summaryrefslogtreecommitdiff
path: root/lisp/cedet/semantic/analyze.el
blob: 77e091721c8e03f0be4f9cc2c489d1691ce242ae (plain)
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
;;; semantic/analyze.el --- Analyze semantic tags against local context

;; Copyright (C) 2000-2005, 2007-2014 Free Software Foundation, Inc.

;; Author: Eric M. Ludlam <zappo@gnu.org>

;; 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:
;;
;; Semantic, as a tool, provides a nice list of searchable tags.
;; That information can provide some very accurate answers if the current
;; context of a position is known.
;;
;; Semantic-ctxt provides ways of analyzing, and manipulating the
;; semantic context of a language in code.
;;
;; This library provides routines for finding intelligent answers to
;; tough problems, such as if an argument to a function has the correct
;; return type, or all possible tags that fit in a given local context.
;;

;;; Vocabulary:
;;
;; Here are some words used to describe different things in the analyzer:
;;
;; tag - A single entity
;; prefix - The beginning of a symbol, usually used to look up something
;;       incomplete.
;; type - The name of a datatype in the language.
;; metatype - If a type is named in a declaration like:
;;       struct moose somevariable;
;;       that name "moose" can be turned into a concrete type.
;; tag sequence - In C code, a list of dereferences, such as:
;;       this.that.theother();
;; parent - For a datatype in an OO language, another datatype
;;       inherited from.  This excludes interfaces.
;; scope - A list of tags that can be dereferenced that cannot
;;       be found from the global namespace.
;; scopetypes - A list of tags which are datatype that contain
;;       the scope.  The scopetypes need to have the scope extracted
;;       in a way that honors the type of inheritance.
;; nest/nested - When one tag is contained entirely in another.
;;
;; context - A semantic datatype representing a point in a buffer.
;;
;; constraint - If a context specifies a specific datatype is needed,
;;       that is a constraint.
;; constants - Some datatypes define elements of themselves as a
;;       constant.  These need to be returned as there would be no
;;       other possible completions.

(eval-when-compile (require 'cl))
(require 'semantic)
(require 'semantic/format)
(require 'semantic/ctxt)
(require 'semantic/scope)
(require 'semantic/sort)
(require 'semantic/analyze/fcn)

(eval-when-compile (require 'semantic/find))

(declare-function data-debug-new-buffer "data-debug")
(declare-function data-debug-insert-object-slots "eieio-datadebug")

;;; Code:
(defvar semantic-analyze-error-stack nil
  "Collection of any errors thrown during analysis.")

(defun semantic-analyze-push-error (err)
  "Push the error in ERR-DATA onto the error stack.
Argument ERR."
  (push err semantic-analyze-error-stack))

;;; Analysis Classes
;;
;; These classes represent what a context is.  Different types
;; of contexts provide differing amounts of information to help
;; provide completions.
;;
(defclass semantic-analyze-context ()
  ((bounds :initarg :bounds
	   :type list
	   :documentation "The bounds of this context.
Usually bound to the dimension of a single symbol or command.")
   (prefix :initarg :prefix
	   :type list
	   :documentation "List of tags defining local text.
This can be nil, or a list where the last element can be a string
representing text that may be incomplete.  Preceding elements
must be semantic tags representing variables or functions
called in a dereference sequence.")
   (prefixclass :initarg :prefixclass
		:type list
		:documentation "Tag classes expected at this context.
These are classes for tags, such as 'function, or 'variable.")
   (prefixtypes :initarg :prefixtypes
	   :type list
	   :documentation "List of tags defining types for :prefix.
This list is one shorter than :prefix.  Each element is a semantic
tag representing a type matching the semantic tag in the same
position in PREFIX.")
   (scope :initarg :scope
	  :type (or null semantic-scope-cache)
	  :documentation "List of tags available in scopetype.
See `semantic-analyze-scoped-tags' for details.")
   (buffer :initarg :buffer
	   :type buffer
	   :documentation "The buffer this context is derived from.")
   (errors :initarg :errors
	   :documentation "Any errors thrown an caught during analysis.")
   )
  "Base analysis data for any context.")

(defclass semantic-analyze-context-assignment (semantic-analyze-context)
  ((assignee :initarg :assignee
	     :type list
	     :documentation "A sequence of tags for an assignee.
This is a variable into which some value is being placed.  The last
item in the list is the variable accepting the value.  Earlier
tags represent the variables being dereferenced to get to the
assignee."))
  "Analysis class for a value in an assignment.")

