4 * Started by Oleg Nesterov <oleg@redhat.com>
6 * Permission is hereby granted, free of charge, to any person obtaining a copy
7 * of this software and associated documentation files (the "Software"), to deal
8 * in the Software without restriction, including without limitation the rights
9 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
10 * copies of the Software, and to permit persons to whom the Software is
11 * furnished to do so, subject to the following conditions:
13 * The above copyright notice and this permission notice shall be included in
14 * all copies or substantial portions of the Software.
16 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
19 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
21 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
28 #define U_SELF ((1 << U_SHIFT) - 1)
29 #define U_MASK (U_R_VAL | U_W_VAL | U_R_AOF)
31 #define DO_LIST(l__, p__, expr__) \
33 typeof(l__->list[0]) p__; \
34 FOR_EACH_PTR(l__, p__) \
36 END_FOR_EACH_PTR(p__); \
39 #define DO_2_LIST(l1__,l2__, p1__,p2__, expr__) \
41 typeof(l1__->list[0]) p1__; \
42 typeof(l2__->list[0]) p2__; \
43 PREPARE_PTR_LIST(l1__, p1__); \
44 FOR_EACH_PTR(l2__, p2__) \
46 NEXT_PTR_LIST(p1__); \
47 END_FOR_EACH_PTR(p2__); \
48 FINISH_PTR_LIST(p1__); \
52 typedef unsigned usage_t
;
54 static struct reporter
*reporter
;
55 static struct symbol
*return_type
;
57 static void do_sym_list(struct symbol_list
*list
);
60 *base_type(struct symbol
*sym
),
61 *do_initializer(struct symbol
*type
, struct expression
*expr
),
62 *do_expression(usage_t mode
, struct expression
*expr
),
63 *do_statement(usage_t mode
, struct statement
*stmt
);
65 static inline int is_ptr(struct symbol
*type
)
67 return type
->type
== SYM_PTR
|| type
->type
== SYM_ARRAY
;
70 static inline usage_t
u_rval(usage_t mode
)
72 return mode
& (U_R_VAL
| (U_MASK
<< U_SHIFT
))
76 static inline usage_t
u_addr(usage_t mode
)
78 return mode
= mode
& U_MASK
79 ? U_R_AOF
| (mode
& U_W_AOF
) : 0;
82 static usage_t
u_lval(struct symbol
*type
)
84 int wptr
= is_ptr(type
) && !(type
->ctype
.modifiers
& MOD_CONST
);
85 return wptr
|| type
== &bad_ctype
86 ? U_W_AOF
| U_R_VAL
: U_R_VAL
;
89 static usage_t
fix_mode(struct symbol
*type
, usage_t mode
)
91 mode
&= (U_SELF
| (U_SELF
<< U_SHIFT
));
95 if (!type
->ctype
.base_type
)
106 mode
&= ~(U_R_VAL
| U_W_AOF
);
108 break; case SYM_ARRAY
:
109 if (mode
& (U_MASK
<< U_SHIFT
))
111 else if (mode
!= U_W_VAL
)
115 if (!(mode
& U_R_AOF
))
121 static inline struct symbol
*no_member(struct ident
*name
)
123 static struct symbol sym
= {
127 sym
.ctype
.base_type
= &bad_ctype
;
133 static struct symbol
*report_member(usage_t mode
, struct position
*pos
,
134 struct symbol
*type
, struct symbol
*mem
)
136 struct symbol
*ret
= mem
->ctype
.base_type
;
138 if (reporter
->r_member
)
139 reporter
->r_member(fix_mode(ret
, mode
), pos
, type
, mem
);
144 static void report_implicit(usage_t mode
, struct position
*pos
, struct symbol
