X-Git-Url: http://nsz.repo.hu/git/?a=blobdiff_plain;f=parser.c;h=7d9b3347762a90999398158718d0e5bf4fbc0460;hb=65dfc72272eeb6beba7d3a53ebd9a46488000c81;hp=387681d7e64563c5fa553642ad62f7611e296d53;hpb=6306c38c841ce77656f2181c252eabef2aee88f9;p=cparser diff --git a/parser.c b/parser.c index 387681d..7d9b334 100644 --- a/parser.c +++ b/parser.c @@ -39,17 +39,22 @@ struct declaration_specifiers_t { typedef declaration_t* (*parsed_declaration_func) (declaration_t *declaration); -static token_t token; -static token_t lookahead_buffer[MAX_LOOKAHEAD]; -static int lookahead_bufpos; -static stack_entry_t *environment_stack = NULL; -static stack_entry_t *label_stack = NULL; -static context_t *global_context = NULL; -static context_t *context = NULL; -static declaration_t *last_declaration = NULL; -static declaration_t *current_function = NULL; +static token_t token; +static token_t lookahead_buffer[MAX_LOOKAHEAD]; +static int lookahead_bufpos; +static stack_entry_t *environment_stack = NULL; +static stack_entry_t *label_stack = NULL; +static context_t *global_context = NULL; +static context_t *context = NULL; +static declaration_t *last_declaration = NULL; +static declaration_t *current_function = NULL; +static switch_statement_t *current_switch = NULL; +static statement_t *current_loop = NULL; +static goto_statement_t *goto_first = NULL; +static goto_statement_t *goto_last = NULL; static struct obstack temp_obst; +/** The current source position. */ #define HERE token.source_position static type_t *type_valist; @@ -486,30 +491,11 @@ static void set_context(context_t *new_context) } } -/** - * Called when we find a 2nd declarator for an identifier we already have a - * declarator for. - */ -static bool is_compatible_declaration(declaration_t *declaration, - declaration_t *previous) -{ - /* happens for K&R style function parameters */ - if(previous->type == NULL) { - previous->type = declaration->type; - return true; - } - - type_t *type1 = skip_typeref(declaration->type); - type_t *type2 = skip_typeref(previous->type); - - return types_compatible(type1, type2); -} - /** * Search a symbol in a given namespace and returns its declaration or * NULL if this symbol was not found. */ -static declaration_t *get_declaration(symbol_t *symbol, namespace_t namespc) +static declaration_t *get_declaration(const symbol_t *const symbol, const namespace_t namespc) { declaration_t *declaration = symbol->declaration; for( ; declaration != NULL; declaration = declaration->symbol_next) { @@ -520,86 +506,15 @@ static declaration_t *get_declaration(symbol_t *symbol, namespace_t namespc) return NULL; } -/** - * Return the "prefix" of a given namespace. - */ -static const char *get_namespace_prefix(namespace_t namespc) -{ - switch(namespc) { - case NAMESPACE_NORMAL: - return ""; - case NAMESPACE_UNION: - return "union "; - case NAMESPACE_STRUCT: - return "struct "; - case NAMESPACE_ENUM: - return "enum "; - case NAMESPACE_LABEL: - return "label "; - } - panic("invalid namespace found"); -} - /** * pushs an environment_entry on the environment stack and links the * corresponding symbol to the new entry */ -static declaration_t *stack_push(stack_entry_t **stack_ptr, - declaration_t *declaration, - context_t *parent_context) +static void stack_push(stack_entry_t **stack_ptr, declaration_t *declaration) { symbol_t *symbol = declaration->symbol; namespace_t namespc = (namespace_t)declaration->namespc; - /* a declaration should be only pushed once */ - declaration->parent_context = parent_context; - - declaration_t *previous_declaration = get_declaration(symbol, namespc); - assert(declaration != previous_declaration); - if(previous_declaration != NULL - && previous_declaration->parent_context == context) { - if(!is_compatible_declaration(declaration, previous_declaration)) { - errorf(declaration->source_position, "definition of symbol '%s%Y' with type '%T'", get_namespace_prefix(namespc), symbol, declaration->type); - errorf(previous_declaration->source_position, "is