/* The cp_lexer_* routines mediate between the lexer proper (in libcpp
and c-lex.c) and the C++ parser. */
+/* A token's value and its associated deferred access checks and
+ qualifying scope. */
+
+struct tree_check GTY(())
+{
+ /* The value associated with the token. */
+ tree value;
+ /* The checks that have been associated with value. */
+ VEC (deferred_access_check, gc)* checks;
+ /* The token's qualifying scope (used when it is a
+ CPP_NESTED_NAME_SPECIFIER). */
+ tree qualifying_scope;
+};
+
/* A C++ token. */
typedef struct cp_token GTY (())
/* The input file stack index at which this token was found. */
unsigned input_file_stack_index : INPUT_FILE_STACK_BITS;
/* The value associated with this token, if any. */
- tree value;
+ union cp_token_value {
+ /* Used for CPP_NESTED_NAME_SPECIFIER and CPP_TEMPLATE_ID. */
+ struct tree_check* GTY((tag ("1"))) tree_check_value;
+ /* Use for all other tokens. */
+ tree GTY((tag ("0"))) value;
+ } GTY((desc ("(%1.type == CPP_TEMPLATE_ID) || (%1.type == CPP_NESTED_NAME_SPECIFIER)"))) u;
/* The location at which this token was found. */
location_t location;
} cp_token;
static const cp_token eof_token =
{
- CPP_EOF, RID_MAX, 0, PRAGMA_NONE, 0, 0, false, 0, NULL_TREE,
+ CPP_EOF, RID_MAX, 0, PRAGMA_NONE, 0, 0, false, 0, { NULL },
#if USE_MAPPED_LOCATION
0
#else
/* Get a new token from the preprocessor. */
token->type
- = c_lex_with_flags (&token->value, &token->location, &token->flags);
+ = c_lex_with_flags (&token->u.value, &token->location, &token->flags);
token->input_file_stack_index = input_file_stack_tick;
token->keyword = RID_MAX;
token->pragma_kind = PRAGMA_NONE;
/* Check to see if this token is a keyword. */
if (token->type == CPP_NAME)
{
- if (C_IS_RESERVED_WORD (token->value))
+ if (C_IS_RESERVED_WORD (token->u.value))
{
/* Mark this token as a keyword. */
token->type = CPP_KEYWORD;
/* Record which keyword. */
- token->keyword = C_RID_CODE (token->value);
+ token->keyword = C_RID_CODE (token->u.value);
/* Update the value. Some keywords are mapped to particular
entities, rather than simply having the value of the
corresponding IDENTIFIER_NODE. For example, `__const' is
mapped to `const'. */
- token->value = ridpointers[token->keyword];
+ token->u.value = ridpointers[token->keyword];
}
else
{
+ if (warn_cxx0x_compat
+ && C_RID_CODE (token->u.value) >= RID_FIRST_CXX0X
+ && C_RID_CODE (token->u.value) <= RID_LAST_CXX0X)
+ {
+ /* Warn about the C++0x keyword (but still treat it as
+ an identifier). */
+ warning (OPT_Wc__0x_compat,
+ "identifier %<%s%> will become a keyword in C++0x",
+ IDENTIFIER_POINTER (token->u.value));
+
+ /* Clear out the C_RID_CODE so we don't warn about this
+ particular identifier-turned-keyword again. */
+ C_RID_CODE (token->u.value) = RID_MAX;
+ }
+
token->ambiguous_p = false;
token->keyword = RID_MAX;
}
else if (token->type == CPP_AT_NAME)
{
token->type = CPP_KEYWORD;
- switch (C_RID_CODE (token->value))
+ switch (C_RID_CODE (token->u.value))
{
/* Map 'class' to '@class', 'private' to '@private', etc. */
case RID_CLASS: token->keyword = RID_AT_CLASS; break;
case RID_THROW: token->keyword = RID_AT_THROW; break;
case RID_TRY: token->keyword = RID_AT_TRY; break;
case RID_CATCH: token->keyword = RID_AT_CATCH; break;
- default: token->keyword = C_RID_CODE (token->value);
+ default: token->keyword = C_RID_CODE (token->u.value);
}
}
else if (token->type == CPP_PRAGMA)
{
/* We smuggled the cpp_token->u.pragma value in an INTEGER_CST. */
- token->pragma_kind = TREE_INT_CST_LOW (token->value);
- token->value = NULL;
