bool invalid;
bool have_arguments;
union {
- size_t value;
- string_t string;
+ size_t value;
+ string_t string;
+ atomic_type_kind_t akind;
} u;
};
[EXPR_VA_ARG] = sizeof(va_arg_expression_t),
[EXPR_STATEMENT] = sizeof(statement_expression_t),
};
- if(kind >= EXPR_UNARY_FIRST && kind <= EXPR_UNARY_LAST) {
+ if (kind >= EXPR_UNARY_FIRST && kind <= EXPR_UNARY_LAST) {
return sizes[EXPR_UNARY_FIRST];
}
- if(kind >= EXPR_BINARY_FIRST && kind <= EXPR_BINARY_LAST) {
+ if (kind >= EXPR_BINARY_FIRST && kind <= EXPR_BINARY_LAST) {
return sizes[EXPR_BINARY_FIRST];
}
assert(kind <= sizeof(sizes) / sizeof(sizes[0]));
}
static bool at_anchor(void) {
- if(token.type < 0)
+ if (token.type < 0)
return false;
return token_anchor_set[token.type];
}
unsigned parenthesis_count = 0;
unsigned brace_count = 0;
unsigned bracket_count = 0;
- int end_token = type;
- if(type == '(')
- end_token = ')';
- else if(type == '{')
- end_token = '}';
- else if(type == '[')
- end_token = ']';
+ int end_token;
+ switch (type) {
+ case '(': end_token = ')'; break;
+ case '{': end_token = '}'; break;
+ case '[': end_token = ']'; break;
+ default: end_token = type; break;
+ }
while(token.type != end_token ||
(parenthesis_count > 0 || brace_count > 0 || bracket_count > 0)) {
case '{': ++brace_count; break;
case '[': ++bracket_count; break;
case ')':
- if(parenthesis_count > 0)
+ if (parenthesis_count > 0)
--parenthesis_count;
break;
case '}':
- if(brace_count > 0)
+ if (brace_count > 0)
--brace_count;
break;
case ']':
- if(bracket_count > 0)
+ if (bracket_count > 0)
--bracket_count;
break;
default:
* Eat input tokens until an anchor is found.
*/
static void eat_until_anchor(void) {
- if(token.type == T_EOF)
+ if (token.type == T_EOF)
return;
while(token_anchor_set[token.type] == 0) {
- if(token.type == '(' || token.type == '{' || token.type == '[')
+ if (token.type == '(' || token.type == '{' || token.type == '[')
eat_until_matching_token(token.type);
- if(token.type == T_EOF)
+ if (token.type == T_EOF)
break;
next_token();
}
static void eat_block(void) {
eat_until_matching_token('{');
- if(token.type == '}')
+ if (token.type == '}')
next_token();
}
*/
static void eat_statement(void) {
eat_until_matching_token(';');
- if(token.type == ';')
+ if (token.type == ';')
next_token();
}
#endif
void parse_error_expected(const char *message, ...)
{
- if(message != NULL) {
+ if (message != NULL) {
errorf(HERE, "%s", message);
}
va_list ap;
*/
#define expect(expected) \
do { \
- if(UNLIKELY(token.type != (expected))) { \
+ if (UNLIKELY(token.type != (expected))) { \
parse_error_expected(NULL, (expected), NULL); \
add_anchor_token(expected); \
eat_until_anchor(); \
static void set_scope(scope_t *new_scope)
{
- if(scope != NULL) {
+ if (scope != NULL) {
scope->last_declaration = last_declaration;
}
scope = new_scope;
{
declaration_t *declaration = symbol->declaration;
for( ; declaration != NULL; declaration = declaration->symbol_next) {
- if(declaration->namespc == namespc)
+ if (declaration->namespc == namespc)
return declaration;
}
declaration_t *iter_last = NULL;
for( ; iter != NULL; iter_last = iter, iter = iter->symbol_next) {
/* replace an entry? */
- if(iter->namespc == namespc) {
- if(iter_last == NULL) {
+ if (iter->namespc == namespc) {
+ if (iter_last == NULL) {
symbol->declaration = declaration;
} else {
iter_last->symbol_next = declaration;
break;
}
}
- if(iter == NULL) {
+ if (iter == NULL) {
assert(iter_last->symbol_next == NULL);
iter_last->symbol_next = declaration;
}
size_t i;
assert(new_top <= top);
- if(new_top == top)
+ if (new_top == top)
return;
for(i = top; i > new_top; --i) {
/* replace/remove declaration */
declaration_t *declaration = symbol->declaration;
assert(declaration != NULL);
- if(declaration->namespc == namespc) {
- if(old_declaration == NULL) {
+ if (declaration->namespc == namespc) {
+ if (old_declaration == NULL) {
symbol->declaration = declaration->symbol_next;
} else {
symbol->declaration = old_declaration;
declaration_t *iter = declaration->symbol_next;
for( ; iter != NULL; iter_last = iter, iter = iter->symbol_next) {
/* replace an entry? */
- if(iter->namespc == namespc) {
+ if (iter->namespc == namespc) {
assert(iter_last != NULL);
iter_last->symbol_next = old_declaration;
- if(old_declaration != NULL) {
+ if (old_declaration != NULL) {
old_declaration->symbol_next = iter->symbol_next;
}
break;
* can't decide whether unsigned int is possible, while int always works.
* (unsigned int would be preferable when possible... for stuff like
* struct { enum { ... } bla : 4; } ) */
- if(type->kind == TYPE_ENUM)
+ if (type->kind == TYPE_ENUM)
return ATOMIC_TYPE_INT;
assert(type->kind == TYPE_ATOMIC);
static type_t *promote_integer(type_t *type)
{
- if(type->kind == TYPE_BITFIELD)
+ if (type->kind == TYPE_BITFIELD)
type = type->bitfield.base_type;
- if(get_rank(type) < ATOMIC_TYPE_INT)
+ if (get_rank(type) < ATOMIC_TYPE_INT)
type = type_int;
return type;
static bool is_null_pointer_constant(const expression_t *expression)
{
/* skip void* cast */
- if(expression->kind == EXPR_UNARY_CAST
+ if (expression->kind == EXPR_UNARY_CAST
|| expression->kind == EXPR_UNARY_CAST_IMPLICIT) {
expression = expression->unary.value;
}
type_t *const type_left = skip_typeref(orig_type_left);
type_t *const type_right = skip_typeref(orig_type_right);
- if(is_type_pointer(type_left)) {
- if(is_null_pointer_constant(right)) {
+ if (is_type_pointer(type_left)) {
+ if (is_null_pointer_constant(right)) {
return ASSIGN_SUCCESS;
- } else if(is_type_pointer(type_right)) {
+ } else if (is_type_pointer(type_right)) {
type_t *points_to_left
= skip_typeref(type_left->pointer.points_to);
type_t *points_to_right
/* the left type has all qualifiers from the right type */
unsigned missing_qualifiers
= points_to_right->base.qualifiers & ~points_to_left->base.qualifiers;
- if(missing_qualifiers != 0) {
+ if (missing_qualifiers != 0) {
return ASSIGN_ERROR_POINTER_QUALIFIER_MISSING;
}
}
return ASSIGN_SUCCESS;
- } else if(is_type_integer(type_right)) {
+ } else if (is_type_integer(type_right)) {
return ASSIGN_WARNING_POINTER_FROM_INT;
}
} else if ((is_type_arithmetic(type_left) && is_type_arithmetic(type_right)) ||
/* start parsing at precedence 7 (conditional expression) */
expression_t *result = parse_sub_expression(7);
- if(!is_constant_expression(result)) {
+ if (!is_constant_expression(result)) {
errorf(&result->base.source_position,
"expression '%E' is not constant\n", result);
}
* compare two string, ignoring double underscores on the second.
*/
static int strcmp_underscore(const char *s1, const char *s2) {
- if(s2[0] == '_' && s2[1] == '_') {
+ if (s2[0] == '_' && s2[1] == '_') {
size_t len2 = strlen(s2);
size_t len1 = strlen(s1);
- if(len1 == len2-4 && s2[len2-2] == '_' && s2[len2-1] == '_') {
+ if (len1 == len2-4 && s2[len2-2] == '_' && s2[len2-1] == '_') {
return strncmp(s1, s2+2, len2-4);
}
}
add_anchor_token(',');
while(true){
expression = parse_constant_expression();
- if(token.type != ',')
+ if (token.type != ',')
break;
next_token();
}
string_t *string)
{
add_anchor_token('(');
- if(token.type != T_STRING_LITERAL) {
+ if (token.type != T_STRING_LITERAL) {
parse_error_expected("while parsing attribute directive",
T_STRING_LITERAL, NULL);
goto end_error;
};
string_t string = { NULL, 0 };
parse_gnu_attribute_string_arg(attribute, &string);
- if(string.begin != NULL) {
+ if (string.begin != NULL) {
for(size_t i = 0; i < 4; ++i) {
- if(strcmp(tls_models[i], string.begin) == 0) {
+ if (strcmp(tls_models[i], string.begin) == 0) {
attribute->u.value = i;
return;
}
};
string_t string = { NULL, 0 };
parse_gnu_attribute_string_arg(attribute, &string);
- if(string.begin != NULL) {
+ if (string.begin != NULL) {
for(size_t i = 0; i < 4; ++i) {
- if(strcmp(visibilities[i], string.begin) == 0) {
+ if (strcmp(visibilities[i], string.begin) == 0) {
attribute->u.value = i;
return;
}
};
string_t string = { NULL, 0 };
parse_gnu_attribute_string_arg(attribute, &string);
- if(string.begin != NULL) {
+ if (string.begin != NULL) {
for(int i = 0; i < 3; ++i) {
- if(strcmp(visibilities[i], string.begin) == 0) {
+ if (strcmp(visibilities[i], string.begin) == 0) {
attribute->u.value = i;
return;
}
/* at least: byte, word, pointer, list of machine modes
* __XXX___ is interpreted as XXX */
add_anchor_token(')');
- expect(T_IDENTIFIER);
+
+ if (token.type != T_IDENTIFIER) {
+ expect(T_IDENTIFIER);
+ }
+
+ /* This isn't really correct, the backend should provide a list of machine
+ * specific modes (according to gcc philosophy that is...) */
+ const char *symbol_str = token.v.symbol->string;
+ if (strcmp_underscore("QI", symbol_str) == 0 ||
+ strcmp_underscore("byte", symbol_str) == 0) {
+ attribute->u.akind = ATOMIC_TYPE_CHAR;
+ } else if (strcmp_underscore("HI", symbol_str) == 0) {
+ attribute->u.akind = ATOMIC_TYPE_SHORT;
+ } else if (strcmp_underscore("SI", symbol_str) == 0
+ || strcmp_underscore("word", symbol_str) == 0
+ || strcmp_underscore("pointer", symbol_str) == 0) {
+ attribute->u.akind = ATOMIC_TYPE_INT;
+ } else if (strcmp_underscore("DI", symbol_str) == 0) {
+ attribute->u.akind = ATOMIC_TYPE_LONGLONG;
+ } else {
+ warningf(HERE, "ignoring unknown mode '%s'", symbol_str);
+ attribute->invalid = true;
+ }
+ next_token();
+
rem_anchor_token(')');
expect(')');
return;
};
string_t string = { NULL, 0 };
parse_gnu_attribute_string_arg(attribute, &string);
- if(string.begin != NULL) {
+ if (string.begin != NULL) {
for(size_t i = 0; i < 5; ++i) {
- if(strcmp(interrupts[i], string.begin) == 0) {
+ if (strcmp(interrupts[i], string.begin) == 0) {
attribute->u.value = i;
return;
}
};
int i;
- if(token.type != T_IDENTIFIER) {
+ if (token.type != T_IDENTIFIER) {
parse_error_expected("while parsing format attribute directive", T_IDENTIFIER, NULL);