incompatible with previous declaration of type '%T'", previous_declaration->type); - } else { - unsigned old_storage_class = previous_declaration->storage_class; - unsigned new_storage_class = declaration->storage_class; - type_t *type = previous_declaration->type; - type = skip_typeref(type); - - if (current_function == NULL) { - if (old_storage_class != STORAGE_CLASS_STATIC && - new_storage_class == STORAGE_CLASS_STATIC) { - errorf(declaration->source_position, "static declaration of '%Y' follows non-static declaration", symbol); - errorf(previous_declaration->source_position, "previous declaration of '%Y' was here", symbol); - } else { - if (old_storage_class == STORAGE_CLASS_EXTERN) { - if (new_storage_class == STORAGE_CLASS_NONE) { - previous_declaration->storage_class = STORAGE_CLASS_NONE; - } - } else if(!is_type_function(type)) { - warningf(declaration->source_position, "redundant declaration for '%Y'", symbol); - warningf(previous_declaration->source_position, "previous declaration of '%Y' was here", symbol); - } - } - } else { - if (old_storage_class == STORAGE_CLASS_EXTERN && - new_storage_class == STORAGE_CLASS_EXTERN) { - warningf(declaration->source_position, "redundant extern declaration for '%Y'\n", symbol); - warningf(previous_declaration->source_position, "previous declaration of '%Y' was here\n", symbol); - } else { - if (old_storage_class == new_storage_class) { - errorf(declaration->source_position, "redeclaration of '%Y'", symbol); - } else { - errorf(declaration->source_position, "redeclaration of '%Y' with different linkage", symbol); - } - errorf(previous_declaration->source_position, "previous declaration of '%Y' was here", symbol); - } - } - } - return previous_declaration; - } - /* remember old declaration */ stack_entry_t entry; entry.symbol = symbol; @@ -630,19 +545,19 @@ static declaration_t *stack_push(stack_entry_t **stack_ptr, iter_last->symbol_next = declaration; } } - - return declaration; } -static declaration_t *environment_push(declaration_t *declaration) +static void environment_push(declaration_t *declaration) { assert(declaration->source_position.input_name != NULL); - return stack_push(&environment_stack, declaration, context); + assert(declaration->parent_context != NULL); + stack_push(&environment_stack, declaration); } -static declaration_t *label_push(declaration_t *declaration) +static void label_push(declaration_t *declaration) { - return stack_push(&label_stack, declaration, ¤t_function->context); + declaration->parent_context = ¤t_function->context; + stack_push(&label_stack, declaration); } /** @@ -717,7 +632,7 @@ static int get_rank(const type_t *type) assert(type->kind == TYPE_ATOMIC); const atomic_type_t *atomic_type = &type->atomic; - atomic_type_type_t atype = atomic_type->atype; + atomic_type_kind_t atype = atomic_type->akind; return atype; } @@ -1097,7 +1012,7 @@ static initializer_t *initializer_from_expression(type_t *type, if (element_type->kind == TYPE_ATOMIC) { switch (expression->kind) { case EXPR_STRING_LITERAL: - if (element_type->atomic.atype == ATOMIC_TYPE_CHAR) { + if (element_type->atomic.akind == ATOMIC_TYPE_CHAR) { return initializer_from_string(array_type, expression->string.value); } @@ -1370,7 +1285,7 @@ static initializer_t *parse_initializer(type_t *type) return result; } - +static declaration_t *append_declaration(declaration_t *declaration); static declaration_t *parse_compound_type_specifier(bool is_struct) { @@ -1419,13 +1334,17 @@ static declaration_t *parse_compound_type_specifier(bool is_struct) } declaration->source_position = token.source_position; declaration->symbol = symbol; - record_declaration(declaration); + declaration->parent_context = context; + if (symbol != NULL) { + environment_push(declaration); + } + append_declaration(declaration); } if(token.type == '{') { if(declaration->init.is_defined) { assert(symbol != NULL); - errorf(HERE, "multiple definition of %s %Y", + errorf(HERE, "multiple definition of '%s %Y'", is_struct ? "struct" : "union", symbol); declaration->context.declarations = NULL; } @@ -1514,6 +1433,7 @@ static type_t *parse_enum_specifier(void) declaration->namespc = NAMESPACE_ENUM; declaration->source_position = token.source_position; declaration->symbol = symbol; + declaration->parent_context = context; } type_t *const type = allocate_type_zero(TYPE_ENUM); @@ -1523,7 +1443,10 @@ static type_t *parse_enum_specifier(void) if(declaration->init.is_defined) { errorf(HERE, "multiple definitions of enum %Y", symbol); } - record_declaration(declaration); + if (symbol != NULL) { + environment_push(declaration); + } + append_declaration(declaration); declaration->init.is_defined = 1; parse_enum_entries(&type->enumt); @@ -1798,7 +1721,7 @@ static void parse_declaration_specifiers(declaration_specifiers_t *specifiers) finish_specifiers: if(type == NULL) { - atomic_type_type_t atomic_type; + atomic_type_kind_t atomic_type; /* match valid basic types */ switch(type_specifiers) { @@ -1909,7 +1832,7 @@ finish_specifiers: } type = allocate_type_zero(TYPE_ATOMIC); - type->atomic.atype = atomic_type; + type->atomic.akind = atomic_type; newtype = 1; } else { if(type_specifiers != 0) { @@ -2375,30 +2298,117 @@ static type_t *parse_abstract_declarator(type_t *base_type) return result; } -static declaration_t *record_declaration(declaration_t *declaration) +static declaration_t *append_declaration(declaration_t* const declaration) { - assert(declaration->parent_context == NULL); - assert(context != NULL); - - symbol_t *symbol = declaration->symbol; - if(symbol != NULL) { - declaration_t *alias = environment_push(declaration); - if(alias != declaration) - return alias; - } else { - declaration->parent_context = context; - } - - if(last_declaration != NULL) { + if (last_declaration != NULL) { last_declaration->next = declaration; } else { context->declarations = declaration; } last_declaration = declaration; - return declaration; } +static declaration_t *internal_record_declaration( + declaration_t *const declaration, + const bool is_function_definition) +{ + const symbol_t *const symbol = declaration->symbol; + const namespace_t namespc = (namespace_t)declaration->namespc; + + const type_t *const type = skip_typeref(declaration->type); + if (is_type_function(type) && type->function.unspecified_parameters) { + warningf(declaration->source_position, + "function declaration '%#T' is not a prototype", + type, declaration->symbol); + } + + declaration_t *const previous_declaration = get_declaration(symbol, namespc); + assert(declaration != previous_declaration); + if (previous_declaration != NULL + && previous_declaration->parent_context == context) { + /* can happen for K&R style declarations */ + if(previous_declaration->type == NULL) { + previous_declaration->type = declaration->type; + } + + const type_t *const prev_type = skip_typeref(previous_declaration->type); + if (!types_compatible(type, prev_type)) { + errorf(declaration->source_position, + "declaration '%#T' is incompatible with previous declaration '%#T'", + type, symbol, previous_declaration->type, symbol); + errorf(previous_declaration->source_position, "previous declaration of '%Y' was here", symbol); + } else { + unsigned old_storage_class = previous_declaration->storage_class; + unsigned new_storage_class = declaration->storage_class; + + /* pretend no storage class means extern for function declarations + * (except if the previous declaration is neither none nor extern) */ + if (is_type_function(type)) { + switch (old_storage_class) { + case STORAGE_CLASS_NONE: + old_storage_class = STORAGE_CLASS_EXTERN; + + case STORAGE_CLASS_EXTERN: + if (new_storage_class == STORAGE_CLASS_NONE && !is_function_definition) { + new_storage_class = STORAGE_CLASS_EXTERN; + } + break; + + default: break; + } + } + + if (old_storage_class == STORAGE_CLASS_EXTERN && + new_storage_class == STORAGE_CLASS_EXTERN) { +warn_redundant_declaration: + warningf(declaration->source_position, "redundant declaration for '%Y'", symbol); + warningf(previous_declaration->source_position, "previous declaration of '%Y' was here", symbol); + } else if (current_function == NULL) { + if (old_storage_class != STORAGE_CLASS_STATIC && + new_storage_class == STORAGE_CLASS_STATIC) { + errorf(declaration->source_position, "static declaration of '%Y' follows non-static declaration", symbol); + errorf(previous_declaration->source_position, "previous declaration of '%Y' was here", symbol); + } else { + if (old_storage_class != STORAGE_CLASS_EXTERN) { + goto warn_redundant_declaration; + } + if (new_storage_class == STORAGE_CLASS_NONE) { + previous_declaration->storage_class = STORAGE_CLASS_NONE; + } + } + } else { + if (old_storage_class == new_storage_class) { + errorf(declaration->source_position, "redeclaration of '%Y'", symbol); + } else { + errorf(declaration->source_position, "redeclaration of '%Y' with different linkage", symbol); + } + errorf(previous_declaration->source_position, "previous declaration of '%Y' was here", symbol); + } + } + return previous_declaration; + } + + assert(declaration->parent_context == NULL); + assert(declaration->symbol != NULL); + assert(context != NULL); + + declaration->parent_context = context; + + environment_push(declaration); + return append_declaration(declaration); +} + +static declaration_t *record_declaration(declaration_t *declaration) +{ + return internal_record_declaration(declaration, false); +} + +static declaration_t *record_function_definition(declaration_t *const declaration) +{ + return internal_record_declaration(declaration, true); +} + static void parser_error_multiple_definition(declaration_t *declaration, const source_position_t source_position) { @@ -2557,11 +2567,32 @@ static void parse_declaration_rest(declaration_t *ndeclaration, static declaration_t *finished_kr_declaration(declaration_t *declaration) { - /* TODO: check that it was actually a parameter that gets a type */ + symbol_t *symbol = declaration->symbol; + 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) { + return record_declaration(declaration); + } + + declaration_t *previous_declaration = get_declaration(symbol, namespc); + if(previous_declaration == NULL || + previous_declaration->parent_context != context) { + errorf(HERE, "expected declaration of a function parameter, found '%Y'", + symbol); + return declaration; + } - /* we should have a declaration for the parameter in the current - * scope */ - return record_declaration(declaration); + if(previous_declaration->type == NULL) { + previous_declaration->type = declaration->type; + previous_declaration->storage_class = declaration->storage_class; + previous_declaration->parent_context = context; + return previous_declaration; + } else { + return record_declaration(declaration); + } } static void parse_declaration(parsed_declaration_func finished_declaration) @@ -2594,6 +2625,8 @@ static void parse_kr_declaration_list(declaration_t *declaration) declaration_t *parameter = declaration->context.declarations; for( ; parameter != NULL; parameter = parameter->next) { + assert(parameter->parent_context == NULL); + parameter->parent_context = context; environment_push(parameter); } @@ -2655,6 +2688,31 @@ static void parse_kr_declaration_list(declaration_t *declaration) declaration->type = type; } +/** + * Check if all labels are defined in the current function. + */ +static void check_for_missing_labels(void) +{ + bool first_err = true; + for (const goto_statement_t *goto_statement = goto_first; + goto_statement != NULL; + goto_statement = goto_statement->next) { + const declaration_t *label = goto_statement->label; + + if (label->source_position.input_name == NULL) { + if (first_err) { + first_err = false; + diagnosticf("%s: In function '%Y':\n", + current_function->source_position.input_name, + current_function->symbol); + } + errorf(goto_statement->statement.source_position, + "label '%Y' used but not defined", label->symbol); + } + } + goto_first = goto_last = NULL; +} + static void