zappo@gnu.org>
;; Version: 1.4
;; Keywords: OO, lisp
;; This file is part of GNU Emacs.
;; GNU Emacs is free software: you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation, either version 3 of the License, or
;; (at your option) any later version.
;; GNU Emacs is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
;;; Commentary:
;;
;; EIEIO is a series of Lisp routines which implements a subset of
;; CLOS, the Common Lisp Object System. In addition, EIEIO also adds
;; a few new features which help it integrate more strongly with the
;; Emacs running environment.
;;
;; See eieio.texi for complete documentation on using this package.
;;
;; Note: the implementation of the c3 algorithm is based on:
;; Kim Barrett et al.: A Monotonic Superclass Linearization for Dylan
;; Retrieved from:
;; http://192.220.96.201/dylan/linearization-oopsla96.html
;; @TODO - fix :initform to be a form, not a quoted value
;; @TODO - Prefix non-clos functions with `eieio-'.
;; TODO: better integrate CL's defstructs and classes. E.g. make it possible
;; to create a new class that inherits from a struct.
;;; Code:
(defvar eieio-version "1.4"
"Current version of EIEIO.")
(defun eieio-version ()
"Display the current version of EIEIO."
(interactive)
(message eieio-version))
(require 'eieio-core)
;;; Defining a new class
;;
(defmacro defclass (name superclasses slots &rest options-and-doc)
"Define NAME as a new class derived from SUPERCLASS with SLOTS.
OPTIONS-AND-DOC is used as the class' options and base documentation.
SUPERCLASSES is a list of superclasses to inherit from, with SLOTS
being the slots residing in that class definition. Supported tags are:
:initform - Initializing form.
:initarg - Tag used during initialization.
:accessor - Tag used to create a function to access this slot.
:allocation - Specify where the value is stored.
Defaults to `:instance', but could also be `:class'.
:writer - A function symbol which will `write' an object's slot.
:reader - A function symbol which will `read' an object.
:type - The type of data allowed in this slot (see `typep').
:documentation
- A string documenting use of this slot.
The following are extensions on CLOS:
:custom - When customizing an object, the custom :type. Public only.
:label - A text string label used for a slot when customizing.
:group - Name of a customization group this slot belongs in.
:printer - A function to call to print the value of a slot.
See `eieio-override-prin1' as an example.
A class can also have optional options. These options happen in place
of documentation (including a :documentation tag), in addition to
documentation, or not at all. Supported options are:
:documentation - The doc-string used for this class.
Options added to EIEIO:
:allow-nil-initform - Non-nil to skip typechecking of null initforms.
:custom-groups - List of custom group names. Organizes slots into
reasonable groups for customizations.
:abstract - Non-nil to prevent instances of this class.
If a string, use as an error string if someone does
try to make an instance.
:method-invocation-order
- Control the method invocation order if there is
multiple inheritance. Valid values are:
:breadth-first - The default.
:depth-first
Options in CLOS not supported in EIEIO:
:metaclass - Class to use in place of `standard-class'
:default-initargs - Initargs to use when initializing new objects of
this class.
Due to the way class options are set up, you can add any tags you wish,
and reference them using the function `class-option'."
(declare (doc-string 4))
(cl-check-type superclasses list)
(cond ((and (stringp (car options-and-doc))
(/= 1 (% (length options-and-doc) 2)))
(error "Too many arguments to `defclass'"))
((and (symbolp (car options-and-doc))
(/= 0 (% (length options-and-doc) 2)))
(error "Too many arguments to `defclass'")))
(if (stringp (car options-and-doc))
(setq options-and-doc
(cons :documentation options-and-doc)))
;; Make sure the method invocation order is a valid value.
(let ((io (eieio--class-option-assoc options-and-doc
:method-invocation-order)))
(when (and io (not (member io '(:depth-first :breadth-first :c3))))
(error "Method invocation order %s is not allowed" io)))
(let ((testsym1 (intern (concat (symbol-name name) "-p")))
(testsym2 (intern (format "%s--eieio-childp" name)))
(accessors ()))
;; Collect the accessors we need to define.
(pcase-dolist (`(,sname . ,soptions) slots)
(let* ((acces (plist-get soptions :accessor))
(initarg (plist-get soptions :initarg))
(reader (plist-get soptions :reader))
(writer (plist-get soptions :writer))
(alloc (plist-get soptions :allocation))
(label (plist-get soptions :label)))
;; Update eieio--known-slot-names already in case we compile code which
;; uses this before the class is loaded.
