2 * This file is part of cparser.
3 * Copyright (C) 2007-2009 Matthias Braun <matze@braunis.de>
5 * This program is free software; you can redistribute it and/or
6 * modify it under the terms of the GNU General Public License
7 * as published by the Free Software Foundation; either version 2
8 * of the License, or (at your option) any later version.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this program; if not, write to the Free Software
17 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
23 #include "diagnostic.h"
25 #include "attribute_t.h"
27 #include "adt/error.h"
30 static const char *const attribute_names[ATTRIBUTE_LAST+1] = {
31 [ATTRIBUTE_GNU_CONST] = "const",
32 [ATTRIBUTE_GNU_VOLATILE] = "volatile",
33 [ATTRIBUTE_GNU_CDECL] = "cdecl",
34 [ATTRIBUTE_GNU_STDCALL] = "stdcall",
35 [ATTRIBUTE_GNU_FASTCALL] = "fastcall",
36 [ATTRIBUTE_GNU_DEPRECATED] = "deprecated",
37 [ATTRIBUTE_GNU_NOINLINE] = "noinline",
38 [ATTRIBUTE_GNU_RETURNS_TWICE] = "returns_twice",
39 [ATTRIBUTE_GNU_NORETURN] = "noreturn",
40 [ATTRIBUTE_GNU_NAKED] = "naked",
41 [ATTRIBUTE_GNU_PURE] = "pure",
42 [ATTRIBUTE_GNU_ALWAYS_INLINE] = "always_inline",
43 [ATTRIBUTE_GNU_MALLOC] = "malloc",
44 [ATTRIBUTE_GNU_WEAK] = "weak",
45 [ATTRIBUTE_GNU_CONSTRUCTOR] = "constructor",
46 [ATTRIBUTE_GNU_DESTRUCTOR] = "destructor",
47 [ATTRIBUTE_GNU_NOTHROW] = "nothrow",
48 [ATTRIBUTE_GNU_TRANSPARENT_UNION] = "transparent_union",
49 [ATTRIBUTE_GNU_COMMON] = "common",
50 [ATTRIBUTE_GNU_NOCOMMON] = "nocommon",
51 [ATTRIBUTE_GNU_PACKED] = "packed",
52 [ATTRIBUTE_GNU_SHARED] = "shared",
53 [ATTRIBUTE_GNU_NOTSHARED] = "notshared",
54 [ATTRIBUTE_GNU_USED] = "used",
55 [ATTRIBUTE_GNU_UNUSED] = "unused",
56 [ATTRIBUTE_GNU_NO_INSTRUMENT_FUNCTION] = "no_instrument_function",
57 [ATTRIBUTE_GNU_WARN_UNUSED_RESULT] = "warn_unused_result",
58 [ATTRIBUTE_GNU_LONGCALL] = "longcall",
59 [ATTRIBUTE_GNU_SHORTCALL] = "shortcall",
60 [ATTRIBUTE_GNU_LONG_CALL] = "long_call",
61 [ATTRIBUTE_GNU_SHORT_CALL] = "short_call",
62 [ATTRIBUTE_GNU_FUNCTION_VECTOR] = "function_vector",
63 [ATTRIBUTE_GNU_INTERRUPT] = "interrupt",
64 [ATTRIBUTE_GNU_INTERRUPT_HANDLER] = "interrupt_handler",