parse_external_declaration(void) { /* function-definitions and declarations both start with declaration @@ -2665,7 +2723,7 @@ static void parse_external_declaration(void) /* must be a declaration */ if(token.type == ';') { - parse_anonymous_declaration_rest(&specifiers, record_declaration); + parse_anonymous_declaration_rest(&specifiers, append_declaration); return; } @@ -2696,7 +2754,8 @@ static void parse_external_declaration(void) /* 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) { - errorf(HERE, "declarator '%#T' has a body but is not a function type", type, ndeclaration->symbol); + errorf(HERE, "declarator '%#T' has a body but is not a function type", + type, ndeclaration->symbol); eat_block(); return; } @@ -2714,10 +2773,9 @@ static void parse_external_declaration(void) ndeclaration->type = type; } - declaration_t *declaration = record_declaration(ndeclaration); + declaration_t *const declaration = record_function_definition(ndeclaration); if(ndeclaration != declaration) { - memcpy(&declaration->context, &ndeclaration->context, - sizeof(declaration->context)); + declaration->context = ndeclaration->context; } type = skip_typeref(declaration->type); @@ -2728,6 +2786,12 @@ static void parse_external_declaration(void) declaration_t *parameter = declaration->context.declarations; for( ; parameter != NULL; parameter = parameter->next) { + if(parameter->parent_context == &ndeclaration->context) { + parameter->parent_context = context; + } + assert(parameter->parent_context == NULL + || parameter->parent_context == context); + parameter->parent_context = context; environment_push(parameter); } @@ -2742,6 +2806,7 @@ static void parse_external_declaration(void) current_function = declaration; declaration->init.statement = parse_compound_statement(); + check_for_missing_labels(); assert(current_function == declaration); current_function = old_current_function; @@ -2946,20 +3011,18 @@ static declaration_t *create_implicit_function(symbol_t *symbol, declaration->type = type; declaration->symbol = symbol; declaration->source_position = source_position; + declaration->parent_context = global_context; - /* prepend the implicit definition to the global context - * this is safe since the symbol wasn't declared as anything else yet - */ - assert(symbol->declaration == NULL); - - context_t *last_context = context; - context = global_context; + context_t *old_context = context; + set_context(global_context); environment_push(declaration); + /* prepend the declaration to the global declarations list */ declaration->next = context->declarations; context->declarations = declaration; - context = last_context; + assert(context == global_context); + set_context(old_context); return declaration; } @@ -3055,13 +3118,7 @@ type_t *revert_automatic_type_conversion(const expression_t *expression) } case EXPR_SELECT: { const select_expression_t *select = &expression->select; - type_t *orig_type = select->compound_entry->type; - type_t *type = skip_typeref(orig_type); - if(type->kind == TYPE_BITFIELD) { - return type->bitfield.base; - } else { - return orig_type; - } + return select->compound_entry->type; } case EXPR_UNARY_DEREFERENCE: { expression_t *value = expression->unary.value; @@ -3119,10 +3176,6 @@ static expression_t *parse_reference(void) } type_t *type = declaration->type; - type_t *skipped_type = skip_typeref(type); - if(skipped_type->kind == TYPE_BITFIELD) { - type = skipped_type->bitfield.base; - } /* we always do the auto-type conversions; the & and sizeof parser contains * code to revert this! */ @@ -3569,6 +3622,21 @@ static expression_t *parse_primary_expression(void) return create_invalid_expression(); } +/** + * Check if the expression has the character type and issue a warning then. + */ +static void check_for_char_index_type(const expression_t *expression) { + type_t *type = expression->base.datatype; + type_t *base_type = skip_typeref(type); + + if (base_type->base.kind == TYPE_ATOMIC) { + if (base_type->atomic.akind == ATOMIC_TYPE_CHAR) { + warningf(expression->base.source_position, + "array subscript has type '%T'", type); + } + } +} + static expression_t *parse_array_expression(unsigned precedence, expression_t *left) { @@ -3596,12 +3664,14 @@ static expression_t *parse_array_expression(unsigned precedence, return_type = pointer->points_to; array_access->array_ref = left; array_access->index = inside; + check_for_char_index_type(inside); } else if(is_type_pointer(type_inside)) { pointer_type_t *pointer = &type_inside->pointer; return_type = pointer->points_to; array_access->array_ref = inside; array_access->index = left; array_access->flipped = true; + check_for_char_index_type(left); } else { errorf(HERE, "array access on object with non-pointer types '%T', '%T'", type_left, type_inside); } @@ -3713,13 +3783,19 @@ static expression_t *parse_select_expression(unsigned precedence, /* we always do the auto-type conversions; the & and sizeof parser contains * code to revert this! */ type_t *expression_type = automatic_type_conversion(iter->type); - if(expression_type->kind == TYPE_BITFIELD) { - expression_type = expression_type->bitfield.base; - } select->select.compound_entry = iter; select->base.datatype = expression_type; + if(expression_type->kind == TYPE_BITFIELD) { + expression_t *extract + = allocate_expression_zero(EXPR_UNARY_BITFIELD_EXTRACT); + extract->unary.value = select; + extract->base.datatype = expression_type->bitfield.base; + + return extract; + } + return select; } @@ -4026,6 +4102,9 @@ static void semantic_dereference(unary_expression_t *expression) expression->expression.datatype = result_type; } +/** + * Check the semantic of the address taken expression. + */ static void semantic_take_addr(unary_expression_t *expression) { expression_t *value = expression->value; @@ -4039,6 +4118,11 @@ static void semantic_take_addr(unary_expression_t *expression) reference_expression_t *reference = (reference_expression_t*) value; declaration_t *declaration = reference->declaration; if(declaration != NULL) { + if (declaration->storage_class == STORAGE_CLASS_REGISTER) { + errorf(expression->expression.source_position, + "address of register variable '%Y' requested", + declaration->symbol); + } declaration->address_taken = 1; } } @@ -4050,13 +4134,14 @@ static void semantic_take_addr(unary_expression_t *expression) static expression_t *parse_##unexpression_type(unsigned precedence) \ { \ eat(token_type); \ - \ + \ expression_t *unary_expression \ = allocate_expression_zero(unexpression_type); \ + unary_expression->base.source_position = HERE; \ unary_expression->unary.value = parse_sub_expression(precedence); \ \ sfunc(&unary_expression->unary); \ - \ + \ return unary_expression; \ } @@ -4410,15 +4495,19 @@ static void semantic_binexpr_assign(binary_expression_t *expression) return; } if(type_left->base.qualifiers & TYPE_QUALIFIER_CONST) { - errorf(HERE, "assignment to readonly location '%E' (type '%T')", left, orig_type_left); + errorf(HERE, "assignment to readonly location '%E' (type '%T')", left, + orig_type_left); return; } if(is_type_incomplete(type_left)) { - errorf(HERE, "left-hand side of assignment '%E' has incomplete type '%T'", left, orig_type_left); + errorf(HERE, + "left-hand side of assignment '%E' has incomplete type '%T'", + left, orig_type_left); return; } if(is_type_compound(type_left) && has_const_fields(&type_left->compound)) { - errorf(HERE, "cannot assign to '%E' because compound type '%T' has readonly fields", left, orig_type_left); + errorf(HERE, "cannot assign to '%E' because compound type '%T' has readonly fields", + left, orig_type_left); return; } @@ -4788,11 +4877,45 @@ static statement_t *parse_case_statement(void) statement->case_label.expression = parse_expression(); expect(':'); + + if (! is_constant_expression(statement->case_label.expression)) { + errorf(statement->base.source_position, + "case label does not reduce to an integer constant"); + } else { + /* TODO: check if the case label is already known */ + if (current_switch != NULL) { + /* link all cases into the switch statement */ + if (current_switch->last_case == NULL) { + current_switch->first_case = + current_switch->last_case = &statement->case_label; + } else { + current_switch->last_case->next = &statement->case_label; + } + } else { + errorf(statement->base.source_position, + "case label not within a switch statement"); + } + } statement->case_label.label_statement = parse_statement(); return statement; } +/** + * Finds an existing default label of a switch statement. + */ +static case_label_statement_t * +find_default_label(const switch_statement_t *statement) +{ + for (case_label_statement_t *label = statement->first_case; + label != NULL; + label = label->next) { + if (label->expression == NULL) + return label; + } + return NULL; +} + /** * Parse a default statement. */ @@ -4805,6 +4928,25 @@ static statement_t *parse_default_statement(void) statement->base.source_position = token.source_position; expect(':'); + if (current_switch != NULL) { + const case_label_statement_t *def_label = find_default_label(current_switch); + if (def_label != NULL) { + errorf(HERE, "multiple default labels in one switch"); + errorf(def_label->statement.source_position, + "this is the first default label"); + } else { + /* link all cases into the switch statement */ + if (current_switch->last_case == NULL) { + current_switch->first_case = + current_switch->last_case = &statement->case_label; + } else { + current_switch->last_case->next = &statement->case_label; + } + } + } else { + errorf(statement->base.source_position, + "'default' label not within a switch statement"); + } statement->label.label_statement = parse_statement(); return statement; @@ -4848,8 +4990,8 @@ static statement_t *parse_label_statement(void) /* 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) { - errorf(HERE, "duplicate label '%Y'\n", symbol); - errorf(label->source_position, "previous definition of '%Y' was here\n", + errorf(HERE, "duplicate label '%Y'", symbol); + errorf(label->source_position, "previous definition of '%Y' was here", symbol); } else { label->source_position = token.source_position; @@ -4861,7 +5003,7 @@ static statement_t *parse_label_statement(void) label_statement->statement.source_position = token.source_position; label_statement->label = label; - expect(':'); + eat(':'); if(token.type == '}') { /* TODO only warn? */ @@ -4910,13 +5052,28 @@ static statement_t *parse_switch(void) statement->statement.source_position = token.source_position; expect('('); - statement->expression = parse_expression(); + expression_t *const expr = parse_expression(); + type_t *const type = promote_integer(skip_typeref(expr->base.datatype)); + statement->expression = create_implicit_cast(expr, type); expect(')'); + + switch_statement_t *rem = current_switch; + current_switch = statement; statement->body = parse_statement(); + current_switch = rem; return (statement_t*) statement; } +static statement_t *parse_loop_body(statement_t *const loop) +{ + statement_t *const rem = current_loop; + current_loop = loop; + statement_t *const body = parse_statement(); + current_loop = rem; + return body; +} + /** * Parse a while statement. */ @@ -4931,7 +5088,8 @@ static statement_t *parse_while(void) expect('('); statement->condition = parse_expression(); expect(')'); - statement->body = parse_statement(); + + statement->body = parse_loop_body((statement_t*)statement); return (statement_t*) statement; } @@ -4947,7 +5105,7 @@ static statement_t *parse_do(void) statement->statement.kind = STATEMENT_DO_WHILE; statement->statement.source_position = token.source_position; - statement->body = parse_statement(); + statement->body = parse_loop_body((statement_t*)statement); expect(T_while); expect('('); statement->condition = parse_expression(); @@ -4993,7 +5151,7 @@ static statement_t *parse_for(void) statement->step = parse_expression(); } expect(')'); - statement->body = parse_statement(); + statement->body = parse_loop_body((statement_t*)statement); assert(context == &statement->context); set_context(last_context); @@ -5026,6 +5184,13 @@ static statement_t *parse_goto(void) statement->label = label; + /* remember the goto's in a list for later checking */ + if (goto_last == NULL) { + goto_first = goto_last = statement; + } else { + goto_last->next = statement; + } + expect(';'); return (statement_t*) statement; @@ -5036,14 +5201,20 @@ static statement_t *parse_goto(void) */ static statement_t *parse_continue(void) { + statement_base_t *statement; + if (current_loop == NULL) { + errorf(HERE, "continue statement not within loop"); + statement = NULL; + } else { + statement = allocate_ast_zero(sizeof(statement[0])); + statement->kind = STATEMENT_CONTINUE; + statement->source_position = token.source_position; + } + eat(T_continue); expect(';'); - statement_t *statement = allocate_ast_zero(sizeof(statement[0])); - statement->kind = STATEMENT_CONTINUE; - statement->base.source_position = token.source_position; - - return statement; + return (statement_t*)statement; } /** @@ -5051,14 +5222,52 @@ static statement_t *parse_continue(void) */ static statement_t *parse_break(void) { + statement_base_t *statement; + if (current_switch == NULL && current_loop == NULL) { + errorf(HERE, "break statement not within loop or switch"); + statement = NULL; + } else { + statement = allocate_ast_zero(sizeof(statement[0])); + statement->kind = STATEMENT_BREAK; + statement->source_position = token.source_position; + } + eat(T_break); expect(';'); - statement_t *statement = allocate_ast_zero(sizeof(statement[0])); - statement->kind = STATEMENT_BREAK; - statement->base.source_position = token.source_position; + return (statement_t*)statement; +} - return statement; +/** + * Check if a given declaration represents a local variable. + */ +static bool is_local_var_declaration(const declaration_t *declaration) { + switch ((storage_class_tag_t) declaration->storage_class) { + case STORAGE_CLASS_NONE: + case STORAGE_CLASS_AUTO: + case STORAGE_CLASS_REGISTER: { + const type_t *type = skip_typeref(declaration->type); + if(is_type_function(type)) { + return false; + } else { + return true; + } + } + default: + return false; + } +} + +/** + * Check if a given expression represents a local variable. + */ +static bool is_local_variable(const expression_t *expression) +{ + if (expression->base.kind != EXPR_REFERENCE) { + return false; + } + const declaration_t *declaration = expression->reference.declaration; + return is_local_var_declaration(declaration); } /** @@ -5095,16 +5304,26 @@ static statement_t *parse_return(void) if(is_type_atomic(return_type, ATOMIC_TYPE_VOID) && !is_type_atomic(return_value_type, ATOMIC_TYPE_VOID)) { - warningf(HERE, "'return' with a value, in function returning void"); + warningf(statement->statement.source_position, + "'return' with a value, in function returning void"); return_value = NULL; } else { if(return_type != NULL) { semantic_assign(return_type, &return_value, "'return'"); } } + /* check for returning address of a local var */ + if (return_value->base.kind == EXPR_UNARY_TAKE_ADDRESS) { + const expression_t *expression = return_value->unary.value; + if (is_local_variable(expression)) { + warningf(statement->statement.source_position, + "function returns address of local variable"); + } + } } else { if(!is_type_atomic(return_type, ATOMIC_TYPE_VOID)) { - warningf(HERE, "'return' without value, in function returning non-void"); + warningf(statement->statement.source_position, + "'return' without value, in function returning non-void"); } } statement->return_value = return_value; @@ -5337,7 +5556,13 @@ static translation_unit_t *parse_translation_unit(void) initialize_builtin_types(); while(token.type != T_EOF) { - parse_external_declaration(); + if (token.type == ';') { + /* TODO error in strict mode */ + warningf(HERE, "stray ';' outside of function"); + next_token(); + } else { + parse_external_declaration(); + } } assert(context == &unit->context);