+ token->pragma_kind = TREE_INT_CST_LOW (token->u.value);
+ token->u.value = NULL_TREE;
}
}
return cp_lexer_peek_token (lexer)->keyword == keyword;
}
+/* Return true if the next token is a keyword for a decl-specifier. */
+
+static bool
+cp_lexer_next_token_is_decl_specifier_keyword (cp_lexer *lexer)
+{
+ cp_token *token;
+
+ token = cp_lexer_peek_token (lexer);
+ switch (token->keyword)
+ {
+ /* Storage classes. */
+ case RID_AUTO:
+ case RID_REGISTER:
+ case RID_STATIC:
+ case RID_EXTERN:
+ case RID_MUTABLE:
+ case RID_THREAD:
+ /* Elaborated type specifiers. */
+ case RID_ENUM:
+ case RID_CLASS:
+ case RID_STRUCT:
+ case RID_UNION:
+ case RID_TYPENAME:
+ /* Simple type specifiers. */
+ case RID_CHAR:
+ case RID_WCHAR:
+ case RID_BOOL:
+ case RID_SHORT:
+ case RID_INT:
+ case RID_LONG:
+ case RID_SIGNED:
+ case RID_UNSIGNED:
+ case RID_FLOAT:
+ case RID_DOUBLE:
+ case RID_VOID:
+ /* GNU extensions. */
+ case RID_ATTRIBUTE:
+ case RID_TYPEOF:
+ return true;
+
+ default:
+ return false;
+ }
+}
+
/* Return a pointer to the Nth token in the token stream. If N is 1,
then this is precisely equivalent to cp_lexer_peek_token (except
that it is not inline). One would like to disallow that case, but
gcc_assert (tok != &eof_token);
tok->type = CPP_PURGED;
tok->location = UNKNOWN_LOCATION;
- tok->value = NULL_TREE;
+ tok->u.value = NULL_TREE;
tok->keyword = RID_MAX;
do
{
tok->type = CPP_PURGED;
tok->location = UNKNOWN_LOCATION;
- tok->value = NULL_TREE;
+ tok->u.value = NULL_TREE;
tok->keyword = RID_MAX;
}
}
case CPP_KEYWORD:
/* Some keywords have a value that is not an IDENTIFIER_NODE.
For example, `struct' is mapped to an INTEGER_CST. */
- if (TREE_CODE (token->value) != IDENTIFIER_NODE)
+ if (TREE_CODE (token->u.value) != IDENTIFIER_NODE)
break;
/* else fall through */
case CPP_NAME:
- fputs (IDENTIFIER_POINTER (token->value), stream);
+ fputs (IDENTIFIER_POINTER (token->u.value), stream);
break;
case CPP_STRING:
case CPP_WSTRING:
- fprintf (stream, " \"%s\"", TREE_STRING_POINTER (token->value));
+ fprintf (stream, " \"%s\"", TREE_STRING_POINTER (token->u.value));
break;
default:
static cp_declarator *make_pointer_declarator
(cp_cv_quals, cp_declarator *);
static cp_declarator *make_reference_declarator
- (cp_cv_quals, cp_declarator *);
+ (cp_cv_quals, cp_declarator *, bool);
static cp_parameter_declarator *make_parameter_declarator
(cp_decl_specifier_seq *, cp_declarator *, tree);
static cp_declarator *make_ptrmem_declarator
declarator->kind = kind;
declarator->attributes = NULL_TREE;
declarator->declarator = NULL;
+ declarator->parameter_pack_p = false;
return declarator;
}
declarator->u.id.qualifying_scope = qualifying_scope;
declarator->u.id.unqualified_name = unqualified_name;
declarator->u.id.sfk = sfk;
-
+
return declarator;
}
declarator->declarator = target;
declarator->u.pointer.qualifiers = cv_qualifiers;
declarator->u.pointer.class_type = NULL_TREE;
+ if (target)
+ {
+ declarator->parameter_pack_p = target->parameter_pack_p;
+ target->parameter_pack_p = false;
+ }
+ else
+ declarator->parameter_pack_p = false;
return declarator;
}
/* Like make_pointer_declarator -- but for references. */
cp_declarator *
-make_reference_declarator (cp_cv_quals cv_qualifiers, cp_declarator *target)
+make_reference_declarator (cp_cv_quals cv_qualifiers, cp_declarator *target,
+ bool rvalue_ref)
{
cp_declarator *declarator;
declarator = make_declarator (cdk_reference);
declarator->declarator = target;
- declarator->u.pointer.qualifiers = cv_qualifiers;
- declarator->u.pointer.class_type = NULL_TREE;
