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1 ;;; smie.el --- Simple Minded Indentation Engine -*- lexical-binding: t -*-
3 ;; Copyright (C) 2010-2014 Free Software Foundation, Inc.
5 ;; Author: Stefan Monnier <monnier@iro.umontreal.ca>
6 ;; Keywords: languages, lisp, internal, parsing, indentation
8 ;; This file is part of GNU Emacs.
10 ;; GNU Emacs is free software; you can redistribute it and/or modify
11 ;; it under the terms of the GNU General Public License as published by
12 ;; the Free Software Foundation, either version 3 of the License, or
13 ;; (at your option) any later version.
15 ;; GNU Emacs is distributed in the hope that it will be useful,
16 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
17 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 ;; GNU General Public License for more details.
20 ;; You should have received a copy of the GNU General Public License
21 ;; along with this program. If not, see <http://www.gnu.org/licenses/>.
23 ;;; Commentary:
25 ;; While working on the SML indentation code, the idea grew that maybe
26 ;; I could write something generic to do the same thing, and at the
27 ;; end of working on the SML code, I had a pretty good idea of what it
28 ;; could look like. That idea grew stronger after working on
29 ;; LaTeX indentation.
31 ;; So at some point I decided to try it out, by writing a new
32 ;; indentation code for Coq while trying to keep most of the code
33 ;; "table driven", where only the tables are Coq-specific. The result
34 ;; (which was used for Beluga-mode as well) turned out to be based on
35 ;; something pretty close to an operator precedence parser.
37 ;; So here is another rewrite, this time following the actual principles of
38 ;; operator precedence grammars. Why OPG? Even though they're among the
39 ;; weakest kinds of parsers, these parsers have some very desirable properties
40 ;; for Emacs:
41 ;; - most importantly for indentation, they work equally well in either
42 ;; direction, so you can use them to parse backward from the indentation
43 ;; point to learn the syntactic context;
44 ;; - they work locally, so there's no need to keep a cache of
45 ;; the parser's state;
46 ;; - because of that locality, indentation also works just fine when earlier
47 ;; parts of the buffer are syntactically incorrect since the indentation
48 ;; looks at "as little as possible" of the buffer to make an indentation
49 ;; decision.
50 ;; - they typically have no error handling and can't even detect a parsing
51 ;; error, so we don't have to worry about what to do in case of a syntax
52 ;; error because the parser just automatically does something. Better yet,
53 ;; we can afford to use a sloppy grammar.
55 ;; A good background to understand the development (especially the parts
56 ;; building the 2D precedence tables and then computing the precedence levels
57 ;; from it) can be found in pages 187-194 of "Parsing techniques" by Dick Grune
58 ;; and Ceriel Jacobs (BookBody.pdf available at
59 ;; http://dickgrune.com/Books/PTAPG_1st_Edition/).
61 ;; OTOH we had to kill many chickens, read many coffee grounds, and practice
62 ;; untold numbers of black magic spells, to come up with the indentation code.
63 ;; Since then, some of that code has been beaten into submission, but the
64 ;; smie-indent-keyword is still pretty obscure.
66 ;; Conflict resolution:
68 ;; - One source of conflicts is when you have:
69 ;; (exp ("IF" exp "ELSE" exp "END") ("CASE" cases "END"))
70 ;; (cases (cases "ELSE" insts) ...)
71 ;; The IF-rule implies ELSE=END and the CASE-rule implies ELSE>END.
72 ;; This can be resolved simply with:
73 ;; (exp ("IF" expelseexp "END") ("CASE" cases "END"))
74 ;; (expelseexp (exp) (exp "ELSE" exp))
75 ;; (cases (cases "ELSE" insts) ...)
76 ;; - Another source of conflict is when a terminator/separator is used to
77 ;; terminate elements at different levels, as in:
78 ;; (decls ("VAR" vars) (decls "," decls))
79 ;; (vars (id) (vars "," vars))
80 ;; often these can be resolved by making the lexer distinguish the two
81 ;; kinds of commas, e.g. based on the following token.
83 ;; TODO & BUGS:
85 ;; - We could try to resolve conflicts such as the IFexpELSEexpEND -vs-
86 ;; CASE(casesELSEexp)END automatically by changing the way BNF rules such as
87 ;; the IF-rule is handled. I.e. rather than IF=ELSE and ELSE=END, we could
88 ;; turn them into IF<ELSE and ELSE>END and IF=END.
89 ;; - Using the structural information SMIE gives us, it should be possible to
90 ;; implement a `smie-align' command that would automatically figure out what
91 ;; there is to align and how to do it (something like: align the token of
92 ;; lowest precedence that appears the same number of times on all lines,
93 ;; and then do the same on each side of that token).
94 ;; - Maybe accept two juxtaposed non-terminals in the BNF under the condition
95 ;; that the first always ends with a terminal, or that the second always
96 ;; starts with a terminal.
97 ;; - Permit EBNF-style notation.
98 ;; - If the grammar has conflicts, the only way is to make the lexer return
99 ;; different tokens for the different cases. This extra work performed by
100 ;; the lexer can be costly and unnecessary: we perform this extra work every
101 ;; time we find the conflicting token, regardless of whether or not the
102 ;; difference between the various situations is relevant to the current
103 ;; situation. E.g. we may try to determine whether a ";" is a ";-operator"
104 ;; or a ";-separator" in a case where we're skipping over a "begin..end" pair
105 ;; where the difference doesn't matter. For frequently occurring tokens and
106 ;; rarely occurring conflicts, this can be a significant performance problem.
107 ;; We could try and let the lexer return a "set of possible tokens
108 ;; plus a refinement function" and then let parser call the refinement
109 ;; function if needed.
110 ;; - Make it possible to better specify the behavior in the face of
111 ;; syntax errors. IOW provide some control over the choice of precedence
112 ;; levels within the limits of the constraints. E.g. make it possible for
113 ;; the grammar to specify that "begin..end" has lower precedence than
114 ;; "Module..EndModule", so that if a "begin" is missing, scanning from the
115 ;; "end" will stop at "Module" rather than going past it (and similarly,
116 ;; scanning from "Module" should not stop at a spurious "end").
118 ;;; Code:
120 ;; FIXME:
121 ;; - smie-indent-comment doesn't interact well with mis-indented lines (where
122 ;; the indent rules don't do what the user wants). Not sure what to do.
124 (eval-when-compile (require 'cl-lib))
126 (defgroup smie nil
127 "Simple Minded Indentation Engine."
128 :group 'languages)
130 (defvar comment-continue)
131 (declare-function comment-string-strip "newcomment" (str beforep afterp))
133 ;;; Building precedence level tables from BNF specs.
135 ;; We have 4 different representations of a "grammar":
136 ;; - a BNF table, which is a list of BNF rules of the form
137 ;; (NONTERM RHS1 ... RHSn) where each RHS is a list of terminals (tokens)
138 ;; or nonterminals. Any element in these lists which does not appear as
139 ;; the `car' of a BNF rule is taken to be a terminal.
140 ;; - A list of precedences (key word "precs"), is a list, sorted
141 ;; from lowest to highest precedence, of precedence classes that
142 ;; have the form (ASSOCIATIVITY TERMINAL1 .. TERMINALn), where
143 ;; ASSOCIATIVITY can be `assoc', `left', `right' or `nonassoc'.
144 ;; - a 2 dimensional precedence table (key word "prec2"), is a 2D
145 ;; table recording the precedence relation (can be `<', `=', `>', or
146 ;; nil) between each pair of tokens.
147 ;; - a precedence-level table (key word "grammar"), which is an alist
148 ;; giving for each token its left and right precedence level (a
149 ;; number or nil). This is used in `smie-grammar'.
150 ;; The prec2 tables are only intermediate data structures: the source
151 ;; code normally provides a mix of BNF and precs tables, and then
152 ;; turns them into a levels table, which is what's used by the rest of
153 ;; the SMIE code.
155 (defvar smie-warning-count 0)
157 (defun smie-set-prec2tab (table x y val &optional override)
158 (cl-assert (and x y))
159 (let* ((key (cons x y))
160 (old (gethash key table)))
161 (if (and old (not (eq old val)))
162 (if (and override (gethash key override))
163 ;; FIXME: The override is meant to resolve ambiguities,
164 ;; but it also hides real conflicts. It would be great to
165 ;; be able to distinguish the two cases so that overrides
166 ;; don't hide real conflicts.
167 (puthash key (gethash key override) table)
168 (display-warning 'smie (format "Conflict: %s %s/%s %s" x old val y))
169 (cl-incf smie-warning-count))
170 (puthash key val table))))
172 (put 'smie-precs->prec2 'pure t)
173 (defun smie-precs->prec2 (precs)
174 "Compute a 2D precedence table from a list of precedences.
175 PRECS should be a list, sorted by precedence (e.g. \"+\" will
176 come before \"*\"), of elements of the form \(left OP ...)
177 or (right OP ...) or (nonassoc OP ...) or (assoc OP ...). All operators in
178 one of those elements share the same precedence level and associativity."
179 (let ((prec2-table (make-hash-table :test 'equal)))
180 (dolist (prec precs)
181 (dolist (op (cdr prec))
182 (let ((selfrule (cdr (assq (car prec)
183 '((left . >) (right . <) (assoc . =))))))
184 (when selfrule
185 (dolist (other-op (cdr prec))
186 (smie-set-prec2tab prec2-table op other-op selfrule))))
187 (let ((op1 '<) (op2 '>))
188 (dolist (other-prec precs)
189 (if (eq prec other-prec)
190 (setq op1 '> op2 '<)
191 (dolist (other-op (cdr other-prec))
192 (smie-set-prec2tab prec2-table op other-op op2)
193 (smie-set-prec2tab prec2-table other-op op op1)))))))
194 prec2-table))
196 (put 'smie-merge-prec2s 'pure t)
197 (defun smie-merge-prec2s (&rest tables)
198 (if (null (cdr tables))
199 (car tables)
200 (let ((prec2 (make-hash-table :test 'equal)))
201 (dolist (table tables)
202 (maphash (lambda (k v)
203 (if (consp k)
204 (smie-set-prec2tab prec2 (car k) (cdr k) v)
205 (if (and (gethash k prec2)
206 (not (equal (gethash k prec2) v)))
207 (error "Conflicting values for %s property" k)
208 (puthash k v prec2))))
209 table))
210 prec2)))
212 (put 'smie-bnf->prec2 'pure t)
213 (defun smie-bnf->prec2 (bnf &rest resolvers)
214 "Convert the BNF grammar into a prec2 table.
215 BNF is a list of nonterminal definitions of the form:
216 \(NONTERM RHS1 RHS2 ...)
217 where each RHS is a (non-empty) list of terminals (aka tokens) or non-terminals.
218 Not all grammars are accepted:
219 - an RHS cannot be an empty list (this is not needed, since SMIE allows all
220 non-terminals to match the empty string anyway).
221 - an RHS cannot have 2 consecutive non-terminals: between each non-terminal
222 needs to be a terminal (aka token). This is a fundamental limitation of
223 the parsing technology used (operator precedence grammar).
224 Additionally, conflicts can occur:
225 - The returned prec2 table holds constraints between pairs of
226 token, and for any given pair only one constraint can be
227 present, either: T1 < T2, T1 = T2, or T1 > T2.
228 - A token can either be an `opener' (something similar to an open-paren),
229 a `closer' (like a close-paren), or `neither' of the two (e.g. an infix
230 operator, or an inner token like \"else\").
231 Conflicts can be resolved via RESOLVERS, which is a list of elements that can
232 be either:
233 - a precs table (see `smie-precs->prec2') to resolve conflicting constraints,
234 - a constraint (T1 REL T2) where REL is one of = < or >."
235 ;; FIXME: Add repetition operator like (repeat <separator> <elems>).
236 ;; Maybe also add (or <elem1> <elem2>...) for things like
237 ;; (exp (exp (or "+" "*" "=" ..) exp)).
238 ;; Basically, make it EBNF (except for the specification of a separator in
239 ;; the repetition, maybe).
240 (let* ((nts (mapcar 'car bnf)) ;Non-terminals.