goto end_error;
}
const char *name = token.v.symbol->string;
for(i = 0; i < 4; ++i) {
- if(strcmp_underscore(format_names[i], name) == 0)
+ if (strcmp_underscore(format_names[i], name) == 0)
break;
}
- if(i >= 4) {
- if(warning.attribute)
+ if (i >= 4) {
+ if (warning.attribute)
warningf(HERE, "'%s' is an unrecognized format function type", name);
}
next_token();
static void check_no_argument(gnu_attribute_t *attribute, const char *name)
{
- if(!attribute->have_arguments)
+ if (!attribute->have_arguments)
return;
/* should have no arguments */
expect('(');
expect('(');
- if(token.type != ')') {
+ if (token.type != ')') {
/* find the end of the list */
- if(last != NULL) {
+ if (last != NULL) {
while(last->next != NULL)
last = last->next;
}
const char *name;
if (token.type == T_const) {
name = "const";
- } else if(token.type == T_volatile) {
+ } else if (token.type == T_volatile) {
name = "volatile";
- } else if(token.type == T_cdecl) {
+ } else if (token.type == T_cdecl) {
/* __attribute__((cdecl)), WITH ms mode */
name = "cdecl";
} else if (token.type == T_IDENTIFIER) {
int i;
for(i = 0; i < GNU_AK_LAST; ++i) {
- if(strcmp_underscore(gnu_attribute_names[i], name) == 0)
+ if (strcmp_underscore(gnu_attribute_names[i], name) == 0)
break;
}
gnu_attribute_kind_t kind = (gnu_attribute_kind_t)i;
attribute = NULL;
- if(kind == GNU_AK_LAST) {
- if(warning.attribute)
+ if (kind == GNU_AK_LAST) {
+ if (warning.attribute)
warningf(HERE, "'%s' attribute directive ignored", name);
/* skip possible arguments */
- if(token.type == '(') {
+ if (token.type == '(') {
eat_until_matching_token(')');
}
} else {
/* check for arguments */
attribute = allocate_gnu_attribute(kind);
- if(token.type == '(') {
+ if (token.type == '(') {
next_token();
- if(token.type == ')') {
+ if (token.type == ')') {
/* empty args are allowed */
next_token();
} else
switch(kind) {
case GNU_AK_CONST:
case GNU_AK_VOLATILE:
- case GNU_AK_CDECL:
- case GNU_AK_STDCALL:
- case GNU_AK_FASTCALL:
case GNU_AK_DEPRECATED:
case GNU_AK_NAKED:
case GNU_AK_MALLOC:
case GNU_AK_NOCOMMON:
case GNU_AK_SHARED:
case GNU_AK_NOTSHARED:
- case GNU_AK_USED:
case GNU_AK_UNUSED:
case GNU_AK_NO_INSTRUMENT_FUNCTION:
case GNU_AK_WARN_UNUSED_RESULT:
case GNU_AK_MAY_ALIAS:
case GNU_AK_MS_STRUCT:
case GNU_AK_GCC_STRUCT:
- check_no_argument(attribute, name);
- break;
-
- case GNU_AK_PURE:
- check_no_argument(attribute, name);
- modifiers |= DM_PURE;
- break;
-
- case GNU_AK_ALWAYS_INLINE:
- check_no_argument(attribute, name);
- modifiers |= DM_FORCEINLINE;
- break;
-
- case GNU_AK_DLLIMPORT:
- check_no_argument(attribute, name);
- modifiers |= DM_DLLIMPORT;
- break;
-
- case GNU_AK_DLLEXPORT:
- check_no_argument(attribute, name);
- modifiers |= DM_DLLEXPORT;
- break;
-
- case GNU_AK_PACKED:
- check_no_argument(attribute, name);
- modifiers |= DM_PACKED;
- break;
-
- case GNU_AK_NOINLINE:
- check_no_argument(attribute, name);
- modifiers |= DM_NOINLINE;
- break;
-
- case GNU_AK_NORETURN:
- check_no_argument(attribute, name);
- modifiers |= DM_NORETURN;
- break;
-
- case GNU_AK_NOTHROW:
- check_no_argument(attribute, name);
- modifiers |= DM_NOTHROW;
- break;
-
- case GNU_AK_TRANSPARENT_UNION:
- check_no_argument(attribute, name);
- modifiers |= DM_TRANSPARENT_UNION;
- break;
-
- case GNU_AK_CONSTRUCTOR:
- check_no_argument(attribute, name);
- modifiers |= DM_CONSTRUCTOR;
- break;
-
- case GNU_AK_DESTRUCTOR:
- check_no_argument(attribute, name);
- modifiers |= DM_DESTRUCTOR;
- break;
+ goto no_arg;
+
+ case GNU_AK_CDECL: modifiers |= DM_CDECL; goto no_arg;
+ case GNU_AK_FASTCALL: modifiers |= DM_FASTCALL; goto no_arg;
+ case GNU_AK_STDCALL: modifiers |= DM_STDCALL; goto no_arg;
+ case GNU_AK_USED: modifiers |= DM_USED; goto no_arg;
+ case GNU_AK_PURE: modifiers |= DM_PURE; goto no_arg;
+ case GNU_AK_ALWAYS_INLINE: modifiers |= DM_FORCEINLINE; goto no_arg;
+ case GNU_AK_DLLIMPORT: modifiers |= DM_DLLIMPORT; goto no_arg;
+ case GNU_AK_DLLEXPORT: modifiers |= DM_DLLEXPORT; goto no_arg;
+ case GNU_AK_PACKED: modifiers |= DM_PACKED; goto no_arg;
+ case GNU_AK_NOINLINE: modifiers |= DM_NOINLINE; goto no_arg;
+ case GNU_AK_NORETURN: modifiers |= DM_NORETURN; goto no_arg;
+ case GNU_AK_NOTHROW: modifiers |= DM_NOTHROW; goto no_arg;
+ case GNU_AK_TRANSPARENT_UNION: modifiers |= DM_TRANSPARENT_UNION; goto no_arg;
+ case GNU_AK_CONSTRUCTOR: modifiers |= DM_CONSTRUCTOR; goto no_arg;
+ case GNU_AK_DESTRUCTOR: modifiers |= DM_DESTRUCTOR; goto no_arg;
case GNU_AK_ALIGNED:
/* __align__ may be used without an argument */
case GNU_AK_FORMAT_ARG:
case GNU_AK_REGPARM:
case GNU_AK_TRAP_EXIT:
- if(!attribute->have_arguments) {
+ if (!attribute->have_arguments) {
/* should have arguments */
errorf(HERE, "wrong number of arguments specified for '%s' attribute", name);
attribute->invalid = true;
case GNU_AK_ALIAS:
case GNU_AK_SECTION:
case GNU_AK_SP_SWITCH:
- if(!attribute->have_arguments) {
+ if (!attribute->have_arguments) {
/* should have arguments */
errorf(HERE, "wrong number of arguments specified for '%s' attribute", name);
attribute->invalid = true;
parse_gnu_attribute_string_arg(attribute, &attribute->u.string);
break;
case GNU_AK_FORMAT:
- if(!attribute->have_arguments) {
+ if (!attribute->have_arguments) {
/* should have arguments */
errorf(HERE, "wrong number of arguments specified for '%s' attribute", name);
attribute->invalid = true;
break;
case GNU_AK_WEAKREF:
/* may have one string argument */
- if(attribute->have_arguments)
+ if (attribute->have_arguments)
parse_gnu_attribute_string_arg(attribute, &attribute->u.string);
break;
case GNU_AK_NONNULL:
- if(attribute->have_arguments)
+ if (attribute->have_arguments)
parse_gnu_attribute_const_arg_list(attribute);
break;
case GNU_AK_TLS_MODEL:
- if(!attribute->have_arguments) {
+ if (!attribute->have_arguments) {
/* should have arguments */
errorf(HERE, "wrong number of arguments specified for '%s' attribute", name);
} else
parse_gnu_attribute_tls_model_arg(attribute);
break;
case GNU_AK_VISIBILITY:
- if(!attribute->have_arguments) {
+ if (!attribute->have_arguments) {
/* should have arguments */
errorf(HERE, "wrong number of arguments specified for '%s' attribute", name);
} else
parse_gnu_attribute_visibility_arg(attribute);
break;
case GNU_AK_MODEL:
- if(!attribute->have_arguments) {
+ if (!attribute->have_arguments) {
/* should have arguments */
errorf(HERE, "wrong number of arguments specified for '%s' attribute", name);
} else {
}
break;
case GNU_AK_MODE:
- if(!attribute->have_arguments) {
+ if (!attribute->have_arguments) {
/* should have arguments */
errorf(HERE, "wrong number of arguments specified for '%s' attribute", name);
} else {
break;
case GNU_AK_INTERRUPT:
/* may have one string argument */
- if(attribute->have_arguments)
+ if (attribute->have_arguments)
parse_gnu_attribute_interrupt_arg(attribute);
break;
case GNU_AK_SENTINEL:
/* may have one string argument */
- if(attribute->have_arguments)
+ if (attribute->have_arguments)
parse_gnu_attribute_const_arg(attribute);
break;
case GNU_AK_LAST:
/* already handled */
break;
+
+no_arg:
+ check_no_argument(attribute, name);
}
}
- if(attribute != NULL) {
- if(last != NULL) {
+ if (attribute != NULL) {
+ if (last != NULL) {
last->next = attribute;
last = attribute;
} else {
}
}
- if(token.type != ',')
+ if (token.type != ',')
break;
next_token();
}
while(true) {
switch(token.type) {
- case T___attribute__: {
+ case T___attribute__:
modifiers |= parse_gnu_attribute(attributes);
- break;
- }
+ continue;
+
case T_asm:
next_token();
expect('(');
- if(token.type != T_STRING_LITERAL) {
+ if (token.type != T_STRING_LITERAL) {
parse_error_expected("while parsing assembler attribute",
T_STRING_LITERAL, NULL);
eat_until_matching_token('(');
parse_string_literals();
}
expect(')');
+ continue;
+
+ case T_cdecl: modifiers |= DM_CDECL; break;
+ case T__fastcall: modifiers |= DM_FASTCALL; break;
+ case T__stdcall: modifiers |= DM_STDCALL; break;
+
+ case T___thiscall:
+ /* TODO record modifier */
+ warningf(HERE, "Ignoring declaration modifier %K", &token);
break;
- default:
- goto attributes_finished;
- }
- }
-attributes_finished:
end_error:
- return modifiers;
+ default: return modifiers;
+ }
+
+ next_token();
+ }
}
static designator_t *parse_designation(void)
designator = allocate_ast_zero(sizeof(designator[0]));
designator->source_position = token.source_position;
next_token();
- if(token.type != T_IDENTIFIER) {
+ if (token.type != T_IDENTIFIER) {
parse_error_expected("while parsing designator",
T_IDENTIFIER, NULL);
return NULL;
}
assert(designator != NULL);
- if(last != NULL) {
+ if (last != NULL) {
last->next = designator;
} else {
result = designator;
{
/* there might be extra {} hierarchies */
int braces = 0;
- while(token.type == '{') {
- next_token();
- if(braces == 0) {
- warningf(HERE, "extra curly braces around scalar initializer");
- }
- braces++;
+ if (token.type == '{') {
+ warningf(HERE, "extra curly braces around scalar initializer");
+ do {
+ ++braces;
+ next_token();
+ } while (token.type == '{');
}
expression_t *expression = parse_assignment_expression();
- if(must_be_constant && !is_initializer_constant(expression)) {
+ if (must_be_constant && !is_initializer_constant(expression)) {
errorf(&expression->base.source_position,
"Initialisation expression '%E' is not constant\n",
expression);
initializer_t *initializer = initializer_from_expression(type, expression);
- if(initializer == NULL) {
+ if (initializer == NULL) {
errorf(&expression->base.source_position,
"expression '%E' (type '%T') doesn't match expected type '%T'",
expression, expression->base.type, type);
bool additional_warning_displayed = false;
while(braces > 0) {
- if(token.type == ',') {
+ if (token.type == ',') {
next_token();
}
- if(token.type != '}') {