(defclass semantic-analyze-context-functionarg (semantic-analyze-context)
  ((function :initarg :function
	     :type list
	     :documentation "A sequence of tags for a function.
This is a function being called.  The cursor will be in the position
of an argument.
The last tag in :function is the function being called.  Earlier
tags represent the variables being dereferenced to get to the
function.")
   (index :initarg :index
	  :type integer
	  :documentation "The index of the argument for this context.
If a function takes 4 arguments, this value should be bound to
the values 1 through 4.")
   (argument :initarg :argument
	     :type list
	     :documentation "A sequence of tags for the :index argument.
The argument can accept a value of some type, and this contains the
tag for that definition.  It should be a tag, but might
be just a string in some circumstances.")
   )
  "Analysis class for a value as a function argument.")

(defclass semantic-analyze-context-return (semantic-analyze-context)
  () ; No extra data.
  "Analysis class for return data.
Return data methods identify the required type by the return value
of the parent function.")

;;; METHODS
;;
;; Simple methods against the context classes.
;;
(defmethod semantic-analyze-type-constraint
  ((context semantic-analyze-context) &optional desired-type)
  "Return a type constraint for completing :prefix in CONTEXT.
Optional argument DESIRED-TYPE may be a non-type tag to analyze."
  (when (semantic-tag-p desired-type)
    ;; Convert the desired type if needed.
    (if (not (eq (semantic-tag-class desired-type) 'type))
	(setq desired-type (semantic-tag-type desired-type)))
    ;; Protect against plain strings
    (cond ((stringp desired-type)
	   (setq desired-type (list desired-type 'type)))
	  ((and (stringp (car desired-type))
		(not (semantic-tag-p desired-type)))
	   (setq desired-type (list (car desired-type) 'type)))
	  ((semantic-tag-p desired-type)
	   ;; We have a tag of some sort.  Yay!
	   nil)
	  (t (setq desired-type nil))
	  )
    desired-type))

(defmethod semantic-analyze-type-constraint
  ((context semantic-analyze-context-functionarg))
  "Return a type constraint for completing :prefix in CONTEXT."
  (call-next-method context (car (oref context argument))))

(defmethod semantic-analyze-type-constraint
  ((context semantic-analyze-context-assignment))
  "Return a type constraint for completing :prefix in CONTEXT."
  (call-next-method context (car (reverse (oref context assignee)))))

(defmethod semantic-analyze-interesting-tag
  ((context semantic-analyze-context))
  "Return a tag from CONTEXT that would be most interesting to a user."
  (let ((prefix (reverse (oref context :prefix))))
    ;; Go back through the prefix until we find a tag we can return.
    (while (and prefix (not (semantic-tag-p (car prefix))))
      (setq prefix (cdr prefix)))
    ;; Return the found tag, or nil.
    (car prefix)))

(defmethod semantic-analyze-interesting-tag
  ((context semantic-analyze-context-functionarg))
  "Try the base, and if that fails, return what we are assigning into."
  (or (call-next-method) (car-safe (oref context :function))))

(defmethod semantic-analyze-interesting-tag
  ((context semantic-analyze-context-assignment))
  "Try the base, and if that fails, return what we are assigning into."
  (or (call-next-method) (car-safe (oref context :assignee))))

;;; ANALYSIS
;;
;; Start out with routines that will calculate useful parts of
;; the general analyzer function.  These could be used directly
;; by an application that doesn't need to calculate the full
;; context.

(define-overloadable-function semantic-analyze-find-tag-sequence
  (sequence &optional scope typereturn throwsym &rest flags)
  "Attempt to find all tags in SEQUENCE.
Optional argument LOCALVAR is the list of local variables to use when
finding the details on the first element of SEQUENCE in case
it is not found in the global set of tables.
Optional argument SCOPE are additional terminals to search which are currently
scoped.  These are not local variables, but symbols available in a structure
which doesn't need to be dereferenced.
Optional argument TYPERETURN is a symbol in which the types of all found
will be stored.  If nil, that data is thrown away.
Optional argument THROWSYM specifies a symbol the throw on non-recoverable error.
Remaining arguments FLAGS are additional flags to apply when searching.")

