X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=parser.c;h=77c5884acbb8765442f7d5ae46aa83dc1d66f2f6;hb=38ab672b23c1de6fff8e672fde96509e113507e7;hp=6d5b16681342d7a6b23f07ff2b42868db1a7b8f9;hpb=6d97ed2344f322f416cde70a4fc9f18e795388b0;p=cparser diff --git a/parser.c b/parser.c index 6d5b166..77c5884 100644 --- a/parser.c +++ b/parser.c @@ -134,6 +134,9 @@ static struct obstack temp_obst; static source_position_t null_position = { NULL, 0 }; +/** special symbol used for anonymous entities. */ +static const symbol_t *sym_anonymous = NULL; + /* symbols for Microsoft extended-decl-modifier */ static const symbol_t *sym_align = NULL; static const symbol_t *sym_allocate = NULL; @@ -552,6 +555,7 @@ static void restore_anchor_state(int token_type, int count) static void rem_anchor_token(int token_type) { assert(0 <= token_type && token_type < T_LAST_TOKEN); + assert(token_anchor_set[token_type] != 0); --token_anchor_set[token_type]; } @@ -639,16 +643,6 @@ static void eat_block(void) next_token(); } -/** - * eat all token until a ';' is reached or a stop token is found. - */ -static void eat_statement(void) -{ - eat_until_matching_token(';'); - if (token.type == ';') - next_token(); -} - #define eat(token_type) do { assert(token.type == token_type); next_token(); } while (0) /** @@ -693,18 +687,18 @@ static void type_error_incompatible(const char *msg, * If not, generate an error, eat the current statement, * and goto the end_error label. */ -#define expect(expected) \ - do { \ - if (UNLIKELY(token.type != (expected))) { \ - parse_error_expected(NULL, (expected), NULL); \ - add_anchor_token(expected); \ - eat_until_anchor(); \ - if (token.type == expected) \ - next_token(); \ - rem_anchor_token(expected); \ - goto end_error; \ - } \ - next_token(); \ +#define expect(expected) \ + do { \ + if (UNLIKELY(token.type != (expected))) { \ + parse_error_expected(NULL, (expected), NULL); \ + add_anchor_token(expected); \ + eat_until_anchor(); \ + if (token.type == expected) \ + next_token(); \ + rem_anchor_token(expected); \ + goto end_error; \ + } \ + next_token(); \ } while (0) static void set_scope(scope_t *new_scope) @@ -1030,7 +1024,7 @@ static void report_assign_error(assign_error_t error, type_t *orig_type_left, case ASSIGN_WARNING_POINTER_FROM_INT: warningf(source_position, - "%s makes integer '%T' from pointer '%T' without a cast", + "%s makes pointer '%T' from integer '%T' without a cast", context, orig_type_left, orig_type_right); return; @@ -1497,12 +1491,12 @@ static void parse_gnu_attribute_format_args(gnu_attribute_t *attribute) add_anchor_token(','); parse_constant_expression(); rem_anchor_token(','); - rem_anchor_token('('); + rem_anchor_token(')'); expect(','); add_anchor_token(')'); parse_constant_expression(); - rem_anchor_token('('); + rem_anchor_token(')'); expect(')'); return; end_error: @@ -2471,6 +2465,10 @@ finish_designator: if (type == NULL) { /* we are already outside, ... */ + if (is_type_compound(outer_type) && + !outer_type->compound.declaration->init.complete) { + goto error_parse_next; + } goto error_excess; } @@ -3129,33 +3127,38 @@ static void finish_struct_type(compound_type_t *type) { if (! struct_decl->init.complete) return; - il_size_t size = 0; - il_size_t new_size; - il_alignment_t alignment = 1; - bool need_pad = false; + il_size_t size = 0; + il_size_t offset; + il_alignment_t alignment = 1; + bool need_pad = false; declaration_t *entry = struct_decl->scope.declarations; for (; entry != NULL; entry = entry->next) { if (entry->namespc != NAMESPACE_NORMAL) continue; - type_t *m_type = skip_typeref(entry->type); - il_alignment_t m_alignment = m_type->base.alignment; - - new_size = (size + m_alignment - 1) & -m_alignment; + type_t *m_type = skip_typeref(entry->type); + if (! is_type_valid(m_type)) { + /* simply ignore errors here */ + continue; + } + il_alignment_t m_alignment = m_type->base.alignment; if (m_alignment > alignment) alignment = m_alignment; - if (new_size > size) + + offset = (size + m_alignment - 