- if(!additional_warning_displayed) {
+ if (token.type != '}') {
+ if (!additional_warning_displayed) {
warningf(HERE, "additional elements in scalar initializer");
additional_warning_displayed = true;
}
const type_path_entry_t *entry = & path->path[i];
type_t *type = skip_typeref(entry->type);
- if(is_type_compound(type)) {
+ if (is_type_compound(type)) {
/* in gcc mode structs can have no members */
- if(entry->v.compound_entry == NULL) {
+ if (entry->v.compound_entry == NULL) {
assert(i == len-1);
continue;
}
fprintf(stderr, ".%s", entry->v.compound_entry->symbol->string);
- } else if(is_type_array(type)) {
+ } else if (is_type_array(type)) {
fprintf(stderr, "[%zd]", entry->v.index);
} else {
fprintf(stderr, "-INVALID-");
}
}
- if(path->top_type != NULL) {
+ if (path->top_type != NULL) {
fprintf(stderr, " (");
print_type(path->top_type);
fprintf(stderr, ")");
type_path_entry_t *top = append_to_type_path(path);
top->type = top_type;
- if(is_type_compound(top_type)) {
+ if (is_type_compound(top_type)) {
declaration_t *declaration = top_type->compound.declaration;
declaration_t *entry = declaration->scope.declarations;
top->v.compound_entry = entry;
- if(entry != NULL) {
+ if (entry != NULL) {
path->top_type = entry->type;
} else {
path->top_type = NULL;
type_t *type = skip_typeref(orig_type);
- if(designator->symbol != NULL) {
+ if (designator->symbol != NULL) {
symbol_t *symbol = designator->symbol;
- if(!is_type_compound(type)) {
- if(is_type_valid(type)) {
+ if (!is_type_compound(type)) {
+ if (is_type_valid(type)) {
errorf(&designator->source_position,
"'.%Y' designator used for non-compound type '%T'",
symbol, orig_type);
declaration_t *declaration = type->compound.declaration;
declaration_t *iter = declaration->scope.declarations;
for( ; iter != NULL; iter = iter->next) {
- if(iter->symbol == symbol) {
+ if (iter->symbol == symbol) {
break;
}
}
- if(iter == NULL) {
+ if (iter == NULL) {
errorf(&designator->source_position,
"'%T' has no member named '%Y'", orig_type, symbol);
goto failed;
}
- if(used_in_offsetof) {
+ if (used_in_offsetof) {
type_t *real_type = skip_typeref(iter->type);
- if(real_type->kind == TYPE_BITFIELD) {
+ if (real_type->kind == TYPE_BITFIELD) {
errorf(&designator->source_position,
"offsetof designator '%Y' may not specify bitfield",
symbol);
expression_t *array_index = designator->array_index;
assert(designator->array_index != NULL);
- if(!is_type_array(type)) {
- if(is_type_valid(type)) {
+ if (!is_type_array(type)) {
+ if (is_type_valid(type)) {
errorf(&designator->source_position,
"[%E] designator used for non-array type '%T'",
array_index, orig_type);
}
goto failed;
}
- if(!is_type_valid(array_index->base.type)) {
+ if (!is_type_valid(array_index->base.type)) {
goto failed;
}
long index = fold_constant(array_index);
- if(!used_in_offsetof) {
- if(index < 0) {
+ if (!used_in_offsetof) {
+ if (index < 0) {
errorf(&designator->source_position,
"array index [%E] must be positive", array_index);
goto failed;
}
- if(type->array.size_constant == true) {
+ if (type->array.size_constant == true) {
long array_size = type->array.size;
- if(index >= array_size) {
+ if (index >= array_size) {
errorf(&designator->source_position,
"designator [%E] (%d) exceeds array size %d",
array_index, index, array_size);
}
path->top_type = orig_type;
- if(designator->next != NULL) {
+ if (designator->next != NULL) {
descend_into_subtype(path);
}
}
type_path_entry_t *top = get_type_path_top(path);
type_t *type = skip_typeref(top->type);
- if(is_type_union(type)) {
+ if (is_type_union(type)) {
/* in unions only the first element is initialized */
top->v.compound_entry = NULL;
- } else if(is_type_struct(type)) {
+ } else if (is_type_struct(type)) {
declaration_t *entry = top->v.compound_entry;
entry = entry->next;
top->v.compound_entry = entry;
- if(entry != NULL) {
+ if (entry != NULL) {
path->top_type = entry->type;
return;
}
top->v.index++;
- if(!type->array.size_constant || top->v.index < type->array.size) {
+ if (!type->array.size_constant || top->v.index < type->array.size) {
return;
}
}
* can ascend in the type hierarchy and continue with another subobject */
size_t len = ARR_LEN(path->path);
- if(len > top_path_level) {
+ if (len > top_path_level) {
ascend_from_subtype(path);
advance_current_object(path, top_path_level);
} else {
*/
static void skip_until(int type) {
while(token.type != type) {
- if(token.type == T_EOF)
+ if (token.type == T_EOF)
return;
next_token();
}
*/
static void skip_initializers(void)
{
- if(token.type == '{')
+ if (token.type == '{')
next_token();
while(token.type != '}') {
- if(token.type == T_EOF)
+ if (token.type == T_EOF)
return;
- if(token.type == '{') {
+ if (token.type == '{') {
eat_block();
continue;
}
type_t *outer_type, size_t top_path_level,
parse_initializer_env_t *env)
{
- if(token.type == '}') {
+ if (token.type == '}') {
/* empty initializer */
return create_empty_initializer();
}
/* we can't do usefull stuff if we didn't even parse the type. Skip the
* initializers in this case. */
- if(!is_type_valid(type)) {
+ if (!is_type_valid(type)) {
skip_initializers();
return create_empty_initializer();
}
while(true) {
designator_t *designator = NULL;
- if(token.type == '.' || token.type == '[') {
+ if (token.type == '.' || token.type == '[') {
designator = parse_designation();
/* reset path to toplevel, evaluate designator from there */
ascend_to(path, top_path_level);
- if(!walk_designator(path, designator, false)) {
+ if (!walk_designator(path, designator, false)) {
/* can't continue after designation error */
goto end_error;
}
initializer_t *sub;
- if(token.type == '{') {
- if(type != NULL && is_type_scalar(type)) {
+ if (token.type == '{') {
+ if (type != NULL && is_type_scalar(type)) {
sub = parse_scalar_initializer(type, env->must_be_constant);
} else {
eat('{');
- if(type == NULL) {
- if (env->declaration != NULL)
+ if (type == NULL) {
+ if (env->declaration != NULL) {
errorf(HERE, "extra brace group at end of initializer for '%Y'",
- env->declaration->symbol);
- else
- errorf(HERE, "extra brace group at end of initializer");
+ env->declaration->symbol);
+ } else {
+ errorf(HERE, "extra brace group at end of initializer");
+ }
} else
descend_into_subtype(path);
env);
rem_anchor_token('}');
- if(type != NULL) {
+ if (type != NULL) {
ascend_from_subtype(path);
expect('}');
} else {
/* must be an expression */
expression_t *expression = parse_assignment_expression();
- if(env->must_be_constant && !is_initializer_constant(expression)) {
+ if (env->must_be_constant && !is_initializer_constant(expression)) {
errorf(&expression->base.source_position,
"Initialisation expression '%E' is not constant\n",
expression);
}
- if(type == NULL) {
+ if (type == NULL) {
/* we are already outside, ... */
goto error_excess;
}
/* handle { "string" } special case */
- if((expression->kind == EXPR_STRING_LITERAL
+ if ((expression->kind == EXPR_STRING_LITERAL
|| expression->kind == EXPR_WIDE_STRING_LITERAL)
&& outer_type != NULL) {
sub = initializer_from_expression(outer_type, expression);
- if(sub != NULL) {
- if(token.type == ',') {
+ if (sub != NULL) {
+ if (token.type == ',') {
next_token();
}
- if(token.type != '}') {
+ if (token.type != '}') {
warningf(HERE, "excessive elements in initializer for type '%T'",
orig_type);
}
type = skip_typeref(orig_type);
sub = initializer_from_expression(orig_type, expression);
- if(sub != NULL) {
+ if (sub != NULL) {
break;
}
- if(!is_type_valid(type)) {
+ if (!is_type_valid(type)) {
goto end_error;
}
- if(is_type_scalar(type)) {
+ if (is_type_scalar(type)) {
errorf(&expression->base.source_position,
"expression '%E' doesn't match expected type '%T'",
expression, orig_type);
const type_path_entry_t *first = &path->path[0];
type_t *first_type = first->type;
first_type = skip_typeref(first_type);
- if(is_type_array(first_type)) {
+ if (is_type_array(first_type)) {
size_t index = first->v.index;
- if(index > path->max_index)
+ if (index > path->max_index)
path->max_index = index;
}
- if(type != NULL) {
+ if (type != NULL) {
/* append to initializers list */
ARR_APP1(initializer_t*, initializers, sub);
} else {
error_excess:
- if(env->declaration != NULL)
+ if (env->declaration != NULL)
warningf(HERE, "excess elements in struct initializer for '%Y'",
env->declaration->symbol);
else
}
error_parse_next:
- if(token.type == '}') {
+ if (token.type == '}') {
break;
}
expect(',');
- if(token.type == '}') {
+ if (token.type == '}') {
break;
}
- if(type != NULL) {
+ if (type != NULL) {
/* advance to the next declaration if we are not at the end */
advance_current_object(path, top_path_level);
orig_type = path->top_type;
- if(orig_type != NULL)
+ if (orig_type != NULL)
type = skip_typeref(orig_type);
else
type = NULL;
initializer_t *result = NULL;
size_t max_index;
- if(is_type_scalar(type)) {
+ if (is_type_scalar(type)) {
result = parse_scalar_initializer(type, env->must_be_constant);
- } else if(token.type == '{') {
+ } else if (token.type == '{') {
eat('{');
type_path_t path;
/* ยง 6.7.5 (22) array initializers for arrays with unknown size determine
* the array type size */
- if(is_type_array(type) && type->array.size_expression == NULL
+ if (is_type_array(type) && type->array.size_expression == NULL
&& result != NULL) {
size_t size;
switch (result->kind) {
{
gnu_attribute_t *attributes = NULL;
decl_modifiers_t modifiers = 0;
- if(is_struct) {
+ if (is_struct) {
eat(T_struct);
} else {
eat(T_union);
modifiers |= parse_attributes(&attributes);
}
- if(token.type == T_IDENTIFIER) {
+ if (token.type == T_IDENTIFIER) {
symbol = token.v.symbol;
next_token();
- if(is_struct) {
- declaration = get_declaration(symbol, NAMESPACE_STRUCT);
- } else {
- declaration = get_declaration(symbol, NAMESPACE_UNION);
+ namespace_t const namespc =