+ declarator->u.reference.qualifiers = cv_qualifiers;
+ declarator->u.reference.rvalue_ref = rvalue_ref;
+ if (target)
+ {
+ declarator->parameter_pack_p = target->parameter_pack_p;
+ target->parameter_pack_p = false;
+ }
+ else
+ declarator->parameter_pack_p = false;
return declarator;
}
declarator->u.pointer.qualifiers = cv_qualifiers;
declarator->u.pointer.class_type = class_type;
+ if (pointee)
+ {
+ declarator->parameter_pack_p = pointee->parameter_pack_p;
+ pointee->parameter_pack_p = false;
+ }
+ else
+ declarator->parameter_pack_p = false;
+
return declarator;
}
declarator->u.function.parameters = parms;
declarator->u.function.qualifiers = cv_qualifiers;
declarator->u.function.exception_specification = exception_specification;
+ if (target)
+ {
+ declarator->parameter_pack_p = target->parameter_pack_p;
+ target->parameter_pack_p = false;
+ }
+ else
+ declarator->parameter_pack_p = false;
return declarator;
}
declarator = make_declarator (cdk_array);
declarator->declarator = element;
declarator->u.array.bounds = bounds;
+ if (element)
+ {
+ declarator->parameter_pack_p = element->parameter_pack_p;
+ element->parameter_pack_p = false;
+ }
+ else
+ declarator->parameter_pack_p = false;
return declarator;
}
+/* Determine whether the declarator we've seen so far can be a
+ parameter pack, when followed by an ellipsis. */
+static bool
+declarator_can_be_parameter_pack (cp_declarator *declarator)
+{
+ /* Search for a declarator name, or any other declarator that goes
+ after the point where the ellipsis could appear in a parameter
+ pack. If we find any of these, then this declarator can not be
+ made into a parameter pack. */
+ bool found = false;
+ while (declarator && !found)
+ {
+ switch ((int)declarator->kind)
+ {
+ case cdk_id:
+ case cdk_error:
+ case cdk_array:
+ case cdk_ptrmem:
+ found = true;
+ break;
+
+ default:
+ declarator = declarator->declarator;
+ break;
+ }
+ }
+
+ return !found;
+}
+
cp_parameter_declarator *no_parameters;
/* Create a parameter declarator with the indicated DECL_SPECIFIERS,
return parameter;
}
+/* Returns true iff DECLARATOR is a declaration for a function. */
+
+static bool
+function_declarator_p (const cp_declarator *declarator)
+{
+ while (declarator)
+ {
+ if (declarator->kind == cdk_function
+ && declarator->declarator->kind == cdk_id)
+ return true;
+ if (declarator->kind == cdk_id
+ || declarator->kind == cdk_error)
+ return false;
+ declarator = declarator->declarator;
+ }
+ return false;
+}
+
/* The parser. */
/* Overview
typedef struct cp_parser_expression_stack_entry
{
+ /* Left hand side of the binary operation we are currently
+ parsing. */
tree lhs;
+ /* Original tree code for left hand side, if it was a binary
+ expression itself (used for -Wparentheses). */
+ enum tree_code lhs_type;
+ /* Tree code for the binary operation we are parsing. */
enum tree_code tree_type;
+ /* Precedence of the binary operation we are parsing. */
int prec;
} cp_parser_expression_stack_entry;
/* TRUE if the `>' token should be interpreted as the greater-than
operator. FALSE if it is the end of a template-id or
- template-parameter-list. */
+ template-parameter-list. In C++0x mode, this flag also applies to
+ `>>' tokens, which are viewed as two consecutive `>' tokens when
+ this flag is FALSE. */
bool greater_than_is_operator_p;
/* TRUE if default arguments are allowed within a parameter list
#define IN_ITERATION_STMT 2
#define IN_OMP_BLOCK 4
#define IN_OMP_FOR 8
+#define IN_IF_STMT 16
unsigned char in_statement;
/* TRUE if we are presently parsing the body of a switch statement.