(cl-pushnew sname eieio--known-slot-names)
(if eieio-error-unsupported-class-tags
(let ((tmp soptions))
(while tmp
(if (not (member (car tmp) '(:accessor
:initform
:initarg
:documentation
:protection
:reader
:writer
:allocation
:type
:custom
:label
:group
:printer
:allow-nil-initform
:custom-groups)))
(signal 'invalid-slot-type (list (car tmp))))
(setq tmp (cdr (cdr tmp))))))
;; Make sure the :allocation parameter has a valid value.
(if (not (memq alloc '(nil :class :instance)))
(signal 'invalid-slot-type (list :allocation alloc)))
;; Label is nil, or a string
(if (not (or (null label) (stringp label)))
(signal 'invalid-slot-type (list :label label)))
;; Is there an initarg, but allocation of class?
(if (and initarg (eq alloc :class))
(message "Class allocated slots do not need :initarg"))
;; Anyone can have an accessor function. This creates a function
;; of the specified name, and also performs a `defsetf' if applicable
;; so that users can `setf' the space returned by this function.
(when acces
(push `(cl-defmethod (setf ,acces) (value (this ,name))
(eieio-oset this ',sname value))
accessors)
(push `(cl-defmethod ,acces ((this ,name))
,(format
"Retrieve the slot `%S' from an object of class `%S'."
sname name)
;; FIXME: Why is this different from the :reader case?
(if (slot-boundp this ',sname) (eieio-oref this ',sname)))
accessors)
(when (and eieio-backward-compatibility (eq alloc :class))
;; FIXME: How could I declare this *method* as obsolete.
(push `(cl-defmethod ,acces ((this (subclass ,name)))
,(format
"Retrieve the class slot `%S' from a class `%S'.
This method is obsolete."
sname name)
(if (slot-boundp this ',sname)
(eieio-oref-default this ',sname)))
accessors)))
;; If a writer is defined, then create a generic method of that
;; name whose purpose is to set the value of the slot.
(if writer
(push `(cl-defmethod ,writer ((this ,name) value)
,(format "Set the slot `%S' of an object of class `%S'."
sname name)
(setf (slot-value this ',sname) value))
accessors))
;; If a reader is defined, then create a generic method
;; of that name whose purpose is to access this slot value.
(if reader
(push `(cl-defmethod ,reader ((this ,name))
,(format "Access the slot `%S' from object of class `%S'."
sname name)
(slot-value this ',sname))
accessors))
))
`(progn
;; This test must be created right away so we can have self-
;; referencing classes. ei, a class whose slot can contain only
;; pointers to itself.
;; Create the test functions.
(defalias ',testsym1 (eieio-make-class-predicate ',name))
(defalias ',testsym2 (eieio-make-child-predicate ',name))
,@(when eieio-backward-compatibility
(let ((f (intern (format "%s-child-p" name))))
`((defalias ',f ',testsym2)
(make-obsolete
',f ,(format "use (cl-typep ... \\='%s) instead" name)
"25.1"))))
;; When using typep, (typep OBJ 'myclass) returns t for objects which
;; are subclasses of myclass. For our predicates, however, it is
;; important for EIEIO to be backwards compatible, where
;; myobject-p, and myobject-child-p are different.
;; "cl" uses this technique to specify symbols with specific typep
;; test, so we can let typep have the CLOS documented behavior
;; while keeping our above predicate clean.
(put ',name 'cl-deftype-satisfies #',testsym2)
(eieio-defclass-internal ',name ',superclasses ',slots ',options-and-doc)
,@accessors
;; Create the constructor function
,(if (eieio--class-option-assoc options-and-doc :abstract)
;; Abstract classes cannot be instantiated. Say so.
(let ((abs (eieio--class-option-assoc options-and-doc :abstract)))
(if (not (stringp abs))
(setq abs (format "Class %s is abstract" name)))
`(defun ,name (&rest _)
,(format "You cannot create a new object of type `%S'." name)
(error ,abs)))
;; Non-abstract classes need a constructor.
`(defun ,name (&rest slots)
,(format "Create a new object of class type `%S'." name)
(declare (compiler-macro
(lambda (whole)
(if (not (stringp (car slots)))
whole
(macroexp--warn-and-return
(format "Obsolete name arg %S to constructor %S"
(car slots) (car whole))
;; Keep the name arg, for backward compatibility,
;; but hide it so we don't trigger indefinitely.
`(,(car whole) (identity ,(car slots))
,@(cdr slots)))))))
(apply #'make-instance ',name slots))))))
;;; Get/Set slots in an object.
;;
(defmacro oref (obj slot)
"Retrieve the value stored in OBJ in the slot named by SLOT.