65 [ATTRIBUTE_GNU_NMI_HANDLER] = "nmi_handler",
66 [ATTRIBUTE_GNU_NESTING] = "nesting",
67 [ATTRIBUTE_GNU_NEAR] = "near",
68 [ATTRIBUTE_GNU_FAR] = "far",
69 [ATTRIBUTE_GNU_SIGNAL] = "signal",
70 [ATTRIBUTE_GNU_EIGTHBIT_DATA] = "eightbit_data",
71 [ATTRIBUTE_GNU_TINY_DATA] = "tiny_data",
72 [ATTRIBUTE_GNU_SAVEALL] = "saveall",
73 [ATTRIBUTE_GNU_FLATTEN] = "flatten",
74 [ATTRIBUTE_GNU_SSEREGPARM] = "sseregparm",
75 [ATTRIBUTE_GNU_EXTERNALLY_VISIBLE] = "externally_visible",
76 [ATTRIBUTE_GNU_MAY_ALIAS] = "may_alias",
77 [ATTRIBUTE_GNU_MS_STRUCT] = "ms_struct",
78 [ATTRIBUTE_GNU_GCC_STRUCT] = "gcc_struct",
79 [ATTRIBUTE_GNU_DLLIMPORT] = "dllimport",
80 [ATTRIBUTE_GNU_DLLEXPORT] = "dllexport",
81 [ATTRIBUTE_GNU_ALIGNED] = "aligned",
82 [ATTRIBUTE_GNU_ALIAS] = "alias",
83 [ATTRIBUTE_GNU_SECTION] = "section",
84 [ATTRIBUTE_GNU_FORMAT] = "format",
85 [ATTRIBUTE_GNU_FORMAT_ARG] = "format_arg",
86 [ATTRIBUTE_GNU_WEAKREF] = "weakref",
87 [ATTRIBUTE_GNU_NONNULL] = "nonnull",
88 [ATTRIBUTE_GNU_TLS_MODEL] = "tls_model",
89 [ATTRIBUTE_GNU_VISIBILITY] = "visibility",
90 [ATTRIBUTE_GNU_REGPARM] = "regparm",
91 [ATTRIBUTE_GNU_MODE] = "mode",
92 [ATTRIBUTE_GNU_MODEL] = "model",
93 [ATTRIBUTE_GNU_TRAP_EXIT] = "trap_exit",
94 [ATTRIBUTE_GNU_SP_SWITCH] = "sp_switch",
95 [ATTRIBUTE_GNU_SENTINEL] = "sentinel",
97 [ATTRIBUTE_MS_ALIGN] = "align",
98 [ATTRIBUTE_MS_ALLOCATE] = "allocate",
99 [ATTRIBUTE_MS_DLLIMPORT] = "dllimport",
100 [ATTRIBUTE_MS_DLLEXPORT] = "dllexport",
101 [ATTRIBUTE_MS_NAKED] = "naked",
102 [ATTRIBUTE_MS_NOINLINE] = "noinline",
103 [ATTRIBUTE_MS_RETURNS_TWICE] = "returns_twice",
104 [ATTRIBUTE_MS_NORETURN] = "noreturn",
105 [ATTRIBUTE_MS_NOTHROW] = "nothrow",
106 [ATTRIBUTE_MS_NOVTABLE] = "novtable",
107 [ATTRIBUTE_MS_PROPERTY] = "property",
108 [ATTRIBUTE_MS_SELECTANY] = "selectany",
109 [ATTRIBUTE_MS_THREAD] = "thread",
110 [ATTRIBUTE_MS_UUID] = "uuid",
111 [ATTRIBUTE_MS_DEPRECATED] = "deprecated",
112 [ATTRIBUTE_MS_RESTRICT] = "restrict",
113 [ATTRIBUTE_MS_NOALIAS] = "noalias",
116 const char *get_attribute_name(attribute_kind_t kind)
118 assert(kind <= ATTRIBUTE_LAST);
119 return attribute_names[kind];
123 * compare two string, ignoring double underscores on the second.