character set. */
bool translate_strings_p;
+ /* TRUE if we are presently parsing the body of a function, but not
+ a local class. */
+ bool in_function_body;
+
/* If non-NULL, then we are parsing a construct where new type
definitions are not permitted. The string stored here will be
issued as an error message if a type is defined. */
static tree cp_parser_postfix_dot_deref_expression
(cp_parser *, enum cpp_ttype, tree, bool, cp_id_kind *);
static tree cp_parser_parenthesized_expression_list
- (cp_parser *, bool, bool, bool *);
+ (cp_parser *, bool, bool, bool, bool *);
static void cp_parser_pseudo_destructor_name
(cp_parser *, tree *, tree *);
static tree cp_parser_unary_expression
/* Statements [gram.stmt.stmt] */
static void cp_parser_statement
- (cp_parser *, tree, bool);
-static tree cp_parser_labeled_statement
- (cp_parser *, tree, bool);
+ (cp_parser *, tree, bool, bool *);
+static void cp_parser_label_for_labeled_statement
+ (cp_parser *);
static tree cp_parser_expression_statement
(cp_parser *, tree);
static tree cp_parser_compound_statement
static void cp_parser_statement_seq_opt
(cp_parser *, tree);
static tree cp_parser_selection_statement
- (cp_parser *);
+ (cp_parser *, bool *);
static tree cp_parser_condition
(cp_parser *);
static tree cp_parser_iteration_statement
(cp_parser *);
static tree cp_parser_implicitly_scoped_statement
- (cp_parser *);
+ (cp_parser *, bool *);
static void cp_parser_already_scoped_statement
(cp_parser *);
(cp_parser *);
static void cp_parser_namespace_alias_definition
(cp_parser *);
-static void cp_parser_using_declaration
- (cp_parser *);
+static bool cp_parser_using_declaration
+ (cp_parser *, bool);
static void cp_parser_using_directive
(cp_parser *);
static void cp_parser_asm_definition
(cp_parser *);
static void cp_parser_linkage_specification
(cp_parser *);
+static void cp_parser_static_assert
+ (cp_parser *, bool);
/* Declarators [gram.dcl.decl] */
static tree cp_parser_init_declarator
- (cp_parser *, cp_decl_specifier_seq *, tree, bool, bool, int, bool *);
+ (cp_parser *, cp_decl_specifier_seq *, VEC (deferred_access_check,gc)*, bool, bool, int, bool *);
static cp_declarator *cp_parser_declarator
(cp_parser *, cp_parser_declarator_kind, int *, bool *, bool);
static cp_declarator *cp_parser_direct_declarator
static tree cp_parser_class_specifier
(cp_parser *);
static tree cp_parser_class_head
- (cp_parser *, bool *, tree *);
+ (cp_parser *, bool *, tree *, tree *);
static enum tag_types cp_parser_class_key
(cp_parser *);
static void cp_parser_member_specification_opt
static tree cp_parser_template_parameter_list
(cp_parser *);
static tree cp_parser_template_parameter
- (cp_parser *, bool *);
+ (cp_parser *, bool *, bool *);
static tree cp_parser_type_parameter
- (cp_parser *);
+ (cp_parser *, bool *);
static tree cp_parser_template_id
(cp_parser *, bool, bool, bool);
static tree cp_parser_template_name
static void cp_parser_template_declaration_after_export
(cp_parser *, bool);
static void cp_parser_perform_template_parameter_access_checks
- (tree);
+ (VEC (deferred_access_check,gc)*);
static tree cp_parser_single_declaration
- (cp_parser *, tree, bool, bool *);
+ (cp_parser *, VEC (deferred_access_check,gc)*, bool, bool, bool *);
static tree cp_parser_functional_cast
(cp_parser *, tree);
static tree cp_parser_save_member_function_body
(cp_parser *, tree);
static tree cp_parser_sizeof_operand
(cp_parser *, enum rid);
+static tree cp_parser_trait_expr
+ (cp_parser *, enum rid);
static bool cp_parser_declares_only_class_p
(cp_parser *);
static void cp_parser_set_storage_class
(cp_parser *, tree, tree, const char *);
static bool cp_parser_simulate_error
(cp_parser *);
-static void cp_parser_check_type_definition
+static bool cp_parser_check_type_definition
(cp_parser *);
static void cp_parser_check_for_definition_in_return_type
(cp_declarator *, tree);
(cp_parser *);
static void cp_parser_skip_to_end_of_block_or_statement
(cp_parser *);
-static void cp_parser_skip_to_closing_brace
+static bool cp_parser_skip_to_closing_brace
(cp_parser *);
static void cp_parser_skip_to_end_of_template_parameter_list
(cp_parser *);
(cp_token *, enum rid);
static tree cp_parser_make_typename_type
(cp_parser *, tree, tree);
+static cp_declarator * cp_parser_make_indirect_declarator