241 (first-ops-table ())
242 (last-ops-table ())
243 (first-nts-table ())
244 (last-nts-table ())
245 (smie-warning-count 0)
246 (prec2 (make-hash-table :test 'equal))
247 (override
248 (let ((precs ())
249 (over (make-hash-table :test 'equal)))
250 (dolist (resolver resolvers)
251 (cond
252 ((and (= 3 (length resolver)) (memq (nth 1 resolver) '(= < >)))
253 (smie-set-prec2tab
254 over (nth 0 resolver) (nth 2 resolver) (nth 1 resolver)))
255 ((memq (caar resolver) '(left right assoc nonassoc))
256 (push resolver precs))
257 (t (error "Unknown resolver %S" resolver))))
258 (apply #'smie-merge-prec2s over
259 (mapcar 'smie-precs->prec2 precs))))
260 again)
261 (dolist (rules bnf)
262 (let ((nt (car rules))
263 (last-ops ())
264 (first-ops ())
265 (last-nts ())
266 (first-nts ()))
267 (dolist (rhs (cdr rules))
268 (unless (consp rhs)
269 (signal 'wrong-type-argument `(consp ,rhs)))
270 (if (not (member (car rhs) nts))
271 (cl-pushnew (car rhs) first-ops)
272 (cl-pushnew (car rhs) first-nts)
273 (when (consp (cdr rhs))
274 ;; If the first is not an OP we add the second (which
275 ;; should be an OP if BNF is an "operator grammar").
276 ;; Strictly speaking, this should only be done if the
277 ;; first is a non-terminal which can expand to a phrase
278 ;; without any OP in it, but checking doesn't seem worth
279 ;; the trouble, and it lets the writer of the BNF
280 ;; be a bit more sloppy by skipping uninteresting base
281 ;; cases which are terminals but not OPs.
282 (when (member (cadr rhs) nts)
283 (error "Adjacent non-terminals: %s %s"
284 (car rhs) (cadr rhs)))
285 (cl-pushnew (cadr rhs) first-ops)))
286 (let ((shr (reverse rhs)))
287 (if (not (member (car shr) nts))
288 (cl-pushnew (car shr) last-ops)
289 (cl-pushnew (car shr) last-nts)
290 (when (consp (cdr shr))
291 (when (member (cadr shr) nts)
292 (error "Adjacent non-terminals: %s %s"
293 (cadr shr) (car shr)))
294 (cl-pushnew (cadr shr) last-ops)))))
295 (push (cons nt first-ops) first-ops-table)
296 (push (cons nt last-ops) last-ops-table)
297 (push (cons nt first-nts) first-nts-table)
298 (push (cons nt last-nts) last-nts-table)))
299 ;; Compute all first-ops by propagating the initial ones we have
300 ;; now, according to first-nts.
301 (setq again t)
302 (while (prog1 again (setq again nil))
303 (dolist (first-nts first-nts-table)
304 (let* ((nt (pop first-nts))
305 (first-ops (assoc nt first-ops-table)))
306 (dolist (first-nt first-nts)
307 (dolist (op (cdr (assoc first-nt first-ops-table)))
308 (unless (member op first-ops)
309 (setq again t)
310 (push op (cdr first-ops))))))))
311 ;; Same thing for last-ops.
312 (setq again t)
313 (while (prog1 again (setq again nil))
314 (dolist (last-nts last-nts-table)
315 (let* ((nt (pop last-nts))
316 (last-ops (assoc nt last-ops-table)))
317 (dolist (last-nt last-nts)
318 (dolist (op (cdr (assoc last-nt last-ops-table)))
319 (unless (member op last-ops)
320 (setq again t)
321 (push op (cdr last-ops))))))))
322 ;; Now generate the 2D precedence table.
323 (dolist (rules bnf)
324 (dolist (rhs (cdr rules))
325 (while (cdr rhs)
326 (cond
327 ((member (car rhs) nts)
328 (dolist (last (cdr (assoc (car rhs) last-ops-table)))
329 (smie-set-prec2tab prec2 last (cadr rhs) '> override)))
330 ((member (cadr rhs) nts)
331 (dolist (first (cdr (assoc (cadr rhs) first-ops-table)))
332 (smie-set-prec2tab prec2 (car rhs) first '< override))
333 (if (and (cddr rhs) (not (member (car (cddr rhs)) nts)))
334 (smie-set-prec2tab prec2 (car rhs) (car (cddr rhs))
335 '= override)))
336 (t (smie-set-prec2tab prec2 (car rhs) (cadr rhs) '= override)))
337 (setq rhs (cdr rhs)))))
338 ;; Keep track of which tokens are openers/closer, so they can get a nil
339 ;; precedence in smie-prec2->grammar.
340 (puthash :smie-open/close-alist (smie-bnf--classify bnf) prec2)
341 (puthash :smie-closer-alist (smie-bnf--closer-alist bnf) prec2)
342 (if (> smie-warning-count 0)
343 (display-warning
344 'smie (format "Total: %d warnings" smie-warning-count)))
345 prec2))
347 ;; (defun smie-prec2-closer-alist (prec2 include-inners)
348 ;; "Build a closer-alist from a PREC2 table.
349 ;; The return value is in the same form as `smie-closer-alist'.
350 ;; INCLUDE-INNERS if non-nil means that inner keywords will be included
351 ;; in the table, e.g. the table will include things like (\"if\" . \"else\")."
352 ;; (let* ((non-openers '())
353 ;; (non-closers '())
354 ;; ;; For each keyword, this gives the matching openers, if any.
355 ;; (openers (make-hash-table :test 'equal))
356 ;; (closers '())
357 ;; (done nil))
358 ;; ;; First, find the non-openers and non-closers.
359 ;; (maphash (lambda (k v)
360 ;; (unless (or (eq v '<) (member (cdr k) non-openers))
361 ;; (push (cdr k) non-openers))
362 ;; (unless (or (eq v '>) (member (car k) non-closers))
363 ;; (push (car k) non-closers)))
364 ;; prec2)
365 ;; ;; Then find the openers and closers.
366 ;; (maphash (lambda (k _)
367 ;; (unless (member (car k) non-openers)
368 ;; (puthash (car k) (list (car k)) openers))
369 ;; (unless (or (member (cdr k) non-closers)
370 ;; (member (cdr k) closers))
371 ;; (push (cdr k) closers)))
372 ;; prec2)
373 ;; ;; Then collect the matching elements.
374 ;; (while (not done)
375 ;; (setq done t)
376 ;; (maphash (lambda (k v)
377 ;; (when (eq v '=)
378 ;; (let ((aopeners (gethash (car k) openers))
379 ;; (dopeners (gethash (cdr k) openers))
380 ;; (new nil))
381 ;; (dolist (o aopeners)
382 ;; (unless (member o dopeners)
383 ;; (setq new t)
384 ;; (push o dopeners)))
385 ;; (when new
386 ;; (setq done nil)
387 ;; (puthash (cdr k) dopeners openers)))))
388 ;; prec2))
389 ;; ;; Finally, dump the resulting table.
390 ;; (let ((alist '()))
391 ;; (maphash (lambda (k v)
392 ;; (when (or include-inners (member k closers))
393 ;; (dolist (opener v)
394 ;; (unless (equal opener k)
395 ;; (push (cons opener k) alist)))))
396 ;; openers)
397 ;; alist)))
399 (defun smie-bnf--closer-alist (bnf &optional no-inners)
400 ;; We can also build this closer-alist table from a prec2 table,
401 ;; but it takes more work, and the order is unpredictable, which
402 ;; is a problem for smie-close-block.
403 ;; More convenient would be to build it from a levels table since we
404 ;; always have this table (contrary to the BNF), but it has all the
405 ;; disadvantages of the prec2 case plus the disadvantage that the levels
406 ;; table has lost some info which would result in extra invalid pairs.
407 "Build a closer-alist from a BNF table.
408 The return value is in the same form as `smie-closer-alist'.
409 NO-INNERS if non-nil means that inner keywords will be excluded
410 from the table, e.g. the table will not include things like (\"if\" . \"else\")."
411 (let ((nts (mapcar #'car bnf)) ;non terminals.
412 (alist '()))
413 (dolist (nt bnf)
414 (dolist (rhs (cdr nt))
415 (unless (or (< (length rhs) 2) (member (car rhs) nts))
416 (if no-inners
417 (let ((last (car (last rhs))))
418 (unless (member last nts)
419 (cl-pushnew (cons (car rhs) last) alist :test #'equal)))
420 ;; Reverse so that the "real" closer gets there first,
421 ;; which is important for smie-close-block.
422 (dolist (term (reverse (cdr rhs)))
423 (unless (member term nts)
424 (cl-pushnew (cons (car rhs) term) alist :test #'equal)))))))
425 (nreverse alist)))
427 (defun smie-bnf--set-class (table token class)
428 (let ((prev (gethash token table class)))
429 (puthash token
430 (cond
431 ((eq prev class) class)
432 ((eq prev t) t) ;Non-terminal.
433 (t (display-warning
434 'smie
435 (format "token %s is both %s and %s" token class prev))
436 'neither))
437 table)))
439 (defun smie-bnf--classify (bnf)
440 "Return a table classifying terminals.
441 Each terminal can either be an `opener', a `closer', or `neither'."
442 (let ((table (make-hash-table :test #'equal))
443 (alist '()))
444 (dolist (category bnf)
445 (puthash (car category) t table)) ;Mark non-terminals.
446 (dolist (category bnf)
447 (dolist (rhs (cdr category))
448 (if (null (cdr rhs))
449 (smie-bnf--set-class table (pop rhs) 'neither)
450 (smie-bnf--set-class table (pop rhs) 'opener)
451 (while (cdr rhs) ;Remove internals.
452 (smie-bnf--set-class table (pop rhs) 'neither))
453 (smie-bnf--set-class table (pop rhs) 'closer))))
454 (maphash (lambda (tok v)
455 (when (memq v '(closer opener))
456 (push (cons tok v) alist)))
457 table)
458 alist))
460 (defun smie-debug--prec2-cycle (csts)
461 "Return a cycle in CSTS, assuming there's one.
462 CSTS is a list of pairs representing arcs in a graph."
463 ;; A PATH is of the form (START . REST) where REST is a reverse
464 ;; list of nodes through which the path goes.
465 (let ((paths (mapcar (lambda (pair) (list (car pair) (cdr pair))) csts))
466 (cycle nil))
467 (while (null cycle)
468 (dolist (path (prog1 paths (setq paths nil)))
469 (dolist (cst csts)
470 (when (eq (car cst) (nth 1 path))
471 (if (eq (cdr cst) (car path))
472 (setq cycle path)
473 (push (cons (car path) (cons (cdr cst) (cdr path)))
474 paths))))))
475 (cons (car cycle) (nreverse (cdr cycle)))))
477 (defun smie-debug--describe-cycle (table cycle)
478 (let ((names
479 (mapcar (lambda (val)
480 (let ((res nil))
481 (dolist (elem table)
482 (if (eq (cdr elem) val)
483 (push (concat "." (car elem)) res))
484 (if (eq (cddr elem) val)
485 (push (concat (car elem) ".") res)))
486 (cl-assert res)
487 res))
488 cycle)))
489 (mapconcat
490 (lambda (elems) (mapconcat 'identity elems "="))
491 (append names (list (car names)))
492 " < ")))
494 ;; (defun smie-check-grammar (grammar prec2 &optional dummy)
495 ;; (maphash (lambda (k v)
496 ;; (when (consp k)
497 ;; (let ((left (nth 2 (assoc (car k) grammar)))
498 ;; (right (nth 1 (assoc (cdr k) grammar))))
499 ;; (when (and left right)
500 ;; (cond
501 ;; ((< left right) (cl-assert (eq v '<)))
502 ;; ((> left right) (cl-assert (eq v '>)))
503 ;; (t (cl-assert (eq v '=))))))))
504 ;; prec2))
506 (put 'smie-prec2->grammar 'pure t)
507 (defun smie-prec2->grammar (prec2)
508 "Take a 2D precedence table and turn it into an alist of precedence levels.
509 PREC2 is a table as returned by `smie-precs->prec2' or
510 `smie-bnf->prec2'."
511 ;; For each operator, we create two "variables" (corresponding to
512 ;; the left and right precedence level), which are represented by
513 ;; cons cells. Those are the very cons cells that appear in the
514 ;; final `table'. The value of each "variable" is kept in the `car'.
515 (let ((table ())
516 (csts ())
517 (eqs ()))
518 ;; From `prec2' we construct a list of constraints between
519 ;; variables (aka "precedence levels"). These can be either
520 ;; equality constraints (in `eqs') or `<' constraints (in `csts').
