2 * Copyright (C) 2002 Roman Zippel <zippel@linux-m68k.org>
3 * Released under the terms of the GNU GPL v2.0.
10 #define LKC_DIRECT_LINK
15 struct expr
*expr_alloc_symbol(struct symbol
*sym
)
17 struct expr
*e
= malloc(sizeof(*e
));
18 memset(e
, 0, sizeof(*e
));
24 struct expr
*expr_alloc_one(enum expr_type type
, struct expr
*ce
)
26 struct expr
*e
= malloc(sizeof(*e
));
27 memset(e
, 0, sizeof(*e
));
33 struct expr
*expr_alloc_two(enum expr_type type
, struct expr
*e1
, struct expr
*e2
)
35 struct expr
*e
= malloc(sizeof(*e
));
36 memset(e
, 0, sizeof(*e
));
43 struct expr
*expr_alloc_comp(enum expr_type type
, struct symbol
*s1
, struct symbol
*s2
)
45 struct expr
*e
= malloc(sizeof(*e
));
46 memset(e
, 0, sizeof(*e
));
53 struct expr
*expr_alloc_and(struct expr
*e1
, struct expr
*e2
)
57 return e2
? expr_alloc_two(E_AND
, e1
, e2
) : e1
;
60 struct expr
*expr_alloc_or(struct expr
*e1
, struct expr
*e2
)
64 return e2
? expr_alloc_two(E_OR
, e1
, e2
) : e1
;
67 struct expr
*expr_copy(struct expr
*org
)
74 e
= malloc(sizeof(*org
));
75 memcpy(e
, org
, sizeof(*org
));
81 e
->left
.expr
= expr_copy(org
->left
.expr
);
85 e
->left
.sym
= org
->left
.sym
;
86 e
->right
.sym
= org
->right
.sym
;
91 e
->left
.expr
= expr_copy(org
->left
.expr
);
92 e
->right
.expr
= expr_copy(org
->right
.expr
);
95 printf("can't copy type %d\n", e
->type
);
104 void expr_free(struct expr
*e
)
113 expr_free(e
->left
.expr
);
120 expr_free(e
->left
.expr
);
121 expr_free(e
->right
.expr
);
124 printf("how to free type %d?\n", e
->type
);
130 static int trans_count
;
135 static void __expr_eliminate_eq(enum expr_type type
, struct expr
**ep1
, struct expr
**ep2
)
137 if (e1
->type
== type
) {
138 __expr_eliminate_eq(type
, &e1
->left
.expr
, &e2
);
139 __expr_eliminate_eq(type
, &e1
->right
.expr
, &e2
);
142 if (e2
->type
== type
) {
143 __expr_eliminate_eq(type
, &e1
, &e2
->left
.expr
);
144 __expr_eliminate_eq(type
, &e1
, &e2
->right
.expr
);
147 if (e1
->type
== E_SYMBOL
&& e2
->type
== E_SYMBOL
&&
148 e1
->left
.sym
== e2
->left
.sym
&& (e1
->left
.sym
->flags
& (SYMBOL_YES
|SYMBOL_NO
)))
150 if (!expr_eq(e1
, e2
))
153 expr_free(e1
); expr_free(e2
);
156 e1
= expr_alloc_symbol(&symbol_no
);
157 e2
= expr_alloc_symbol(&symbol_no
);
160 e1
= expr_alloc_symbol(&symbol_yes
);
161 e2
= expr_alloc_symbol(&symbol_yes
);
168 void expr_eliminate_eq(struct expr
**ep1
, struct expr
**ep2
)
175 __expr_eliminate_eq(e1
->type
, ep1
, ep2
);
179 if (e1
->type
!= e2
->type
) switch (e2
->type
) {
182 __expr_eliminate_eq(e2
->type
, ep1
, ep2
);
186 e1
= expr_eliminate_yn(e1
);
187 e2
= expr_eliminate_yn(e2
);
193 int expr_eq(struct expr
*e1
, struct expr
*e2
)
197 if (e1
->type
!= e2
->type
)
202 return e1
->left
.sym
== e2
->left
.sym
&& e1
->right
.sym
== e2
->right
.sym
;
204 return e1
->left
.sym
== e2
->left
.sym
;