+ (enum tree_code, tree, cp_cv_quals, cp_declarator *);
/* Returns nonzero if we are parsing tentatively. */
CPP_KEYWORD, keywords are treated like
identifiers. */
(token->type == CPP_KEYWORD ? CPP_NAME : token->type),
- token->value);
+ token->u.value);
}
}
if (decl == error_mark_node)
{
if (parser->scope && parser->scope != global_namespace)
- error ("%<%D::%D%> has not been declared",
+ error ("%<%E::%E%> has not been declared",
parser->scope, name);
else if (parser->scope == global_namespace)
- error ("%<::%D%> has not been declared", name);
+ error ("%<::%E%> has not been declared", name);
else if (parser->object_scope
&& !CLASS_TYPE_P (parser->object_scope))
- error ("request for member %qD in non-class type %qT",
+ error ("request for member %qE in non-class type %qT",
name, parser->object_scope);
else if (parser->object_scope)
- error ("%<%T::%D%> has not been declared",
+ error ("%<%T::%E%> has not been declared",
parser->object_scope, name);
else
- error ("%qD has not been declared", name);
+ error ("%qE has not been declared", name);
}
else if (parser->scope && parser->scope != global_namespace)
- error ("%<%D::%D%> %s", parser->scope, name, desired);
+ error ("%<%E::%E%> %s", parser->scope, name, desired);
else if (parser->scope == global_namespace)
- error ("%<::%D%> %s", name, desired);
+ error ("%<::%E%> %s", name, desired);
else
- error ("%qD %s", name, desired);
+ error ("%qE %s", name, desired);
}
/* If we are parsing tentatively, remember that an error has occurred
definitions are forbidden at this point, an error message is
issued. */
-static void
+static bool
cp_parser_check_type_definition (cp_parser* parser)
{
/* If types are forbidden here, issue a message. */
if (parser->type_definition_forbidden_message)
- /* Use `%s' to print the string in case there are any escape
- characters in the message. */
- error ("%s", parser->type_definition_forbidden_message);
+ {
+ /* Use `%s' to print the string in case there are any escape
+ characters in the message. */
+ error ("%s", parser->type_definition_forbidden_message);
+ return false;
+ }
+ return true;
}
/* This function is called when the DECLARATOR is processed. The TYPE
the scope is dependent, we cannot do much. */
if (!cp_lexer_next_token_is (parser->lexer, CPP_NAME)
|| (parser->scope && TYPE_P (parser->scope)
- && dependent_type_p (parser->scope)))
+ && dependent_type_p (parser->scope))
+ || TREE_CODE (id) == TYPE_DECL)
{
cp_parser_abort_tentative_parse (parser);
return false;
}
- if (!cp_parser_parse_definitely (parser) || TREE_CODE (id) == TYPE_DECL)
+ if (!cp_parser_parse_definitely (parser))
return false;
/* Emit a diagnostic for the invalid type. */
}
/* Skip tokens until a non-nested closing curly brace is the next
- token. */
+ token, or there are no more tokens. Return true in the first case,
+ false otherwise. */
-static void
+static bool
cp_parser_skip_to_closing_brace (cp_parser *parser)
{
unsigned nesting_depth = 0;
case CPP_EOF:
case CPP_PRAGMA_EOL:
/* If we've run out of tokens, stop. */
- return;
+ return false;
case CPP_CLOSE_BRACE:
/* If the next token is a non-nested `}', then we have reached
the end of the current block. */
if (nesting_depth-- == 0)
- return;
+ return true;
break;
case CPP_OPEN_BRACE:
return make_typename_type (scope, id, typename_type, tf_error);
}
+/* This is a wrapper around the
+ make_{pointer,ptrmem,reference}_declarator functions that decides
+ which one to call based on the CODE and CLASS_TYPE arguments. The
+ CODE argument should be one of the values returned by
+ cp_parser_ptr_operator. */
+static cp_declarator *
+cp_parser_make_indirect_declarator (enum tree_code code, tree class_type,
+ cp_cv_quals cv_qualifiers,
+ cp_declarator *target)
+{
+ if (code == INDIRECT_REF)
+ if (class_type == NULL_TREE)
+ return make_pointer_declarator (cv_qualifiers, target);
+ else
+ return make_ptrmem_declarator (cv_qualifiers, class_type, target);
+ else if (code == ADDR_EXPR && class_type == NULL_TREE)
+ return make_reference_declarator (cv_qualifiers, target, false);
+ else if (code == NON_LVALUE_EXPR && class_type == NULL_TREE)
+ return make_reference_declarator (cv_qualifiers, target, true);
+ gcc_unreachable ();
+}
/* Create a new C++ parser. */
/* String literals should be translated to the execution character set. */