125 static int strcmp_underscore(const char *s1, const char *s2)
127 if (s2[0] == '_' && s2[1] == '_') {
128 size_t len2 = strlen(s2);
129 size_t len1 = strlen(s1);
130 if (len1 == len2-4 && s2[len2-2] == '_' && s2[len2-1] == '_') {
131 return strncmp(s1, s2+2, len2-4);
135 return strcmp(s1, s2);
138 type_t *handle_attribute_mode(const attribute_t *attribute, type_t *orig_type)
140 type_t *type = skip_typeref(orig_type);
142 /* at least: byte, word, pointer, list of machine modes
143 * __XXX___ is interpreted as XXX */
145 /* This isn't really correct, the backend should provide a list of machine
146 * specific modes (according to gcc philosophy that is...) */
147 attribute_argument_t *arg = attribute->a.arguments;
148 const char *symbol_str = arg->v.symbol->string;
149 bool sign = is_type_signed(type);
150 atomic_type_kind_t akind;
151 if (strcmp_underscore("QI", symbol_str) == 0 ||
152 strcmp_underscore("byte", symbol_str) == 0) {
153 akind = sign ? ATOMIC_TYPE_CHAR : ATOMIC_TYPE_UCHAR;
154 } else if (strcmp_underscore("HI", symbol_str) == 0) {
155 akind = sign ? ATOMIC_TYPE_SHORT : ATOMIC_TYPE_USHORT;
156 } else if (strcmp_underscore("SI", symbol_str) == 0
157 || strcmp_underscore("word", symbol_str) == 0
158 || strcmp_underscore("pointer", symbol_str) == 0) {
159 akind = sign ? ATOMIC_TYPE_INT : ATOMIC_TYPE_UINT;
160 } else if (strcmp_underscore("DI", symbol_str) == 0) {
161 akind = sign ? ATOMIC_TYPE_LONGLONG : ATOMIC_TYPE_ULONGLONG;
164 warningf(&attribute->source_position, "ignoring unknown mode '%s'",
169 if (type->kind == TYPE_ATOMIC) {
170 type_t *copy = duplicate_type(type);
171 copy->atomic.akind = akind;
172 return identify_new_type(copy);
173 } else if (type->kind == TYPE_ENUM) {
174 type_t *copy = duplicate_type(type);
175 copy->enumt.akind = akind;
176 return identify_new_type(copy);
177 } else if (is_type_pointer(type)) {
178 warningf(&attribute->source_position,
179 "__attribute__((mode)) on pointers not implemented yet (ignored)");
183 errorf(&attribute->source_position,
184 "__attribute__((mode)) only allowed on integer, enum or pointer type");
188 static inline bool is_po2(unsigned x)
190 return (x & (x-1)) == 0;
193 static void handle_attribute_aligned(const attribute_t *attribute,
196 int alignment = 32; /* TODO: fill in maximum useful alignment for
198 if (attribute->a.arguments) {
199 attribute_argument_t *argument = attribute->a.arguments;
200 alignment = fold_constant_to_int(argument->v.expression);
203 if (!is_po2(alignment)) {
204 errorf(&attribute->source_position,
205 "alignment must be a power of 2 but is %d\n",
209 if (alignment <= 0) {
210 errorf(&attribute->source_position,
211 "alignment must be bigger than 0 but is %d\n",
216 switch (entity->kind) {
217 DECLARATION_KIND_CASES
218 entity->declaration.alignment = alignment;
220 entity->typedefe.alignment = alignment;
224 if (alignment > entity->compound.alignment) {
225 entity->compound.alignment = alignment;
230 warningf(&attribute->source_position,
231 "alignment attribute specification on '%S' ignored",
232 entity->base.symbol);
238 static void warn_arguments(const attribute_t *attribute)
240 if (attribute->a.arguments == NULL)
244 warningf(&attribute->source_position,
245 "attribute '%s' needs no attributes",