206 return expr_eq(e1
->left
.expr
, e2
->left
.expr
);
211 old_count
= trans_count
;
212 expr_eliminate_eq(&e1
, &e2
);
213 res
= (e1
->type
== E_SYMBOL
&& e2
->type
== E_SYMBOL
&&
214 e1
->left
.sym
== e2
->left
.sym
);
217 trans_count
= old_count
;
226 expr_fprint(e1
, stdout
);
228 expr_fprint(e2
, stdout
);
235 struct expr
*expr_eliminate_yn(struct expr
*e
)
239 if (e
) switch (e
->type
) {
241 e
->left
.expr
= expr_eliminate_yn(e
->left
.expr
);
242 e
->right
.expr
= expr_eliminate_yn(e
->right
.expr
);
243 if (e
->left
.expr
->type
== E_SYMBOL
) {
244 if (e
->left
.expr
->left
.sym
== &symbol_no
) {
245 expr_free(e
->left
.expr
);
246 expr_free(e
->right
.expr
);
248 e
->left
.sym
= &symbol_no
;
249 e
->right
.expr
= NULL
;
251 } else if (e
->left
.expr
->left
.sym
== &symbol_yes
) {
254 *e
= *(e
->right
.expr
);
259 if (e
->right
.expr
->type
== E_SYMBOL
) {
260 if (e
->right
.expr
->left
.sym
== &symbol_no
) {
261 expr_free(e
->left
.expr
);
262 expr_free(e
->right
.expr
);
264 e
->left
.sym
= &symbol_no
;
265 e
->right
.expr
= NULL
;
267 } else if (e
->right
.expr
->left
.sym
== &symbol_yes
) {
270 *e
= *(e
->left
.expr
);
277 e
->left
.expr
= expr_eliminate_yn(e
->left
.expr
);
278 e
->right
.expr
= expr_eliminate_yn(e
->right
.expr
);
279 if (e
->left
.expr
->type
== E_SYMBOL
) {
280 if (e
->left
.expr
->left
.sym
== &symbol_no
) {
283 *e
= *(e
->right
.expr
);
286 } else if (e
->left
.expr
->left
.sym
== &symbol_yes
) {
287 expr_free(e
->left
.expr
);
288 expr_free(e
->right
.expr
);
290 e
->left
.sym
= &symbol_yes
;
291 e
->right
.expr
= NULL
;
295 if (e
->right
.expr
->type
== E_SYMBOL
) {
296 if (e
->right
.expr
->left
.sym
== &symbol_no
) {
299 *e
= *(e
->left
.expr
);
302 } else if (e
->right
.expr
->left
.sym
== &symbol_yes
) {
303 expr_free(e
->left
.expr
);
304 expr_free(e
->right
.expr
);
306 e
->left
.sym
= &symbol_yes
;
307 e
->right
.expr
= NULL
;
321 struct expr
*expr_trans_bool(struct expr
*e
)
329 e
->left
.expr
= expr_trans_bool(e
->left
.expr
);
330 e
->right
.expr
= expr_trans_bool(e
->right
.expr
);
334 if (e
->left
.sym
->type
== S_TRISTATE
) {
335 if (e
->right
.sym
== &symbol_no
) {
350 struct expr
*expr_join_or(struct expr
*e1
, struct expr
*e2
)
353 struct symbol
*sym1
, *sym2
;
356 return expr_copy(e1
);
357 if (e1
->type
!= E_EQUAL
&& e1
->type
!= E_UNEQUAL
&& e1
->type
!= E_SYMBOL
&& e1
->type
!= E_NOT
)
359 if (e2
->type
!= E_EQUAL
&& e2
->type
!= E_UNEQUAL
&& e2
->type
!= E_SYMBOL
&& e2
->type
!= E_NOT
)
361 if (e1
->type
== E_NOT
) {
363 if (tmp
->type
!= E_EQUAL
&& tmp
->type
!= E_UNEQUAL
&& tmp
->type
!= E_SYMBOL
)
365 sym1
= tmp
->left
.sym
;
368 if (e2
->type
== E_NOT
) {
369 if (e2
->left
.expr
->type
!= E_SYMBOL
)
371 sym2
= e2
->left
.expr
->left
.sym
;
376 if (sym1
->type
!= S_BOOLEAN
&& sym1
->type
!= S_TRISTATE
)
378 if (sym1
->type
== S_TRISTATE
) {