Slot is the name of the slot when created by `defclass' or the label
created by the :initarg tag."
(declare (debug (form symbolp)))
`(eieio-oref ,obj (quote ,slot)))
(defalias 'slot-value 'eieio-oref)
(defalias 'set-slot-value 'eieio-oset)
(make-obsolete 'set-slot-value "use (setf (slot-value ..) ..) instead" "25.1")
(defmacro oref-default (obj slot)
"Get the default value of OBJ (maybe a class) for SLOT.
The default value is the value installed in a class with the :initform
tag. SLOT can be the slot name, or the tag specified by the :initarg
tag in the `defclass' call."
(declare (debug (form symbolp)))
`(eieio-oref-default ,obj (quote ,slot)))
;;; Handy CLOS macros
;;
(defmacro with-slots (spec-list object &rest body)
"Bind SPEC-LIST lexically to slot values in OBJECT, and execute BODY.
This establishes a lexical environment for referring to the slots in
the instance named by the given slot-names as though they were
variables. Within such a context the value of the slot can be
specified by using its slot name, as if it were a lexically bound
variable. Both setf and setq can be used to set the value of the
slot.
SPEC-LIST is of a form similar to `let'. For example:
((VAR1 SLOT1)
SLOT2
SLOTN
(VARN+1 SLOTN+1))
Where each VAR is the local variable given to the associated
SLOT. A slot specified without a variable name is given a
variable name of the same name as the slot."
(declare (indent 2) (debug (sexp sexp def-body)))
(require 'cl-lib)
;; Transform the spec-list into a cl-symbol-macrolet spec-list.
(macroexp-let2 nil object object
`(cl-symbol-macrolet
,(mapcar (lambda (entry)
(let ((var (if (listp entry) (car entry) entry))
(slot (if (listp entry) (cadr entry) entry)))
(list var `(slot-value ,object ',slot))))
spec-list)
,@body)))
;; Keep it as a non-inlined function, so the internals of object don't get
;; hard-coded in random .elc files.
(defun eieio-pcase-slot-index-table (obj)
"Return some data structure from which can be extracted the slot offset."
(eieio--class-index-table
(symbol-value (eieio--object-class-tag obj))))
(defun eieio-pcase-slot-index-from-index-table (index-table slot)
"Find the index to pass to `aref' to access SLOT."
(let ((index (gethash slot index-table)))
(if index (+ (eval-when-compile
(length (cl-struct-slot-info 'eieio--object)))
index))))
(pcase-defmacro eieio (&rest fields)
"Pcase patterns to match EIEIO objects.
Elements of FIELDS can be of the form (NAME PAT) in which case the contents of
field NAME is matched against PAT, or they can be of the form NAME which
is a shorthand for (NAME NAME)."
(declare (debug (&rest [&or (sexp pcase-PAT) sexp])))
(let ((is (make-symbol "table")))
;; FIXME: This generates a horrendous mess of redundant let bindings.
;; `pcase' needs to be improved somehow to introduce let-bindings more
;; sparingly, or the byte-compiler needs to be taught to optimize
;; them away.
;; FIXME: `pcase' does not do a good job here of sharing tests&code among
;; various branches.
`(and (pred eieio-object-p)
(app eieio-pcase-slot-index-table ,is)
,@(mapcar (lambda (field)
(let* ((name (if (consp field) (car field) field))
(pat (if (consp field) (cadr field) field))
(i (make-symbol "index")))
`(and (let (and ,i (pred natnump))
(eieio-pcase-slot-index-from-index-table
,is ',name))
(app (pcase--flip aref ,i) ,pat))))
fields))))
;;; Simple generators, and query functions. None of these would do
;; well embedded into an object.
;;
(define-obsolete-function-alias
'object-class-fast #'eieio-object-class "24.4")
(cl-defgeneric eieio-object-name-string (obj)
"Return a string which is OBJ's name."
(declare (obsolete eieio-named "25.1")))
(defun eieio-object-name (obj &optional extra)
"Return a printed representation for object OBJ.
If EXTRA, include that in the string returned to represent the symbol."
(cl-check-type obj eieio-object)
(format "#<%s %s%s>" (eieio-object-class obj)
(eieio-object-name-string obj) (or extra "")))
(define-obsolete-function-alias 'object-name #'eieio-object-name "24.4")
(defconst eieio--object-names (make-hash-table :test #'eq :weakness 'key))
;; In the past, every EIEIO object had a `name' field, so we had the two method
;; below "for free". Since this field is very rarely used, we got rid of it
;; and instead we keep it in a weak hash-tables, for those very rare objects
;; that use it.