1) & -m_alignment; + + if (offset > size) need_pad = true; - entry->offset = new_size; - size = new_size + m_type->base.size; + entry->offset = offset; + size = offset + m_type->base.size; } if (type->base.alignment != 0) { alignment = type->base.alignment; } - new_size = (size + alignment - 1) & -alignment; - if (new_size > size) + offset = (size + alignment - 1) & -alignment; + if (offset > size) need_pad = true; if (warning.padded && need_pad) { @@ -3168,7 +3171,7 @@ static void finish_struct_type(compound_type_t *type) { type, struct_decl->symbol); } - type->base.size = new_size; + type->base.size = offset; type->base.alignment = alignment; } @@ -3192,6 +3195,8 @@ static void finish_union_type(compound_type_t *type) { continue; type_t *m_type = skip_typeref(entry->type); + if (! is_type_valid(m_type)) + continue; entry->offset = 0; if (m_type->base.size > size) @@ -3573,10 +3578,8 @@ warn_about_long_long: default: /* invalid specifier combination, give an error message */ if (type_specifiers == 0) { - if (saw_error) { - specifiers->type = type_error_type; - return; - } + if (saw_error) + goto end_error; if (!strict_mode) { if (warning.implicit_int) { @@ -3595,15 +3598,13 @@ warn_about_long_long: } else { errorf(HERE, "multiple datatypes in declaration"); } - atomic_type = ATOMIC_TYPE_INVALID; + goto end_error; } - if (type_specifiers & SPECIFIER_COMPLEX && - atomic_type != ATOMIC_TYPE_INVALID) { + if (type_specifiers & SPECIFIER_COMPLEX) { type = allocate_type_zero(TYPE_COMPLEX, &builtin_source_position); type->complex.akind = atomic_type; - } else if (type_specifiers & SPECIFIER_IMAGINARY && - atomic_type != ATOMIC_TYPE_INVALID) { + } else if (type_specifiers & SPECIFIER_IMAGINARY) { type = allocate_type_zero(TYPE_IMAGINARY, &builtin_source_position); type->imaginary.akind = atomic_type; } else { @@ -3626,7 +3627,10 @@ warn_about_long_long: } specifiers->type = result; + return; + end_error: + specifiers->type = type_error_type; return; } @@ -3900,9 +3904,8 @@ static construct_type_t *parse_array_declarator(void) rem_anchor_token(']'); expect(']'); - return (construct_type_t*) array; end_error: - return NULL; + return (construct_type_t*) array; } static construct_type_t *parse_function_declarator(declaration_t *declaration) @@ -4041,13 +4044,7 @@ static construct_type_t *parse_inner_declarator(declaration_t *declaration, 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) { - next_token(); - } else { - eat_statement(); - } + eat_until_anchor(); return NULL; } @@ -4146,15 +4143,19 @@ static type_t *construct_declarator_type(construct_type_t *construct_list, function_type->function.return_type = type; type_t *skipped_return_type = skip_typeref(type); + /* §6.7.5.3(1) */ if (is_type_function(skipped_return_type)) { errorf(HERE, "function returning function is not allowed"); - type = type_error_type; } else if (is_type_array(skipped_return_type)) { errorf(HERE, "function returning array is not allowed"); - type = type_error_type; } else { - type = function_type; + if (skipped_return_type->base.qualifiers != 0) { + warningf(HERE, + "type qualifiers in return type of function type are meaningless"); + } } + + type = function_type; break; } @@ -4195,12 +4196,13 @@ static type_t *construct_declarator_type(construct_type_t *construct_list, } type_t *skipped_type = skip_typeref(type); - if (is_type_atomic(skipped_type, ATOMIC_TYPE_VOID)) { - errorf(HERE, "array of void is not allowed"); - type = type_error_type; - } else { - type = array_type; + /* §6.7.5.2(1) */ + if (is_type_incomplete(skipped_type)) { + errorf(HERE, "array of incomplete type '%T' is not allowed", type); + } else if (is_type_function(skipped_type)) { + errorf(HERE, "array of functions is not allowed"); } + type = array_type; break; } } @@ -4297,7 +4299,7 @@ static void check_type_of_main(const declaration_t *const decl, const function_t warningf(&decl->source_position, "'main' is normally a non-static function"); } - if (skip_typeref(func_type->return_type) != type_int) { + if (!types_compatible(skip_typeref(func_type->return_type), type_int)) { warningf(&decl->source_position, "return type of 'main' should be 'int', but is '%T'", func_type->return_type); @@ -4360,7 +4362,7 @@ static declaration_t *record_declaration( previous_declaration == NULL) { warningf(&declaration->source_position, "function declaration '%#T' is not a prototype", - orig_type, declaration->symbol); + orig_type, symbol); } if (warning.main && is_type_function(type) && is_sym_main(symbol)) { @@ -4591,24 +4593,17 @@ static void parse_anonymous_declaration_rest( { eat(';'); - declaration_t *const declaration = allocate_declaration_zero(); - declaration->type = specifiers->type; - declaration->declared_storage_class = specifiers->declared_storage_class; - declaration->source_position = specifiers->source_position; - declaration->modifiers = specifiers->modifiers; - - if (declaration->declared_storage_class != STORAGE_CLASS_NONE) { - warningf(&declaration->source_position, + if (specifiers->declared_storage_class != STORAGE_CLASS_NONE) { + warningf(&specifiers->source_position, "useless storage class in empty declaration"); } - declaration->storage_class = STORAGE_CLASS_NONE; - type_t *type = declaration->type; + type_t *type = specifiers->type; switch (type->kind) { case TYPE_COMPOUND_STRUCT: case TYPE_COMPOUND_UNION: { if (type->compound.declaration->symbol == NULL) { - warningf(&declaration->source_position, + warningf(&specifiers->source_position, "unnamed struct/union that defines no instances"); } break; @@ -4618,11 +4613,20 @@ static void parse_anonymous_declaration_rest( break; default: - warningf(&declaration->source_position, "empty declaration"); + warningf(&specifiers->source_position, "empty declaration"); break; } +#ifdef RECORD_EMPTY_DECLARATIONS + declaration_t *const declaration = allocate_declaration_zero(); + declaration->type = specifiers->type; + declaration->declared_storage_class = specifiers->declared_storage_class; + declaration->source_position = specifiers->source_position; + declaration->modifiers = specifiers->modifiers; + declaration->storage_class = STORAGE_CLASS_NONE; + append_declaration(declaration); +#endif } static void parse_declaration_rest(declaration_t *ndeclaration, @@ -4703,7 +4707,10 @@ static void parse_declaration(parsed_declaration_func finished_declaration) { declaration_specifiers_t specifiers; memset(&specifiers, 0, sizeof(specifiers)); + + add_anchor_token(';'); parse_declaration_specifiers(&specifiers); + rem_anchor_token(';'); if (token.type == ';') { parse_anonymous_declaration_rest(&specifiers); @@ -5373,7 +5380,7 @@ static void parse_external_declaration(void) add_anchor_token(','); add_anchor_token('='); - rem_anchor_token(';'); + add_anchor_token(';'); /* declarator is common to both function-definitions and declarations */ declaration_t *ndeclaration = parse_declarator(&specifiers, /*may_be_abstract=*/false); @@ -5511,12 +5518,40 @@ static void parse_external_declaration(void) } static type_t *make_bitfield_type(type_t *base_type, expression_t *size, - source_position_t *source_position) + source_position_t *source_position, + const symbol_t *symbol) { type_t *type = allocate_type_zero(TYPE_BITFIELD, source_position); - type->bitfield.base_type = base_type; - type->bitfield.size = size; + type->bitfield.base_type = base_type; + type->bitfield.size_expression = size; + + il_size_t bit_size; + type_t *skipped_type = skip_typeref(base_type); + if (!is_type_integer(skipped_type)) { + errorf(HERE, "bitfield base type '%T' is not an integer type", + base_type); + bit_size = 0; + } else { + bit_size = skipped_type->base.size * 8; + } + + if (is_constant_expression(size)) { + long v = fold_constant(size); + + if (v < 0) { + errorf(source_position, "negative width in bit-field '%Y'", + symbol); + } else if (v == 0) { + errorf(source_position, "zero width for bit-field '%Y'", + symbol); + } else if (bit_size > 0 && (il_size_t)v > bit_size) { + errorf(source_position, "width of '%Y' exceeds its type", + symbol); + } else { + type->bitfield.bit_size = v; + } + } return type; } @@ -5568,12 +5603,8 @@ static void parse_compound_declarators(declaration_t *struct_declaration, type_t *base_type = specifiers->type; expression_t *size = parse_constant_expression(); - if (!is_type_integer(skip_typeref(base_type))) { - errorf(HERE, "bitfield base type '%T' is not an integer type", - base_type); - } - - type_t *type = make_bitfield_type(base_type, size, &source_position); + type_t *type = make_bitfield_type(base_type, size, + &source_position, sym_anonymous); declaration = allocate_declaration_zero(); declaration->namespc = NAMESPACE_NORMAL; @@ -5593,12 +5624,8 @@ static void parse_compound_declarators(declaration_t *struct_declaration, next_token(); expression_t *size = parse_constant_expression(); - if (!is_type_integer(type)) { - errorf(HERE, "bitfield base type '%T' is not an integer type", - orig_type); - } - - type_t *bitfield_type = make_bitfield_type(orig_type, size, &source_position); + type_t *bitfield_type = make_bitfield_type(orig_type, size, + &source_position, declaration->symbol); declaration->type = bitfield_type; } else { /* TODO we ignore arrays for now... what is missing is a check @@ -6050,11 +6077,9 @@ static expression_t *parse_reference(void) declaration_t *declaration = get_declaration(symbol, NAMESPACE_NORMAL); if (declaration == NULL) { - if (look_ahead(1)->type == '(') { + if (!strict_mode && look_ahead(1)->type == '(') { /* an implicitly declared function */ - if (strict_mode) { - errorf(HERE, "unknown symbol '%Y' found.", symbol); - } else if (warning.implicit_function_declaration) { + if (warning.implicit_function_declaration) { warningf(HERE, "implicit declaration of function '%Y'", symbol); } @@ -6174,11 +6199,12 @@ static expression_t *parse_compound_literal(type_t *type) */ static expression_t *parse_cast(void) { + add_anchor_token(')'); + source_position_t source_position = token.source_position; type_t *type = parse_typename(); - /* matching add_anchor_token() is at call site */ rem_anchor_token(')'); expect(')'); @@ -6207,6 +6233,8 @@ end_error: */ static expression_t *parse_statement_expression(void) { + add_anchor_token(')'); + expression_t *expression = allocate_expression_zero(EXPR_STATEMENT); statement_t *statement = parse_compound_statement(true); @@ -6228,11 +6256,11 @@ static expression_t *parse_statement_expression(void) } expression->base.type = type; + rem_anchor_token(')'); expect(')'); - return expression; end_error: - return create_invalid_expression(); + return expression; } /** @@ -6241,7 +6269,6 @@ end_error: static expression_t *parse_parenthesized_expression(void) { eat('('); - add_anchor_token(')'); switch(token.type) { case '{': @@ -6257,13 +6284,13 @@ static expression_t *parse_parenthesized_expression(void) } } + add_anchor_token(')'); expression_t *result = parse_expression(); rem_anchor_token(')'); expect(')'); - return result; end_error: - return create_invalid_expression(); + return result; } static expression_t *parse_function_keyword(void) @@ -6440,17 +6467,15 @@ static expression_t *parse_va_start(void) expression_t *const expr = parse_assignment_expression(); if (expr->kind == EXPR_REFERENCE) { declaration_t *const decl = expr->reference.declaration; - if (decl == NULL) - return create_invalid_expression(); - if (decl->parent_scope == ¤t_function->scope && - decl->next == NULL) { - expression->va_starte.parameter = decl; - expect(')'); - return expression; + if (decl->parent_scope != ¤t_function->scope || decl->next != NULL) { + errorf(&expr->base.source_position, + "second argument of 'va_start' must be last parameter of the current function"); } + expression->va_starte.parameter = decl; + expect(')'); + return expression; } - errorf(&expr->base.source_position, - "second argument of 'va_start' must be last parameter of the current function"); + expect(')'); end_error: return create_invalid_expression(); } @@ -6855,19 +6880,18 @@ static expression_t *parse_array_expression(unsigned precedence, orig_type_left, orig_type_inside); } return_type = type_error_type; - array_access->array_ref = create_invalid_expression(); + array_access->array_ref = left; + array_access->index = inside; } + expression->base.type = automatic_type_conversion(return_type); + rem_anchor_token(']'); - if (token.type != ']') { + if (token.type == ']') { + next_token(); + } else { parse_error_expected("Problem while parsing array access", ']', NULL); - return expression; } - next_token(); - - return_type = automatic_type_conversion(return_type); - expression->base.type = return_type; - return expression; } @@ -6875,12 +6899,16 @@ static expression_t *parse_typeprop(expression_kind_t const kind, source_position_t const pos, unsigned const precedence) { - expression_t *tp_expression = allocate_expression_zero(kind); + expression_t *tp_expression = allocate_expression_zero(kind); tp_expression->base.type = type_size_t; tp_expression->base.source_position = pos; char const* const what = kind == EXPR_SIZEOF ? "sizeof" : "alignof"; + /* we only refer to a type property, not the value, so do not warn + * when using current_init_decl */ + declaration_t *old = current_init_decl; + current_init_decl = NULL; if (token.type == '(' && is_declaration_specifier(look_ahead(1), true)) { next_token(); add_anchor_token(')'); @@ -6920,9 +6948,9 @@ static expression_t *parse_typeprop(expression_kind_t const kind, tp_expression->typeprop.tp_expression = expression; } - return tp_expression; end_error: - return create_invalid_expression(); + current_init_decl = old; + return tp_expression; } static expression_t *parse_sizeof(unsigned precedence) @@ -7069,26 +7097,15 @@ static void check_call_argument(const function_parameter_t *parameter, snprintf(buf, sizeof(buf), "call argument %u", pos); report_assign_error(error, expected_type, arg_expr, buf, &arg_expr->base.source_position); - } else if (warning.traditional | warning.conversion) { - if ( - /* passing as integer instead of float or complex */ - (is_type_integer(expected_type) && - (is_type_float(arg_type) || is_type_complex(arg_type))) || - /* passing as complex instead of integer or float */ - (is_type_complex(expected_type) && - (is_type_integer(arg_type) || is_type_float(arg_type))) || - /* passing as float instead of integer or complex */ - (is_type_float(expected_type) && - (is_type_integer(arg_type) || is_type_complex(arg_type))) || - /* passing as float instead of double */ - (is_type_float(expected_type) && expected_type != type_double && - is_type_float(arg_type))) { + } else if (warning.traditional || warning.conversion) { + type_t *const promoted_type = get_default_promoted_type(arg_type); + if (!types_compatible(expected_type_skip, promoted_type) && + !types_compatible(expected_type_skip, type_void_ptr) && + !types_compatible(type_void_ptr, promoted_type)) { + /* Deliberately show the skipped types in this warning */ warningf(&arg_expr->base.source_position, "passing call argument %u as '%T' rather than '%T' due to prototype", - pos, expected_type, arg_type); - } - if (is_type_integer(expected_type) && is_type_integer(arg_type)) { - /* TODO check for size HERE */ + pos, expected_type_skip, promoted_type); } } } @@ -7189,9 +7206,8 @@ static expression_t *parse_call_expression(unsigned precedence, "function call has aggregate value"); } - return result; end_error: - return create_invalid_expression(); + return result; } static type_t *semantic_arithmetic(type_t *type_left, type_t *type_right); @@ -7609,6 +7625,9 @@ static type_t *semantic_arithmetic(type_t *type_left, type_t *type_right) { /* TODO: handle complex + imaginary types */ + type_left = get_unqualified_type(type_left); + type_right = get_unqualified_type(type_right); + /* § 6.3.1.8 Usual arithmetic conversions */ if (type_left == type_long_double || type_right == type_long_double) { return type_long_double; @@ -7695,10 +7714,15 @@ static void semantic_binexpr_arithmetic(binary_expression_t *expression) static void warn_div_by_zero(binary_expression_t const *const expression) { - if (warning.div_by_zero && - is_type_integer(expression->base.type) && - is_constant_expression(expression->right) && - fold_constant(expression->right) == 0) { + if (!warning.div_by_zero || + !is_type_integer(expression->base.type)) + return; + + expression_t const *const right = expression->right; + /* The type of the right operand can be different for /= */ + if (is_type_integer(right->base.type) && + is_constant_expression(right) && + fold_constant(right) == 0) { warningf(&expression->base.source_position, "division by zero"); } } @@ -8624,12 +8648,18 @@ static statement_t *parse_case_statement(void) source_position_t *const pos = &statement->base.source_position; *pos = token.source_position; - statement->case_label.expression = parse_expression(); - if (! is_constant_expression(statement->case_label.expression)) { - errorf(pos, "case label does not reduce to an integer constant"); + expression_t *const expression = parse_expression(); + statement->case_label.expression = expression; + if (!is_constant_expression(expression)) { + /* This check does not prevent the error message in all cases of an + * prior error while parsing the expression. At least it catches the + * common case of a mistyped enum entry. */ + if (is_type_valid(expression->base.type)) { + errorf(pos, "case label does not reduce to an integer constant"); + } statement->case_label.is_bad = true; } else { - long const val = fold_constant(statement->case_label.expression); + long const val = fold_constant(expression); statement->case_label.first_case = val; statement->case_label.last_case = val; } @@ -8637,16 +8667,22 @@ static statement_t *parse_case_statement(void) if (c_mode & _GNUC) { if (token.type == T_DOTDOTDOT) { next_token(); - statement->case_label.end_range = parse_expression(); - if (! is_constant_expression(statement->case_label.end_range)) { - errorf(pos, "case range does not reduce to an integer constant"); + expression_t *const end_range = parse_expression(); + statement->case_label.end_range = end_range; + if (!is_constant_expression(end_range)) { + /* This check does not prevent the error message in all cases of an + * prior error while parsing the expression. At least it catches the + * common case of a mistyped enum entry. */ + if (is_type_valid(end_range->base.type)) { + errorf(pos, "case range does not reduce to an integer constant"); + } statement->case_label.is_bad = true; } else { - long const val = fold_constant(statement->case_label.end_range); + long const val = fold_constant(end_range); statement->case_label.last_case = val; if (val < statement->case_label.first_case) { - statement->case_label.is_empty = true; + statement->case_label.is_empty_range = true; warningf(pos, "empty range specified"); } } @@ -8662,7 +8698,7 @@ static statement_t *parse_case_statement(void) /* Check for duplicate case values */ case_label_statement_t *c = &statement->case_label; for (case_label_statement_t *l = current_switch->first_case; l != NULL; l = l->next) { - if (l->is_bad || l->is_empty || l->expression == NULL) + if (l->is_bad || l->is_empty_range || l->expression == NULL) continue; if (c->last_case < l->first_case || c->first_case > l->last_case) @@ -9112,7 +9148,7 @@ static statement_t *parse_goto(void) parse_error_expected("while parsing goto", T_IDENTIFIER, '*', NULL); else parse_error_expected("while parsing goto", T_IDENTIFIER, NULL); - eat_statement(); + eat_until_anchor(); goto end_error; } symbol_t *symbol = token.v.symbol; @@ -9320,7 +9356,10 @@ static statement_t *parse_declaration_statement(void) statement->base.source_position = token.source_position; declaration_t *before = last_declaration; - parse_declaration(record_declaration); + if (c_mode & _GNUC) + parse_external_declaration(); + else + parse_declaration(record_declaration); if (before == NULL) { statement->declaration.declarations_begin = scope->declarations; @@ -9474,13 +9513,18 @@ static statement_t *intern_parse_statement(void) } else if (is_typedef_symbol(token.v.symbol)) { statement = parse_declaration_statement(); } else