379 if (e1
->type
== E_EQUAL
&& e2
->type
== E_EQUAL
&&
380 ((e1
->right
.sym
== &symbol_yes
&& e2
->right
.sym
== &symbol_mod
) ||
381 (e1
->right
.sym
== &symbol_mod
&& e2
->right
.sym
== &symbol_yes
))) {
382 // (a='y') || (a='m') -> (a!='n')
383 return expr_alloc_comp(E_UNEQUAL
, sym1
, &symbol_no
);
385 if (e1
->type
== E_EQUAL
&& e2
->type
== E_EQUAL
&&
386 ((e1
->right
.sym
== &symbol_yes
&& e2
->right
.sym
== &symbol_no
) ||
387 (e1
->right
.sym
== &symbol_no
&& e2
->right
.sym
== &symbol_yes
))) {
388 // (a='y') || (a='n') -> (a!='m')
389 return expr_alloc_comp(E_UNEQUAL
, sym1
, &symbol_mod
);
391 if (e1
->type
== E_EQUAL
&& e2
->type
== E_EQUAL
&&
392 ((e1
->right
.sym
== &symbol_mod
&& e2
->right
.sym
== &symbol_no
) ||
393 (e1
->right
.sym
== &symbol_no
&& e2
->right
.sym
== &symbol_mod
))) {
394 // (a='m') || (a='n') -> (a!='y')
395 return expr_alloc_comp(E_UNEQUAL
, sym1
, &symbol_yes
);
398 if (sym1
->type
== S_BOOLEAN
&& sym1
== sym2
) {
399 if ((e1
->type
== E_NOT
&& e1
->left
.expr
->type
== E_SYMBOL
&& e2
->type
== E_SYMBOL
) ||
400 (e2
->type
== E_NOT
&& e2
->left
.expr
->type
== E_SYMBOL
&& e1
->type
== E_SYMBOL
))
401 return expr_alloc_symbol(&symbol_yes
);
405 printf("optimize (");
406 expr_fprint(e1
, stdout
);
408 expr_fprint(e2
, stdout
);
414 struct expr
*expr_join_and(struct expr
*e1
, struct expr
*e2
)
417 struct symbol
*sym1
, *sym2
;
420 return expr_copy(e1
);
421 if (e1
->type
!= E_EQUAL
&& e1
->type
!= E_UNEQUAL
&& e1
->type
!= E_SYMBOL
&& e1
->type
!= E_NOT
)
423 if (e2
->type
!= E_EQUAL
&& e2
->type
!= E_UNEQUAL
&& e2
->type
!= E_SYMBOL
&& e2
->type
!= E_NOT
)
425 if (e1
->type
== E_NOT
) {
427 if (tmp
->type
!= E_EQUAL
&& tmp
->type
!= E_UNEQUAL
&& tmp
->type
!= E_SYMBOL
)
429 sym1
= tmp
->left
.sym
;
432 if (e2
->type
== E_NOT
) {
433 if (e2
->left
.expr
->type
!= E_SYMBOL
)
435 sym2
= e2
->left
.expr
->left
.sym
;
440 if (sym1
->type
!= S_BOOLEAN
&& sym1
->type
!= S_TRISTATE
)
443 if ((e1
->type
== E_SYMBOL
&& e2
->type
== E_EQUAL
&& e2
->right
.sym
== &symbol_yes
) ||
444 (e2
->type
== E_SYMBOL
&& e1
->type
== E_EQUAL
&& e1
->right
.sym
== &symbol_yes
))
445 // (a) && (a='y') -> (a='y')
446 return expr_alloc_comp(E_EQUAL
, sym1
, &symbol_yes
);
448 if ((e1
->type
== E_SYMBOL
&& e2
->type
== E_UNEQUAL
&& e2
->right
.sym
== &symbol_no
) ||
449 (e2
->type
== E_SYMBOL
&& e1
->type
== E_UNEQUAL
&& e1
->right
.sym
== &symbol_no
))
450 // (a) && (a!='n') -> (a)
451 return expr_alloc_symbol(sym1
);
453 if ((e1
->type
== E_SYMBOL
&& e2
->type
== E_UNEQUAL
&& e2
->right
.sym
== &symbol_mod
) ||
454 (e2
->type
== E_SYMBOL
&& e1
->type
== E_UNEQUAL
&& e1
->right
.sym
== &symbol_mod
))
455 // (a) && (a!='m') -> (a='y')
456 return expr_alloc_comp(E_EQUAL
, sym1
, &symbol_yes
);
458 if (sym1
->type
== S_TRISTATE
) {
459 if (e1
->type
== E_EQUAL
&& e2
->type
== E_UNEQUAL
) {