(cl-defmethod eieio-object-name-string (obj)
(or (gethash obj eieio--object-names)
(symbol-name (eieio-object-class obj))))
(define-obsolete-function-alias
'object-name-string #'eieio-object-name-string "24.4")
(cl-defmethod eieio-object-set-name-string (obj name)
"Set the string which is OBJ's NAME."
(declare (obsolete eieio-named "25.1"))
(cl-check-type name string)
(setf (gethash obj eieio--object-names) name))
(define-obsolete-function-alias
'object-set-name-string 'eieio-object-set-name-string "24.4")
(defun eieio-object-class (obj)
"Return the class struct defining OBJ."
;; FIXME: We say we return a "struct" but we return a symbol instead!
(cl-check-type obj eieio-object)
(eieio--class-name (eieio--object-class obj)))
(define-obsolete-function-alias 'object-class #'eieio-object-class "24.4")
;; CLOS name, maybe?
(define-obsolete-function-alias 'class-of #'eieio-object-class "24.4")
(defun eieio-object-class-name (obj)
"Return a Lisp like symbol name for OBJ's class."
(cl-check-type obj eieio-object)
(eieio-class-name (eieio--object-class obj)))
(define-obsolete-function-alias
'object-class-name 'eieio-object-class-name "24.4")
(defun eieio-class-parents (class)
"Return parent classes to CLASS. (overload of variable).
The CLOS function `class-direct-superclasses' is aliased to this function."
(eieio--class-parents (eieio--class-object class)))
(define-obsolete-function-alias 'class-parents #'eieio-class-parents "24.4")
(defun eieio-class-children (class)
"Return child classes to CLASS.
The CLOS function `class-direct-subclasses' is aliased to this function."
(cl-check-type class class)
(eieio--class-children (cl--find-class class)))
(define-obsolete-function-alias
'class-children #'eieio-class-children "24.4")
;; Official CLOS functions.
(define-obsolete-function-alias
'class-direct-superclasses #'eieio-class-parents "24.4")
(define-obsolete-function-alias
'class-direct-subclasses #'eieio-class-children "24.4")
(defmacro eieio-class-parent (class)
"Return first parent class to CLASS. (overload of variable)."
`(car (eieio-class-parents ,class)))
(define-obsolete-function-alias 'class-parent 'eieio-class-parent "24.4")
(defun same-class-p (obj class)
"Return t if OBJ is of class-type CLASS."
(setq class (eieio--class-object class))
(cl-check-type class eieio--class)
(cl-check-type obj eieio-object)
(eq (eieio--object-class obj) class))
(defun object-of-class-p (obj class)
"Return non-nil if OBJ is an instance of CLASS or CLASS' subclasses."
(cl-check-type obj eieio-object)
;; class will be checked one layer down
(child-of-class-p (eieio--object-class obj) class))
;; Backwards compatibility
(defalias 'obj-of-class-p 'object-of-class-p)
(defun child-of-class-p (child class)
"Return non-nil if CHILD class is a subclass of CLASS."
(setq child (eieio--class-object child))
(cl-check-type child eieio--class)
;; `eieio-default-superclass' is never mentioned in eieio--class-parents,
;; so we have to special case it here.
(or (eq class 'eieio-default-superclass)
(let ((p nil))
(setq class (eieio--class-object class))
(cl-check-type class eieio--class)
(while (and child (not (eq child class)))
(setq p (append p (eieio--class-parents child))
child (pop p)))
(if child t))))
(defun eieio-slot-descriptor-name (slot)
(cl--slot-descriptor-name slot))
(defun eieio-class-slots (class)
"Return list of slots available in instances of CLASS."
;; FIXME: This only gives the instance slots and ignores the
;; class-allocated slots.
(setq class (eieio--class-object class))
(cl-check-type class eieio--class)
(mapcar #'identity (eieio--class-slots class)))
(defun object-slots (obj)
"Return list of slot names available in OBJ."
(declare (obsolete eieio-class-slots "25.1"))
(cl-check-type obj eieio-object)
(mapcar #'cl--slot-descriptor-name
(eieio-class-slots (eieio--object-class obj))))
(defun eieio--class-slot-initarg (class slot)
"Fetch from CLASS, SLOT's :initarg."
(cl-check-type class eieio--class)
(let ((ia (eieio--class-initarg-tuples class))
(f nil))
(while (and ia (not f))
(if (eq (cdr (car ia)) slot)
(setq f (car (car ia))))
(setq ia (cdr ia)))
f))
;;; Object Set macros
;;
(defmacro oset (obj slot value)
"Set the value in OBJ for slot SLOT to VALUE.