switch (la1_type) { + case '*': + if (get_declaration(token.v.symbol, NAMESPACE_NORMAL) != NULL) + goto expression_statment; + /* FALLTHROUGH */ + DECLARATION_START case T_IDENTIFIER: - case '*': statement = parse_declaration_statement(); break; default: +expression_statment: statement = parse_expression_statement(); break; } @@ -9506,7 +9550,7 @@ static statement_t *intern_parse_statement(void) case ';': statement = parse_empty_statement(); break; case '{': statement = parse_compound_statement(false); break; - case T___leave: statement = parse_leave_statement(); break; + case T___leave: statement = parse_leave_statement(); break; case T___try: statement = parse_ms_try_statment(); break; case T_asm: statement = parse_asm_statement(); break; case T_break: statement = parse_break(); break; @@ -9520,7 +9564,58 @@ static statement_t *intern_parse_statement(void) case T_return: statement = parse_return(); break; case T_switch: statement = parse_switch(); break; case T_while: statement = parse_while(); break; - default: statement = parse_expression_statement(); break; + + case '!': + case '&': + case '(': + case '*': + case '+': + case '-': + case '~': + case T_ANDAND: + case T_CHARACTER_CONSTANT: + case T_FLOATINGPOINT: + case T_INTEGER: + case T_MINUSMINUS: + case T_PLUSPLUS: + case T_STRING_LITERAL: + case T_WIDE_CHARACTER_CONSTANT: + case T_WIDE_STRING_LITERAL: + case T___FUNCDNAME__: + case T___FUNCSIG__: + case T___FUNCTION__: + case T___PRETTY_FUNCTION__: + case T___builtin_alloca: + case T___builtin_classify_type: + case T___builtin_constant_p: + case T___builtin_expect: + case T___builtin_huge_val: + case T___builtin_isgreater: + case T___builtin_isgreaterequal: + case T___builtin_isless: + case T___builtin_islessequal: + case T___builtin_islessgreater: + case T___builtin_isunordered: + case T___builtin_nan: + case T___builtin_nand: + case T___builtin_nanf: + case T___builtin_offsetof: + case T___builtin_prefetch: + case T___builtin_va_arg: + case T___builtin_va_end: + case T___builtin_va_start: + case T___func__: + case T___noop: + case T__assume: + statement = parse_expression_statement(); + break; + + default: + errorf(HERE, "unexpected token %K while parsing statement", &token); + statement = create_invalid_statement(); + if (!at_anchor()) + next_token(); + break; } rem_anchor_token(';'); @@ -9717,32 +9812,47 @@ end_error:; */ static void parse_translation_unit(void) { - for (;;) switch (token.type) { - DECLARATION_START - case T_IDENTIFIER: - case T___extension__: - parse_external_declaration(); - break; + for (;;) { +#ifndef NDEBUG + bool anchor_leak = false; + for (token_type_t i = 0; i != T_LAST_TOKEN; ++i) { + unsigned char count = token_anchor_set[i]; + if (count != 0) { + errorf(HERE, "Leaked anchor token %k %d times", i, count); + anchor_leak = true; + } + } + if (anchor_leak) + abort(); +#endif - case T_asm: - parse_global_asm(); - break; + switch (token.type) { + DECLARATION_START + case T_IDENTIFIER: + case T___extension__: + parse_external_declaration(); + break; - case T_EOF: - return; + case T_asm: + parse_global_asm(); + break; - case ';': - /* TODO error in strict mode */ - warningf(HERE, "stray ';' outside of function"); - next_token(); - break; + case T_EOF: + return; - default: - errorf(HERE, "stray %K outside of function", &token); - if (token.type == '(' || token.type == '{' || token.type == '[') - eat_until_matching_token(token.type); - next_token(); - break; + case ';': + /* TODO error in strict mode */ + warningf(HERE, "stray ';' outside of function"); + next_token(); + break; + + default: + errorf(HERE, "stray %K outside of function", &token); + if (token.type == '(' || token.type == '{' || token.type == '[') + eat_until_matching_token(token.type); + next_token(); + break; + } } } @@ -9808,6 +9918,8 @@ void parse(void) */ void init_parser(void) { + sym_anonymous = symbol_table_insert(""); + if (c_mode & _MS) { /* add predefined symbols for extended-decl-modifier */ sym_align = symbol_table_insert("align");