*type
)
146 if (type
->type
!= SYM_STRUCT
&& type
->type
!= SYM_UNION
)
149 if (!reporter
->r_member
)
152 if (type
->ident
!= NULL
)
153 reporter
->r_member(mode
, pos
, type
, NULL
);
155 DO_LIST(type
->symbol_list
, mem
,
156 report_implicit(mode
, pos
, base_type(mem
)));
159 static inline struct symbol
*expr_symbol(struct expression
*expr
)
161 struct symbol
*sym
= expr
->symbol
;
164 sym
= lookup_symbol(expr
->symbol_name
, NS_SYMBOL
);
167 sym
= alloc_symbol(expr
->pos
, SYM_BAD
);
168 bind_symbol(sym
, expr
->symbol_name
, NS_SYMBOL
);
169 sym
->ctype
.modifiers
= MOD_EXTERN
;
173 if (!sym
->ctype
.base_type
)
174 sym
->ctype
.base_type
= &bad_ctype
;
179 static struct symbol
*report_symbol(usage_t mode
, struct expression
*expr
)
181 struct symbol
*sym
= expr_symbol(expr
);
182 struct symbol
*ret
= base_type(sym
);
184 if (0 && ret
->type
== SYM_ENUM
)
185 return report_member(mode
, &expr
->pos
, ret
, expr
->symbol
);
187 if (reporter
->r_symbol
)
188 reporter
->r_symbol(fix_mode(ret
, mode
), &expr
->pos
, sym
);
193 static inline struct ident
*mk_name(struct ident
*root
, struct ident
*node
)
197 snprintf(name
, sizeof(name
), "%.*s:%.*s",
198 root
? root
->len
: 0, root
? root
->name
: "",
199 node
? node
->len
: 0, node
? node
->name
: "");
201 return built_in_ident(name
);
204 static void examine_sym_node(struct symbol
*node
, struct ident
*root
)
215 while ((base
= node
->ctype
.base_type
) != NULL
)
216 switch (base
->type
) {
218 node
->ctype
.base_type
=
219 do_expression(U_VOID
, base
->initializer
);
223 do_expression(U_R_VAL
, base
->array_size
);
224 case SYM_PTR
: case SYM_FN
:
228 case SYM_STRUCT
: case SYM_UNION
: //case SYM_ENUM:
231 if (!base
->symbol_list
)
235 if (!base
->ident
&& name
)
236 base
->ident
= mk_name(root
, name
);
237 if (base
->ident
&& reporter
->r_symdef
)
238 reporter
->r_symdef(base
);
239 DO_LIST(base
->symbol_list
, mem
,
240 examine_sym_node(mem
, base
->ident
?: root
));
246 static struct symbol
*base_type(struct symbol
*sym
)
251 if (sym
->type
== SYM_NODE
)
252 examine_sym_node(sym
, NULL
);
254 return sym
->ctype
.base_type
// builtin_fn_type
258 static struct symbol
*__lookup_member(struct symbol
*type
, struct ident
*name
, int *p_addr
)
263 FOR_EACH_PTR(type
->symbol_list
, node
)
268 else if (node
->ident
== NULL
) {
269 node
= __lookup_member(node
->ctype
.base_type
, name
, NULL
);
273 else if (node
->ident
== name
) {
280 END_FOR_EACH_PTR(node
);
285 static struct symbol
*lookup_member(struct symbol
*type
, struct ident
*name
, int *addr
)
287 return __lookup_member(type
, name
, addr
)
291 static struct expression
*peek_preop(struct expression
*expr
, int op
)
294 if (expr
->type
!= EXPR_PREOP
)
307 static struct symbol
*do_expression(usage_t mode
, struct expression
*expr
)
309 struct symbol
*ret
= &int_ctype
;
312 if (expr
) switch (expr
->type
) {
314 warning(expr
->pos
, "bad expr->type: %d", expr
->type
);
316 case EXPR_TYPE
: // [struct T]; Why ???