460 // (a='b') && (a!='c') -> 'b'='c' ? 'n' : a='b'
461 sym2
= e1
->right
.sym
;
462 if ((e2
->right
.sym
->flags
& SYMBOL_CONST
) && (sym2
->flags
& SYMBOL_CONST
))
463 return sym2
!= e2
->right
.sym
? expr_alloc_comp(E_EQUAL
, sym1
, sym2
)
464 : expr_alloc_symbol(&symbol_no
);
466 if (e1
->type
== E_UNEQUAL
&& e2
->type
== E_EQUAL
) {
467 // (a='b') && (a!='c') -> 'b'='c' ? 'n' : a='b'
468 sym2
= e2
->right
.sym
;
469 if ((e1
->right
.sym
->flags
& SYMBOL_CONST
) && (sym2
->flags
& SYMBOL_CONST
))
470 return sym2
!= e1
->right
.sym
? expr_alloc_comp(E_EQUAL
, sym1
, sym2
)
471 : expr_alloc_symbol(&symbol_no
);
473 if (e1
->type
== E_UNEQUAL
&& e2
->type
== E_UNEQUAL
&&
474 ((e1
->right
.sym
== &symbol_yes
&& e2
->right
.sym
== &symbol_no
) ||
475 (e1
->right
.sym
== &symbol_no
&& e2
->right
.sym
== &symbol_yes
)))
476 // (a!='y') && (a!='n') -> (a='m')
477 return expr_alloc_comp(E_EQUAL
, sym1
, &symbol_mod
);
479 if (e1
->type
== E_UNEQUAL
&& e2
->type
== E_UNEQUAL
&&
480 ((e1
->right
.sym
== &symbol_yes
&& e2
->right
.sym
== &symbol_mod
) ||
481 (e1
->right
.sym
== &symbol_mod
&& e2
->right
.sym
== &symbol_yes
)))
482 // (a!='y') && (a!='m') -> (a='n')
483 return expr_alloc_comp(E_EQUAL
, sym1
, &symbol_no
);
485 if (e1
->type
== E_UNEQUAL
&& e2
->type
== E_UNEQUAL
&&
486 ((e1
->right
.sym
== &symbol_mod
&& e2
->right
.sym
== &symbol_no
) ||
487 (e1
->right
.sym
== &symbol_no
&& e2
->right
.sym
== &symbol_mod
)))
488 // (a!='m') && (a!='n') -> (a='m')
489 return expr_alloc_comp(E_EQUAL
, sym1
, &symbol_yes
);
491 if ((e1
->type
== E_SYMBOL
&& e2
->type
== E_EQUAL
&& e2
->right
.sym
== &symbol_mod
) ||
492 (e2
->type
== E_SYMBOL
&& e1
->type
== E_EQUAL
&& e1
->right
.sym
== &symbol_mod
) ||
493 (e1
->type
== E_SYMBOL
&& e2
->type
== E_UNEQUAL
&& e2
->right
.sym
== &symbol_yes
) ||
494 (e2
->type
== E_SYMBOL
&& e1
->type
== E_UNEQUAL
&& e1
->right
.sym
== &symbol_yes
))
499 printf("optimize (");
500 expr_fprint(e1
, stdout
);
502 expr_fprint(e2
, stdout
);
508 static void expr_eliminate_dups1(enum expr_type type
, struct expr
**ep1
, struct expr
**ep2
)
514 if (e1
->type
== type
) {
515 expr_eliminate_dups1(type
, &e1
->left
.expr
, &e2
);
516 expr_eliminate_dups1(type
, &e1
->right
.expr
, &e2
);
519 if (e2
->type
== type
) {
520 expr_eliminate_dups1(type
, &e1
, &e2
->left
.expr
);
521 expr_eliminate_dups1(type
, &e1
, &e2
->right
.expr
);
528 case E_OR
: case E_AND
:
529 expr_eliminate_dups1(e1
->type
, &e1
, &e1
);
536 tmp
= expr_join_or(e1
, e2
);
538 expr_free(e1
); expr_free(e2
);
539 e1
= expr_alloc_symbol(&symbol_no
);
545 tmp
= expr_join_and(e1
, e2
);
547 expr_free(e1
); expr_free(e2
);
548 e1
= expr_alloc_symbol(&symbol_yes
);
560 static void expr_eliminate_dups2(enum expr_type type
, struct expr
**ep1
, struct expr
**ep2
)
564 struct expr
*tmp
, *tmp1
, *tmp2
;
566 if (e1
->type
== type