(defun semantic-analyze-find-tag-sequence-default
  ;; Note: overloadable fcn uses &rest, but it is a list already, so we don't need
  ;; to do that in the -default.
  (sequence &optional scope typereturn throwsym flags)
  "Attempt to find all tags in SEQUENCE.
SCOPE are extra tags which are in scope.
TYPERETURN is a symbol in which to place a list of tag classes that
are found in SEQUENCE.
Optional argument THROWSYM specifies a symbol the throw on non-recoverable error.
Remaining arguments FLAGS are additional flags to apply when searching.
This function knows of flags:
  'mustbeclassvariable"
  (let ((s sequence)			; copy of the sequence
	(tmp nil)			; tmp find variable
	(tag nil)			; tag return list
	(tagtype nil)			; tag types return list
	(fname nil)
	(miniscope (when scope (clone scope)))
	(tagclass (if (memq 'mustbeclassvariable flags)
		      'variable nil))
	)
    ;; First order check.  Is this wholly contained in the typecache?
    (setq tmp (semanticdb-typecache-find sequence))
  
    (when tmp
      (if (or (not tagclass) (semantic-tag-of-class-p tmp tagclass))
	  ;; We are effectively done...
	  (setq s nil
		tag (list tmp))
	;; tagclass doesn't match, so fail this.
	(setq tmp nil)))

    (unless tmp
      ;; For tag class filtering, only apply the filter if the first entry
      ;; is also the only entry.
      (let ((lftagclass (if (= (length s) 1) tagclass)))

	;; For the first entry, it better be a variable, but it might
	;; be in the local context too.
	;; NOTE: Don't forget c++ namespace foo::bar.
	(setq tmp (or
		   ;; Is this tag within our scope.  Scopes can sometimes
		   ;; shadow other things, so it goes first.
		   (and scope (semantic-scope-find (car s) lftagclass scope))
		   ;; Find the tag out there... somewhere, but not in scope
		   (semantic-analyze-find-tag (car s) lftagclass)
		   ))

	(if (and (listp tmp) (semantic-tag-p (car tmp)))
	    (setq tmp (semantic-analyze-select-best-tag tmp lftagclass)))
	(if (not (semantic-tag-p tmp))
	    (if throwsym
		(throw throwsym "Cannot find definition")
	      (error "Cannot find definition for \"%s\"" (car s))))
	(setq s (cdr s))
	(setq tag (cons tmp tag)) ; tag is nil here...
	(setq fname (semantic-tag-file-name tmp))
	))

    ;; For the middle entries
    (while s
      ;; Using the tag found in TMP, let's find the tag
      ;; representing the full typeographic information of its
      ;; type, and use that to determine the search context for
      ;; (car s)
      (let* ((tmptype
	      ;; In some cases the found TMP is a type,
	      ;; and we can use it directly.
	      (cond ((semantic-tag-of-class-p tmp 'type)
		     (or (semantic-analyze-type tmp miniscope)
			 tmp))
		    (t
		     (semantic-analyze-tag-type tmp miniscope))))
	     (typefile
	      (when tmptype
		(semantic-tag-file-name tmptype)))
	     (slots nil))

	;; Get the children
	(setq slots (semantic-analyze-scoped-type-parts tmptype scope))

	;; find (car s) in the list o slots
	(setq tmp (semantic-find-tags-by-name (car s) slots))

	;; If we have lots
	(if (and (listp tmp) (semantic-tag-p (car tmp)))
	    (setq tmp (semantic-analyze-select-best-tag tmp)))

	;; Make sure we have a tag.
	(if (not (semantic-tag-p tmp))
	    (if (cdr s)
		;; In the middle, we need to keep seeking our types out.
		(error "Cannot find definition for \"%s\"" (car s))
	      ;; Else, it's ok to end with a non-tag
	      (setq tmp (car s))))

	(setq fname (or typefile fname))
	(when (and fname (semantic-tag-p tmp)
		   (not (semantic-tag-in-buffer-p tmp)))
	  (semantic--tag-put-property tmp :filename fname))
	(setq tag (cons tmp tag))
	(setq tagtype (cons tmptype tagtype))
	(when miniscope
	  (let ((rawscope
		 (apply 'append
			(mapcar 'semantic-tag-type-members tagtype))))
	    (oset miniscope fullscope rawscope)))
	)
      (setq s (cdr s)))

    (if typereturn (set typereturn (nreverse tagtype)))
    ;; Return the mess
    (nreverse tag)))

(defun semantic-analyze-find-tag (name &optional tagclass scope)
  "Return the first tag found with NAME or nil if not found.
Optional argument TAGCLASS specifies the class of tag to return,
such as 'function or 'variable.
Optional argument SCOPE specifies a scope object which has
additional tags which are in SCOPE and do not need prefixing to
find.