246 get_attribute_name(attribute->kind));
250 static void handle_attribute_packed_e(const attribute_t *attribute,
254 if (entity->kind != ENTITY_STRUCT) {
255 warningf(&attribute->source_position,
256 "packed attribute on %s '%s' ignored",
257 get_entity_kind_name(entity->kind),
258 entity->base.symbol->string);
263 warn_arguments(attribute);
264 entity->compound.packed = true;
267 static void handle_attribute_packed(const attribute_t *attribute, type_t *type)
269 if (type->kind != TYPE_COMPOUND_STRUCT) {
270 warningf(&attribute->source_position,
271 "packed attribute on type '%T' ignored", type);
275 handle_attribute_packed_e(attribute, (entity_t*) type->compound.compound);
278 void handle_entity_attributes(const attribute_t *attributes, entity_t *entity)
280 if (entity->kind == ENTITY_TYPEDEF) {
281 type_t *type = entity->typedefe.type;
282 type = handle_type_attributes(attributes, type);
283 entity->typedefe.type = type;
284 } else if (is_declaration(entity)) {
285 type_t *type = entity->declaration.type;
286 type = handle_type_attributes(attributes, type);
287 entity->declaration.type = type;
290 decl_modifiers_t modifiers = 0;
291 const attribute_t *attribute = attributes;
292 for ( ; attribute != NULL; attribute = attribute->next) {
293 switch(attribute->kind) {
294 case ATTRIBUTE_GNU_CONST: modifiers |= DM_CONST; break;
295 case ATTRIBUTE_GNU_DEPRECATED: modifiers |= DM_DEPRECATED; break;
296 case ATTRIBUTE_GNU_NOINLINE: modifiers |= DM_NOINLINE; break;
297 case ATTRIBUTE_GNU_RETURNS_TWICE: modifiers |= DM_RETURNS_TWICE; break;
298 case ATTRIBUTE_GNU_NORETURN: modifiers |= DM_NORETURN; break;
299 case ATTRIBUTE_GNU_NAKED: modifiers |= DM_NAKED; break;
300 case ATTRIBUTE_GNU_PURE: modifiers |= DM_PURE; break;
301 case ATTRIBUTE_GNU_ALWAYS_INLINE: modifiers |= DM_FORCEINLINE; break;
302 case ATTRIBUTE_GNU_MALLOC: modifiers |= DM_MALLOC; break;
303 case ATTRIBUTE_GNU_CONSTRUCTOR: modifiers |= DM_CONSTRUCTOR; break;
304 case ATTRIBUTE_GNU_DESTRUCTOR: modifiers |= DM_DESTRUCTOR; break;
305 case ATTRIBUTE_GNU_NOTHROW: modifiers |= DM_NOTHROW; break;
306 case ATTRIBUTE_GNU_TRANSPARENT_UNION:
307 modifiers |= DM_TRANSPARENT_UNION;
309 case ATTRIBUTE_GNU_USED: modifiers |= DM_USED; break;
310 case ATTRIBUTE_GNU_UNUSED: modifiers |= DM_UNUSED; break;
311 case ATTRIBUTE_GNU_DLLIMPORT: modifiers |= DM_DLLIMPORT; break;
312 case ATTRIBUTE_GNU_DLLEXPORT: modifiers |= DM_DLLEXPORT; break;
313 case ATTRIBUTE_GNU_WEAK: modifiers |= DM_WEAK; break;
315 case ATTRIBUTE_MS_ALLOCATE: modifiers |= DM_MALLOC; break;
316 case ATTRIBUTE_MS_DLLIMPORT: modifiers |= DM_DLLIMPORT; break;
317 case ATTRIBUTE_MS_DLLEXPORT: modifiers |= DM_DLLEXPORT; break;
318 case ATTRIBUTE_MS_NAKED: modifiers |= DM_NAKED; break;
319 case ATTRIBUTE_MS_NOINLINE: modifiers |= DM_NOINLINE; break;
320 case ATTRIBUTE_MS_RETURNS_TWICE: modifiers |= DM_RETURNS_TWICE; break;
321 case ATTRIBUTE_MS_NORETURN: modifiers |= DM_NORETURN; break;
322 case ATTRIBUTE_MS_NOTHROW: modifiers |= DM_NOTHROW; break;
323 case ATTRIBUTE_MS_THREAD: modifiers |= DM_THREAD; break;
324 case ATTRIBUTE_MS_DEPRECATED: modifiers |= DM_DEPRECATED; break;
325 case ATTRIBUTE_MS_RESTRICT: modifiers |= DM_RESTRICT; break;
326 case ATTRIBUTE_MS_NOALIAS: modifiers |= DM_NOALIAS; break;