521 (maphash (lambda (k v)
522 (when (consp k)
523 (let ((tmp (assoc (car k) table))
524 x y)
525 (if tmp
526 (setq x (cddr tmp))
527 (setq x (cons nil nil))
528 (push (cons (car k) (cons nil x)) table))
529 (if (setq tmp (assoc (cdr k) table))
530 (setq y (cdr tmp))
531 (setq y (cons nil (cons nil nil)))
532 (push (cons (cdr k) y) table))
533 (pcase v
534 (`= (push (cons x y) eqs))
535 (`< (push (cons x y) csts))
536 (`> (push (cons y x) csts))
537 (_ (error "SMIE error: prec2 has %S↦%S which ∉ {<,+,>}"
538 k v))))))
539 prec2)
540 ;; First process the equality constraints.
541 (let ((eqs eqs))
542 (while eqs
543 (let ((from (caar eqs))
544 (to (cdar eqs)))
545 (setq eqs (cdr eqs))
546 (if (eq to from)
547 nil ;Nothing to do.
548 (dolist (other-eq eqs)
549 (if (eq from (cdr other-eq)) (setcdr other-eq to))
550 (when (eq from (car other-eq))
551 ;; This can happen because of `assoc' settings in precs
552 ;; or because of a rhs like ("op" foo "op").
553 (setcar other-eq to)))
554 (dolist (cst csts)
555 (if (eq from (cdr cst)) (setcdr cst to))
556 (if (eq from (car cst)) (setcar cst to)))))))
557 ;; Then eliminate trivial constraints iteratively.
558 (let ((i 0))
559 (while csts
560 (let ((rhvs (mapcar 'cdr csts))
561 (progress nil))
562 (dolist (cst csts)
563 (unless (memq (car cst) rhvs)
564 (setq progress t)
565 ;; We could give each var in a given iteration the same value,
566 ;; but we can also give them arbitrarily different values.
567 ;; Basically, these are vars between which there is no
568 ;; constraint (neither equality nor inequality), so
569 ;; anything will do.
570 ;; We give them arbitrary values, which means that we
571 ;; replace the "no constraint" case with either > or <
572 ;; but not =. The reason we do that is so as to try and
573 ;; distinguish associative operators (which will have
574 ;; left = right).
575 (unless (caar cst)
576 (setcar (car cst) i)
577 ;; (smie-check-grammar table prec2 'step1)
578 (cl-incf i))
579 (setq csts (delq cst csts))))
580 (unless progress
581 (error "Can't resolve the precedence cycle: %s"
582 (smie-debug--describe-cycle
583 table (smie-debug--prec2-cycle csts)))))
584 (cl-incf i 10))
585 ;; Propagate equality constraints back to their sources.
586 (dolist (eq (nreverse eqs))
587 (when (null (cadr eq))
588 ;; There's an equality constraint, but we still haven't given
589 ;; it a value: that means it binds tighter than anything else,
590 ;; and it can't be an opener/closer (those don't have equality
591 ;; constraints).
592 ;; So set it here rather than below since doing it below
593 ;; makes it more difficult to obey the equality constraints.
594 (setcar (cdr eq) i)
595 (cl-incf i))
596 (cl-assert (or (null (caar eq)) (eq (caar eq) (cadr eq))))
597 (setcar (car eq) (cadr eq))
598 ;; (smie-check-grammar table prec2 'step2)
600 ;; Finally, fill in the remaining vars (which did not appear on the
601 ;; left side of any < constraint).
602 (dolist (x table)
603 (unless (nth 1 x)
604 (setf (nth 1 x) i)
605 (cl-incf i)) ;See other (cl-incf i) above.
606 (unless (nth 2 x)
607 (setf (nth 2 x) i)
608 (cl-incf i)))) ;See other (cl-incf i) above.
609 ;; Mark closers and openers.
610 (dolist (x (gethash :smie-open/close-alist prec2))
611 (let* ((token (car x))
612 (cons (pcase (cdr x)
613 (`closer (cddr (assoc token table)))
614 (`opener (cdr (assoc token table))))))
615 (cl-assert (numberp (car cons)))
616 (setf (car cons) (list (car cons)))))
617 (let ((ca (gethash :smie-closer-alist prec2)))
618 (when ca (push (cons :smie-closer-alist ca) table)))
619 ;; (smie-check-grammar table prec2 'step3)
620 table))
622 ;;; Parsing using a precedence level table.
624 (defvar smie-grammar 'unset
625 "List of token parsing info.
626 This list is normally built by `smie-prec2->grammar'.
627 Each element is of the form (TOKEN LEFT-LEVEL RIGHT-LEVEL).
628 Parsing is done using an operator precedence parser.
629 LEFT-LEVEL and RIGHT-LEVEL can be either numbers or a list, where a list
630 means that this operator does not bind on the corresponding side,
631 e.g. a LEFT-LEVEL of nil means this is a token that behaves somewhat like
632 an open-paren, whereas a RIGHT-LEVEL of nil would correspond to something
633 like a close-paren.")
635 (defvar smie-forward-token-function #'smie-default-forward-token
636 "Function to scan forward for the next token.
637 Called with no argument should return a token and move to its end.
638 If no token is found, return nil or the empty string.
639 It can return nil when bumping into a parenthesis, which lets SMIE
640 use syntax-tables to handle them in efficient C code.")
642 (defvar smie-backward-token-function #'smie-default-backward-token
643 "Function to scan backward the previous token.
644 Same calling convention as `smie-forward-token-function' except
645 it should move backward to the beginning of the previous token.")
647 (defalias 'smie-op-left 'car)
648 (defalias 'smie-op-right 'cadr)
650 (defun smie-default-backward-token ()
651 (forward-comment (- (point)))
652 (buffer-substring-no-properties
653 (point)
654 (progn (if (zerop (skip-syntax-backward "."))
655 (skip-syntax-backward "w_'"))
656 (point))))
658 (defun smie-default-forward-token ()
659 (forward-comment (point-max))
660 (buffer-substring-no-properties
661 (point)
662 (progn (if (zerop (skip-syntax-forward "."))
663 (skip-syntax-forward "w_'"))
664 (point))))
666 (defun smie--associative-p (toklevels)
667 ;; in "a + b + c" we want to stop at each +, but in
668 ;; "if a then b elsif c then d else c" we don't want to stop at each keyword.
669 ;; To distinguish the two cases, we made smie-prec2->grammar choose
670 ;; different levels for each part of "if a then b else c", so that
671 ;; by checking if the left-level is equal to the right level, we can
672 ;; figure out that it's an associative operator.
673 ;; This is not 100% foolproof, tho, since the "elsif" will have to have
674 ;; equal left and right levels (since it's optional), so smie-next-sexp
675 ;; has to be careful to distinguish those different cases.
676 (eq (smie-op-left toklevels) (smie-op-right toklevels)))
678 (defun smie-next-sexp (next-token next-sexp op-forw op-back halfsexp)
679 "Skip over one sexp.
680 NEXT-TOKEN is a function of no argument that moves forward by one
681 token (after skipping comments if needed) and returns it.
682 NEXT-SEXP is a lower-level function to skip one sexp.
683 OP-FORW is the accessor to the forward level of the level data.
684 OP-BACK is the accessor to the backward level of the level data.
685 HALFSEXP if non-nil, means skip over a partial sexp if needed. I.e. if the
686 first token we see is an operator, skip over its left-hand-side argument.
687 HALFSEXP can also be a token, in which case it means to parse as if
688 we had just successfully passed this token.
689 Possible return values:
690 (FORW-LEVEL POS TOKEN): we couldn't skip TOKEN because its back-level
691 is too high. FORW-LEVEL is the forw-level of TOKEN,
692 POS is its start position in the buffer.
693 (t POS TOKEN): same thing when we bump on the wrong side of a paren.
694 Instead of t, the `car' can also be some other non-nil non-number value.
695 (nil POS TOKEN): we skipped over a paren-like pair.
696 nil: we skipped over an identifier, matched parentheses, ..."
697 (catch 'return
698 (let ((levels
699 (if (stringp halfsexp)
700 (prog1 (list (cdr (assoc halfsexp smie-grammar)))
701 (setq halfsexp nil)))))
702 (while
703 (let* ((pos (point))
704 (token (funcall next-token))
705 (toklevels (cdr (assoc token smie-grammar))))
706 (cond
707 ((null toklevels)
708 (when (zerop (length token))
709 (condition-case err
710 (progn (funcall next-sexp 1) nil)
711 (scan-error
712 (let* ((epos1 (nth 2 err))
713 (epos (if (<= (point) epos1) (nth 3 err) epos1)))
714 (goto-char pos)
715 (throw 'return
716 (list t epos
717 (buffer-substring-no-properties
718 epos
719 (+ epos (if (< (point) epos) -1 1))))))))
720 (if (eq pos (point))
721 ;; We did not move, so let's abort the loop.
722 (throw 'return (list t (point))))))
723 ((not (numberp (funcall op-back toklevels)))
724 ;; A token like a paren-close.
725 (cl-assert (numberp ; Otherwise, why mention it in smie-grammar.
726 (funcall op-forw toklevels)))
727 (push toklevels levels))
729 (while (and levels (< (funcall op-back toklevels)
730 (funcall op-forw (car levels))))
731 (setq levels (cdr levels)))
732 (cond
733 ((null levels)
734 (if (and halfsexp (numberp (funcall op-forw toklevels)))
735 (push toklevels levels)
736 (throw 'return
737 (prog1 (list (or (funcall op-forw toklevels) t)
738 (point) token)
739 (goto-char pos)))))
741 (let ((lastlevels levels))
742 (if (and levels (= (funcall op-back toklevels)
743 (funcall op-forw (car levels))))
744 (setq levels (cdr levels)))
745 ;; We may have found a match for the previously pending
746 ;; operator. Is this the end?
747 (cond
748 ;; Keep looking as long as we haven't matched the
749 ;; topmost operator.
750 (levels
751 (cond
752 ((numberp (funcall op-forw toklevels))
753 (push toklevels levels))
754 ;; FIXME: For some languages, we can express the grammar
755 ;; OK, but next-sexp doesn't stop where we'd want it to.
756 ;; E.g. in SML, we'd want to stop right in front of
757 ;; "local" if we're scanning (both forward and backward)
758 ;; from a "val/fun/..." at the same level.
759 ;; Same for Pascal/Modula2's "procedure" w.r.t
760 ;; "type/var/const".
762 ;; ((and (functionp (cadr (funcall op-forw toklevels)))
763 ;; (funcall (cadr (funcall op-forw toklevels))
764 ;; levels))
765 ;; (setq levels nil))
767 ;; We matched the topmost operator. If the new operator
768 ;; is the last in the corresponding BNF rule, we're done.
769 ((not (numberp (funcall op-forw toklevels)))
770 ;; It is the last element, let's stop here.
771 (throw 'return (list nil (point) token)))
772 ;; If the new operator is not the last in the BNF rule,
773 ;; and is not associative, it's one of the inner operators
774 ;; (like the "in" in "let .. in .. end"), so keep looking.
775 ((not (smie--associative-p toklevels))
776 (push toklevels levels))
777 ;; The new operator is associative. Two cases:
778 ;; - it's really just an associative operator (like + or ;)
779 ;; in which case we should have stopped right before.
780 ((and lastlevels
781 (smie--associative-p (car lastlevels)))
782 (throw 'return
783 (prog1 (list (or (funcall op-forw toklevels) t)
784 (point) token)
785 (goto-char pos))))
786 ;; - it's an associative operator within a larger construct
787 ;; (e.g. an "elsif"), so we should just ignore it and keep
788 ;; looking for the closing element.
789 (t (setq levels lastlevels))))))))
790 levels)
791 (setq halfsexp nil)))))
793 (defun smie-backward-sexp (&optional halfsexp)
794 "Skip over one sexp.
795 HALFSEXP if non-nil, means skip over a partial sexp if needed. I.e. if the
796 first token we see is an operator, skip over its left-hand-side argument.
797 HALFSEXP can also be a token, in which case we should skip the text
798 assuming it is the left-hand-side argument of that token.
799 Possible return values:
800 (LEFT-LEVEL POS TOKEN): we couldn't skip TOKEN because its right-level
801 is too high. LEFT-LEVEL is the left-level of TOKEN,
802 POS is its start position in the buffer.
803 (t POS TOKEN): same thing but for an open-paren or the beginning of buffer.