This is a wrapper on top of semanticdb, semanticdb typecache,
semantic-scope, and semantic search functions.  Almost all
searches use the same arguments."
  (let ((namelst (if (consp name) name ;; test if pre-split.
		   (semantic-analyze-split-name name))))
    (cond
     ;; If the splitter gives us a list, use the sequence finder
     ;; to get the list.  Since this routine is expected to return
     ;; only one tag, return the LAST tag found from the sequence
     ;; which is supposedly the nested reference.
     ;;
     ;; Of note, the SEQUENCE function below calls this function
     ;; (recursively now) so the names that we get from the above
     ;; fcn better not, in turn, be splittable.
     ((listp namelst)
      ;; If we had a split, then this is likely a c++ style namespace::name sequence,
      ;; so take a short-cut through the typecache.
      (or (semanticdb-typecache-find namelst)
	  ;; Ok, not there, try the usual...
	  (let ((seq (semantic-analyze-find-tag-sequence
		      namelst scope nil)))
	    (semantic-analyze-select-best-tag seq tagclass)
	    )))
     ;; If NAME is solo, then do our searches for it here.
     ((stringp namelst)
      (let ((retlist (and scope (semantic-scope-find name tagclass scope))))
	(if retlist
	    (semantic-analyze-select-best-tag
	     retlist tagclass)
	  (if (eq tagclass 'type)
	      (semanticdb-typecache-find name)
	    ;; Search in the typecache.  First entries in a sequence are
	    ;; often there.
	    (setq retlist (semanticdb-typecache-find name))
	    (if (and retlist (or (not tagclass)
				 (semantic-tag-of-class-p retlist 'tagclass)))
		retlist
	      (semantic-analyze-select-best-tag
	       (semanticdb-strip-find-results
		(semanticdb-find-tags-by-name name)
		'name)
	       tagclass)
	      )))))
     )))

;;; SHORT ANALYSIS
;;
;; Create a mini-analysis of just the symbol under point.
;;
(define-overloadable-function semantic-analyze-current-symbol
  (analyzehookfcn &optional position)
  "Call ANALYZEHOOKFCN after analyzing the symbol under POSITION.
The ANALYZEHOOKFCN is called with the current symbol bounds, and the
analyzed prefix.  It should take the arguments (START END PREFIX).
The ANALYZEHOOKFCN is only called if some sort of prefix with bounds was
found under POSITION.

The results of ANALYZEHOOKFCN is returned, or nil if there was nothing to
call it with.

For regular analysis, you should call `semantic-analyze-current-context'
to calculate the context information.  The purpose for this function is
to provide a large number of non-cached analysis for filtering symbols."
  ;; Only do this in a Semantic enabled buffer.
  (when (not (semantic-active-p))
    (error "Cannot analyze buffers not supported by Semantic"))
  ;; Always refresh out tags in a safe way before doing the
  ;; context.
  (semantic-refresh-tags-safe)
  ;; Do the rest of the analysis.
  (save-match-data
    (save-excursion
      (:override)))
  )

(defun semantic-analyze-current-symbol-default (analyzehookfcn position)
  "Call ANALYZEHOOKFCN on the analyzed symbol at POSITION."
  (let* ((semantic-analyze-error-stack nil)
	 (LLstart (current-time))
	 (prefixandbounds (semantic-ctxt-current-symbol-and-bounds (or position (point))))
	 (prefix (car prefixandbounds))
	 (bounds (nth 2 prefixandbounds))
	 (scope (semantic-calculate-scope position))
	 (end nil)
	 )
        ;; Only do work if we have bounds (meaning a prefix to complete)
    (when bounds

      (if debug-on-error
	  (catch 'unfindable
	    ;; If debug on error is on, allow debugging in this fcn.
	    (setq prefix (semantic-analyze-find-tag-sequence
			  prefix scope 'prefixtypes 'unfindable)))
	;; Debug on error is off.  Capture errors and move on
	(condition-case err
	    ;; NOTE: This line is duplicated in
	    ;;       semantic-analyzer-debug-global-symbol
	    ;;       You will need to update both places.
	    (setq prefix (semantic-analyze-find-tag-sequence
			  prefix scope 'prefixtypes))
	  (error (semantic-analyze-push-error err))))