) {
567 expr_eliminate_dups2(type
, &e1
->left
.expr
, &e2
);
568 expr_eliminate_dups2(type
, &e1
->right
.expr
, &e2
);
571 if (e2
->type
== type
) {
572 expr_eliminate_dups2(type
, &e1
, &e2
->left
.expr
);
573 expr_eliminate_dups2(type
, &e1
, &e2
->right
.expr
);
580 expr_eliminate_dups2(e1
->type
, &e1
, &e1
);
581 // (FOO || BAR) && (!FOO && !BAR) -> n
582 tmp1
= expr_transform(expr_alloc_one(E_NOT
, expr_copy(e1
)));
583 tmp2
= expr_copy(e2
);
584 tmp
= expr_extract_eq_and(&tmp1
, &tmp2
);
585 if (expr_is_yes(tmp1
)) {
587 e1
= expr_alloc_symbol(&symbol_no
);
595 expr_eliminate_dups2(e1
->type
, &e1
, &e1
);
596 // (FOO && BAR) || (!FOO || !BAR) -> y
597 tmp1
= expr_transform(expr_alloc_one(E_NOT
, expr_copy(e1
)));
598 tmp2
= expr_copy(e2
);
599 tmp
= expr_extract_eq_or(&tmp1
, &tmp2
);
600 if (expr_is_no(tmp1
)) {
602 e1
= expr_alloc_symbol(&symbol_yes
);
616 struct expr
*expr_eliminate_dups(struct expr
*e
)
622 oldcount
= trans_count
;
626 case E_OR
: case E_AND
:
627 expr_eliminate_dups1(e
->type
, &e
, &e
);
628 expr_eliminate_dups2(e
->type
, &e
, &e
);
634 e
= expr_eliminate_yn(e
);
636 trans_count
= oldcount
;
640 struct expr
*expr_transform(struct expr
*e
)
653 e
->left
.expr
= expr_transform(e
->left
.expr
);
654 e
->right
.expr
= expr_transform(e
->right
.expr
);
659 if (e
->left
.sym
->type
!= S_BOOLEAN
)
661 if (e
->right
.sym
== &symbol_no
) {
663 e
->left
.expr
= expr_alloc_symbol(e
->left
.sym
);
667 if (e
->right
.sym
== &symbol_mod
) {
668 printf("boolean symbol %s tested for 'm'? test forced to 'n'\n", e
->left
.sym
->name
);
670 e
->left
.sym
= &symbol_no
;
674 if (e
->right
.sym
== &symbol_yes
) {
681 if (e
->left
.sym
->type
!= S_BOOLEAN
)
683 if (e
->right
.sym
== &symbol_no
) {
688 if (e
->right
.sym
== &symbol_mod
) {
689 printf("boolean symbol %s tested for 'm'? test forced to 'y'\n", e
->left
.sym
->name
);
691 e
->left
.sym
= &symbol_yes
;
695 if (e
->right
.sym
== &symbol_yes
) {
697 e
->left
.expr
= expr_alloc_symbol(e
->left
.sym
);
703 switch (e
->left
.expr
->type
) {
706 tmp
= e
->left
.expr
->left
.expr
;
710 e
= expr_transform(e
);
718 e
->type
= e
->type
== E_EQUAL
? E_UNEQUAL
: E_EQUAL
;
721 // !(a || b) -> !a && !b
724 e
->right
.expr
= expr_alloc_one(E_NOT
, tmp
->right
.expr
);
726 tmp
->right
.expr
= NULL
;
727 e
= expr_transform(e
);
730 // !(a && b) -> !a || !b
733 e
->right
.expr
= expr_alloc_one(E_NOT
, tmp
->right
.expr
);
735 tmp
->right
.expr
= NULL
;
736 e
= expr_transform(e
);
739 if (e
->left
.expr
->left
.sym
== &symbol_yes
) {
745 e
->left
.sym
= &symbol_no
;
748 if (e
->left
.expr
->left
.sym
== &symbol_mod
) {
754 e
->left
.sym
= &symbol_mod
;
757 if (e
->left
.expr
->left
.sym
== &symbol_no
) {
763 e
->left
.sym
= &symbol_yes
;
777 int expr_contains_symbol(struct expr
*dep
, struct symbol
*sym
)
785 return expr_contains_symbol(dep
->left