804 Instead of t, the `car' can also be some other non-nil non-number value.
805 (nil POS TOKEN): we skipped over a paren-like pair.
806 nil: we skipped over an identifier, matched parentheses, ..."
807 (smie-next-sexp
808 (indirect-function smie-backward-token-function)
809 (indirect-function #'backward-sexp)
810 (indirect-function #'smie-op-left)
811 (indirect-function #'smie-op-right)
812 halfsexp))
814 (defun smie-forward-sexp (&optional halfsexp)
815 "Skip over one sexp.
816 HALFSEXP if non-nil, means skip over a partial sexp if needed. I.e. if the
817 first token we see is an operator, skip over its right-hand-side argument.
818 HALFSEXP can also be a token, in which case we should skip the text
819 assuming it is the right-hand-side argument of that token.
820 Possible return values:
821 (RIGHT-LEVEL POS TOKEN): we couldn't skip TOKEN because its left-level
822 is too high. RIGHT-LEVEL is the right-level of TOKEN,
823 POS is its end position in the buffer.
824 (t POS TOKEN): same thing but for a close-paren or the end of buffer.
825 Instead of t, the `car' can also be some other non-nil non-number value.
826 (nil POS TOKEN): we skipped over a paren-like pair.
827 nil: we skipped over an identifier, matched parentheses, ..."
828 (smie-next-sexp
829 (indirect-function smie-forward-token-function)
830 (indirect-function #'forward-sexp)
831 (indirect-function #'smie-op-right)
832 (indirect-function #'smie-op-left)
833 halfsexp))
835 ;;; Miscellaneous commands using the precedence parser.
837 (defun smie-backward-sexp-command (&optional n)
838 "Move backward through N logical elements."
839 (interactive "^p")
840 (smie-forward-sexp-command (- n)))
842 (defun smie-forward-sexp-command (&optional n)
843 "Move forward through N logical elements."
844 (interactive "^p")
845 (let ((forw (> n 0))
846 (forward-sexp-function nil))
847 (while (/= n 0)
848 (setq n (- n (if forw 1 -1)))
849 (let ((pos (point))
850 (res (if forw
851 (smie-forward-sexp 'halfsexp)
852 (smie-backward-sexp 'halfsexp))))
853 (if (and (car res) (= pos (point)) (not (if forw (eobp) (bobp))))
854 (signal 'scan-error
855 (list "Containing expression ends prematurely"
856 (cadr res) (cadr res)))
857 nil)))))
859 (defvar smie-closer-alist nil
860 "Alist giving the closer corresponding to an opener.")
862 (defun smie-close-block ()
863 "Close the closest surrounding block."
864 (interactive)
865 (let ((closer
866 (save-excursion
867 (backward-up-list 1)
868 (if (looking-at "\\s(")
869 (string (cdr (syntax-after (point))))
870 (let* ((open (funcall smie-forward-token-function))
871 (closer (cdr (assoc open smie-closer-alist)))
872 (levels (list (assoc open smie-grammar)))
873 (seen '())
874 (found '()))
875 (cond
876 ;; Even if we improve the auto-computation of closers,
877 ;; there are still cases where we need manual
878 ;; intervention, e.g. for Octave's use of `until'
879 ;; as a pseudo-closer of `do'.
880 (closer)
881 ((or (equal levels '(nil)) (numberp (nth 1 (car levels))))
882 (error "Doesn't look like a block"))
884 ;; Now that smie-setup automatically sets smie-closer-alist
885 ;; from the BNF, this is not really needed any more.
886 (while levels
887 (let ((level (pop levels)))
888 (dolist (other smie-grammar)
889 (when (and (eq (nth 2 level) (nth 1 other))
890 (not (memq other seen)))
891 (push other seen)
892 (if (numberp (nth 2 other))
893 (push other levels)
894 (push (car other) found))))))
895 (cond
896 ((null found) (error "No known closer for opener %s" open))
897 ;; What should we do if there are various closers?
898 (t (car found))))))))))
899 (unless (save-excursion (skip-chars-backward " \t") (bolp))
900 (newline))
901 (insert closer)
902 (if (save-excursion (skip-chars-forward " \t") (eolp))
903 (indent-according-to-mode)
904 (reindent-then-newline-and-indent))))
906 (defun smie-down-list (&optional arg)
907 "Move forward down one level paren-like blocks. Like `down-list'.
908 With argument ARG, do this that many times.
909 A negative argument means move backward but still go down a level.
910 This command assumes point is not in a string or comment."
911 (interactive "p")
912 (let ((start (point))
913 (inc (if (< arg 0) -1 1))
914 (offset (if (< arg 0) 1 0))
915 (next-token (if (< arg 0)
916 smie-backward-token-function
917 smie-forward-token-function)))
918 (while (/= arg 0)
919 (setq arg (- arg inc))
920 (while
921 (let* ((pos (point))
922 (token (funcall next-token))
923 (levels (assoc token smie-grammar)))
924 (cond
925 ((zerop (length token))
926 (if (if (< inc 0) (looking-back "\\s(\\|\\s)" (1- (point)))
927 (looking-at "\\s(\\|\\s)"))
928 ;; Go back to `start' in case of an error. This presumes
929 ;; none of the token we've found until now include a ( or ).
930 (progn (goto-char start) (down-list inc) nil)
931 (forward-sexp inc)
932 (/= (point) pos)))
933 ((and levels (not (numberp (nth (+ 1 offset) levels)))) nil)
934 ((and levels (not (numberp (nth (- 2 offset) levels))))
935 (let ((end (point)))
936 (goto-char start)
937 (signal 'scan-error
938 (list "Containing expression ends prematurely"
939 pos end))))
940 (t)))))))
942 (defvar smie-blink-matching-triggers '(?\s ?\n)
943 "Chars which might trigger `blink-matching-open'.
944 These can include the final chars of end-tokens, or chars that are
945 typically inserted right after an end token.
946 I.e. a good choice can be:
947 (delete-dups
948 (mapcar (lambda (kw) (aref (cdr kw) (1- (length (cdr kw)))))
949 smie-closer-alist))")
951 (defcustom smie-blink-matching-inners t
952 "Whether SMIE should blink to matching opener for inner keywords.
953 If non-nil, it will blink not only for \"begin..end\" but also for \"if...else\"."
954 :type 'boolean
955 :group 'smie)
957 (defun smie-blink-matching-check (start end)
958 (save-excursion
959 (goto-char end)
960 (let ((ender (funcall smie-backward-token-function)))
961 (cond
962 ((not (and ender (rassoc ender smie-closer-alist)))
963 ;; This is not one of the begin..end we know how to check.
964 (blink-matching-check-mismatch start end))
965 ((not start) t)
966 ((eq t (car (rassoc ender smie-closer-alist))) nil)
968 (goto-char start)
969 (let ((starter (funcall smie-forward-token-function)))
970 (not (member (cons starter ender) smie-closer-alist))))))))
972 (defun smie-blink-matching-open ()
973 "Blink the matching opener when applicable.
974 This uses SMIE's tables and is expected to be placed on `post-self-insert-hook'."
975 (let ((pos (point)) ;Position after the close token.
976 token)
977 (when (and blink-matching-paren
978 smie-closer-alist ; Optimization.
979 (or (eq (char-before) last-command-event) ;; Sanity check.
980 (save-excursion
981 (or (progn (skip-chars-backward " \t")
982 (setq pos (point))
983 (eq (char-before) last-command-event))
984 (progn (skip-chars-backward " \n\t")
985 (setq pos (point))
986 (eq (char-before) last-command-event)))))
987 (memq last-command-event smie-blink-matching-triggers)
988 (not (nth 8 (syntax-ppss))))
989 (save-excursion
990 (setq token (funcall smie-backward-token-function))
991 (when (and (eq (point) (1- pos))
992 (= 1 (length token))
993 (not (rassoc token smie-closer-alist)))
994 ;; The trigger char is itself a token but is not one of the
995 ;; closers (e.g. ?\; in Octave mode), so go back to the
996 ;; previous token.
997 (setq pos (point))
998 (setq token (funcall smie-backward-token-function)))
999 (when (rassoc token smie-closer-alist)
1000 ;; We're after a close token. Let's still make sure we
1001 ;; didn't skip a comment to find that token.
1002 (funcall smie-forward-token-function)
1003 (when (and (save-excursion
1004 ;; Skip the trigger char, if applicable.
1005 (if (eq (char-after) last-command-event)
1006 (forward-char 1))
1007 (if (eq ?\n last-command-event)
1008 ;; Skip any auto-indentation, if applicable.
1009 (skip-chars-forward " \t"))
1010 (>= (point) pos))
1011 ;; If token ends with a trigger char, don't blink for
1012 ;; anything else than this trigger char, lest we'd blink
1013 ;; both when inserting the trigger char and when
1014 ;; inserting a subsequent trigger char like SPC.
1015 (or (eq (char-before) last-command-event)
1016 (not (memq (char-before)
1017 smie-blink-matching-triggers)))
1018 ;; FIXME: For octave's "switch ... case ... case" we flash
1019 ;; `switch' at the end of the first `case' and we burp
1020 ;; "mismatch" at the end of the second `case'.
1021 (or smie-blink-matching-inners
1022 (not (numberp (nth 2 (assoc token smie-grammar))))))
1023 ;; The major mode might set blink-matching-check-function
1024 ;; buffer-locally so that interactive calls to
1025 ;; blink-matching-open work right, but let's not presume
1026 ;; that's the case.
1027 (let ((blink-matching-check-function #'smie-blink-matching-check))
1028 (blink-matching-open))))))))
1030 (defvar-local smie--matching-block-data-cache nil)
1032 (defun smie--opener/closer-at-point ()
1033 "Return (OPENER TOKEN START END) or nil.
1034 OPENER is non-nil if TOKEN is an opener and nil if it's a closer."
1035 (let* ((start (point))
1036 ;; Move to a previous position outside of a token.
1037 (_ (funcall smie-backward-token-function))
1038 ;; Move to the end of the token before point.
1039 (btok (funcall smie-forward-token-function))
1040 (bend (point)))
1041 (cond
1042 ;; Token before point is a closer?
1043 ((and (>= bend start) (rassoc btok smie-closer-alist))
1044 (funcall smie-backward-token-function)
1045 (when (< (point) start)
1046 (prog1 (list nil btok (point) bend)
1047 (goto-char bend))))
1048 ;; Token around point is an opener?
1049 ((and (> bend start) (assoc btok smie-closer-alist))
1050 (funcall smie-backward-token-function)
1051 (when (<= (point) start) (list t btok (point) bend)))
1052 ((<= bend start)
1053 (let ((atok (funcall smie-forward-token-function))
1054 (aend (point)))
1055 (cond
1056 ((< aend start) nil) ;Hopefully shouldn't happen.
1057 ;; Token after point is a closer?
1058 ((assoc atok smie-closer-alist)
1059 (funcall smie-backward-token-function)
1060 (when (<= (point) start)
1061 (list t atok (point) aend)))))))))
1063 (defun smie--matching-block-data (orig &rest args)
1064 "A function suitable for `show-paren-data-function' (which see)."
1065 (if (or (null smie-closer-alist)
1066 (equal (cons (point) (buffer-chars-modified-tick))
1067 (car smie--matching-block-data-cache)))
1068 (or (cdr smie--matching-block-data-cache)
1069 (apply orig args))
1070 (setq smie--matching-block-data-cache
1071 (list (cons (point) (buffer-chars-modified-tick))))
1072 (unless (nth 8 (syntax-ppss))
1073 (condition-case nil
1074 (let ((here (smie--opener/closer-at-point)))
1075 (when (and here
1076 (or smie-blink-matching-inners
1077 (not (numberp
1078 (nth (if (nth 0 here) 1 2)
1079 (assoc (nth 1 here) smie-grammar))))))
1080 (let ((there
1081 (cond
1082 ((car here) ; Opener.
1083 (let ((data (smie-forward-sexp 'halfsexp))
1084 (tend (point)))
1085 (unless (car data)
1086 (funcall smie-backward-token-function)
1087 (list (member (cons (nth 1 here) (nth 2 data))
1088 smie-closer-alist)
1089 (point) tend))))
1090 (t ;Closer.
1091 (let ((data (smie-backward-sexp 'halfsexp))
1092 (htok (nth 1 here)))
1093 (if (car data)
1094 (let* ((hprec (nth 2 (assoc htok smie-grammar)))
1095 (ttok (nth 2 data))
1096 (tprec (nth 1 (assoc ttok smie-grammar))))
1097 (when (and (numberp hprec) ;Here is an inner.