+ is_struct ? NAMESPACE_STRUCT : NAMESPACE_UNION;
+ declaration = get_declaration(symbol, namespc);
+ if (declaration != NULL) {
+ if (declaration->parent_scope != scope &&
+ (token.type == '{' || token.type == ';')) {
+ declaration = NULL;
+ } else if (declaration->init.complete &&
+ token.type == '{') {
+ assert(symbol != NULL);
+ errorf(HERE, "multiple definitions of '%s %Y' (previous definition at %P)",
+ is_struct ? "struct" : "union", symbol,
+ &declaration->source_position);
+ declaration->scope.declarations = NULL;
+ }
}
- } else if(token.type != '{') {
- if(is_struct) {
+ } else if (token.type != '{') {
+ if (is_struct) {
parse_error_expected("while parsing struct type specifier",
T_IDENTIFIER, '{', NULL);
} else {
return NULL;
}
- if(declaration == NULL) {
+ if (declaration == NULL) {
declaration = allocate_declaration_zero();
declaration->namespc =
(is_struct ? NAMESPACE_STRUCT : NAMESPACE_UNION);
append_declaration(declaration);
}
- if(token.type == '{') {
- if (declaration->init.complete) {
- assert(symbol != NULL);
- errorf(HERE, "multiple definitions of '%s %Y' (previous definition at %P)",
- is_struct ? "struct" : "union", symbol,
- &declaration->source_position);
- declaration->scope.declarations = NULL;
- }
+ if (token.type == '{') {
declaration->init.complete = true;
parse_compound_type_entries(declaration);
{
eat('{');
- if(token.type == '}') {
+ if (token.type == '}') {
next_token();
errorf(HERE, "empty enum not allowed");
return;
add_anchor_token('}');
do {
- if(token.type != T_IDENTIFIER) {
+ if (token.type != T_IDENTIFIER) {
parse_error_expected("while parsing enum entry", T_IDENTIFIER, NULL);
eat_block();
rem_anchor_token('}');
entry->source_position = token.source_position;
next_token();
- if(token.type == '=') {
+ if (token.type == '=') {
next_token();
expression_t *value = parse_constant_expression();
record_declaration(entry);
- if(token.type != ',')
+ if (token.type != ',')
break;
next_token();
} while(token.type != '}');
symbol_t *symbol;
eat(T_enum);
- if(token.type == T_IDENTIFIER) {
+ if (token.type == T_IDENTIFIER) {
symbol = token.v.symbol;
next_token();
declaration = get_declaration(symbol, NAMESPACE_ENUM);
- } else if(token.type != '{') {
+ } else if (token.type != '{') {
parse_error_expected("while parsing enum type specifier",
T_IDENTIFIER, '{', NULL);
return NULL;
symbol = NULL;
}
- if(declaration == NULL) {
+ if (declaration == NULL) {
declaration = allocate_declaration_zero();
declaration->namespc = NAMESPACE_ENUM;
declaration->source_position = token.source_position;
type_t *const type = allocate_type_zero(TYPE_ENUM, &declaration->source_position);
type->enumt.declaration = declaration;
- if(token.type == '{') {
- if(declaration->init.complete) {
+ if (token.type == '{') {
+ if (declaration->init.complete) {
errorf(HERE, "multiple definitions of enum %Y", symbol);
}
if (symbol != NULL) {
goto restart;
case T_IDENTIFIER:
- if(is_typedef_symbol(token.v.symbol)) {
+ if (is_typedef_symbol(token.v.symbol)) {
type = parse_typename();
} else {
expression = parse_expression();
type->builtin.real_type = real_type;
type_t *result = typehash_insert(type);
- if(type != result) {
+ if (type != result) {
free_type(type);
}
static type_t *get_typedef_type(symbol_t *symbol)
{
declaration_t *declaration = get_declaration(symbol, NAMESPACE_NORMAL);
- if(declaration == NULL ||
+ if (declaration == NULL ||
declaration->storage_class != STORAGE_CLASS_TYPEDEF)
return NULL;
* check for the allowed MS alignment values.
*/
static bool check_elignment_value(long long intvalue) {
- if(intvalue < 1 || intvalue > 8192) {
+ if (intvalue < 1 || intvalue > 8192) {
errorf(HERE, "illegal alignment value");
return false;
}
}
#define DET_MOD(name, tag) do { \
- if(*modifiers & tag) warningf(HERE, #name " used more than once"); \
+ if (*modifiers & tag) warningf(HERE, #name " used more than once"); \
*modifiers |= tag; \
} while(0)
decl_modifiers_t *modifiers = &specifiers->modifiers;
while(true) {
- if(token.type == T_restrict) {
+ if (token.type == T_restrict) {
next_token();
DET_MOD(restrict, DM_RESTRICT);
goto end_loop;
- } else if(token.type != T_IDENTIFIER)
+ } else if (token.type != T_IDENTIFIER)
break;
symbol_t *symbol = token.v.symbol;
- if(symbol == sym_align) {
+ if (symbol == sym_align) {
next_token();
expect('(');
- if(token.type != T_INTEGER)
+ if (token.type != T_INTEGER)
goto end_error;
- if(check_elignment_value(token.v.intvalue)) {
- if(specifiers->alignment != 0)
+ if (check_elignment_value(token.v.intvalue)) {
+ if (specifiers->alignment != 0)
warningf(HERE, "align used more than once");
specifiers->alignment = (unsigned char)token.v.intvalue;
}
next_token();
expect(')');
- } else if(symbol == sym_allocate) {
+ } else if (symbol == sym_allocate) {
next_token();
expect('(');
- if(token.type != T_IDENTIFIER)
+ if (token.type != T_IDENTIFIER)
goto end_error;
(void)token.v.symbol;
expect(')');
- } else if(symbol == sym_dllimport) {
+ } else if (symbol == sym_dllimport) {
next_token();
DET_MOD(dllimport, DM_DLLIMPORT);
- } else if(symbol == sym_dllexport) {
+ } else if (symbol == sym_dllexport) {
next_token();
DET_MOD(dllexport, DM_DLLEXPORT);
- } else if(symbol == sym_thread) {
+ } else if (symbol == sym_thread) {
next_token();
DET_MOD(thread, DM_THREAD);
- } else if(symbol == sym_naked) {
+ } else if (symbol == sym_naked) {
next_token();
DET_MOD(naked, DM_NAKED);
- } else if(symbol == sym_noinline) {
+ } else if (symbol == sym_noinline) {
next_token();
DET_MOD(noinline, DM_NOINLINE);
- } else if(symbol == sym_noreturn) {
+ } else if (symbol == sym_noreturn) {
next_token();
DET_MOD(noreturn, DM_NORETURN);
- } else if(symbol == sym_nothrow) {
+ } else if (symbol == sym_nothrow) {
next_token();
DET_MOD(nothrow, DM_NOTHROW);
- } else if(symbol == sym_novtable) {
+ } else if (symbol == sym_novtable) {
next_token();
DET_MOD(novtable, DM_NOVTABLE);
- } else if(symbol == sym_property) {
+ } else if (symbol == sym_property) {
next_token();
expect('(');
for(;;) {
bool is_get = false;
- if(token.type != T_IDENTIFIER)
+ if (token.type != T_IDENTIFIER)
goto end_error;
- if(token.v.symbol == sym_get) {
+ if (token.v.symbol == sym_get) {
is_get = true;
- } else if(token.v.symbol == sym_put) {
+ } else if (token.v.symbol == sym_put) {
} else {
errorf(HERE, "Bad property name '%Y'", token.v.symbol);
goto end_error;
}
next_token();
expect('=');
- if(token.type != T_IDENTIFIER)
+ if (token.type != T_IDENTIFIER)
goto end_error;
- if(is_get) {
- if(specifiers->get_property_sym != NULL) {
+ if (is_get) {
+ if (specifiers->get_property_sym != NULL) {
errorf(HERE, "get property name already specified");
} else {
specifiers->get_property_sym = token.v.symbol;
}
} else {
- if(specifiers->put_property_sym != NULL) {
+ if (specifiers->put_property_sym != NULL) {
errorf(HERE, "put property name already specified");
} else {
specifiers->put_property_sym = token.v.symbol;
}
}
next_token();
- if(token.type == ',') {
+ if (token.type == ',') {
next_token();
continue;
}
break;
}
expect(')');
- } else if(symbol == sym_selectany) {
+ } else if (symbol == sym_selectany) {
next_token();
DET_MOD(selectany, DM_SELECTANY);
- } else if(symbol == sym_uuid) {
+ } else if (symbol == sym_uuid) {
next_token();
expect('(');
- if(token.type != T_STRING_LITERAL)
+ if (token.type != T_STRING_LITERAL)
goto end_error;
next_token();
expect(')');
- } else if(symbol == sym_deprecated) {
+ } else if (symbol == sym_deprecated) {
next_token();
- if(specifiers->deprecated != 0)
+ if (specifiers->deprecated != 0)
warningf(HERE, "deprecated used more than once");
specifiers->deprecated = 1;
- if(token.type == '(') {
+ if (token.type == '(') {
next_token();
- if(token.type == T_STRING_LITERAL) {
+ if (token.type == T_STRING_LITERAL) {
specifiers->deprecated_string = token.v.string.begin;
next_token();
} else {
}
expect(')');
}
- } else if(symbol == sym_noalias) {
+ } else if (symbol == sym_noalias) {
next_token();
DET_MOD(noalias, DM_NOALIAS);
} else {
warningf(HERE, "Unknown modifier %Y ignored", token.v.symbol);
next_token();
- if(token.type == '(')
+ if (token.type == '(')
skip_until(')');
}
end_loop:
specifiers->source_position = token.source_position;
while(true) {
+ specifiers->modifiers
+ |= parse_attributes(&specifiers->gnu_attributes);
+ if (specifiers->modifiers & DM_TRANSPARENT_UNION)
+ modifiers |= TYPE_MODIFIER_TRANSPARENT_UNION;
+
switch(token.type) {
/* storage class */
#define MATCH_STORAGE_CLASS(token, class) \
case token: \
- if(specifiers->declared_storage_class != STORAGE_CLASS_NONE) { \
+ if (specifiers->declared_storage_class != STORAGE_CLASS_NONE) { \
errorf(HERE, "multiple storage classes in declaration specifiers"); \
} \
specifiers->declared_storage_class = class; \
#define MATCH_SPECIFIER(token, specifier, name) \
case token: \
next_token(); \
- if(type_specifiers & specifier) { \
+ if (type_specifiers & specifier) { \
errorf(HERE, "multiple " name " type specifiers given"); \
} else { \
type_specifiers |= specifier; \
case T_long:
next_token();
- if(type_specifiers & SPECIFIER_LONG_LONG) {
+ if (type_specifiers & SPECIFIER_LONG_LONG) {
errorf(HERE, "multiple type specifiers given");
- } else if(type_specifiers & SPECIFIER_LONG) {
+ } else if (type_specifiers & SPECIFIER_LONG) {
type_specifiers |= SPECIFIER_LONG_LONG;
} else {
type_specifiers |= SPECIFIER_LONG;
next_token();
break;
- case T___attribute__:
- specifiers->modifiers
- |= parse_attributes(&specifiers->gnu_attributes);
- if (specifiers->modifiers & DM_TRANSPARENT_UNION)
- modifiers |= TYPE_MODIFIER_TRANSPARENT_UNION;
- break;
-
case T_IDENTIFIER: {
/* only parse identifier if we haven't found a type yet */
- if(type != NULL || type_specifiers != 0)
+ if (type != NULL || type_specifiers != 0)
goto finish_specifiers;