.expr
, sym
) ||
786 expr_contains_symbol(dep
->right
.expr
, sym
);
788 return dep
->left
.sym
== sym
;
791 return dep
->left
.sym
== sym
||
792 dep
->right
.sym
== sym
;
794 return expr_contains_symbol(dep
->left
.expr
, sym
);
801 bool expr_depends_symbol(struct expr
*dep
, struct symbol
*sym
)
808 return expr_depends_symbol(dep
->left
.expr
, sym
) ||
809 expr_depends_symbol(dep
->right
.expr
, sym
);
811 return dep
->left
.sym
== sym
;
813 if (dep
->left
.sym
== sym
) {
814 if (dep
->right
.sym
== &symbol_yes
|| dep
->right
.sym
== &symbol_mod
)
819 if (dep
->left
.sym
== sym
) {
820 if (dep
->right
.sym
== &symbol_no
)
830 struct expr
*expr_extract_eq_and(struct expr
**ep1
, struct expr
**ep2
)
832 struct expr
*tmp
= NULL
;
833 expr_extract_eq(E_AND
, &tmp
, ep1
, ep2
);
835 *ep1
= expr_eliminate_yn(*ep1
);
836 *ep2
= expr_eliminate_yn(*ep2
);
841 struct expr
*expr_extract_eq_or(struct expr
**ep1
, struct expr
**ep2
)
843 struct expr
*tmp
= NULL
;
844 expr_extract_eq(E_OR
, &tmp
, ep1
, ep2
);
846 *ep1
= expr_eliminate_yn(*ep1
);
847 *ep2
= expr_eliminate_yn(*ep2
);
852 void expr_extract_eq(enum expr_type type
, struct expr
**ep
, struct expr
**ep1
, struct expr
**ep2
)
856 if (e1
->type
== type
) {
857 expr_extract_eq(type
, ep
, &e1
->left
.expr
, &e2
);
858 expr_extract_eq(type
, ep
, &e1
->right
.expr
, &e2
);
861 if (e2
->type
== type
) {
862 expr_extract_eq(type
, ep
, ep1
, &e2
->left
.expr
);
863 expr_extract_eq(type
, ep
, ep1
, &e2
->right
.expr
);
866 if (expr_eq(e1
, e2
)) {
867 *ep
= *ep
? expr_alloc_two(type
, *ep
, e1
) : e1
;
870 e1
= expr_alloc_symbol(&symbol_yes
);
871 e2
= expr_alloc_symbol(&symbol_yes
);
872 } else if (type
== E_OR
) {
873 e1
= expr_alloc_symbol(&symbol_no
);
874 e2
= expr_alloc_symbol(&symbol_no
);
881 struct expr
*expr_trans_compare(struct expr
*e
, enum expr_type type
, struct symbol
*sym
)
883 struct expr
*e1
, *e2
;
886 e
= expr_alloc_symbol(sym
);
887 if (type
== E_UNEQUAL
)
888 e
= expr_alloc_one(E_NOT
, e
);
893 e1
= expr_trans_compare(e
->left
.expr
, E_EQUAL
, sym
);
894 e2
= expr_trans_compare(e
->right
.expr
, E_EQUAL
, sym
);
895 if (sym
== &symbol_yes
)
896 e
= expr_alloc_two(E_AND
, e1
, e2
);
897 if (sym
== &symbol_no
)
898 e
= expr_alloc_two(E_OR
, e1
, e2
);
899 if (type
== E_UNEQUAL
)
900 e
= expr_alloc_one(E_NOT
, e
);
903 e1
= expr_trans_compare(e
->left
.expr
, E_EQUAL
, sym
);
904 e2
= expr_trans_compare(e
->right
.expr
, E_EQUAL
, sym
);
905 if (sym
== &symbol_yes
)
906 e
= expr_alloc_two(E_OR
, e1
, e2
);
907 if (sym
== &symbol_no
)
908 e
= expr_alloc_two(E_AND
, e1
, e2
);
909 if (type
== E_UNEQUAL
)
910 e
= expr_alloc_one(E_NOT
, e
);
913 return expr_trans_compare(e
->left
.expr
, type
== E_EQUAL
? E_UNEQUAL
: E_EQUAL
, sym
);
916 if (type
== E_EQUAL
) {
917 if (sym
== &symbol_yes
)
919 if (sym
== &symbol_mod
)