1098 (eq hprec tprec))
1099 (goto-char (nth 1 data))
1100 (let ((tbeg (point)))
1101 (funcall smie-forward-token-function)
1102 (list t tbeg (point)))))
1103 (let ((tbeg (point)))
1104 (funcall smie-forward-token-function)
1105 (list (member (cons (nth 2 data) htok)
1106 smie-closer-alist)
1107 tbeg (point)))))))))
1108 ;; Update the cache.
1109 (setcdr smie--matching-block-data-cache
1110 (list (nth 2 here) (nth 3 here)
1111 (nth 1 there) (nth 2 there)
1112 (not (nth 0 there)))))))
1113 (scan-error nil))
1114 (goto-char (caar smie--matching-block-data-cache)))
1115 (apply #'smie--matching-block-data orig args)))
1117 ;;; The indentation engine.
1119 (defcustom smie-indent-basic 4
1120 "Basic amount of indentation."
1121 :type 'integer
1122 :group 'smie)
1124 (defvar smie-rules-function #'ignore
1125 "Function providing the indentation rules.
1126 It takes two arguments METHOD and ARG where the meaning of ARG
1127 and the expected return value depends on METHOD.
1128 METHOD can be:
1129 - :after, in which case ARG is a token and the function should return the
1130 OFFSET to use for indentation after ARG.
1131 - :before, in which case ARG is a token and the function should return the
1132 OFFSET to use to indent ARG itself.
1133 - :elem, in which case the function should return either:
1134 - the offset to use to indent function arguments (ARG = `arg')
1135 - the basic indentation step (ARG = `basic').
1136 - :list-intro, in which case ARG is a token and the function should return
1137 non-nil if TOKEN is followed by a list of expressions (not separated by any
1138 token) rather than an expression.
1139 - :close-all, in which case ARG is a close-paren token at indentation and
1140 the function should return non-nil if it should be aligned with the opener
1141 of the last close-paren token on the same line, if there are multiple.
1142 Otherwise, it will be aligned with its own opener.
1144 When ARG is a token, the function is called with point just before that token.
1145 A return value of nil always means to fallback on the default behavior, so the
1146 function should return nil for arguments it does not expect.
1148 OFFSET can be:
1149 nil use the default indentation rule.
1150 \(column . COLUMN) indent to column COLUMN.
1151 NUMBER offset by NUMBER, relative to a base token
1152 which is the current token for :after and
1153 its parent for :before.
1155 The functions whose name starts with \"smie-rule-\" are helper functions
1156 designed specifically for use in this function.")
1158 (defvar smie--hanging-eolp-function
1159 ;; FIXME: This is a quick hack for 24.4. Don't document it and replace with
1160 ;; a well-defined function with a cleaner interface instead!
1161 (lambda ()
1162 (skip-chars-forward " \t")
1163 (or (eolp)
1164 (and ;; (looking-at comment-start-skip) ;(bug#16041).
1165 (forward-comment (point-max))))))
1167 (defalias 'smie-rule-hanging-p 'smie-indent--hanging-p)
1168 (defun smie-indent--hanging-p ()
1169 "Return non-nil if the current token is \"hanging\".
1170 A hanging keyword is one that's at the end of a line except it's not at
1171 the beginning of a line."
1172 (and (not (smie-indent--bolp))
1173 (save-excursion
1174 (<= (line-end-position)
1175 (progn
1176 (and (zerop (length (funcall smie-forward-token-function)))
1177 (not (eobp))
1178 ;; Could be an open-paren.
1179 (forward-char 1))
1180 (funcall smie--hanging-eolp-function)
1181 (point))))))
1183 (defalias 'smie-rule-bolp 'smie-indent--bolp)
1184 (defun smie-indent--bolp ()
1185 "Return non-nil if the current token is the first on the line."
1186 (save-excursion (skip-chars-backward " \t") (bolp)))
1188 (defun smie-indent--bolp-1 ()
1189 ;; Like smie-indent--bolp but also returns non-nil if it's the first
1190 ;; non-comment token. Maybe we should simply always use this?
1191 "Return non-nil if the current token is the first on the line.
1192 Comments are treated as spaces."
1193 (let ((bol (line-beginning-position)))
1194 (save-excursion
1195 (forward-comment (- (point)))
1196 (<= (point) bol))))
1198 ;; Dynamically scoped.
1199 (defvar smie--parent) (defvar smie--after) (defvar smie--token)
1201 (defun smie-indent--parent ()
1202 (or smie--parent
1203 (save-excursion
1204 (let* ((pos (point))
1205 (tok (funcall smie-forward-token-function)))
1206 (unless (numberp (cadr (assoc tok smie-grammar)))
1207 (goto-char pos))
1208 (setq smie--parent
1209 (or (smie-backward-sexp 'halfsexp)
1210 (let (res)
1211 (while (null (setq res (smie-backward-sexp))))
1212 (list nil (point) (nth 2 res)))))))))
1214 (defun smie-rule-parent-p (&rest parents)
1215 "Return non-nil if the current token's parent is among PARENTS.
1216 Only meaningful when called from within `smie-rules-function'."
1217 (member (nth 2 (smie-indent--parent)) parents))
1219 (defun smie-rule-next-p (&rest tokens)
1220 "Return non-nil if the next token is among TOKENS.
1221 Only meaningful when called from within `smie-rules-function'."
1222 (let ((next
1223 (save-excursion
1224 (unless smie--after
1225 (smie-indent-forward-token) (setq smie--after (point)))
1226 (goto-char smie--after)
1227 (smie-indent-forward-token))))
1228 (member (car next) tokens)))
1230 (defun smie-rule-prev-p (&rest tokens)
1231 "Return non-nil if the previous token is among TOKENS."
1232 (let ((prev (save-excursion
1233 (smie-indent-backward-token))))
1234 (member (car prev) tokens)))
1236 (defun smie-rule-sibling-p ()
1237 "Return non-nil if the parent is actually a sibling.
1238 Only meaningful when called from within `smie-rules-function'."
1239 (eq (car (smie-indent--parent))
1240 (cadr (assoc smie--token smie-grammar))))
1242 (defun smie-rule-parent (&optional offset)
1243 "Align with parent.
1244 If non-nil, OFFSET should be an integer giving an additional offset to apply.
1245 Only meaningful when called from within `smie-rules-function'."
1246 (save-excursion
1247 (goto-char (cadr (smie-indent--parent)))
1248 (cons 'column
1249 (+ (or offset 0)
1250 (smie-indent-virtual)))))
1252 (defvar smie-rule-separator-outdent 2)
1254 (defun smie-indent--separator-outdent ()
1255 ;; FIXME: Here we actually have several reasonable behaviors.
1256 ;; E.g. for a parent token of "FOO" and a separator ";" we may want to:
1257 ;; 1- left-align ; with FOO.
1258 ;; 2- right-align ; with FOO.
1259 ;; 3- align content after ; with content after FOO.
1260 ;; 4- align content plus add/remove spaces so as to align ; with FOO.
1261 ;; Currently, we try to align the contents (option 3) which actually behaves
1262 ;; just like option 2 (if the number of spaces after FOO and ; is equal).
1263 (let ((afterpos (save-excursion
1264 (let ((tok (funcall smie-forward-token-function)))
1265 (unless tok
1266 (with-demoted-errors
1267 (error "smie-rule-separator: can't skip token %s"
1268 smie--token))))
1269 (skip-chars-forward " ")
1270 (unless (eolp) (point)))))
1271 (or (and afterpos
1272 ;; This should always be true, unless
1273 ;; smie-forward-token-function skipped a \n.
1274 (< afterpos (line-end-position))
1275 (- afterpos (point)))
1276 smie-rule-separator-outdent)))
1278 (defun smie-rule-separator (method)
1279 "Indent current token as a \"separator\".
1280 By \"separator\", we mean here a token whose sole purpose is to separate
1281 various elements within some enclosing syntactic construct, and which does
1282 not have any semantic significance in itself (i.e. it would typically no exist
1283 as a node in an abstract syntax tree).
1284 Such a token is expected to have an associative syntax and be closely tied
1285 to its syntactic parent. Typical examples are \",\" in lists of arguments
1286 \(enclosed inside parentheses), or \";\" in sequences of instructions (enclosed
1287 in a {..} or begin..end block).
1288 METHOD should be the method name that was passed to `smie-rules-function'.
1289 Only meaningful when called from within `smie-rules-function'."
1290 ;; FIXME: The code below works OK for cases where the separators
1291 ;; are placed consistently always at beginning or always at the end,
1292 ;; but not if some are at the beginning and others are at the end.
1293 ;; I.e. it gets confused in cases such as:
1294 ;; ( a
1295 ;; , a,
1296 ;; b
1297 ;; , c,
1298 ;; d
1299 ;; )
1301 ;; Assuming token is associative, the default rule for associative
1302 ;; tokens (which assumes an infix operator) works fine for many cases.
1303 ;; We mostly need to take care of the case where token is at beginning of
1304 ;; line, in which case we want to align it with its enclosing parent.
1305 (cond
1306 ((and (eq method :before) (smie-rule-bolp) (not (smie-rule-sibling-p)))
1307 (let ((parent-col (cdr (smie-rule-parent)))
1308 (parent-pos-col ;FIXME: we knew this when computing smie--parent.
1309 (save-excursion
1310 (goto-char (cadr smie--parent))
1311 (smie-indent-forward-token)
1312 (forward-comment (point-max))
1313 (current-column))))
1314 (cons 'column
1315 (max parent-col
1316 (min parent-pos-col
1317 (- parent-pos-col (smie-indent--separator-outdent)))))))
1318 ((and (eq method :after) (smie-indent--bolp))
1319 (smie-indent--separator-outdent))))
1321 (defun smie-indent--offset (elem)
1322 (or (funcall smie-rules-function :elem elem)
1323 (if (not (eq elem 'basic))
1324 (funcall smie-rules-function :elem 'basic))
1325 smie-indent-basic))
1327 (defun smie-indent--rule (method token
1328 ;; FIXME: Too many parameters.
1329 &optional after parent base-pos)
1330 "Compute indentation column according to `smie-rules-function'.
1331 METHOD and TOKEN are passed to `smie-rules-function'.
1332 AFTER is the position after TOKEN, if known.
1333 PARENT is the parent info returned by `smie-backward-sexp', if known.
1334 BASE-POS is the position relative to which offsets should be applied."
1335 ;; This is currently called in 3 cases:
1336 ;; - :before opener, where rest=nil but base-pos could as well be parent.
1337 ;; - :before other, where
1338 ;; ; after=nil
1339 ;; ; parent is set
1340 ;; ; base-pos=parent
1341 ;; - :after tok, where
1342 ;; ; after is set; parent=nil; base-pos=point;
1343 (save-excursion
1344 (let ((offset (smie-indent--rule-1 method token after parent)))
1345 (cond
1346 ((not offset) nil)
1347 ((eq (car-safe offset) 'column) (cdr offset))
1348 ((integerp offset)
1349 (+ offset
1350 (if (null base-pos) 0
1351 (goto-char base-pos)
1352 ;; Use smie-indent-virtual when indenting relative to an opener:
1353 ;; this will also by default use current-column unless
1354 ;; that opener is hanging, but will additionally consult
1355 ;; rules-function, so it gives it a chance to tweak indentation
1356 ;; (e.g. by forcing indentation relative to its own parent, as in
1357 ;; fn a => fn b => fn c =>).
1358 ;; When parent==nil it doesn't matter because the only case
1359 ;; where it's really used is when the base-pos is hanging anyway.
1360 (if (or (and parent (null (car parent)))
1361 (smie-indent--hanging-p))
1362 (smie-indent-virtual) (current-column)))))
1363 (t (error "Unknown indentation offset %s" offset))))))
1365 (defun smie-indent--rule-1 (method token &optional after parent)
1366 (let ((smie--parent parent)
1367 (smie--token token)
1368 (smie--after after))
1369 (funcall smie-rules-function method token)))
1371 (defun smie-indent-forward-token ()
1372 "Skip token forward and return it, along with its levels."