type_t *typedef_type = get_typedef_type(token.v.symbol);
- if(typedef_type == NULL)
+ if (typedef_type == NULL)
goto finish_specifiers;
next_token();
finish_specifiers:
- if(type == NULL) {
+ if (type == NULL) {
atomic_type_kind_t atomic_type;
/* match valid basic types */
break;
default:
/* invalid specifier combination, give an error message */
- if(type_specifiers == 0) {
+ if (type_specifiers == 0) {
if (! strict_mode) {
if (warning.implicit_int) {
warningf(HERE, "no type specifiers in declaration, using 'int'");
} else {
errorf(HERE, "no type specifiers given in declaration");
}
- } else if((type_specifiers & SPECIFIER_SIGNED) &&
+ } else if ((type_specifiers & SPECIFIER_SIGNED) &&
(type_specifiers & SPECIFIER_UNSIGNED)) {
errorf(HERE, "signed and unsigned specifiers gives");
- } else if(type_specifiers & (SPECIFIER_SIGNED | SPECIFIER_UNSIGNED)) {
+ } else if (type_specifiers & (SPECIFIER_SIGNED | SPECIFIER_UNSIGNED)) {
errorf(HERE, "only integer types can be signed or unsigned");
} else {
errorf(HERE, "multiple datatypes in declaration");
atomic_type = ATOMIC_TYPE_INVALID;
}
- if(type_specifiers & SPECIFIER_COMPLEX &&
+ if (type_specifiers & SPECIFIER_COMPLEX &&
atomic_type != ATOMIC_TYPE_INVALID) {
type = allocate_type_zero(TYPE_COMPLEX, &builtin_source_position);
type->complex.akind = atomic_type;
- } else if(type_specifiers & SPECIFIER_IMAGINARY &&
+ } else if (type_specifiers & SPECIFIER_IMAGINARY &&
atomic_type != ATOMIC_TYPE_INVALID) {
type = allocate_type_zero(TYPE_IMAGINARY, &builtin_source_position);
type->imaginary.akind = atomic_type;
}
newtype = 1;
} else {
- if(type_specifiers != 0) {
+ if (type_specifiers != 0) {
errorf(HERE, "multiple datatypes in declaration");
}
}
type->base.modifiers = modifiers;
type_t *result = typehash_insert(type);
- if(newtype && result != type) {
+ if (newtype && result != type) {
free_type(type);
}
declaration->symbol = token.v.symbol;
next_token();
- if(last_declaration != NULL) {
+ if (last_declaration != NULL) {
last_declaration->next = declaration;
} else {
declarations = declaration;
return declarations;
}
+static type_t *automatic_type_conversion(type_t *orig_type);
+
static void semantic_parameter(declaration_t *declaration)
{
/* TODO: improve error messages */
- if(declaration->declared_storage_class == STORAGE_CLASS_TYPEDEF) {
+ if (declaration->declared_storage_class == STORAGE_CLASS_TYPEDEF) {
errorf(HERE, "typedef not allowed in parameter list");
- } else if(declaration->declared_storage_class != STORAGE_CLASS_NONE
+ } else if (declaration->declared_storage_class != STORAGE_CLASS_NONE
&& declaration->declared_storage_class != STORAGE_CLASS_REGISTER) {
errorf(HERE, "parameter may only have none or register storage class");
}
type_t *const orig_type = declaration->type;
- type_t * type = skip_typeref(orig_type);
-
- /* Array as last part of a parameter type is just syntactic sugar. Turn it
- * into a pointer. ยง 6.7.5.3 (7) */
- if (is_type_array(type)) {
- type_t *const element_type = type->array.element_type;
-
- type = make_pointer_type(element_type, type->base.qualifiers);
-
- declaration->type = type;
- }
+ /* ยง6.7.5.3(7): Array as last part of a parameter type is just syntactic
+ * sugar. Turn it into a pointer.
+ * ยง6.7.5.3(8): A declaration of a parameter as ``function returning type''
+ * shall be adjusted to ``pointer to function returning type'', as in 6.3.2.1.
+ */
+ type_t *const type = automatic_type_conversion(orig_type);
+ declaration->type = type;
- if(is_type_incomplete(type)) {
+ if (is_type_incomplete(skip_typeref(type))) {
errorf(HERE, "incomplete type '%T' not allowed for parameter '%Y'",
orig_type, declaration->symbol);
}
add_anchor_token(')');
int saved_comma_state = save_and_reset_anchor_state(',');
- if(token.type == T_IDENTIFIER) {
+ if (token.type == T_IDENTIFIER) {
symbol_t *symbol = token.v.symbol;
- if(!is_typedef_symbol(symbol)) {
+ if (!is_typedef_symbol(symbol)) {
type->kr_style_parameters = true;
declarations = parse_identifier_list();
goto parameters_finished;
}
}
- if(token.type == ')') {
+ if (token.type == ')') {
type->unspecified_parameters = 1;
goto parameters_finished;
}
memset(parameter, 0, sizeof(parameter[0]));
parameter->type = declaration->type;
- if(last_parameter != NULL) {
+ if (last_parameter != NULL) {
last_declaration->next = declaration;
last_parameter->next = parameter;
} else {
memset(array, 0, sizeof(array[0]));
array->construct_type.kind = CONSTRUCT_ARRAY;
- if(token.type == T_static) {
+ if (token.type == T_static) {
array->is_static = true;
next_token();
}
type_qualifiers_t type_qualifiers = parse_type_qualifiers();
- if(type_qualifiers != 0) {
- if(token.type == T_static) {
+ if (type_qualifiers != 0) {
+ if (token.type == T_static) {
array->is_static = true;
next_token();
}
}
array->type_qualifiers = type_qualifiers;
- if(token.type == '*' && look_ahead(1)->type == ']') {
+ if (token.type == '*' && look_ahead(1)->type == ']') {
array->is_variable = true;
next_token();
- } else if(token.type != ']') {
+ } else if (token.type != ']') {
array->size = parse_assignment_expression();
}
static construct_type_t *parse_function_declarator(declaration_t *declaration)
{
type_t *type;
- if(declaration != NULL) {
+ if (declaration != NULL) {
type = allocate_type_zero(TYPE_FUNCTION, &declaration->source_position);
} else {
type = allocate_type_zero(TYPE_FUNCTION, HERE);
}
declaration_t *parameters = parse_parameters(&type->function);
- if(declaration != NULL) {
+ if (declaration != NULL) {
declaration->scope.declarations = parameters;
}
construct_type_t *last = NULL;
gnu_attribute_t *attributes = NULL;
+ decl_modifiers_t modifiers = parse_attributes(&attributes);
+
/* pointers */
while(token.type == '*') {
construct_type_t *type = parse_pointer_declarator();
- if(last == NULL) {
+ if (last == NULL) {
first = type;
last = type;
} else {
last->next = type;
last = type;
}
- }
- /* TODO: find out if this is correct */
- decl_modifiers_t modifiers = parse_attributes(&attributes);
+ /* TODO: find out if this is correct */
+ modifiers |= parse_attributes(&attributes);
+ }
construct_type_t *inner_types = NULL;
switch(token.type) {
case T_IDENTIFIER:
- if(declaration == NULL) {
+ if (declaration == NULL) {
errorf(HERE, "no identifier expected in typename");
} else {
declaration->symbol = token.v.symbol;
expect(')');
break;
default:
- if(may_be_abstract)
+ if (may_be_abstract)
break;
parse_error_expected("while parsing declarator", T_IDENTIFIER, '(', NULL);
/* avoid a loop in the outermost scope, because eat_statement doesn't
* eat '}' */
- if(token.type == '}' && current_function == NULL) {
+ if (token.type == '}' && current_function == NULL) {
next_token();
} else {
eat_statement();
}
/* insert in the middle of the list (behind p) */
- if(p != NULL) {
+ if (p != NULL) {
type->next = p->next;
p->next = type;
} else {
type->next = first;
first = type;
}
- if(last == p) {
+ if (last == p) {
last = type;
}
}
declarator_finished:
- modifiers = parse_attributes(&attributes);
- if (declaration != NULL) {
- declaration->modifiers |= modifiers;
- }
-
/* append inner_types at the end of the list, we don't to set last anymore
* as it's not needed anymore */
- if(last == NULL) {
+ if (last == NULL) {
assert(first == NULL);
first = inner_types;
} else {
return NULL;
}
+static void parse_declaration_attributes(declaration_t *declaration)
+{
+ gnu_attribute_t *attributes = NULL;
+ decl_modifiers_t modifiers = parse_attributes(&attributes);
+
+ if (declaration == NULL)
+ return;
+
+ declaration->modifiers |= modifiers;
+ /* check if we have these stupid mode attributes... */
+ type_t *old_type = declaration->type;
+ if (old_type == NULL)
+ return;
+
+ gnu_attribute_t *attribute = attributes;
+ for ( ; attribute != NULL; attribute = attribute->next) {
+ if (attribute->kind != GNU_AK_MODE || attribute->invalid)
+ continue;
+
+ atomic_type_kind_t akind = attribute->u.akind;
+ if (!is_type_signed(old_type)) {
+ switch(akind) {
+ case ATOMIC_TYPE_CHAR: akind = ATOMIC_TYPE_UCHAR; break;
+ case ATOMIC_TYPE_SHORT: akind = ATOMIC_TYPE_USHORT; break;
+ case ATOMIC_TYPE_INT: akind = ATOMIC_TYPE_UINT; break;
+ case ATOMIC_TYPE_LONGLONG: akind = ATOMIC_TYPE_ULONGLONG; break;
+ default:
+ panic("invalid akind in mode attribute");
+ }
+ }
+ declaration->type
+ = make_atomic_type(akind, old_type->base.qualifiers);
+ }
+}
+
static type_t *construct_declarator_type(construct_type_t *construct_list,
type_t *type)
{
type_t *array_type = allocate_type_zero(TYPE_ARRAY, &null_position);
expression_t *size_expression = parsed_array->size;
- if(size_expression != NULL) {
+ if (size_expression != NULL) {
size_expression
= create_implicit_cast(size_expression, type_size_t);
}
array_type->array.is_variable = parsed_array->is_variable;
array_type->array.size_expression = size_expression;
- if(size_expression != NULL) {
- if(is_constant_expression(size_expression)) {
+ if (size_expression != NULL) {
+ if (is_constant_expression(size_expression)) {
array_type->array.size_constant = true;
array_type->array.size
= fold_constant(size_expression);
}
type_t *hashed_type = typehash_insert(type);
- if(hashed_type != type) {
+ if (hashed_type != type) {
/* the function type was constructed earlier freeing it here will
* destroy other types... */
- if(iter->kind != CONSTRUCT_FUNCTION) {
+ if (iter->kind != CONSTRUCT_FUNCTION) {
free_type(type);
}
type = hashed_type;
declaration->is_inline = specifiers->is_inline;
declaration->storage_class = specifiers->declared_storage_class;
- if(declaration->storage_class == STORAGE_CLASS_NONE
+ if (declaration->storage_class == STORAGE_CLASS_NONE
&& scope != global_scope) {
declaration->storage_class = STORAGE_CLASS_AUTO;
}
- if(specifiers->alignment != 0) {