      (setq end (current-time))
      ;;(message "Analysis took %.2f sec" (semantic-elapsed-time LLstart end))

      )
    (when prefix
      (prog1
	  (funcall analyzehookfcn (car bounds) (cdr bounds) prefix)
	;;(setq end (current-time))
	;;(message "hookfcn took %.5f sec" (semantic-elapsed-time LLstart end))
	)

	)))

;;; MAIN ANALYSIS
;;
;; Create a full-up context analysis.
;;
;;;###autoload
(define-overloadable-function semantic-analyze-current-context (&optional position)
  "Analyze the current context at optional POSITION.
If called interactively, display interesting information about POSITION
in a separate buffer.
Returns an object based on symbol `semantic-analyze-context'.

This function can be overridden with the symbol `analyze-context'.
When overriding this function, your override will be called while
cursor is at POSITION.  In addition, your function will not be called
if a cached copy of the return object is found."
  (interactive "d")
  ;; Only do this in a Semantic enabled buffer.
  (when (not (semantic-active-p))
    (error "Cannot analyze buffers not supported by Semantic"))
  ;; Always refresh out tags in a safe way before doing the
  ;; context.
  (semantic-refresh-tags-safe)
  ;; Do the rest of the analysis.
  (if (not position) (setq position (point)))
  (save-excursion
    (goto-char position)
    (let* ((answer (semantic-get-cache-data 'current-context)))
      (with-syntax-table semantic-lex-syntax-table
	(when (not answer)
	  (setq answer (:override))
	  (when (and answer (oref answer bounds))
	    (with-slots (bounds) answer
	      (semantic-cache-data-to-buffer (current-buffer)
					     (car bounds)
					     (cdr bounds)
					     answer
					     'current-context
					     'exit-cache-zone)))
	  ;; Check for interactivity
	  (when (called-interactively-p 'any)
	    (if answer
		(semantic-analyze-pop-to-context answer)
	      (message "No Context."))
	    ))

	answer))))

(defun semantic-analyze-current-context-default (position)
  "Analyze the current context at POSITION.
Returns an object based on symbol `semantic-analyze-context'."
  (let* ((semantic-analyze-error-stack nil)
	 (context-return nil)
	 (prefixandbounds (semantic-ctxt-current-symbol-and-bounds (or position (point))))
	 (prefix (car prefixandbounds))
	 (bounds (nth 2 prefixandbounds))
	 ;; @todo - vv too early to really know this answer! vv
	 (prefixclass (semantic-ctxt-current-class-list))
	 (prefixtypes nil)
	 (scope (semantic-calculate-scope position))
	 (function nil)
	 (fntag nil)
	 arg fntagend argtag
	 assign asstag newseq
	 )

    ;; Pattern for Analysis:
    ;;
    ;; Step 1: Calculate DataTypes in Scope:
    ;;
    ;;  a) Calculate the scope (above)
    ;;
    ;; Step 2: Parse context
    ;;
    ;; a) Identify function being called, or variable assignment,
    ;;    and find source tags for those references
    ;; b) Identify the prefix (text cursor is on) and find the source
    ;;    tags for those references.
    ;;
    ;; Step 3: Assemble an object
    ;;

    ;; Step 2 a:

    (setq function (semantic-ctxt-current-function))

    (when function
      ;; Calculate the argument for the function if there is one.
      (setq arg (semantic-ctxt-current-argument))

      ;; Find a tag related to the function name.
      (condition-case err
	  (setq fntag
		(semantic-analyze-find-tag-sequence function scope))
	(error (semantic-analyze-push-error err)))

      ;; fntag can have the last entry as just a string, meaning we
      ;; could not find the core datatype.  In this case, the searches
      ;; below will not work.
      (when (stringp (car (last fntag)))
	;; Take a wild guess!
	(setcar (last fntag) (semantic-tag (car (last fntag)) 'function))
	)