320 break; case EXPR_LABEL
:
323 break; case EXPR_STRING
:
326 break; case EXPR_STATEMENT
:
327 ret
= do_statement(mode
, expr
->statement
);
329 break; case EXPR_SIZEOF
: case EXPR_ALIGNOF
: case EXPR_PTRSIZEOF
:
330 do_expression(U_VOID
, expr
->cast_expression
);
332 break; case EXPR_COMMA
:
333 do_expression(U_VOID
, expr
->left
);
334 ret
= do_expression(mode
, expr
->right
);
336 break; case EXPR_CAST
: case EXPR_FORCE_CAST
: //case EXPR_IMPLIED_CAST:
337 ret
= base_type(expr
->cast_type
);
338 do_initializer(ret
, expr
->cast_expression
);
340 break; case EXPR_COMPARE
: case EXPR_LOGICAL
:
342 do_expression(mode
, expr
->left
);
343 do_expression(mode
, expr
->right
);
345 break; case EXPR_CONDITIONAL
: //case EXPR_SELECT:
346 do_expression(expr
->cond_true
347 ? U_R_VAL
: U_R_VAL
| mode
,
349 ret
= do_expression(mode
, expr
->cond_true
);
350 ret
= do_expression(mode
, expr
->cond_false
);
352 break; case EXPR_CALL
:
353 ret
= do_expression(U_R_PTR
, expr
->fn
);
355 ret
= ret
->ctype
.base_type
;
356 DO_2_LIST(ret
->arguments
, expr
->args
, arg
, val
,
357 do_expression(u_lval(base_type(arg
)), val
));
358 ret
= ret
->type
== SYM_FN
? base_type(ret
)
361 break; case EXPR_ASSIGNMENT
:
362 mode
|= U_W_VAL
| U_R_VAL
;
365 ret
= do_expression(mode
, expr
->left
);
366 report_implicit(mode
, &expr
->pos
, ret
);
367 mode
= expr
->op
== '='
368 ? u_lval(ret
) : U_R_VAL
;
369 do_expression(mode
, expr
->right
);
371 break; case EXPR_BINOP
: {
372 struct symbol
*l
, *r
;
373 mode
|= u_rval(mode
);
374 l
= do_expression(mode
, expr
->left
);
375 r
= do_expression(mode
, expr
->right
);
376 if (expr
->op
!= '+' && expr
->op
!= '-')
378 else if (!is_ptr_type(r
))
380 else if (!is_ptr_type(l
))
384 break; case EXPR_PREOP
: case EXPR_POSTOP
: {
385 struct expression
*unop
= expr
->unop
;
388 case SPECIAL_INCREMENT
:
389 case SPECIAL_DECREMENT
:
390 mode
|= U_W_VAL
| U_R_VAL
;
392 mode
|= u_rval(mode
);
394 ret
= do_expression(mode
, unop
);
397 if ((expr
= peek_preop(unop
, '*')))
399 ret
= alloc_symbol(unop
->pos
, SYM_PTR
);
400 ret
->ctype
.base_type
=
401 do_expression(u_addr(mode
), unop
);
404 if ((expr
= peek_preop(unop
, '&')))
406 if (mode
& (U_MASK
<< U_SHIFT
))
409 if (mode
& (U_R_AOF
<< U_SHIFT
))
411 if (mode
& (U_W_VAL
<< U_SHIFT
))
413 ret
= do_expression(mode
, unop
);
414 ret
= is_ptr(ret
) ? base_type(ret
)
419 break; case EXPR_DEREF
: {
420 struct symbol
*p_type
;
423 p_mode
= mode
& U_SELF
;
424 if (!(mode
& U_MASK
) && (mode
& (U_MASK
<< U_SHIFT
)))
426 p_type
= do_expression(p_mode
, expr
->deref
);
428 ret
= report_member(mode
, &expr
->pos
, p_type
,
429 lookup_member(p_type
, expr
->member
, NULL
));
432 break; case EXPR_OFFSETOF
: {
433 struct symbol
*in
= base_type(expr
->in
);
436 if (expr
->op
== '.') {
437 in
= report_member(U_VOID
, &expr
->pos
, in
,
438 lookup_member(in
, expr
->ident
, NULL
));
440 do_expression(U_R_VAL
, expr
->index
);
441 in
= in
->ctype
.base_type
;
443 } while ((expr
= expr
->down
));
446 break; case EXPR_SYMBOL
:
447 ret
= report_symbol(mode
, expr
);
453 static void do_asm_xputs(usage_t mode
, struct expression_list
*xputs
)
459 do_expression(U_W_AOF
| mode
, expr
));
462 static struct symbol
*do_statement(usage_t mode
, struct statement
*stmt
)
464 struct symbol
*ret
= &void_ctype
;
466 if (stmt
) switch (stmt
->type
) {