SLOT is the slot name as specified in `defclass' or the tag created
with in the :initarg slot. VALUE can be any Lisp object."
(declare (debug (form symbolp form)))
`(eieio-oset ,obj (quote ,slot) ,value))
(defmacro oset-default (class slot value)
"Set the default slot in CLASS for SLOT to VALUE.
The default value is usually set with the :initform tag during class
creation. This allows users to change the default behavior of classes
after they are created."
(declare (debug (form symbolp form)))
`(eieio-oset-default ,class (quote ,slot) ,value))
;;; CLOS queries into classes and slots
;;
(defun slot-boundp (object slot)
"Return non-nil if OBJECT's SLOT is bound.
Setting a slot's value makes it bound. Calling `slot-makeunbound' will
make a slot unbound.
OBJECT can be an instance or a class."
;; Skip typechecking while retrieving this value.
(let ((eieio-skip-typecheck t))
;; Return nil if the magic symbol is in there.
(not (eq (cond
((eieio-object-p object) (eieio-oref object slot))
((symbolp object) (eieio-oref-default object slot))
(t (signal 'wrong-type-argument (list 'eieio-object-p object))))
eieio-unbound))))
(defun slot-makeunbound (object slot)
"In OBJECT, make SLOT unbound."
(eieio-oset object slot eieio-unbound))
(defun slot-exists-p (object-or-class slot)
"Return non-nil if OBJECT-OR-CLASS has SLOT."
(let ((cv (cond ((eieio-object-p object-or-class)
(eieio--object-class object-or-class))
((eieio--class-p object-or-class) object-or-class)
(t (find-class object-or-class 'error)))))
(or (gethash slot (eieio--class-index-table cv))
;; FIXME: We could speed this up by adding class slots into the
;; index-table (e.g. with a negative index?).
(let ((cs (eieio--class-class-slots cv))
found)
(dotimes (i (length cs))
(if (eq slot (cl--slot-descriptor-name (aref cs i)))
(setq found t)))
found))))
(defun find-class (symbol &optional errorp)
"Return the class that SYMBOL represents.
If there is no class, nil is returned if ERRORP is nil.
If ERRORP is non-nil, `wrong-argument-type' is signaled."
(let ((class (cl--find-class symbol)))
(cond
((eieio--class-p class) class)
(errorp (signal 'wrong-type-argument (list 'class-p symbol))))))
;;; Slightly more complex utility functions for objects
;;
(defun object-assoc (key slot list)
"Return an object if KEY is `equal' to SLOT's value of an object in LIST.
LIST is a list of objects whose slots are searched.
Objects in LIST do not need to have a slot named SLOT, nor does
SLOT need to be bound. If these errors occur, those objects will
be ignored."
(cl-check-type list list)
(while (and list (not (condition-case nil
;; This prevents errors for missing slots.
(equal key (eieio-oref (car list) slot))
(error nil))))
(setq list (cdr list)))
(car list))
(defun object-assoc-list (slot list)
"Return an association list with the contents of SLOT as the key element.
LIST must be a list of objects with SLOT in it.
This is useful when you need to do completing read on an object group."
(cl-check-type list list)
(let ((assoclist nil))
(while list
(setq assoclist (cons (cons (eieio-oref (car list) slot)
(car list))
assoclist))
(setq list (cdr list)))
(nreverse assoclist)))
(defun object-assoc-list-safe (slot list)
"Return an association list with the contents of SLOT as the key element.
LIST must be a list of objects, but those objects do not need to have
SLOT in it. If it does not, then that element is left out of the association
list."
(cl-check-type list list)
(let ((assoclist nil))
(while list
(if (slot-exists-p (car list) slot)
(setq assoclist (cons (cons (eieio-oref (car list) slot)
(car list))
assoclist)))
(setq list (cdr list)))
(nreverse assoclist)))
(defun object-add-to-list (object slot item &optional append)
"In OBJECT's SLOT, add ITEM to the list of elements.
Optional argument APPEND indicates we need to append to the list.
If ITEM already exists in the list in SLOT, then it is not added.
Comparison is done with `equal' through the `member' function call.
If SLOT is unbound, bind it to the list containing ITEM."
(let (ov)
;; Find the originating list.
(if (not (slot-boundp object slot))
(setq ov (list item))
(setq ov (eieio-oref object slot))
;; turn it into a list.
(unless (listp ov)
(setq ov (list ov)))
;; Do the combination
(if (not (member item ov))
(setq ov
(if append
(append ov (list item))
(cons item ov)))))
;; Set back into the slot.