1373 (let ((tok (funcall smie-forward-token-function)))
1374 (cond
1375 ((< 0 (length tok)) (assoc tok smie-grammar))
1376 ((looking-at "\\s(\\|\\s)\\(\\)")
1377 (forward-char 1)
1378 (cons (buffer-substring-no-properties (1- (point)) (point))
1379 (if (match-end 1) '(0 nil) '(nil 0))))
1380 ((looking-at "\\s\"\\|\\s|")
1381 (forward-sexp 1)
1382 nil)
1383 ((eobp) nil)
1384 (t (error "Bumped into unknown token")))))
1386 (defun smie-indent-backward-token ()
1387 "Skip token backward and return it, along with its levels."
1388 (let ((tok (funcall smie-backward-token-function))
1389 class)
1390 (cond
1391 ((< 0 (length tok)) (assoc tok smie-grammar))
1392 ;; 4 == open paren syntax, 5 == close.
1393 ((memq (setq class (syntax-class (syntax-after (1- (point))))) '(4 5))
1394 (forward-char -1)
1395 (cons (buffer-substring-no-properties (point) (1+ (point)))
1396 (if (eq class 4) '(nil 0) '(0 nil))))
1397 ((memq class '(7 15))
1398 (backward-sexp 1)
1399 nil)
1400 ((bobp) nil)
1401 (t (error "Bumped into unknown token")))))
1403 (defun smie-indent-virtual ()
1404 ;; We used to take an optional arg (with value :not-hanging) to specify that
1405 ;; we should only use (smie-indent-calculate) if we're looking at a hanging
1406 ;; keyword. This was a bad idea, because the virtual indent of a position
1407 ;; should not depend on the caller, since it leads to situations where two
1408 ;; dependent indentations get indented differently.
1409 "Compute the virtual indentation to use for point.
1410 This is used when we're not trying to indent point but just
1411 need to compute the column at which point should be indented
1412 in order to figure out the indentation of some other (further down) point."
1413 ;; Trust pre-existing indentation on other lines.
1414 (if (smie-indent--bolp) (current-column) (smie-indent-calculate)))
1416 (defun smie-indent-fixindent ()
1417 ;; Obey the `fixindent' special comment.
1418 (and (smie-indent--bolp)
1419 (save-excursion
1420 (comment-normalize-vars)
1421 (re-search-forward (concat comment-start-skip
1422 "fixindent"
1423 comment-end-skip)
1424 ;; 1+ to account for the \n comment termination.
1425 (1+ (line-end-position)) t))
1426 (current-column)))
1428 (defun smie-indent-bob ()
1429 ;; Start the file at column 0.
1430 (save-excursion
1431 (forward-comment (- (point)))
1432 (if (bobp) 0)))
1434 (defun smie-indent-close ()
1435 ;; Align close paren with opening paren.
1436 (save-excursion
1437 ;; (forward-comment (point-max))
1438 (when (looking-at "\\s)")
1439 (if (smie-indent--rule-1 :close-all
1440 (buffer-substring-no-properties
1441 (point) (1+ (point)))
1442 (1+ (point)))
1443 (while (not (zerop (skip-syntax-forward ")")))
1444 (skip-chars-forward " \t"))
1445 (forward-char 1))
1446 (condition-case nil
1447 (progn
1448 (backward-sexp 1)
1449 (smie-indent-virtual)) ;:not-hanging
1450 (scan-error nil)))))
1452 (defun smie-indent-keyword (&optional token)
1453 "Indent point based on the token that follows it immediately.
1454 If TOKEN is non-nil, assume that that is the token that follows point.
1455 Returns either a column number or nil if it considers that indentation
1456 should not be computed on the basis of the following token."
1457 (save-excursion
1458 (let* ((pos (point))
1459 (toklevels
1460 (if token
1461 (assoc token smie-grammar)
1462 (let* ((res (smie-indent-forward-token)))
1463 ;; Ignore tokens on subsequent lines.
1464 (if (and (< pos (line-beginning-position))
1465 ;; Make sure `token' also *starts* on another line.
1466 (save-excursion
1467 (let ((endpos (point)))
1468 (goto-char pos)
1469 (forward-line 1)
1470 (and (equal res (smie-indent-forward-token))
1471 (eq (point) endpos)))))
1473 (goto-char pos)
1474 res)))))
1475 (setq token (pop toklevels))
1476 (cond
1477 ((null (cdr toklevels)) nil) ;Not a keyword.
1478 ((not (numberp (car toklevels)))
1479 ;; Different cases:
1480 ;; - smie-indent--bolp: "indent according to others".
1481 ;; - common hanging: "indent according to others".
1482 ;; - SML-let hanging: "indent like parent".
1483 ;; - if-after-else: "indent-like parent".
1484 ;; - middle-of-line: "trust current position".
1485 (cond
1486 ((smie-indent--rule :before token))
1487 ((smie-indent--bolp-1) ;I.e. non-virtual indent.
1488 ;; For an open-paren-like thingy at BOL, always indent only
1489 ;; based on other rules (typically smie-indent-after-keyword).
1490 ;; FIXME: we do the same if after a comment, since we may be trying
1491 ;; to compute the indentation of this comment and we shouldn't indent
1492 ;; based on the indentation of subsequent code.
1493 nil)
1495 ;; By default use point unless we're hanging.
1496 (unless (smie-indent--hanging-p) (current-column)))))
1498 ;; FIXME: This still looks too much like black magic!!
1499 (let* ((parent (smie-backward-sexp token)))
1500 ;; Different behaviors:
1501 ;; - align with parent.
1502 ;; - parent + offset.
1503 ;; - after parent's column + offset (actually, after or before
1504 ;; depending on where backward-sexp stopped).
1505 ;; ? let it drop to some other indentation function (almost never).
1506 ;; ? parent + offset + parent's own offset.
1507 ;; Different cases:
1508 ;; - bump into a same-level operator.
1509 ;; - bump into a specific known parent.
1510 ;; - find a matching open-paren thingy.
1511 ;; - bump into some random parent.
1512 ;; ? borderline case (almost never).
1513 ;; ? bump immediately into a parent.
1514 (cond
1515 ((not (or (< (point) pos)
1516 (and (cadr parent) (< (cadr parent) pos))))
1517 ;; If we didn't move at all, that means we didn't really skip
1518 ;; what we wanted. Should almost never happen, other than
1519 ;; maybe when an infix or close-paren is at the beginning
1520 ;; of a buffer.
1521 nil)
1522 ((save-excursion
1523 (goto-char pos)
1524 (smie-indent--rule :before token nil parent (cadr parent))))
1525 ((eq (car parent) (car toklevels))
1526 ;; We bumped into a same-level operator; align with it.
1527 (if (and (smie-indent--bolp) (/= (point) pos)
1528 (save-excursion
1529 (goto-char (goto-char (cadr parent)))
1530 (not (smie-indent--bolp))))
1531 ;; If the parent is at EOL and its children are indented like
1532 ;; itself, then we can just obey the indentation chosen for the
1533 ;; child.
1534 ;; This is important for operators like ";" which
1535 ;; are usually at EOL (and have an offset of 0): otherwise we'd
1536 ;; always go back over all the statements, which is
1537 ;; a performance problem and would also mean that fixindents
1538 ;; in the middle of such a sequence would be ignored.
1540 ;; This is a delicate point!
1541 ;; Even if the offset is not 0, we could follow the same logic
1542 ;; and subtract the offset from the child's indentation.
1543 ;; But that would more often be a bad idea: OT1H we generally
1544 ;; want to reuse the closest similar indentation point, so that
1545 ;; the user's choice (or the fixindents) are obeyed. But OTOH
1546 ;; we don't want this to affect "unrelated" parts of the code.
1547 ;; E.g. a fixindent in the body of a "begin..end" should not
1548 ;; affect the indentation of the "end".
1549 (current-column)
1550 (goto-char (cadr parent))
1551 ;; Don't use (smie-indent-virtual :not-hanging) here, because we
1552 ;; want to jump back over a sequence of same-level ops such as
1553 ;; a -> b -> c
1554 ;; -> d
1555 ;; So as to align with the earliest appropriate place.
1556 (smie-indent-virtual)))
1558 (if (and (= (point) pos) (smie-indent--bolp))
1559 ;; Since we started at BOL, we're not computing a virtual
1560 ;; indentation, and we're still at the starting point, so
1561 ;; we can't use `current-column' which would cause
1562 ;; indentation to depend on itself and we can't use
1563 ;; smie-indent-virtual since that would be an inf-loop.
1565 ;; In indent-keyword, if we're indenting `then' wrt `if', we
1566 ;; want to use indent-virtual rather than use just
1567 ;; current-column, so that we can apply the (:before . "if")
1568 ;; rule which does the "else if" dance in SML. But in other
1569 ;; cases, we do not want to use indent-virtual (e.g. indentation
1570 ;; of "*" w.r.t "+", or ";" wrt "("). We could just always use
1571 ;; indent-virtual and then have indent-rules say explicitly to
1572 ;; use `point' after things like "(" or "+" when they're not at
1573 ;; EOL, but you'd end up with lots of those rules.
1574 ;; So we use a heuristic here, which is that we only use virtual
1575 ;; if the parent is tightly linked to the child token (they're
1576 ;; part of the same BNF rule).
1577 (if (car parent) (current-column) (smie-indent-virtual)))))))))))
1579 (defun smie-indent-comment ()
1580 "Compute indentation of a comment."
1581 ;; Don't do it for virtual indentations. We should normally never be "in
1582 ;; front of a comment" when doing virtual-indentation anyway. And if we are
1583 ;; (as can happen in octave-mode), moving forward can lead to inf-loops.
1584 (and (smie-indent--bolp)
1585 (let ((pos (point)))
1586 (save-excursion
1587 (beginning-of-line)
1588 (and (re-search-forward comment-start-skip (line-end-position) t)
1589 (eq pos (or (match-end 1) (match-beginning 0))))))
1590 (save-excursion
1591 (forward-comment (point-max))
1592 (skip-chars-forward " \t\r\n")
1593 (unless
1594 ;; Don't align with a closer, since the comment is "within" the
1595 ;; closed element. Don't align with EOB either.
1596 (save-excursion
1597 (let ((next (funcall smie-forward-token-function)))
1598 (or (if (zerop (length next))
1599 (or (eobp) (eq (car (syntax-after (point))) 5)))
1600 (rassoc next smie-closer-alist))))
1601 ;; FIXME: We assume here that smie-indent-calculate will compute the
1602 ;; indentation of the next token based on text before the comment,
1603 ;; but this is not guaranteed, so maybe we should let
1604 ;; smie-indent-calculate return some info about which buffer
1605 ;; position was used as the "indentation base" and check that this
1606 ;; base is before `pos'.
1607 (smie-indent-calculate)))))
1609 (defun smie-indent-comment-continue ()
1610 ;; indentation of comment-continue lines.
1611 (let ((continue (and comment-continue
1612 (comment-string-strip comment-continue t t))))
1613 (and (< 0 (length continue))
1614 (looking-at (regexp-quote continue)) (nth 4 (syntax-ppss))
1615 (let ((ppss (syntax-ppss)))
1616 (save-excursion
1617 (forward-line -1)
1618 (if (<= (point) (nth 8 ppss))
1619 (progn (goto-char (1+ (nth 8 ppss))) (current-column))
1620 (skip-chars-forward " \t")
1621 (if (looking-at (regexp-quote continue))
1622 (current-column))))))))
1624 (defun smie-indent-comment-close ()
1625 (and (boundp 'comment-end-skip)
1626 comment-end-skip
1627 (not (looking-at " \t*$")) ;Not just a \n comment-closer.
1628 (looking-at comment-end-skip)
1629 (let ((end (match-string 0)))
1630 (and (nth 4 (syntax-ppss))
1631 (save-excursion
1632 (goto-char (nth 8 (syntax-ppss)))
1633 (and (looking-at comment-start-skip)
1634 (let ((start (match-string 0)))
1635 ;; Align the common substring between starter
1636 ;; and ender, if possible.
1637 (if (string-match "\\(.+\\).*\n\\(.*?\\)\\1"
1638 (concat start "\n" end))
1639 (+ (current-column) (match-beginning 0)
1640 (- (match-beginning 2) (match-end 2)))
1641 (current-column)))))))))
1643 (defun smie-indent-comment-inside ()
1644 (and (nth 4 (syntax-ppss))
1645 'noindent))
1647 (defun smie-indent-inside-string ()
1648 (and (nth 3 (syntax-ppss))
1649 'noindent))
1651 (defun smie-indent-after-keyword ()
1652 ;; Indentation right after a special keyword.