      (when fntag
	(let ((fcn (semantic-find-tags-by-class 'function fntag)))
	  (when (not fcn)
	    (let ((ty (semantic-find-tags-by-class 'type fntag)))
	      (when ty
		;; We might have a constructor with the same name as
		;; the found datatype.
		(setq fcn (semantic-find-tags-by-name
			   (semantic-tag-name (car ty))
			   (semantic-tag-type-members (car ty))))
		(if fcn
		    (let ((lp fcn))
		      (while lp
			(when (semantic-tag-get-attribute (car lp)
							  :constructor)
			  (setq fcn (cons (car lp) fcn)))
			(setq lp (cdr lp))))
		  ;; Give up, go old school
		  (setq fcn fntag))
		)))
	  (setq fntagend (car (reverse fcn))
		argtag
		(when (semantic-tag-p fntagend)
		  (nth (1- arg) (semantic-tag-function-arguments fntagend)))
		fntag fcn))))

    ;; Step 2 b:

    ;; Only do work if we have bounds (meaning a prefix to complete)
    (when bounds

      (if debug-on-error
	  (catch 'unfindable
	    (setq prefix (semantic-analyze-find-tag-sequence
			  prefix scope 'prefixtypes 'unfindable))
	    ;; If there's an alias, dereference it and analyze
	    ;; sequence again.
	    (when (setq newseq
			(semantic-analyze-dereference-alias prefix))
	      (setq prefix (semantic-analyze-find-tag-sequence
			    newseq scope 'prefixtypes 'unfindable))))
	;; Debug on error is off.  Capture errors and move on
	(condition-case err
	    ;; NOTE: This line is duplicated in
	    ;;       semantic-analyzer-debug-global-symbol
	    ;;       You will need to update both places.
	    (progn
	      (setq prefix (semantic-analyze-find-tag-sequence
			    prefix scope 'prefixtypes))
	      (when (setq newseq
			  (semantic-analyze-dereference-alias prefix))
		(setq prefix (semantic-analyze-find-tag-sequence
			      newseq scope 'prefixtypes))))
	  (error (semantic-analyze-push-error err))))
      )

    ;; Step 3:

    (cond
     (fntag
      ;; If we found a tag for our function, we can go into
      ;; functional context analysis mode, meaning we have a type
      ;; for the argument.
      (setq context-return
	    (semantic-analyze-context-functionarg
	     "functionargument"
	     :buffer (current-buffer)
	     :function fntag
	     :index arg
	     :argument (list argtag)
	     :scope scope
	     :prefix prefix
	     :prefixclass prefixclass
	     :bounds bounds
	     :prefixtypes prefixtypes
	     :errors semantic-analyze-error-stack)))

      ;; No function, try assignment
     ((and (setq assign (semantic-ctxt-current-assignment))
	   ;; We have some sort of an assignment
	   (condition-case err
	       (setq asstag (semantic-analyze-find-tag-sequence
			     assign scope nil nil 'mustbeclassvariable))
	     (error (semantic-analyze-push-error err)
		    nil)))

      (setq context-return
	    (semantic-analyze-context-assignment
	     "assignment"
	     :buffer (current-buffer)
	     :assignee asstag
	     :scope scope
	     :bounds bounds
	     :prefix prefix
	     :prefixclass prefixclass
	     :prefixtypes prefixtypes
	     :errors semantic-analyze-error-stack)))

     ;; TODO: Identify return value condition.
     ;;((setq return .... what to do?)
     ;;  ...)

     (bounds
      ;; Nothing in particular
      (setq context-return
	    (semantic-analyze-context
	     "context"
	     :buffer (current-buffer)
	     :scope scope
	     :bounds bounds
	     :prefix prefix
	     :prefixclass prefixclass
	     :prefixtypes prefixtypes
	     :errors semantic-analyze-error-stack)))

     (t (setq context-return nil))
     )

    ;; Return our context.
    context-return))

(defun semantic-analyze-dereference-alias (taglist)
  "Dereference first tag in TAGLIST if it is an alias.
Returns a sequence of names which can then be fed again into
`semantic-analyze-find-tag-sequence'.
Returns nil if no alias was found."
  (when (eq (semantic-tag-get-attribute (car taglist) :kind) 'alias)
    (let ((tagname
	   (semantic-analyze-split-name
	    (semantic-tag-name 
	     (car (semantic-tag-get-attribute (car taglist) :members))))))
      (append (if (listp tagname)
		  tagname
		(list tagname))
	      (cdr taglist)))))

(defun semantic-adebug-analyze (&optional ctxt)
  "Perform `semantic-analyze-current-context'.
Display the results as a debug list.
Optional argument CTXT is the context to show."
  (interactive)
  (require 'data-debug)
  (let ((start (current-time))
	(ctxt (or ctxt (semantic-analyze-current-context)))
	(end (current-time)))
    (if (not ctxt)
	(message "No Analyzer Results")
      (message "Analysis  took %.2f seconds."
	       (semantic-elapsed-time start end))
      (semantic-analyze-pulse ctxt)
      (if ctxt
	  (progn
	    (data-debug-new-buffer "*Analyzer ADEBUG*")
	    (data-debug-insert-object-slots ctxt "]"))
	(message "No Context to analyze here.")))))