(eieio-oset object slot ov)))
(defun object-remove-from-list (object slot item)
"In OBJECT's SLOT, remove occurrences of ITEM.
Deletion is done with `delete', which deletes by side effect,
and comparisons are done with `equal'.
If SLOT is unbound, do nothing."
(if (not (slot-boundp object slot))
nil
(eieio-oset object slot (delete item (eieio-oref object slot)))))
;;; Here are some CLOS items that need the CL package
;;
;; FIXME: Shouldn't this be a more complex gv-expander which extracts the
;; common code between oref and oset, so as to reduce the redundant work done
;; in (push foo (oref bar baz)), like we do for the `nth' expander?
(gv-define-simple-setter eieio-oref eieio-oset)
;;;
;; We want all objects created by EIEIO to have some default set of
;; behaviors so we can create object utilities, and allow various
;; types of error checking. To do this, create the default EIEIO
;; class, and when no parent class is specified, use this as the
;; default. (But don't store it in the other classes as the default,
;; allowing for transparent support.)
;;
(defclass eieio-default-superclass nil
nil
"Default parent class for classes with no specified parent class.
Its slots are automatically adopted by classes with no specified parents.
This class is not stored in the `parent' slot of a class vector."
:abstract t)
(setq eieio-default-superclass (cl--find-class 'eieio-default-superclass))
(defalias 'standard-class 'eieio-default-superclass)
(cl-defgeneric make-instance (class &rest initargs)
"Make a new instance of CLASS based on INITARGS.
For example:
(make-instance \\='foo)
INITARGS is a property list with keywords based on the `:initarg'
for each slot. For example:
(make-instance \\='foo :slot1 value1 :slotN valueN)")
(define-obsolete-function-alias 'constructor #'make-instance "25.1")
(cl-defmethod make-instance
((class (subclass eieio-default-superclass)) &rest slots)
"Default constructor for CLASS `eieio-default-superclass'.
SLOTS are the initialization slots used by `initialize-instance'.
This static method is called when an object is constructed.
It allocates the vector used to represent an EIEIO object, and then
calls `initialize-instance' on that object."
(let* ((new-object (copy-sequence (eieio--class-default-object-cache
(eieio--class-object class)))))
(if (and slots
(let ((x (car slots)))
(or (stringp x) (null x))))
(funcall (if eieio-backward-compatibility #'ignore #'message)
"Obsolete name %S passed to %S constructor"
(pop slots) class))
;; Call the initialize method on the new object with the slots
;; that were passed down to us.
(initialize-instance new-object slots)
;; Return the created object.
new-object))
;; FIXME: CLOS uses "&rest INITARGS" instead.
(cl-defgeneric shared-initialize (obj slots)
"Set slots of OBJ with SLOTS which is a list of name/value pairs.
Called from the constructor routine.")
(cl-defmethod shared-initialize ((obj eieio-default-superclass) slots)
"Set slots of OBJ with SLOTS which is a list of name/value pairs.
Called from the constructor routine."
(while slots
(let ((rn (eieio--initarg-to-attribute (eieio--object-class obj)
(car slots))))
(if (not rn)
(slot-missing obj (car slots) 'oset (car (cdr slots)))
(eieio-oset obj rn (car (cdr slots)))))
(setq slots (cdr (cdr slots)))))
;; FIXME: CLOS uses "&rest INITARGS" instead.
(cl-defgeneric initialize-instance (this &optional slots)
"Construct the new object THIS based on SLOTS.")
(cl-defmethod initialize-instance ((this eieio-default-superclass)
&optional slots)
"Construct the new object THIS based on SLOTS.
SLOTS is a tagged list where odd numbered elements are tags, and
even numbered elements are the values to store in the tagged slot.
If you overload the `initialize-instance', there you will need to
call `shared-initialize' yourself, or you can call `call-next-method'
to have this constructor called automatically. If these steps are
not taken, then new objects of your class will not have their values
dynamically set from SLOTS."
;; First, see if any of our defaults are `lambda', and
;; re-evaluate them and apply the value to our slots.
(let* ((this-class (eieio--object-class this))
(slots (eieio--class-slots this-class)))
(dotimes (i (length slots))
;; For each slot, see if we need to evaluate it.
;;
;; Paul Landes said in an email:
;; > CL evaluates it if it can, and otherwise, leaves it as
;; > the quoted thing as you already have. This is by the
;; > Sonya E. Keene book and other things I've look at on the
;; > web.
(let* ((slot (aref slots i))
(initform (cl--slot-descriptor-initform slot))
(dflt (eieio-default-eval-maybe initform)))
(when (not (eq dflt initform))
;; FIXME: We should be able to just do (aset this (+ i <cst>) dflt)!