1653 (save-excursion
1654 (let* ((pos (point))
1655 (toklevel (smie-indent-backward-token))
1656 (tok (car toklevel)))
1657 (cond
1658 ((null toklevel) nil)
1659 ((smie-indent--rule :after tok pos nil (point)))
1660 ;; The default indentation after a keyword/operator is
1661 ;; 0 for infix, t for prefix, and use another rule
1662 ;; for postfix.
1663 ((not (numberp (nth 2 toklevel))) nil) ;A closer.
1664 ((or (not (numberp (nth 1 toklevel))) ;An opener.
1665 (rassoc tok smie-closer-alist)) ;An inner.
1666 (+ (smie-indent-virtual) (smie-indent--offset 'basic))) ;
1667 (t (smie-indent-virtual)))))) ;An infix.
1669 (defun smie-indent-exps ()
1670 ;; Indentation of sequences of simple expressions without
1671 ;; intervening keywords or operators. E.g. "a b c" or "g (balbla) f".
1672 ;; Can be a list of expressions or a function call.
1673 ;; If it's a function call, the first element is special (it's the
1674 ;; function). We distinguish function calls from mere lists of
1675 ;; expressions based on whether the preceding token is listed in
1676 ;; the `list-intro' entry of smie-indent-rules.
1678 ;; TODO: to indent Lisp code, we should add a way to specify
1679 ;; particular indentation for particular args depending on the
1680 ;; function (which would require always skipping back until the
1681 ;; function).
1682 ;; TODO: to indent C code, such as "if (...) {...}" we might need
1683 ;; to add similar indentation hooks for particular positions, but
1684 ;; based on the preceding token rather than based on the first exp.
1685 (save-excursion
1686 (let ((positions nil)
1687 arg)
1688 (while (and (null (car (smie-backward-sexp)))
1689 (push (point) positions)
1690 (not (smie-indent--bolp))))
1691 (save-excursion
1692 ;; Figure out if the atom we just skipped is an argument rather
1693 ;; than a function.
1694 (setq arg
1695 (or (null (car (smie-backward-sexp)))
1696 (funcall smie-rules-function :list-intro
1697 (funcall smie-backward-token-function)))))
1698 (cond
1699 ((null positions)
1700 ;; We're the first expression of the list. In that case, the
1701 ;; indentation should be (have been) determined by its context.
1702 nil)
1703 (arg
1704 ;; There's a previous element, and it's not special (it's not
1705 ;; the function), so let's just align with that one.
1706 (goto-char (car positions))
1707 (current-column))
1708 ((cdr positions)
1709 ;; We skipped some args plus the function and bumped into something.
1710 ;; Align with the first arg.
1711 (goto-char (cadr positions))
1712 (current-column))
1713 (positions
1714 ;; We're the first arg.
1715 (goto-char (car positions))
1716 (+ (smie-indent--offset 'args)
1717 ;; We used to use (smie-indent-virtual), but that
1718 ;; doesn't seem right since it might then indent args less than
1719 ;; the function itself.
1720 (current-column)))))))
1722 (defvar smie-indent-functions
1723 '(smie-indent-fixindent smie-indent-bob smie-indent-close
1724 smie-indent-comment smie-indent-comment-continue smie-indent-comment-close
1725 smie-indent-comment-inside smie-indent-inside-string
1726 smie-indent-keyword smie-indent-after-keyword
1727 smie-indent-exps)
1728 "Functions to compute the indentation.
1729 Each function is called with no argument, shouldn't move point, and should
1730 return either nil if it has no opinion, or an integer representing the column
1731 to which that point should be aligned, if we were to reindent it.")
1733 (defun smie-indent-calculate ()
1734 "Compute the indentation to use for point."
1735 (run-hook-with-args-until-success 'smie-indent-functions))
1737 (defun smie-indent-line ()
1738 "Indent current line using the SMIE indentation engine."
1739 (interactive)
1740 (let* ((savep (point))
1741 (indent (or (with-demoted-errors
1742 (save-excursion
1743 (forward-line 0)
1744 (skip-chars-forward " \t")
1745 (if (>= (point) savep) (setq savep nil))
1746 (or (smie-indent-calculate) 0)))
1747 0)))
1748 (if (not (numberp indent))
1749 ;; If something funny is used (e.g. `noindent'), return it.
1750 indent
1751 (if (< indent 0) (setq indent 0)) ;Just in case.
1752 (if savep
1753 (save-excursion (indent-line-to indent))
1754 (indent-line-to indent)))))
1756 (defun smie-auto-fill (do-auto-fill)
1757 (let ((fc (current-fill-column)))
1758 (when (and fc (> (current-column) fc))
1759 ;; The loop below presumes BOL is outside of strings or comments. Also,
1760 ;; sometimes we prefer to fill the comment than the code around it.
1761 (unless (or (nth 8 (save-excursion
1762 (syntax-ppss (line-beginning-position))))
1763 (nth 4 (save-excursion
1764 (move-to-column fc)
1765 (syntax-ppss))))
1766 (while
1767 (and (with-demoted-errors
1768 (save-excursion
1769 (let ((end (point))
1770 (bsf nil) ;Best-so-far.
1771 (gain 0))
1772 (beginning-of-line)
1773 (while (progn
1774 (smie-indent-forward-token)
1775 (and (<= (point) end)
1776 (<= (current-column) fc)))
1777 ;; FIXME? `smie-indent-calculate' can (and often
1778 ;; does) return a result that actually depends on the
1779 ;; presence/absence of a newline, so the gain computed
1780 ;; here may not be accurate, but in practice it seems
1781 ;; to work well enough.
1782 (skip-chars-forward " \t")
1783 (let* ((newcol (smie-indent-calculate))
1784 (newgain (- (current-column) newcol)))
1785 (when (> newgain gain)
1786 (setq gain newgain)
1787 (setq bsf (point)))))
1788 (when (> gain 0)
1789 (goto-char bsf)
1790 (newline-and-indent)
1791 'done))))
1792 (> (current-column) fc))))
1793 (when (> (current-column) fc)
1794 (funcall do-auto-fill)))))
1797 (defun smie-setup (grammar rules-function &rest keywords)
1798 "Setup SMIE navigation and indentation.
1799 GRAMMAR is a grammar table generated by `smie-prec2->grammar'.
1800 RULES-FUNCTION is a set of indentation rules for use on `smie-rules-function'.
1801 KEYWORDS are additional arguments, which can use the following keywords:
1802 - :forward-token FUN
1803 - :backward-token FUN"
1804 (setq-local smie-rules-function rules-function)
1805 (setq-local smie-grammar grammar)
1806 (setq-local indent-line-function #'smie-indent-line)
1807 (add-function :around (local 'normal-auto-fill-function) #'smie-auto-fill)
1808 (setq-local forward-sexp-function #'smie-forward-sexp-command)
1809 (while keywords
1810 (let ((k (pop keywords))
1811 (v (pop keywords)))
1812 (pcase k
1813 (`:forward-token
1814 (set (make-local-variable 'smie-forward-token-function) v))
1815 (`:backward-token
1816 (set (make-local-variable 'smie-backward-token-function) v))
1817 (_ (message "smie-setup: ignoring unknown keyword %s" k)))))
1818 (let ((ca (cdr (assq :smie-closer-alist grammar))))
1819 (when ca
1820 (setq-local smie-closer-alist ca)
1821 ;; Only needed for interactive calls to blink-matching-open.
1822 (setq-local blink-matching-check-function #'smie-blink-matching-check)
1823 (add-hook 'post-self-insert-hook
1824 #'smie-blink-matching-open 'append 'local)
1825 (add-function :around (local 'show-paren-data-function)
1826 #'smie--matching-block-data)
1827 ;; Setup smie-blink-matching-triggers. Rather than wait for SPC to
1828 ;; blink, try to blink as soon as we type the last char of a block ender.
1829 (let ((closers (sort (mapcar #'cdr smie-closer-alist) #'string-lessp))
1830 (triggers ())
1831 closer)
1832 (while (setq closer (pop closers))
1833 (unless
1834 ;; FIXME: this eliminates prefixes of other closers, but we
1835 ;; should probably eliminate prefixes of other keywords as well.
1836 (and closers (string-prefix-p closer (car closers)))
1837 (push (aref closer (1- (length closer))) triggers)))
1838 (setq-local smie-blink-matching-triggers
1839 (append smie-blink-matching-triggers
1840 (delete-dups triggers)))))))
1842 (declare-function edebug-instrument-function "edebug" (func))
1844 (defun smie-edebug ()
1845 "Instrument the `smie-rules-function' for Edebug."
1846 (interactive)
1847 (require 'edebug)
1848 (if (symbolp smie-rules-function)
1849 (edebug-instrument-function smie-rules-function)
1850 (error "Sorry, don't know how to instrument a lambda expression")))
1852 (defun smie--next-indent-change ()
1853 "Go to the next line that needs to be reindented (and reindent it)."
1854 (interactive)
1855 (while
1856 (let ((tick (buffer-chars-modified-tick)))
1857 (indent-according-to-mode)
1858 (eq tick (buffer-chars-modified-tick)))
1859 (forward-line 1)))
1861 ;;; User configuration
1863 ;; This is designed to be a completely independent "module", so we can play
1864 ;; with various kinds of smie-config modules without having to change the core.
1866 ;; This smie-config module is fairly primitive and suffers from serious
1867 ;; restrictions:
1868 ;; - You can only change a returned offset, so you can't change the offset
1869 ;; passed to smie-rule-parent, nor can you change the object with which
1870 ;; to align (in general).
1871 ;; - The rewrite rule can only distinguish cases based on the kind+token arg
1872 ;; and smie-rules-function's return value, so you can't distinguish cases
1873 ;; where smie-rules-function returns the same value.
1874 ;; - Since config-rules depend on the return value of smie-rules-function, any
1875 ;; config change that modifies this return value (e.g. changing
1876 ;; foo-indent-basic) ends up invalidating config-rules.
1877 ;; This last one is a serious problem since it means that file-local
1878 ;; config-rules will only work if the user hasn't changed foo-indent-basic.
1879 ;; One possible way to change it is to modify smie-rules-functions so they can
1880 ;; return special symbols like +, ++, -, etc. Or make them use a new
1881 ;; smie-rule-basic function which can then be used to know when a returned
1882 ;; offset was computed based on foo-indent-basic.
1884 (defvar-local smie-config--mode-local nil
1885 "Indentation config rules installed for this major mode.
1886 Typically manipulated from the major-mode's hook.")
1887 (defvar-local smie-config--buffer-local nil
1888 "Indentation config rules installed for this very buffer.
1889 E.g. provided via a file-local call to `smie-config-local'.")
1890 (defvar smie-config--trace nil
1891 "Variable used to trace calls to `smie-rules-function'.")
1893 (defun smie-config--advice (orig kind token)
1894 (let* ((ret (funcall orig kind token))
1895 (sig (list kind token ret))
1896 (brule (rassoc sig smie-config--buffer-local))
1897 (mrule (rassoc sig smie-config--mode-local)))
1898 (when smie-config--trace
1899 (setq smie-config--trace (or brule mrule)))
1900 (cond
1901 (brule (car brule))
1902 (mrule (car mrule))
1903 (t ret))))
1905 (defun smie-config--mode-hook (rules)
1906 (setq smie-config--mode-local
1907 (append rules smie-config--mode-local))
1908 (add-function :around (local 'smie-rules-function) #'smie-config--advice))
1910 (defvar smie-config--modefuns nil)
1912 (defun smie-config--setter (var value)
1913 (setq-default var value)
1914 (let ((old-modefuns smie-config--modefuns))
1915 (setq smie-config--modefuns nil)
1916 (pcase-dolist (`(,mode . ,rules) value)
1917 (let ((modefunname (intern (format "smie-config--modefun-%s" mode))))
1918 (fset modefunname (lambda () (smie-config--mode-hook rules)))
1919 (push modefunname smie-config--modefuns)
1920 (add-hook (intern (format "%s-hook" mode)) modefunname)))
1921 ;; Neuter any left-over previously installed hook.
1922 (dolist (modefun old-modefuns)
1923 (unless (memq modefun smie-config--modefuns)
1924 (fset modefun #'ignore)))))
1926 (defcustom smie-config nil
1927 ;; FIXME: there should be a file-local equivalent.
1928 "User configuration of SMIE indentation.
1929 This is a list of elements (MODE . RULES), where RULES is a list
1930 of elements describing when and how to change the indentation rules.