+ if (specifiers->alignment != 0) {
/* TODO: add checks here */
declaration->alignment = specifiers->alignment;
}
type_t *const type = specifiers->type;
declaration->type = construct_declarator_type(construct_type, type);
+ parse_declaration_attributes(declaration);
+
fix_declaration_type(declaration);
- if(construct_type != NULL) {
+ if (construct_type != NULL) {
obstack_free(&temp_obst, construct_type);
}
construct_type_t *construct_type = parse_inner_declarator(NULL, 1);
type_t *result = construct_declarator_type(construct_type, base_type);
- if(construct_type != NULL) {
+ if (construct_type != NULL) {
obstack_free(&temp_obst, construct_type);
}
type_t *orig_type = declaration->type;
type_t *type = skip_typeref(orig_type);
- if(declaration->init.initializer != NULL) {
+ if (declaration->init.initializer != NULL) {
parser_error_multiple_definition(declaration, HERE);
}
bool must_be_constant = false;
- if(declaration->storage_class == STORAGE_CLASS_STATIC
+ if (declaration->storage_class == STORAGE_CLASS_STATIC
|| declaration->storage_class == STORAGE_CLASS_THREAD_STATIC
|| declaration->parent_scope == global_scope) {
must_be_constant = true;
initializer_t *initializer = parse_initializer(&env);
- if(env.type != orig_type) {
+ if (env.type != orig_type) {
orig_type = env.type;
type = skip_typeref(orig_type);
declaration->type = env.type;
}
- if(is_type_function(type)) {
+ if (is_type_function(type)) {
errorf(&declaration->source_position,
"initializers not allowed for function types at declator '%Y' (type '%T')",
declaration->symbol, orig_type);
"variable '%Y' declared 'inline'\n", declaration->symbol);
}
- if(token.type == '=') {
+ if (token.type == '=') {
parse_init_declarator_rest(declaration);
}
- if(token.type != ',')
+ if (token.type != ',')
break;
eat(',');
static declaration_t *finished_kr_declaration(declaration_t *declaration)
{
symbol_t *symbol = declaration->symbol;
- if(symbol == NULL) {
+ if (symbol == NULL) {
errorf(HERE, "anonymous declaration not valid as function parameter");
return declaration;
}
namespace_t namespc = (namespace_t) declaration->namespc;
- if(namespc != NAMESPACE_NORMAL) {
+ if (namespc != NAMESPACE_NORMAL) {
return record_declaration(declaration);
}
declaration_t *previous_declaration = get_declaration(symbol, namespc);
- if(previous_declaration == NULL ||
+ if (previous_declaration == NULL ||
previous_declaration->parent_scope != scope) {
errorf(HERE, "expected declaration of a function parameter, found '%Y'",
symbol);
return declaration;
}
- if(previous_declaration->type == NULL) {
+ if (previous_declaration->type == NULL) {
previous_declaration->type = declaration->type;
previous_declaration->declared_storage_class = declaration->declared_storage_class;
previous_declaration->storage_class = declaration->storage_class;
memset(&specifiers, 0, sizeof(specifiers));
parse_declaration_specifiers(&specifiers);
- if(token.type == ';') {
+ if (token.type == ';') {
parse_anonymous_declaration_rest(&specifiers, append_declaration);
} else {
declaration_t *declaration = parse_declarator(&specifiers, /*may_be_abstract=*/false);
type_t *result = orig_type;
type_t *type = skip_typeref(orig_type);
- if(is_type_integer(type)) {
+ if (is_type_integer(type)) {
result = promote_integer(type);
- } else if(type == type_float) {
+ } else if (type == type_float) {
result = type_double;
}
for( ; parameter_declaration != NULL;
parameter_declaration = parameter_declaration->next) {
type_t *parameter_type = parameter_declaration->type;
- if(parameter_type == NULL) {
+ if (parameter_type == NULL) {
if (strict_mode) {
errorf(HERE, "no type specified for function parameter '%Y'",
parameter_declaration->symbol);
memset(function_parameter, 0, sizeof(function_parameter[0]));
function_parameter->type = parameter_type;
- if(last_parameter != NULL) {
+ if (last_parameter != NULL) {
last_parameter->next = function_parameter;
} else {
parameters = function_parameter;
new_type->function.unspecified_parameters = true;
type = typehash_insert(new_type);
- if(type != new_type) {
+ if (type != new_type) {
obstack_free(type_obst, new_type);
}
rem_anchor_token(';');
/* must be a declaration */
- if(token.type == ';') {
+ if (token.type == ';') {
parse_anonymous_declaration_rest(&specifiers, append_declaration);
return;
}
rem_anchor_token(';');
/* must be a declaration */
- if(token.type == ',' || token.type == '=' || token.type == ';') {
+ if (token.type == ',' || token.type == '=' || token.type == ';') {
parse_declaration_rest(ndeclaration, &specifiers, record_declaration);
return;
}
/* must be a function definition */
parse_kr_declaration_list(ndeclaration);
- if(token.type != '{') {
+ if (token.type != '{') {
parse_error_expected("while parsing function definition", '{', NULL);
eat_until_matching_token(';');
return;
/* note that we don't skip typerefs: the standard doesn't allow them here
* (so we can't use is_type_function here) */
- if(type->kind != TYPE_FUNCTION) {
+ if (type->kind != TYPE_FUNCTION) {
if (is_type_valid(type)) {
errorf(HERE, "declarator '%#T' has a body but is not a function type",
type, ndeclaration->symbol);
/* ยง 6.7.5.3 (14) a function definition with () means no
* parameters (and not unspecified parameters) */
- if(type->function.unspecified_parameters
+ if (type->function.unspecified_parameters
&& type->function.parameters == NULL
&& !type->function.kr_style_parameters) {
type_t *duplicate = duplicate_type(type);
duplicate->function.unspecified_parameters = false;
type = typehash_insert(duplicate);
- if(type != duplicate) {
+ if (type != duplicate) {
obstack_free(type_obst, duplicate);
}
ndeclaration->type = type;
}
declaration_t *const declaration = record_function_definition(ndeclaration);
- if(ndeclaration != declaration) {
+ if (ndeclaration != declaration) {
declaration->scope = ndeclaration->scope;
}
type = skip_typeref(declaration->type);
declaration_t *parameter = declaration->scope.declarations;
for( ; parameter != NULL; parameter = parameter->next) {
- if(parameter->parent_scope == &ndeclaration->scope) {
+ if (parameter->parent_scope == &ndeclaration->scope) {
parameter->parent_scope = scope;
}
assert(parameter->parent_scope == NULL
environment_push(parameter);
}
- if(declaration->init.statement != NULL) {
+ if (declaration->init.statement != NULL) {
parser_error_multiple_definition(declaration, HERE);
eat_block();
goto end_of_parse_external_declaration;
{
declaration_t *iter = compound_declaration->scope.declarations;
for( ; iter != NULL; iter = iter->next) {
- if(iter->namespc != NAMESPACE_NORMAL)
+ if (iter->namespc != NAMESPACE_NORMAL)
continue;
- if(iter->symbol == NULL) {
+ if (iter->symbol == NULL) {
type_t *type = skip_typeref(iter->type);
- if(is_type_compound(type)) {
+ if (is_type_compound(type)) {
declaration_t *result
= find_compound_entry(type->compound.declaration, symbol);
- if(result != NULL)
+ if (result != NULL)
return result;
}
continue;
}
- if(iter->symbol == symbol) {
+ if (iter->symbol == symbol) {
return iter;
}
}
const declaration_specifiers_t *specifiers)
{
declaration_t *last_declaration = struct_declaration->scope.declarations;
- if(last_declaration != NULL) {
+ if (last_declaration != NULL) {
while(last_declaration->next != NULL) {
last_declaration = last_declaration->next;
}
while(1) {
declaration_t *declaration;
- if(token.type == ':') {
+ if (token.type == ':') {
source_position_t source_position = *HERE;
next_token();
type_t *base_type = specifiers->type;
expression_t *size = parse_constant_expression();
- if(!is_type_integer(skip_typeref(base_type))) {
+ if (!is_type_integer(skip_typeref(base_type))) {
errorf(HERE, "bitfield base type '%T' is not an integer type",
base_type);
}
type_t *orig_type = declaration->type;
type_t *type = skip_typeref(orig_type);
- if(token.type == ':') {
+ if (token.type == ':') {
source_position_t source_position = *HERE;
next_token();
expression_t *size = parse_constant_expression();
- if(!is_type_integer(type)) {
+ if (!is_type_integer(type)) {
errorf(HERE, "bitfield base type '%T' is not an "
"integer type", orig_type);
}
} else {
/* TODO we ignore arrays for now... what is missing is a check
* that they're at the end of the struct */
- if(is_type_incomplete(type) && !is_type_array(type)) {
+ if (is_type_incomplete(type) && !is_type_array(type)) {
errorf(HERE,
"compound member '%Y' has incomplete type '%T'",
declaration->symbol, orig_type);
- } else if(is_type_function(type)) {
+ } else if (is_type_function(type)) {
errorf(HERE, "compound member '%Y' must not have function "
"type '%T'", declaration->symbol, orig_type);
}
/* make sure we don't define a symbol multiple times */
symbol_t *symbol = declaration->symbol;
- if(symbol != NULL) {
+ if (symbol != NULL) {
declaration_t *prev_decl
= find_compound_entry(struct_declaration, symbol);
- if(prev_decl != NULL) {
+ if (prev_decl != NULL) {
assert(prev_decl->symbol == symbol);
errorf(&declaration->source_position,
"multiple declarations of symbol '%Y' (declared %P)",
}
/* append declaration */
- if(last_declaration != NULL) {
+ if (last_declaration != NULL) {
last_declaration->next = declaration;
} else {
struct_declaration->scope.declarations = declaration;
}
last_declaration = declaration;
- if(token.type != ',')
+ if (token.type != ',')
break;
next_token();
}
}
rem_anchor_token('}');
- if(token.type == T_EOF) {
+ if (token.type == T_EOF) {
errorf(HERE, "EOF while parsing struct");
}
next_token();
declaration_specifiers_t specifiers;
memset(&specifiers, 0, sizeof(specifiers));
parse_declaration_specifiers(&specifiers);
- if(specifiers.declared_storage_class != STORAGE_CLASS_NONE) {
+ if (specifiers.declared_storage_class != STORAGE_CLASS_NONE) {
/* TODO: improve error message, user does probably not know what a
* storage class is...