parser->translate_strings_p = true;
+ /* We are not parsing a function body. */
+ parser->in_function_body = false;
+
/* The unparsed function queue is empty. */
parser->unparsed_functions_queues = build_tree_list (NULL_TREE, NULL_TREE);
/* Look for the identifier. */
token = cp_parser_require (parser, CPP_NAME, "identifier");
/* Return the value. */
- return token ? token->value : error_mark_node;
+ return token ? token->u.value : error_mark_node;
}
/* Parse a sequence of adjacent string constants. Returns a
{
cp_lexer_consume_token (parser->lexer);
- str.text = (const unsigned char *)TREE_STRING_POINTER (tok->value);
- str.len = TREE_STRING_LENGTH (tok->value);
+ str.text = (const unsigned char *)TREE_STRING_POINTER (tok->u.value);
+ str.len = TREE_STRING_LENGTH (tok->u.value);
count = 1;
if (tok->type == CPP_WSTRING)
wide = true;
{
cp_lexer_consume_token (parser->lexer);
count++;
- str.text = (unsigned char *)TREE_STRING_POINTER (tok->value);
- str.len = TREE_STRING_LENGTH (tok->value);
+ str.text = (unsigned char *)TREE_STRING_POINTER (tok->u.value);
+ str.len = TREE_STRING_LENGTH (tok->u.value);
if (tok->type == CPP_WSTRING)
wide = true;
__builtin_va_arg ( assignment-expression , type-id )
__builtin_offsetof ( type-id , offsetof-expression )
+ C++ Extensions:
+ __has_nothrow_assign ( type-id )
+ __has_nothrow_constructor ( type-id )
+ __has_nothrow_copy ( type-id )
+ __has_trivial_assign ( type-id )
+ __has_trivial_constructor ( type-id )
+ __has_trivial_copy ( type-id )
+ __has_trivial_destructor ( type-id )
+ __has_virtual_destructor ( type-id )
+ __is_abstract ( type-id )
+ __is_base_of ( type-id , type-id )
+ __is_class ( type-id )
+ __is_convertible_to ( type-id , type-id )
+ __is_empty ( type-id )
+ __is_enum ( type-id )
+ __is_pod ( type-id )
+ __is_polymorphic ( type-id )
+ __is_union ( type-id )
+
Objective-C++ Extension:
primary-expression:
/* Floating-point literals are only allowed in an integral
constant expression if they are cast to an integral or
enumeration type. */
- if (TREE_CODE (token->value) == REAL_CST
+ if (TREE_CODE (token->u.value) == REAL_CST
&& parser->integral_constant_expression_p
&& pedantic)
{
&& next_token->type != CPP_CLOSE_SQUARE
/* The closing ">" in a template-argument-list. */
&& (next_token->type != CPP_GREATER
+ || parser->greater_than_is_operator_p)
+ /* C++0x only: A ">>" treated like two ">" tokens,
+ in a template-argument-list. */
+ && (next_token->type != CPP_RSHIFT
+ || (cxx_dialect == cxx98)
|| parser->greater_than_is_operator_p))
cast_p = false;
}
cp_parser_non_integral_constant_expression
(parser, "floating-point literal");
}
- return token->value;
+ return token->u.value;
case CPP_STRING:
case CPP_WSTRING:
int i = ({ int j = 3; j + 1; });
at class or namespace scope. */
- if (!at_function_scope_p ())
- error ("statement-expressions are allowed only inside functions");
- /* Start the statement-expression. */
- expr = begin_stmt_expr ();
- /* Parse the compound-statement. */
- cp_parser_compound_statement (parser, expr, false);
- /* Finish up. */
- expr = finish_stmt_expr (expr, false);
+ if (!parser->in_function_body)
+ {
+ error ("statement-expressions are allowed only inside functions");
+ cp_parser_skip_to_end_of_block_or_statement (parser);
+ expr = error_mark_node;
+ }
+ else
+ {
+ /* Start the statement-expression. */
+ expr = begin_stmt_expr ();
+ /* Parse the compound-statement. */
+ cp_parser_compound_statement (parser, expr, false);
+ /* Finish up. */
+ expr = finish_stmt_expr (expr, false);
+ }
}
else
{
Consume the token. */
token = cp_lexer_consume_token (parser->lexer);
/* Look up the name. */
- return finish_fname (token->value);
+ return finish_fname (token->u.value);
case RID_VA_ARG:
{
case RID_OFFSETOF:
return cp_parser_builtin_offsetof (parser);
- /* Objective-C++ expressions. */
+ case RID_HAS_NOTHROW_ASSIGN:
+ case RID_HAS_NOTHROW_CONSTRUCTOR:
+ case RID_HAS_NOTHROW_COPY:
+ case RID_HAS_TRIVIAL_ASSIGN:
+ case RID_HAS_TRIVIAL_CONSTRUCTOR:
+ case RID_HAS_TRIVIAL_COPY:
+ case RID_HAS_TRIVIAL_DESTRUCTOR:
+ case RID_HAS_VIRTUAL_DESTRUCTOR:
+ case RID_IS_ABSTRACT:
+ case RID_IS_BASE_OF:
+ case RID_IS_CLASS:
+ case RID_IS_CONVERTIBLE_TO:
+ case RID_IS_EMPTY:
+ case RID_IS_ENUM:
+ case RID_IS_POD:
+ case RID_IS_POLYMORPHIC:
+ case RID_IS_UNION:
+ return cp_parser_trait_expr (parser, token->keyword);