;;; DEBUG OUTPUT
;;
;; Friendly output of a context analysis.
;;
(declare-function pulse-momentary-highlight-region "pulse")

(defmethod semantic-analyze-pulse ((context semantic-analyze-context))
  "Pulse the region that CONTEXT affects."
  (require 'pulse)
  (with-current-buffer (oref context :buffer)
    (let ((bounds (oref context :bounds)))
      (when bounds
	(pulse-momentary-highlight-region (car bounds) (cdr bounds))))))

(defcustom semantic-analyze-summary-function 'semantic-format-tag-prototype
  "Function to use when creating items in Imenu.
Some useful functions are found in `semantic-format-tag-functions'."
  :group 'semantic
  :type semantic-format-tag-custom-list)

(defun semantic-analyze-princ-sequence (sequence &optional prefix buff)
  "Send the tag SEQUENCE to standard out.
Use PREFIX as a label.
Use BUFF as a source of override methods."
  ;; If there is no sequence, at least show the field as being empty.
  (unless sequence (princ prefix) (princ "<none>\n"))

  ;; Display the sequence column aligned.
  (while sequence
    (princ prefix)
    (cond
     ((semantic-tag-p (car sequence))
      (princ (funcall semantic-analyze-summary-function
		      (car sequence))))
     ((stringp (car sequence))
      (princ "\"")
      (princ (semantic--format-colorize-text (car sequence) 'variable))
      (princ "\""))
     (t
      (princ (format "'%S" (car sequence)))))
    (princ "\n")
    (setq sequence (cdr sequence))
    (setq prefix (make-string (length prefix) ? ))
    ))

(defmethod semantic-analyze-show ((context semantic-analyze-context))
  "Insert CONTEXT into the current buffer in a nice way."
  (semantic-analyze-princ-sequence (oref context prefix) "Prefix: " )
  (semantic-analyze-princ-sequence (oref context prefixclass) "Prefix Classes: ")
  (semantic-analyze-princ-sequence (oref context prefixtypes) "Prefix Types: ")
  (semantic-analyze-princ-sequence (oref context errors) "Encountered Errors: ")
  (princ "--------\n")
  ;(semantic-analyze-princ-sequence (oref context scopetypes) "Scope Types: ")
  ;(semantic-analyze-princ-sequence (oref context scope) "Scope: ")
  ;(semantic-analyze-princ-sequence (oref context localvariables) "LocalVars: ")
  (when (oref context scope)
    (semantic-analyze-show (oref context scope)))
  )

(defmethod semantic-analyze-show ((context semantic-analyze-context-assignment))
  "Insert CONTEXT into the current buffer in a nice way."
  (semantic-analyze-princ-sequence (oref context assignee) "Assignee: ")
  (call-next-method))

(defmethod semantic-analyze-show ((context semantic-analyze-context-functionarg))
  "Insert CONTEXT into the current buffer in a nice way."
  (semantic-analyze-princ-sequence (oref context function) "Function: ")
  (princ "Argument Index: ")
  (princ (oref context index))
  (princ "\n")
  (semantic-analyze-princ-sequence (oref context argument) "Argument: ")
  (call-next-method))

(defun semantic-analyze-pop-to-context (context)
  "Display CONTEXT in a temporary buffer.
CONTEXT's content is described in `semantic-analyze-current-context'."
  (semantic-analyze-pulse context)
  (with-output-to-temp-buffer "*Semantic Context Analysis*"
    (princ "Context Type: ")
    (princ (eieio-object-name context))
    (princ "\n")
    (princ "Bounds: ")
    (princ (oref context bounds))
    (princ "\n")
    (semantic-analyze-show context)
    )
  (shrink-window-if-larger-than-buffer
   (get-buffer-window "*Semantic Context Analysis*"))
  )

(provide 'semantic/analyze)

;; Local variables:
;; generated-autoload-file: "loaddefs.el"
;; generated-autoload-load-name: "semantic/analyze"
;; End:

;;; semantic/analyze.el ends here