*/
ntype->function.unspecified_parameters = true;
type_t *type = typehash_insert(ntype);
- if(type != ntype) {
+ if (type != ntype) {
free_type(ntype);
}
type->function.parameters = parameter1;
type_t *result = typehash_insert(type);
- if(result != type) {
+ if (result != type) {
free_type(type);
}
type->function.parameters = parameter;
type_t *result = typehash_insert(type);
- if(result != type) {
+ if (result != type) {
free_type(type);
}
type->function.parameters = NULL;
type_t *result = typehash_insert(type);
- if(result != type) {
+ if (result != type) {
free_type(type);
}
static type_t *automatic_type_conversion(type_t *orig_type)
{
type_t *type = skip_typeref(orig_type);
- if(is_type_array(type)) {
+ if (is_type_array(type)) {
array_type_t *array_type = &type->array;
type_t *element_type = array_type->element_type;
unsigned qualifiers = array_type->base.qualifiers;
return make_pointer_type(element_type, qualifiers);
}
- if(is_type_function(type)) {
+ if (is_type_function(type)) {
return make_pointer_type(orig_type, TYPE_QUALIFIER_NONE);
}
source_position_t source_position = token.source_position;
next_token();
- if(declaration == NULL) {
+ if (declaration == NULL) {
if (! strict_mode && token.type == '(') {
/* an implicitly defined function */
if (warning.implicit_function_declaration) {
declaration->used = true;
/* check for deprecated functions */
- if(declaration->deprecated != 0) {
+ if (declaration->deprecated != 0) {
const char *prefix = "";
if (is_type_function(declaration->type))
prefix = "function ";
rem_anchor_token(')');
expect(')');
- if(token.type == '{') {
+ if (token.type == '{') {
return parse_compound_literal(type);
}
TYPE_SPECIFIERS
return parse_cast();
case T_IDENTIFIER:
- if(is_typedef_symbol(token.v.symbol)) {
+ if (is_typedef_symbol(token.v.symbol)) {
return parse_cast();
}
}
designator_t *result = allocate_ast_zero(sizeof(result[0]));
result->source_position = *HERE;
- if(token.type != T_IDENTIFIER) {
+ if (token.type != T_IDENTIFIER) {
parse_error_expected("while parsing member designator",
T_IDENTIFIER, NULL);
return NULL;
designator_t *last_designator = result;
while(true) {
- if(token.type == '.') {
+ if (token.type == '.') {
next_token();
- if(token.type != T_IDENTIFIER) {
+ if (token.type != T_IDENTIFIER) {
parse_error_expected("while parsing member designator",
T_IDENTIFIER, NULL);
return NULL;
last_designator = designator;
continue;
}
- if(token.type == '[') {
+ if (token.type == '[') {
next_token();
add_anchor_token(']');
designator_t *designator = allocate_ast_zero(sizeof(result[0]));
designator->array_index = parse_expression();
rem_anchor_token(']');
expect(']');
- if(designator->array_index == NULL) {
+ if (designator->array_index == NULL) {
return NULL;
}
descend_into_subtype(&path);
- if(!walk_designator(&path, designator, true)) {
+ if (!walk_designator(&path, designator, true)) {
return create_invalid_expression();
}
type_t *const type_left = skip_typeref(orig_type_left);
type_t *const type_right = skip_typeref(orig_type_right);
- if(!is_type_float(type_left) && !is_type_float(type_right)) {
+ if (!is_type_float(type_left) && !is_type_float(type_right)) {
if (is_type_valid(type_left) && is_type_valid(type_right)) {
type_error_incompatible("invalid operands in comparison",
&expression->base.source_position, orig_type_left, orig_type_right);
add_anchor_token(')');
add_anchor_token(',');
- if(token.type != ')') {
+ if (token.type != ')') {
while(true) {
(void)parse_assignment_expression();
- if(token.type != ',')
+ if (token.type != ',')
break;
next_token();
}
}
rem_anchor_token(']');
- if(token.type != ']') {
+ if (token.type != ']') {
parse_error_expected("Problem while parsing array access", ']', NULL);
return expression;
}
add_anchor_token(')');
add_anchor_token(',');
- if(token.type != ')') {
+ if (token.type != ')') {
call_argument_t *last_argument = NULL;
while(true) {
call_argument_t *argument = allocate_ast_zero(sizeof(argument[0]));
argument->expression = parse_assignment_expression();
- if(last_argument == NULL) {
+ if (last_argument == NULL) {
call->arguments = argument;
} else {
last_argument->next = argument;
}
last_argument = argument;
- if(token.type != ',')
+ if (token.type != ',')
break;
next_token();
}
rem_anchor_token(')');
expect(')');
- if(function_type == NULL)
+ if (function_type == NULL)
return result;
function_parameter_t *parameter = function_type->parameters;
/* 6.5.15.3 */
type_t *result_type;
- if(is_type_atomic(true_type, ATOMIC_TYPE_VOID) ||
+ if (is_type_atomic(true_type, ATOMIC_TYPE_VOID) ||
is_type_atomic(false_type, ATOMIC_TYPE_VOID)) {
if (!is_type_atomic(true_type, ATOMIC_TYPE_VOID)
|| !is_type_atomic(false_type, ATOMIC_TYPE_VOID)) {
type_t *pointer_type;
type_t *other_type;
expression_t *other_expression;
- if (is_type_pointer(true_type)) {
+ if (is_type_pointer(true_type) &&
+ (!is_type_pointer(false_type) || is_null_pointer_constant(false_expression))) {
pointer_type = true_type;
other_type = false_type;
other_expression = false_expression;
other_expression = true_expression;
}
- /* TODO Treat (void*)0 as null pointer constant */
- if (is_type_pointer(other_type)) {
+ if (is_null_pointer_constant(other_expression)) {
+ result_type = pointer_type;
+ } else if (is_type_pointer(other_type)) {
type_t *to1 = skip_typeref(pointer_type->pointer.points_to);
type_t *to2 = skip_typeref(other_type->pointer.points_to);
free_type(copy);
result_type = make_pointer_type(type, TYPE_QUALIFIER_NONE);
- } else if(is_null_pointer_constant(other_expression)) {
- result_type = pointer_type;
- } else if(is_type_integer(other_type)) {
+ } else if (is_type_integer(other_type)) {
warningf(&expression->base.source_position,
"pointer/integer type mismatch in conditional expression ('%T' and '%T')", true_type, false_type);
result_type = pointer_type;
{
type_t *const orig_type = expression->value->base.type;
type_t *const type = skip_typeref(orig_type);
- if(!is_type_arithmetic(type)) {
+ if (!is_type_arithmetic(type)) {
if (is_type_valid(type)) {
/* TODO: improve error message */
errorf(HERE, "operation needs an arithmetic type");
{
type_t *const orig_type = expression->value->base.type;
type_t *const type = skip_typeref(orig_type);
- if(!is_type_pointer(type)) {
+ if (!is_type_pointer(type)) {
if (is_type_valid(type)) {
errorf(HERE, "Unary '*' needs pointer or arrray type, but type '%T' given", orig_type);
}
static void set_address_taken(expression_t *expression, bool may_be_register)
{
- if(expression->kind != EXPR_REFERENCE)
+ if (expression->kind != EXPR_REFERENCE)
return;
declaration_t *const declaration = expression->reference.declaration;
/* happens for parse errors */
- if(declaration == NULL)
+ if (declaration == NULL)
return;
if (declaration->storage_class == STORAGE_CLASS_REGISTER && !may_be_register) {
value->base.type = revert_automatic_type_conversion(value);
type_t *orig_type = value->base.type;
- if(!is_type_valid(orig_type))
+ if (!is_type_valid(orig_type))
return;
set_address_taken(value, false);
/* TODO: handle complex + imaginary types */
/* ยง 6.3.1.8 Usual arithmetic conversions */
- if(type_left == type_long_double || type_right == type_long_double) {
+ if (type_left == type_long_double || type_right == type_long_double) {
return type_long_double;
- } else if(type_left == type_double || type_right == type_double) {
+ } else if (type_left == type_double || type_right == type_double) {
return type_double;
- } else if(type_left == type_float || type_right == type_float) {
+ } else if (type_left == type_float || type_right == type_float) {
return type_float;
}
type_right = promote_integer(type_right);
type_left = promote_integer(type_left);
- if(type_left == type_right)
+ if (type_left == type_right)
return type_left;
bool signed_left = is_type_signed(type_left);
bool signed_right = is_type_signed(type_right);
int rank_left = get_rank(type_left);
int rank_right = get_rank(type_right);
- if(rank_left < rank_right) {
- if(signed_left == signed_right || !signed_right) {
+ if (rank_left < rank_right) {
+ if (signed_left == signed_right || !signed_right) {
return type_right;
} else {
return type_left;
}
} else {
- if(signed_left == signed_right || !signed_left) {
+ if (signed_left == signed_right || !signed_left) {
return type_left;
} else {
return type_right;
type_t *const type_left = skip_typeref(orig_type_left);
type_t *const type_right = skip_typeref(orig_type_right);
- if(!is_type_arithmetic(type_left) || !is_type_arithmetic(type_right)) {
+ if (!is_type_arithmetic(type_left) || !is_type_arithmetic(type_right)) {
/* TODO: improve error message */
if (is_type_valid(type_left) && is_type_valid(type_right)) {
errorf(HERE, "operation needs arithmetic types");
type_t * type_left = skip_typeref(orig_type_left);
type_t * type_right = skip_typeref(orig_type_right);
- if(!is_type_integer(type_left) || !is_type_integer(type_right)) {
+ if (!is_type_integer(type_left) || !is_type_integer(type_right)) {
/* TODO: improve error message */
if (is_type_valid(type_left) && is_type_valid(type_right)) {
errorf(HERE, "operation needs integer types");
type_t *const type_right = skip_typeref(orig_type_right);
/* ยง 5.6.5 */
- if(is_type_arithmetic(type_left) && is_type_arithmetic(type_right)) {
+ if (is_type_arithmetic(type_left) && is_type_arithmetic(type_right)) {
type_t *arithmetic_type = semantic_arithmetic(type_left, type_right);
expression->left = create_implicit_cast(left, arithmetic_type);
expression->right = create_implicit_cast(right, arithmetic_type);
expression->base.type = arithmetic_type;
return;
- } else if(is_type_pointer(type_left) && is_type_integer(type_right)) {
+ } else if (is_type_pointer(type_left) && is_type_integer(type_right)) {
check_pointer_arithmetic(&expression->base.source_position,
type_left, orig_type_left);
expression->base.type = type_left;
- } else if(is_type_pointer(type_left) && is_type_pointer(type_right)) {
+ } else if (is_type_pointer(type_left) && is_type_pointer(type_right)) {
type_t *const unqual_left = get_unqualified_type(skip_typeref(type_left->pointer.points_to));
type_t *const unqual_right = get_unqualified_type(skip_typeref(type_right->pointer.points_to));
if (!types_compatible(unqual_left, unqual_right)) {
type_t *type_right = skip_typeref(orig_type_right);
/* TODO non-arithmetic types */
- if(is_type_arithmetic(type_left) && is_type_arithmetic(type_right)) {
+ if (is_type_arithmetic(type_left) && is_type_arithmetic(type_right)) {
/* test for signed vs unsigned compares */
if (warning.sign_compare &&
(expression->base.kind != EXPR_BINARY_EQUAL &&
expression_t *const_expr = NULL;
expression_t *other_expr = NULL;
- if(is_constant_expression(left)) {
+ if (is_constant_expression(left)) {
const_expr = left;
other_expr = right;
- } else if(is_constant_expression(right)) {
+ } else if (is_constant_expression(right)) {
const_expr = right;
other_expr = left;
}
- if(const_expr != NULL) {
+ if (const_expr != NULL) {