(eieio-oset this (cl--slot-descriptor-name slot) dflt)))))
;; Shared initialize will parse our slots for us.
(shared-initialize this slots))
(cl-defgeneric slot-missing (object slot-name operation &optional new-value)
"Method invoked when an attempt to access a slot in OBJECT fails.")
(cl-defmethod slot-missing ((object eieio-default-superclass) slot-name
_operation &optional _new-value)
"Method invoked when an attempt to access a slot in OBJECT fails.
SLOT-NAME is the name of the failed slot, OPERATION is the type of access
that was requested, and optional NEW-VALUE is the value that was desired
to be set.
This method is called from `oref', `oset', and other functions which
directly reference slots in EIEIO objects."
(signal 'invalid-slot-name (list (eieio-object-name object)
slot-name)))
(cl-defgeneric slot-unbound (object class slot-name fn)
"Slot unbound is invoked during an attempt to reference an unbound slot.")
(cl-defmethod slot-unbound ((object eieio-default-superclass)
class slot-name fn)
"Slot unbound is invoked during an attempt to reference an unbound slot.
OBJECT is the instance of the object being reference. CLASS is the
class of OBJECT, and SLOT-NAME is the offending slot. This function
throws the signal `unbound-slot'. You can overload this function and
return the value to use in place of the unbound value.
Argument FN is the function signaling this error.
Use `slot-boundp' to determine if a slot is bound or not.
In CLOS, the argument list is (CLASS OBJECT SLOT-NAME), but
EIEIO can only dispatch on the first argument, so the first two are swapped."
(signal 'unbound-slot (list (eieio-class-name class)
(eieio-object-name object)
slot-name fn)))
(cl-defgeneric clone (obj &rest params)
"Make a copy of OBJ, and then supply PARAMS.
PARAMS is a parameter list of the same form used by `initialize-instance'.
When overloading `clone', be sure to call `call-next-method'
first and modify the returned object.")
(cl-defmethod clone ((obj eieio-default-superclass) &rest params)
"Make a copy of OBJ, and then apply PARAMS."
(let ((nobj (copy-sequence obj)))
(if (stringp (car params))
(funcall (if eieio-backward-compatibility #'ignore #'message)
"Obsolete name %S passed to clone" (pop params)))
(if params (shared-initialize nobj params))
nobj))
(cl-defgeneric destructor (this &rest params)
"Destructor for cleaning up any dynamic links to our object.")
(cl-defmethod destructor ((_this eieio-default-superclass) &rest _params)
"Destructor for cleaning up any dynamic links to our object.
Argument THIS is the object being destroyed. PARAMS are additional
ignored parameters."
;; No cleanup... yet.
)
(cl-defgeneric object-print (this &rest strings)
"Pretty printer for object THIS. Call function `object-name' with STRINGS.
It is sometimes useful to put a summary of the object into the
default #<notation> string when using EIEIO browsing tools.
Implement this method to customize the summary.")
(cl-defmethod object-print ((this eieio-default-superclass) &rest strings)
"Pretty printer for object THIS. Call function `object-name' with STRINGS.
The default method for printing object THIS is to use the
function `object-name'.
It is sometimes useful to put a summary of the object into the
default #<notation> string when using EIEIO browsing tools.
Implement this function and specify STRINGS in a call to
`call-next-method' to provide additional summary information.
When passing in extra strings from child classes, always remember
to prepend a space."
(eieio-object-name this (apply #'concat strings)))
(defvar eieio-print-depth 0
"When printing, keep track of the current indentation depth.")
(cl-defgeneric object-write (this &optional comment)
"Write out object THIS to the current stream.
Optional COMMENT will add comments to the beginning of the output.")
(cl-defmethod object-write ((this eieio-default-superclass) &optional comment)
"Write object THIS out to the current stream.
This writes out the vector version of this object. Complex and recursive
object are discouraged from being written.
If optional COMMENT is non-nil, include comments when outputting
this object."
(when comment
(princ ";; Object ")
(princ (eieio-object-name-string this))
(princ "\n")
(princ comment)
(princ "\n"))
(let* ((cl (eieio-object-class this))
(cv (cl--find-class cl)))
;; Now output readable lisp to recreate this object
;; It should look like this:
;; (<constructor> <name> <slot> <slot> ... )
;; Each slot's slot is writen using its :writer.