468 warning(stmt
->pos
, "bad stmt->type: %d", stmt
->type
);
474 break; case STMT_DECLARATION
:
475 do_sym_list(stmt
->declaration
);
477 break; case STMT_EXPRESSION
:
478 ret
= do_expression(mode
, stmt
->expression
);
480 break; case STMT_RETURN
:
481 do_expression(u_lval(return_type
), stmt
->expression
);
483 break; case STMT_ASM
:
484 do_expression(U_R_VAL
, stmt
->asm_string
);
485 do_asm_xputs(U_W_VAL
, stmt
->asm_outputs
);
486 do_asm_xputs(U_R_VAL
, stmt
->asm_inputs
);
488 break; case STMT_COMPOUND
: {
491 count
= statement_list_size(stmt
->stmts
);
492 DO_LIST(stmt
->stmts
, st
,
493 ret
= do_statement(--count
? U_VOID
: mode
, st
));
496 break; case STMT_ITERATOR
:
497 do_sym_list(stmt
->iterator_syms
);
498 do_statement(U_VOID
, stmt
->iterator_pre_statement
);
499 do_expression(U_R_VAL
, stmt
->iterator_pre_condition
);
500 do_statement(U_VOID
, stmt
->iterator_post_statement
);
501 do_statement(U_VOID
, stmt
->iterator_statement
);
502 do_expression(U_R_VAL
, stmt
->iterator_post_condition
);
505 do_expression(U_R_VAL
, stmt
->if_conditional
);
506 do_statement(U_VOID
, stmt
->if_true
);
507 do_statement(U_VOID
, stmt
->if_false
);
509 break; case STMT_SWITCH
:
510 do_expression(U_R_VAL
, stmt
->switch_expression
);
511 do_statement(U_VOID
, stmt
->switch_statement
);
513 break; case STMT_CASE
:
514 do_expression(U_R_VAL
, stmt
->case_expression
);
515 do_expression(U_R_VAL
, stmt
->case_to
);
516 do_statement(U_VOID
, stmt
->case_statement
);
518 break; case STMT_GOTO
:
519 do_expression(U_R_PTR
, stmt
->goto_expression
);
521 break; case STMT_LABEL
:
522 do_statement(mode
, stmt
->label_statement
);
529 static struct symbol
*do_initializer(struct symbol
*type
, struct expression
*expr
)
531 struct symbol
*m_type
;
532 struct expression
*m_expr
;
535 if (expr
) switch (expr
->type
) {
537 do_expression(u_lval(type
), expr
);
539 break; case EXPR_INDEX
:
540 do_initializer(base_type(type
), expr
->idx_expression
);
542 break; case EXPR_INITIALIZER
:
544 FOR_EACH_PTR(expr
->expr_list
, m_expr
)
545 if (type
->type
== SYM_ARRAY
) {
546 m_type
= base_type(type
);
547 if (m_expr
->type
== EXPR_INDEX
)
548 m_expr
= m_expr
->idx_expression
;
550 int *m_atop
= &m_addr
;
553 while (m_expr
->type
== EXPR_IDENTIFIER
) {
554 m_type
= report_member(U_W_VAL
, &m_expr
->pos
, m_type
,
555 lookup_member(m_type
, m_expr
->expr_ident
, m_atop
));
556 m_expr
= m_expr
->ident_expression
;
561 m_type
= report_member(U_W_VAL
, &m_expr
->pos
, m_type
,
562 lookup_member(m_type
, NULL
, m_atop
));
565 if (m_expr
->type
!= EXPR_INITIALIZER
)
566 report_implicit(U_W_VAL
, &m_expr
->pos
, m_type
);
568 do_initializer(m_type
, m_expr
);
570 END_FOR_EACH_PTR(m_expr
);
576 static inline struct symbol
*do_symbol(struct symbol
*sym
)
580 type
= base_type(sym
);
582 if (reporter
->r_symdef
)
583 reporter
->r_symdef(sym
);
585 switch (type
->type
) {
587 if (!sym
->initializer
)
589 if (reporter
->r_symbol
)
590 reporter
->r_symbol(U_W_VAL
, &sym
->pos
, sym
);
591 do_initializer(type
, sym
->initializer
);
594 do_sym_list(type
->arguments
);
595 return_type
= base_type(type
);
596 do_statement(U_VOID
, sym
->ctype
.modifiers
& MOD_INLINE
604 static void do_sym_list(struct symbol_list
*list
)
606 DO_LIST(list
, sym
, do_symbol(sym
));
609 void dissect(struct symbol_list
*list
, struct reporter
*rep
)