1931 Each RULE element should be of the form (NEW KIND TOKEN NORMAL),
1932 where KIND and TOKEN are the elements passed to `smie-rules-function',
1933 NORMAL is the value returned by `smie-rules-function' and NEW is the
1934 value with which to replace it."
1935 :version "24.4"
1936 ;; FIXME improve value-type.
1937 :type '(choice (const nil)
1938 (alist :key-type symbol))
1939 :initialize 'custom-initialize-default
1940 :set #'smie-config--setter)
1942 (defun smie-config-local (rules)
1943 "Add RULES as local indentation rules to use in this buffer.
1944 These replace any previous local rules, but supplement the rules
1945 specified in `smie-config'."
1946 (setq smie-config--buffer-local rules)
1947 (add-function :around (local 'smie-rules-function) #'smie-config--advice))
1949 ;; Make it so we can set those in the file-local block.
1950 ;; FIXME: Better would be to be able to write "smie-config-local: (...)" rather
1951 ;; than "eval: (smie-config-local '(...))".
1952 (put 'smie-config-local 'safe-local-eval-function t)
1954 (defun smie-config--get-trace ()
1955 (save-excursion
1956 (forward-line 0)
1957 (skip-chars-forward " \t")
1958 (let* ((trace ())
1959 (srf-fun (lambda (orig kind token)
1960 (let* ((pos (point))
1961 (smie-config--trace t)
1962 (res (funcall orig kind token)))
1963 (push (if (consp smie-config--trace)
1964 (list pos kind token res smie-config--trace)
1965 (list pos kind token res))
1966 trace)
1967 res))))
1968 (unwind-protect
1969 (progn
1970 (add-function :around (local 'smie-rules-function) srf-fun)
1971 (cons (smie-indent-calculate)
1972 trace))
1973 (remove-function (local 'smie-rules-function) srf-fun)))))
1975 (defun smie-config-show-indent (&optional arg)
1976 "Display the SMIE rules that are used to indent the current line.
1977 If prefix ARG is given, then move briefly point to the buffer
1978 position corresponding to each rule."
1979 (interactive "P")
1980 (let ((trace (cdr (smie-config--get-trace))))
1981 (cond
1982 ((null trace) (message "No SMIE rules involved"))
1983 ((not arg)
1984 (message "Rules used: %s"
1985 (mapconcat (lambda (elem)
1986 (pcase-let ((`(,_pos ,kind ,token ,res ,rewrite)
1987 elem))
1988 (format "%S %S -> %S%s" kind token res
1989 (if (null rewrite) ""
1990 (format "(via %S)" (nth 3 rewrite))))))
1991 trace
1992 ", ")))
1994 (save-excursion
1995 (pcase-dolist (`(,pos ,kind ,token ,res ,rewrite) trace)
1996 (message "%S %S -> %S%s" kind token res
1997 (if (null rewrite) ""
1998 (format "(via %S)" (nth 3 rewrite))))
1999 (goto-char pos)
2000 (sit-for blink-matching-delay)))))))
2002 (defun smie-config--guess-value (sig)
2003 (add-function :around (local 'smie-rules-function) #'smie-config--advice)
2004 (let* ((rule (cons 0 sig))
2005 (smie-config--buffer-local (cons rule smie-config--buffer-local))
2006 (goal (current-indentation))
2007 (cur (smie-indent-calculate)))
2008 (cond
2009 ((and (eq goal
2010 (progn (setf (car rule) (- goal cur))
2011 (smie-indent-calculate))))
2012 (- goal cur)))))
2014 (defun smie-config-set-indent ()
2015 "Add a rule to adjust the indentation of current line."
2016 (interactive)
2017 (let* ((trace (cdr (smie-config--get-trace)))
2018 (_ (unless trace (error "No SMIE rules involved")))
2019 (sig (if (null (cdr trace))
2020 (pcase-let* ((elem (car trace))
2021 (`(,_pos ,kind ,token ,res ,rewrite) elem))
2022 (list kind token (or (nth 3 rewrite) res)))
2023 (let* ((choicestr
2024 (completing-read
2025 "Adjust rule: "
2026 (mapcar (lambda (elem)
2027 (format "%s %S"
2028 (substring (symbol-name (cadr elem))
2030 (nth 2 elem)))
2031 trace)
2032 nil t nil nil
2033 nil)) ;FIXME: Provide good default!
2034 (choicelst (car (read-from-string
2035 (concat "(:" choicestr ")")))))
2036 (catch 'found
2037 (pcase-dolist (`(,_pos ,kind ,token ,res ,rewrite) trace)
2038 (when (and (eq kind (car choicelst))
2039 (equal token (nth 1 choicelst)))
2040 (throw 'found (list kind token
2041 (or (nth 3 rewrite) res)))))))))
2042 (default-new (smie-config--guess-value sig))
2043 (newstr (read-string (format "Adjust rule (%S %S -> %S) to%s: "
2044 (nth 0 sig) (nth 1 sig) (nth 2 sig)
2045 (if (not default-new) ""
2046 (format " (default %S)" default-new)))
2047 nil nil (format "%S" default-new)))
2048 (new (car (read-from-string newstr))))
2049 (let ((old (rassoc sig smie-config--buffer-local)))
2050 (when old
2051 (setq smie-config--buffer-local
2052 (remove old smie-config--buffer-local))))
2053 (push (cons new sig) smie-config--buffer-local)
2054 (message "Added rule %S %S -> %S (via %S)"
2055 (nth 0 sig) (nth 1 sig) new (nth 2 sig))
2056 (add-function :around (local 'smie-rules-function) #'smie-config--advice)))
2058 (defun smie-config--guess (beg end)
2059 (let ((otraces (make-hash-table :test #'equal))
2060 (smie-config--buffer-local nil)
2061 (smie-config--mode-local nil)
2062 (pr (make-progress-reporter "Analyzing the buffer" beg end)))
2064 ;; First, lets get the indentation traces and offsets for the region.
2065 (save-excursion
2066 (goto-char beg)
2067 (forward-line 0)
2068 (while (< (point) end)
2069 (skip-chars-forward " \t")
2070 (unless (eolp) ;Skip empty lines.
2071 (progress-reporter-update pr (point))
2072 (let* ((itrace (smie-config--get-trace))
2073 (nindent (car itrace))
2074 (trace (mapcar #'cdr (cdr itrace)))
2075 (cur (current-indentation)))
2076 (when (numberp nindent) ;Skip `noindent' and friends.
2077 (cl-incf (gethash (cons (- cur nindent) trace) otraces 0)))))
2078 (forward-line 1)))
2079 (progress-reporter-done pr)
2081 ;; Second, compile the data. Our algorithm only knows how to adjust rules
2082 ;; where the smie-rules-function returns an integer. We call those
2083 ;; "adjustable sigs". We build a table mapping each adjustable sig
2084 ;; to its data, describing the total number of times we encountered it,
2085 ;; the offsets found, and the traces in which it was found.
2086 (message "Guessing...")
2087 (let ((sigs (make-hash-table :test #'equal)))
2088 (maphash (lambda (otrace count)
2089 (let ((offset (car otrace))
2090 (trace (cdr otrace))
2091 (double nil))
2092 (let ((sigs trace))
2093 (while sigs
2094 (let ((sig (pop sigs)))
2095 (if (and (integerp (nth 2 sig)) (member sig sigs))
2096 (setq double t)))))
2097 (if double
2098 ;; Disregard those traces where an adjustable sig
2099 ;; appears twice, because the rest of the code assumes
2100 ;; that adding a rule to add an offset N will change the
2101 ;; end result by N rather than 2*N or more.
2103 (dolist (sig trace)
2104 (if (not (integerp (nth 2 sig)))
2105 ;; Disregard those sigs that return nil or a column,
2106 ;; because our algorithm doesn't know how to adjust
2107 ;; them anyway.
2109 (let ((sig-data (or (gethash sig sigs)
2110 (let ((data (list 0 nil nil)))
2111 (puthash sig data sigs)
2112 data))))
2113 (cl-incf (nth 0 sig-data) count)
2114 (push (cons count otrace) (nth 2 sig-data))
2115 (let ((sig-off-data
2116 (or (assq offset (nth 1 sig-data))
2117 (let ((off-data (cons offset 0)))
2118 (push off-data (nth 1 sig-data))
2119 off-data))))
2120 (cl-incf (cdr sig-off-data) count))))))))
2121 otraces)
2123 ;; Finally, guess the indentation rules.
2124 (prog1
2125 (smie-config--guess-1 sigs)
2126 (message "Guessing...done")))))
2128 (defun smie-config--guess-1 (sigs)
2129 (let ((ssigs nil)
2130 (rules nil))
2131 ;; Sort the sigs by frequency of occurrence.
2132 (maphash (lambda (sig sig-data) (push (cons sig sig-data) ssigs)) sigs)
2133 (setq ssigs (sort ssigs (lambda (sd1 sd2) (> (cadr sd1) (cadr sd2)))))
2134 (while ssigs
2135 (pcase-let ((`(,sig ,total ,off-alist ,cotraces) (pop ssigs)))
2136 (cl-assert (= total (apply #'+ (mapcar #'cdr off-alist))))
2137 (let* ((sorted-off-alist
2138 (sort off-alist (lambda (x y) (> (cdr x) (cdr y)))))
2139 (offset (caar sorted-off-alist)))
2140 (if (zerop offset)
2141 ;; Nothing to do with this sig; indentation is
2142 ;; correct already.
2144 (push (cons (+ offset (nth 2 sig)) sig) rules)
2145 ;; Adjust the rest of the data.
2146 (pcase-dolist ((and cotrace `(,count ,toffset . ,trace))
2147 cotraces)
2148 (setf (nth 1 cotrace) (- toffset offset))
2149 (dolist (sig trace)
2150 (let ((sig-data (cdr (assq sig ssigs))))
2151 (when sig-data
2152 (let* ((ooff-data (assq toffset (nth 1 sig-data)))
2153 (noffset (- toffset offset))
2154 (noff-data
2155 (or (assq noffset (nth 1 sig-data))
2156 (let ((off-data (cons noffset 0)))
2157 (push off-data (nth 1 sig-data))
2158 off-data))))
2159 (cl-assert (>= (cdr ooff-data) count))
2160 (cl-decf (cdr ooff-data) count)
2161 (cl-incf (cdr noff-data) count))))))))))
2162 rules))
2164 (defun smie-config-guess ()
2165 "Try and figure out this buffer's indentation settings.
2166 To save the result for future sessions, use `smie-config-save'."
2167 (interactive)
2168 (if (eq smie-grammar 'unset)
2169 (user-error "This buffer does not seem to be using SMIE"))
2170 (let ((config (smie-config--guess (point-min) (point-max))))
2171 (cond
2172 ((null config) (message "Nothing to change"))
2173 ((null smie-config--buffer-local)
2174 (smie-config-local config)
2175 (message "Local rules set"))
2176 ((y-or-n-p "Replace existing local config? ")
2177 (message "Local rules replaced")
2178 (smie-config-local config))
2179 ((y-or-n-p "Merge with existing local config? ")
2180 (message "Local rules adjusted")
2181 (smie-config-local (append config smie-config--buffer-local)))
2183 (message "Rules guessed: %S" config)))))
2185 (defun smie-config-save ()
2186 "Save local rules for use with this major mode.
2187 One way to generate local rules is the command `smie-config-guess'."
2188 (interactive)
2189 (cond
2190 ((null smie-config--buffer-local)
2191 (message "No local rules to save"))
2193 (let* ((existing (assq major-mode smie-config))
2194 (config
2195 (cond ((null existing)
2196 (message "Local rules saved in `smie-config'")
2197 smie-config--buffer-local)
2198 ((y-or-n-p "Replace the existing mode's config? ")
2199 (message "Mode rules replaced in `smie-config'")
2200 smie-config--buffer-local)
2201 ((y-or-n-p "Merge with existing mode's config? ")
2202 (message "Mode rules adjusted in `smie-config'")
2203 (append smie-config--buffer-local (cdr existing)))
2204 (t (error "Abort")))))
2205 (if existing
2206 (setcdr existing config)
2207 (push (cons major-mode config) smie-config))
2208 (setq smie-config--mode-local config)
2209 (kill-local-variable 'smie-config--buffer-local)
2210 (customize-mark-as-set 'smie-config)))))
2212 (provide 'smie)
2213 ;;; smie.el ends here