920 return expr_alloc_symbol(&symbol_no
);
921 if (sym
== &symbol_no
)
922 return expr_alloc_one(E_NOT
, expr_copy(e
));
924 if (sym
== &symbol_yes
)
925 return expr_alloc_one(E_NOT
, expr_copy(e
));
926 if (sym
== &symbol_mod
)
927 return expr_alloc_symbol(&symbol_yes
);
928 if (sym
== &symbol_no
)
933 return expr_alloc_comp(type
, e
->left
.sym
, sym
);
942 tristate
expr_calc_value(struct expr
*e
)
945 const char *str1
, *str2
;
952 sym_calc_value(e
->left
.sym
);
953 return e
->left
.sym
->curr
.tri
;
955 val1
= expr_calc_value(e
->left
.expr
);
956 val2
= expr_calc_value(e
->right
.expr
);
957 return E_AND(val1
, val2
);
959 val1
= expr_calc_value(e
->left
.expr
);
960 val2
= expr_calc_value(e
->right
.expr
);
961 return E_OR(val1
, val2
);
963 val1
= expr_calc_value(e
->left
.expr
);
966 sym_calc_value(e
->left
.sym
);
967 sym_calc_value(e
->right
.sym
);
968 str1
= sym_get_string_value(e
->left
.sym
);
969 str2
= sym_get_string_value(e
->right
.sym
);
970 return !strcmp(str1
, str2
) ? yes
: no
;
972 sym_calc_value(e
->left
.sym
);
973 sym_calc_value(e
->right
.sym
);
974 str1
= sym_get_string_value(e
->left
.sym
);
975 str2
= sym_get_string_value(e
->right
.sym
);
976 return !strcmp(str1
, str2
) ? no
: yes
;
978 printf("expr_calc_value: %d?\n", e
->type
);
983 int expr_compare_type(enum expr_type t1
, enum expr_type t2
)
1010 printf("[%dgt%d?]", t1
, t2
);
1015 void expr_print(struct expr
*e
, void (*fn
)(void *, const char *), void *data
, int prevtoken
)
1022 if (expr_compare_type(prevtoken
, e
->type
) > 0)
1026 if (e
->left
.sym
->name
)
1027 fn(data
, e
->left
.sym
->name
);
1029 fn(data
, "<choice>");
1033 expr_print(e
->left
.expr
, fn
, data
, E_NOT
);
1036 fn(data
, e
->left
.sym
->name
);
1038 fn(data
, e
->right
.sym
->name
);
1041 fn(data
, e
->left
.sym
->name
);
1043 fn(data
, e
->right
.sym
->name
);
1046 expr_print(e
->left
.expr
, fn
, data
, E_OR
);
1048 expr_print(e
->right
.expr
, fn
, data
, E_OR
);
1051 expr_print(e
->left
.expr
, fn
, data
, E_AND
);
1053 expr_print(e
->right
.expr
, fn
, data
, E_AND
);
1056 fn(data
, e
->right
.sym
->name
);
1059 expr_print(e
->left
.expr
, fn
, data
, E_CHOICE
);
1064 fn(data
, e
->left
.sym
->name
);
1066 fn(data
, e
->right
.sym
->name
);
1072 sprintf(buf
, "<unknown type %d>", e
->type
);
1077 if (expr_compare_type(prevtoken
, e
->type
) > 0)
1081 static void expr_print_file_helper(void *data
, const char *str
)
1083 fwrite(str
, strlen(str
), 1, data
);
1086 void expr_fprint(struct expr
*e
, FILE *out
)
1088 expr_print(e
, expr_print_file_helper
, out
, E_NONE
);
1091 static void expr_print_gstr_helper(void *data
, const char *str
)
1093 str_append((struct gstr
*)data
, str
);
1096 void expr_gstr_print(struct expr
*e
, struct gstr
*gs
)
1098 expr_print(e
, expr_print_gstr_helper
, gs
, E_NONE
);
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