328 case ATTRIBUTE_GNU_PACKED:
329 handle_attribute_packed_e(attribute, entity);
332 case ATTRIBUTE_MS_ALIGN:
333 case ATTRIBUTE_GNU_ALIGNED:
334 handle_attribute_aligned(attribute, entity);
340 if (modifiers != 0) {
341 switch(entity->kind) {
343 entity->typedefe.modifiers |= modifiers;
347 entity->compound.modifiers |= modifiers;
349 case ENTITY_COMPOUND_MEMBER:
350 case ENTITY_VARIABLE:
351 case ENTITY_FUNCTION:
352 entity->declaration.modifiers |= modifiers;
361 static type_t *change_calling_convention(type_t *type, cc_kind_t cconv)
363 if (is_typeref(type) || !is_type_function(type)) {
367 if (type->function.calling_convention == cconv)
370 type_t* new_type = duplicate_type(type);
371 new_type->function.calling_convention = cconv;
372 return identify_new_type(new_type);
375 type_t *handle_type_attributes(const attribute_t *attributes, type_t *type)
377 const attribute_t *attribute = attributes;
378 for ( ; attribute != NULL; attribute = attribute->next) {
379 switch(attribute->kind) {
380 case ATTRIBUTE_GNU_PACKED:
381 handle_attribute_packed(attribute, type);
383 case ATTRIBUTE_GNU_CDECL:
384 case ATTRIBUTE_MS_CDECL:
385 type = change_calling_convention(type, CC_CDECL);
387 case ATTRIBUTE_MS_STDCALL:
388 case ATTRIBUTE_GNU_STDCALL:
389 type = change_calling_convention(type, CC_STDCALL);
391 case ATTRIBUTE_MS_FASTCALL:
392 case ATTRIBUTE_GNU_FASTCALL:
393 type = change_calling_convention(type, CC_FASTCALL);
395 case ATTRIBUTE_MS_THISCALL:
396 type = change_calling_convention(type, CC_THISCALL);
398 case ATTRIBUTE_GNU_MODE:
399 type = handle_attribute_mode(attribute, type);
409 const char *get_deprecated_string(const attribute_t *attribute)
411 for ( ; attribute != NULL; attribute = attribute->next) {
412 if (attribute->kind != ATTRIBUTE_MS_DEPRECATED)
415 attribute_argument_t *argument = attribute->a.arguments;
416 if (argument == NULL)
418 if (argument->kind != ATTRIBUTE_ARGUMENT_EXPRESSION)
420 expression_t *expression = argument->v.expression;
421 if (expression->kind != EXPR_STRING_LITERAL)
423 return expression->literal.value.begin;
428 static bool property_attribute_equal(const attribute_property_argument_t *prop1,
429 const attribute_property_argument_t *prop2)
431 return prop1->put_symbol == prop2->put_symbol
432 && prop1->get_symbol == prop2->get_symbol;
435 static bool attribute_argument_equal(const attribute_argument_t *arg1,
436 const attribute_argument_t *arg2)
438 if (arg1->kind != arg2->kind)
441 switch (arg1->kind) {
442 case ATTRIBUTE_ARGUMENT_SYMBOL:
443 return arg1->v.symbol == arg2->v.symbol;
444 case ATTRIBUTE_ARGUMENT_EXPRESSION:
448 panic("Unknown argument type found");
451 static bool attribute_arguments_equal(const attribute_argument_t *args1,
452 const attribute_argument_t *args2)
454 for ( ; args1 != NULL && args2 != NULL;
455 args1 = args1->next, args2 = args2->next) {
456 if (!attribute_argument_equal(args1, args2))
459 /* both should be NULL now */
460 return args1 == args2;
463 bool attributes_equal(const attribute_t *attr1, const attribute_t *attr2)
465 if (attr1->kind != attr2->kind)
468 switch (attr1->kind) {
469 case ATTRIBUTE_MS_PROPERTY:
470 return property_attribute_equal(attr1->a.property, attr2->a.property);
472 return attribute_arguments_equal(attr1->a.arguments,