type_t *other_type = skip_typeref(other_expr->base.type);
long val = fold_constant(const_expr);
/* TODO: check if val can be represented by other_type */
type_t *type_left = skip_typeref(orig_type_left);
type_t *type_right = skip_typeref(orig_type_right);
- if(!is_type_arithmetic(type_left) || !is_type_arithmetic(type_right)) {
+ if (!is_type_arithmetic(type_left) || !is_type_arithmetic(type_right)) {
/* TODO: improve error message */
if (is_type_valid(type_left) && is_type_valid(type_right)) {
errorf(HERE, "operation needs arithmetic types");
static expression_t *parse_sub_expression(unsigned precedence)
{
- if(token.type < 0) {
+ if (token.type < 0) {
return expected_expression_error();
}
source_position_t source_position = token.source_position;
expression_t *left;
- if(parser->parser != NULL) {
+ if (parser->parser != NULL) {
left = parser->parser(parser->precedence);
} else {
left = parse_primary_expression();
left->base.source_position = source_position;
while(true) {
- if(token.type < 0) {
+ if (token.type < 0) {
return expected_expression_error();
}
parser = &expression_parsers[token.type];
- if(parser->infix_parser == NULL)
+ if (parser->infix_parser == NULL)
break;
- if(parser->infix_precedence < precedence)
+ if (parser->infix_precedence < precedence)
break;
left = parser->infix_parser(parser->infix_precedence, left);
{
expression_parser_function_t *entry = &expression_parsers[token_type];
- if(entry->parser != NULL) {
+ if (entry->parser != NULL) {
diagnosticf("for token '%k'\n", (token_type_t)token_type);
panic("trying to register multiple expression parsers for a token");
}
{
expression_parser_function_t *entry = &expression_parsers[token_type];
- if(entry->infix_parser != NULL) {
+ if (entry->infix_parser != NULL) {
diagnosticf("for token '%k'\n", (token_type_t)token_type);
panic("trying to register multiple infix expression parsers for a "
"token");
asm_clobber_t *clobber = allocate_ast_zero(sizeof(clobber[0]));
clobber->clobber = parse_string_literals();
- if(last != NULL) {
+ if (last != NULL) {
last->next = clobber;
} else {
result = clobber;
}
last = clobber;
- if(token.type != ',')
+ if (token.type != ',')
break;
eat(',');
}
asm_statement_t *asm_statement = &statement->asms;
- if(token.type == T_volatile) {
+ if (token.type == T_volatile) {
next_token();
asm_statement->is_volatile = true;
}
add_anchor_token(':');
asm_statement->asm_text = parse_string_literals();
- if(token.type != ':') {
+ if (token.type != ':') {
rem_anchor_token(':');
goto end_of_asm;
}
eat(':');
asm_statement->outputs = parse_asm_arguments(true);
- if(token.type != ':') {
+ if (token.type != ':') {
rem_anchor_token(':');
goto end_of_asm;
}
eat(':');
asm_statement->inputs = parse_asm_arguments(false);
- if(token.type != ':') {
+ if (token.type != ':') {
rem_anchor_token(':');
goto end_of_asm;
}
assert(current_function != NULL);
/* if we found a label in the same function, then we already created the
* declaration */
- if(candidate != NULL
+ if (candidate != NULL
&& candidate->parent_scope == ¤t_function->scope) {
return candidate;
}
/* if source position is already set then the label is defined twice,
* otherwise it was just mentioned in a goto so far */
- if(label->source_position.input_name != NULL) {
+ if (label->source_position.input_name != NULL) {
errorf(HERE, "duplicate label '%Y' (declared %P)",
symbol, &label->source_position);
} else {
eat(':');
- if(token.type == '}') {
+ if (token.type == '}') {
/* TODO only warn? */
- if(false) {
+ if (false) {
warningf(HERE, "label at end of compound statement");
statement->label.statement = create_empty_statement();
} else {
statement->ifs.true_statement = parse_statement();
rem_anchor_token(T_else);
- if(token.type == T_else) {
+ if (token.type == T_else) {
next_token();
statement->ifs.false_statement = parse_statement();
}
statement->switchs.body = parse_statement();
current_switch = rem;
- if(warning.switch_default &&
+ if (warning.switch_default &&
find_default_label(&statement->switchs) == NULL) {
warningf(&statement->base.source_position, "switch has no default case");
}
expect('(');
add_anchor_token(')');
- if(token.type != ';') {
- if(is_declaration_specifier(&token, false)) {
+ if (token.type != ';') {
+ if (is_declaration_specifier(&token, false)) {
parse_declaration(record_declaration);
} else {
add_anchor_token(';');
expect(';');
}
- if(token.type != ';') {
+ if (token.type != ';') {
add_anchor_token(';');
statement->fors.condition = parse_expression();
rem_anchor_token(';');
}
expect(';');
- if(token.type != ')') {
+ if (token.type != ')') {
expression_t *const step = parse_expression();
statement->fors.step = step;
if (warning.unused_value && !expression_has_effect(step)) {
{
eat(T_goto);
- if(token.type != T_IDENTIFIER) {
+ if (token.type != T_IDENTIFIER) {
parse_error_expected("while parsing goto", T_IDENTIFIER, NULL);
eat_statement();
goto end_error;
case STORAGE_CLASS_AUTO:
case STORAGE_CLASS_REGISTER: {
const type_t *type = skip_typeref(declaration->type);
- if(is_type_function(type)) {
+ if (is_type_function(type)) {
return false;
} else {
return true;
* Check if a given declaration represents a variable.
*/
static bool is_var_declaration(const declaration_t *declaration) {
- if(declaration->storage_class == STORAGE_CLASS_TYPEDEF)
+ if (declaration->storage_class == STORAGE_CLASS_TYPEDEF)
return false;
const type_t *type = skip_typeref(declaration->type);
eat(T_return);
expression_t *return_value = NULL;
- if(token.type != ';') {
+ if (token.type != ';') {
return_value = parse_expression();
}
expect(';');
assert(is_type_function(func_type));
type_t *const return_type = skip_typeref(func_type->function.return_type);
- if(return_value != NULL) {
+ if (return_value != NULL) {
type_t *return_value_type = skip_typeref(return_value->base.type);
- if(is_type_atomic(return_type, ATOMIC_TYPE_VOID)
+ if (is_type_atomic(return_type, ATOMIC_TYPE_VOID)
&& !is_type_atomic(return_value_type, ATOMIC_TYPE_VOID)) {
warningf(&statement->base.source_position,
"'return' with a value, in function returning void");
}
}
} else {
- if(!is_type_atomic(return_type, ATOMIC_TYPE_VOID)) {
+ if (!is_type_atomic(return_type, ATOMIC_TYPE_VOID)) {
warningf(&statement->base.source_position,
"'return' without value, in function returning non-void");
}
declaration_t *before = last_declaration;
parse_declaration(record_declaration);
- if(before == NULL) {
+ if (before == NULL) {
statement->declaration.declarations_begin = scope->declarations;
} else {
statement->declaration.declarations_begin = before->next;
statement->ms_try.try_statement = parse_compound_statement(false);
current_try = rem;
- if(token.type == T___except) {
+ if (token.type == T___except) {
eat(T___except);
expect('(');
add_anchor_token(')');
rem_anchor_token(')');
expect(')');
statement->ms_try.final_statement = parse_compound_statement(false);
- } else if(token.type == T__finally) {
+ } else if (token.type == T__finally) {
eat(T___finally);
statement->ms_try.final_statement = parse_compound_statement(false);
} else {
break;
case T_if:
- statement = parse_if();
+ statement = parse_if ();
break;
case T_switch:
break;
case ';':
- if(warning.empty_statement) {
+ if (warning.empty_statement) {
warningf(HERE, "statement is empty");
}
statement = create_empty_statement();
break;
case T_IDENTIFIER:
- if(look_ahead(1)->type == ':') {
+ if (look_ahead(1)->type == ':') {
statement = parse_label_statement();
break;
}
- if(is_typedef_symbol(token.v.symbol)) {
+ if (is_typedef_symbol(token.v.symbol)) {
statement = parse_declaration_statement();
break;
}
{
statement_t *statement = intern_parse_statement();
- if(statement->kind == STATEMENT_EXPRESSION && warning.unused_value) {
+ if (statement->kind == STATEMENT_EXPRESSION && warning.unused_value) {
expression_t *expression = statement->expression.expression;
- if(!expression_has_effect(expression)) {
+ if (!expression_has_effect(expression)) {
warningf(&expression->base.source_position,
"statement has no effect");
}
while(token.type != '}' && token.type != T_EOF) {
statement_t *sub_statement = intern_parse_statement();
- if(is_invalid_statement(sub_statement)) {
+ if (is_invalid_statement(sub_statement)) {
/* an error occurred. if we are at an anchor, return */
- if(at_anchor())
+ if (at_anchor())
goto end_error;
continue;
}
- if(last_statement != NULL) {
+ if (last_statement != NULL) {
last_statement->base.next = sub_statement;
} else {
statement->compound.statements = sub_statement;
last_statement = sub_statement;
}
- if(token.type == '}') {
+ if (token.type == '}') {
next_token();
} else {
errorf(&statement->base.source_position,
}
/* look over all statements again to produce no effect warnings */
- if(warning.unused_value) {
+ if (warning.unused_value) {
statement_t *sub_statement = statement->compound.statements;
for( ; sub_statement != NULL; sub_statement = sub_statement->base.next) {
- if(sub_statement->kind != STATEMENT_EXPRESSION)
+ if (sub_statement->kind != STATEMENT_EXPRESSION)
continue;
/* don't emit a warning for the last expression in an expression
* statement as it has always an effect */
- if(inside_expression_statement && sub_statement->base.next == NULL)
+ if (inside_expression_statement && sub_statement->base.next == NULL)
continue;
expression_t *expression = sub_statement->expression.expression;
- if(!expression_has_effect(expression)) {
+ if (!expression_has_effect(expression)) {
warningf(&expression->base.source_position,
"statement has no effect");
}
return;
for (const declaration_t *decl = global_scope->declarations; decl != NULL; decl = decl->next) {
- if (decl->used || decl->storage_class != STORAGE_CLASS_STATIC)
+ if (decl->used ||
+ decl->modifiers & DM_USED ||
+ decl->storage_class != STORAGE_CLASS_STATIC)
continue;
type_t *const type = decl->type;
}
}
+static void parse_global_asm(void)
+{
+ eat(T_asm);
+ expect('(');
+
+ statement_t *statement = allocate_statement_zero(STATEMENT_ASM);
+ statement->base.source_position = token.source_position;
+ statement->asms.asm_text = parse_string_literals();
+ statement->base.next = unit->global_asm;
+ unit->global_asm = statement;
+
+ expect(')');
+ expect(';');
+
+end_error:;
+}
+
/**
* Parse a translation unit.
*/
static void parse_translation_unit(void)
{
while(token.type != T_EOF) {
- if (token.type == ';') {
- /* TODO error in strict mode */
- warningf(HERE, "stray ';' outside of function");
- next_token();
- } else {
- parse_external_declaration();
+ switch (token.type) {
+ case ';':
+ /* TODO error in strict mode */
+ warningf(HERE, "stray ';' outside of function");
+ next_token();
+ break;
+
+ case T_asm:
+ parse_global_asm();
+ break;
+
+ default:
+ parse_external_declaration();
+ break;
}
}
}
*/
void init_parser(void)
{
- if(c_mode & _MS) {
+ if (c_mode & _MS) {
/* add predefined symbols for extended-decl-modifier */
sym_align = symbol_table_insert("align");
sym_allocate = symbol_table_insert("allocate");