+
+ /* Objective-C++ expressions. */
case RID_AT_ENCODE:
case RID_AT_PROTOCOL:
case RID_AT_SELECTOR:
/* Anything else is an error. */
default:
- /* ...unless we have an Objective-C++ message or string literal, that is. */
+ /* ...unless we have an Objective-C++ message or string literal,
+ that is. */
if (c_dialect_objc ()
- && (token->type == CPP_OPEN_SQUARE || token->type == CPP_OBJC_STRING))
+ && (token->type == CPP_OPEN_SQUARE
+ || token->type == CPP_OBJC_STRING))
return cp_parser_objc_expression (parser);
cp_parser_error (parser, "expected primary-expression");
&& token->type == CPP_NAME
&& (cp_lexer_peek_nth_token (parser->lexer, 2)->type
== CPP_OPEN_PAREN)
- && constructor_name_p (token->value, scope))
+ && constructor_name_p (token->u.value, scope))
{
cp_lexer_consume_token (parser->lexer);
return build_nt (BIT_NOT_EXPR, scope);
{
/* Grab the nested-name-specifier and continue the loop. */
cp_parser_pre_parsed_nested_name_specifier (parser);
+ /* If we originally encountered this nested-name-specifier
+ with IS_DECLARATION set to false, we will not have
+ resolved TYPENAME_TYPEs, so we must do so here. */
+ if (is_declaration
+ && TREE_CODE (parser->scope) == TYPENAME_TYPE)
+ {
+ new_scope = resolve_typename_type (parser->scope,
+ /*only_current_p=*/false);
+ if (new_scope != error_mark_node)
+ parser->scope = new_scope;
+ }
success = true;
continue;
}
tree decl;
tree ambiguous_decls;
- decl = cp_parser_lookup_name (parser, token->value,
+ decl = cp_parser_lookup_name (parser, token->u.value,
none_type,
/*is_template=*/false,
/*is_namespace=*/false,
else if (ambiguous_decls)
{
error ("reference to %qD is ambiguous",
- token->value);
+ token->u.value);
print_candidates (ambiguous_decls);
decl = error_mark_node;
}
else
cp_parser_name_lookup_error
- (parser, token->value, decl,
+ (parser, token->u.value, decl,
"is not a class or namespace");
}
parser->scope = error_mark_node;
if (success && start)
{
cp_token *token;
- tree access_checks;
token = cp_lexer_token_at (parser->lexer, start);
/* Reset the contents of the START token. */
token->type = CPP_NESTED_NAME_SPECIFIER;
/* Retrieve any deferred checks. Do not pop this access checks yet
so the memory will not be reclaimed during token replacing below. */
- access_checks = get_deferred_access_checks ();
- token->value = build_tree_list (copy_list (access_checks),
- parser->scope);
- TREE_TYPE (token->value) = parser->qualifying_scope;
+ token->u.tree_check_value = GGC_CNEW (struct tree_check);
+ token->u.tree_check_value->value = parser->scope;
+ token->u.tree_check_value->checks = get_deferred_access_checks ();
+ token->u.tree_check_value->qualifying_scope =
+ parser->qualifying_scope;
token->keyword = RID_MAX;
/* Purge all subsequent tokens. */
allowed in standard C++. */
if (pedantic)
pedwarn ("ISO C++ forbids compound-literals");
+ /* For simplicity, we disallow compound literals in
+ constant-expressions. We could
+ allow compound literals of integer type, whose
+ initializer was a constant, in constant
+ expressions. Permitting that usage, as a further
+ extension, would not change the meaning of any
+ currently accepted programs. (Of course, as
+ compound literals are not part of ISO C++, the
+ standard has nothing to say.) */
+ if (cp_parser_non_integral_constant_expression
+ (parser, "non-constant compound literals"))
+ {
+ postfix_expression = error_mark_node;
+ break;
+ }
/* Form the representation of the compound-literal. */
postfix_expression
= finish_compound_literal (type, initializer_list);
}
args = (cp_parser_parenthesized_expression_list
(parser, /*is_attribute_list=*/false,
- /*cast_p=*/false,
+ /*cast_p=*/false, /*allow_expansion_p=*/true,
/*non_constant_p=*/NULL));
if (is_builtin_constant_p)
{
|| any_type_dependent_arguments_p (args)))
{
postfix_expression
- = build_min_nt (CALL_EXPR, postfix_expression,
- args, NULL_TREE);
+ = build_nt_call_list (postfix_expression, args);
break;
}
}
if (scope && name && BASELINK_P (name))
adjust_result_of_qualified_name_lookup
- (name, BINFO_TYPE (BASELINK_BINFO (name)), scope);
+ (name, BINFO_TYPE (BASELINK_ACCESS_BINFO (name)), scope);
postfix_expression
= finish_class_member_access_expr (postfix_expression, name,
template_p);
CAST_P is true if this expression is the target of a cast.