(princ (make-string (* eieio-print-depth 2) ? ))
(princ "(")
(princ (symbol-name (eieio--class-constructor (eieio-object-class this))))
(princ " ")
(prin1 (eieio-object-name-string this))
(princ "\n")
;; Loop over all the public slots
(let ((slots (eieio--class-slots cv))
(eieio-print-depth (1+ eieio-print-depth)))
(dotimes (i (length slots))
(let ((slot (aref slots i)))
(when (slot-boundp this (cl--slot-descriptor-name slot))
(let ((i (eieio--class-slot-initarg
cv (cl--slot-descriptor-name slot)))
(v (eieio-oref this (cl--slot-descriptor-name slot))))
(unless (or (not i) (equal v (cl--slot-descriptor-initform slot)))
(unless (bolp)
(princ "\n"))
(princ (make-string (* eieio-print-depth 2) ? ))
(princ (symbol-name i))
(if (alist-get :printer (cl--slot-descriptor-props slot))
;; Use our public printer
(progn
(princ " ")
(funcall (alist-get :printer
(cl--slot-descriptor-props slot))
v))
;; Use our generic override prin1 function.
(princ (if (or (eieio-object-p v)
(eieio-object-p (car-safe v)))
"\n" " "))
(eieio-override-prin1 v))))))))
(princ ")")
(when (= eieio-print-depth 0)
(princ "\n"))))
(defun eieio-override-prin1 (thing)
"Perform a `prin1' on THING taking advantage of object knowledge."
(cond ((eieio-object-p thing)
(object-write thing))
((consp thing)
(eieio-list-prin1 thing))
((eieio--class-p thing)
(princ (eieio--class-print-name thing)))
(t (prin1 thing))))
(defun eieio-list-prin1 (list)
"Display LIST where list may contain objects."
(if (not (eieio-object-p (car list)))
(progn
(princ "'")
(prin1 list))
(princ (make-string (* eieio-print-depth 2) ? ))
(princ "(list")
(let ((eieio-print-depth (1+ eieio-print-depth)))
(while list
(princ "\n")
(if (eieio-object-p (car list))
(object-write (car list))
(princ (make-string (* eieio-print-depth 2) ? ))
(eieio-override-prin1 (car list)))
(setq list (cdr list))))
(princ ")")))
;;; Unimplemented functions from CLOS
;;
(defun change-class (_obj _class)
"Change the class of OBJ to type CLASS.
This may create or delete slots, but does not affect the return value
of `eq'."
(error "EIEIO: `change-class' is unimplemented"))
;; Hook ourselves into help system for describing classes and methods.
;; FIXME: This is not actually needed any more since we can click on the
;; hyperlink from the constructor's docstring to see the type definition.
(add-hook 'help-fns-describe-function-functions 'eieio-help-constructor)
;;; Interfacing with edebug
;;
(defun eieio-edebug-prin1-to-string (print-function object &optional noescape)
"Display EIEIO OBJECT in fancy format.
Used as advice around `edebug-prin1-to-string', held in the
variable PRINT-FUNCTION. Optional argument NOESCAPE is passed to
`prin1-to-string' when appropriate."
(cond ((eieio--class-p object) (eieio--class-print-name object))
((eieio-object-p object) (object-print object))
((and (listp object) (or (eieio--class-p (car object))
(eieio-object-p (car object))))
(concat "(" (mapconcat
(lambda (x) (eieio-edebug-prin1-to-string print-function x))
object " ")
")"))
(t (funcall print-function object noescape))))
(advice-add 'edebug-prin1-to-string
:around #'eieio-edebug-prin1-to-string)
;;; Start of automatically extracted autoloads.
;;;### (autoloads nil "eieio-custom" "eieio-custom.el" "916f54b818479a77a02f3ecccda84a11")
;;; Generated autoloads from eieio-custom.el
(autoload 'customize-object "eieio-custom" "\
Customize OBJ in a custom buffer.
Optional argument GROUP is the sub-group of slots to display.
\(fn OBJ &optional GROUP)" nil nil)
;;;***
;;;### (autoloads nil "eieio-opt" "eieio-opt.el" "d00419c898056fadf2f8e491f864aa1e")
;;; Generated autoloads from eieio-opt.el
(autoload 'eieio-browse "eieio-opt" "\
Create an object browser window to show all objects.
If optional ROOT-CLASS, then start with that, otherwise start with
variable `eieio-default-superclass'.
\(fn &optional ROOT-CLASS)" t nil)
(define-obsolete-function-alias 'eieio-help-class 'cl--describe-class "25.1")
(autoload 'eieio-help-constructor "eieio-opt" "\
Describe CTR if it is a class constructor.
\(fn CTR)" nil nil)
;;;***
;;; End of automatically extracted autoloads.
(provide 'eieio)
;;; eieio ends here
|