+ ALLOW_EXPANSION_P is true if this expression allows expansion of an
+ argument pack.
+
Returns a TREE_LIST. The TREE_VALUE of each node is a
representation of an assignment-expression. Note that a TREE_LIST
is returned even if there is only a single expression in the list.
cp_parser_parenthesized_expression_list (cp_parser* parser,
bool is_attribute_list,
bool cast_p,
+ bool allow_expansion_p,
bool *non_constant_p)
{
tree expression_list = NULL_TREE;
/* Consume the identifier. */
token = cp_lexer_consume_token (parser->lexer);
/* Save the identifier. */
- identifier = token->value;
+ identifier = token->u.value;
}
else
{
if (fold_expr_p)
expr = fold_non_dependent_expr (expr);
+ /* If we have an ellipsis, then this is an expression
+ expansion. */
+ if (allow_expansion_p
+ && cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+
+ /* Build the argument pack. */
+ expr = make_pack_expansion (expr);
+ }
+
/* Add it to the list. We add error_mark_node
expressions to the list, so that we can still tell if
the correct form for a parenthesized expression-list
/* Parse the expression-list. */
expression_list = (cp_parser_parenthesized_expression_list
- (parser, false, /*cast_p=*/false,
+ (parser, false, /*cast_p=*/false, /*allow_expansion_p=*/true,
/*non_constant_p=*/NULL));
return expression_list;
/* Parse another optional declarator. */
declarator = cp_parser_new_declarator_opt (parser);
- /* Create the representation of the declarator. */
- if (type)
- declarator = make_ptrmem_declarator (cv_quals, type, declarator);
- else if (code == INDIRECT_REF)
- declarator = make_pointer_declarator (cv_quals, declarator);
- else
- declarator = make_reference_declarator (cv_quals, declarator);
-
- return declarator;
+ return cp_parser_make_indirect_declarator
+ (code, type, cv_quals, declarator);
}
/* If the next token is a `[', there is a direct-new-declarator. */
tree expression_list;
expression_list = (cp_parser_parenthesized_expression_list
- (parser, false, /*cast_p=*/false,
+ (parser, false, /*cast_p=*/false, /*allow_expansion_p=*/true,
/*non_constant_p=*/NULL));
if (!expression_list)
expression_list = void_zero_node;
The binops_by_token map is used to get the tree codes for each <token> type.
binary-expressions are associated according to a precedence table. */
-#define TOKEN_PRECEDENCE(token) \
- ((token->type == CPP_GREATER && !parser->greater_than_is_operator_p) \
- ? PREC_NOT_OPERATOR \
- : binops_by_token[token->type].prec)
+#define TOKEN_PRECEDENCE(token) \
+(((token->type == CPP_GREATER \
+ || ((cxx_dialect != cxx98) && token->type == CPP_RSHIFT)) \
+ && !parser->greater_than_is_operator_p) \
+ ? PREC_NOT_OPERATOR \
+ : binops_by_token[token->type].prec)
static tree
cp_parser_binary_expression (cp_parser* parser, bool cast_p)
cp_parser_expression_stack_entry *sp = &stack[0];
tree lhs, rhs;
cp_token *token;
- enum tree_code tree_type;
+ enum tree_code tree_type, lhs_type, rhs_type;
enum cp_parser_prec prec = PREC_NOT_OPERATOR, new_prec, lookahead_prec;
bool overloaded_p;
/* Parse the first expression. */
lhs = cp_parser_cast_expression (parser, /*address_p=*/false, cast_p);
+ lhs_type = ERROR_MARK;
for (;;)
{
/* Get an operator token. */
token = cp_lexer_peek_token (parser->lexer);
+ if (warn_cxx0x_compat
+ && token->type == CPP_RSHIFT
+ && !parser->greater_than_is_operator_p)
+ {
+ warning (OPT_Wc__0x_compat,
+ "%H%<>>%> operator will be treated as two right angle brackets in C++0x",
+ &token->location);
+ warning (OPT_Wc__0x_compat,
+ "suggest parentheses around %<>>%> expression");
+ }
+
new_prec = TOKEN_PRECEDENCE (token);
/* Popping an entry off the stack means we completed a subexpression:
/* Extract another operand. It may be the RHS of this expression
or the LHS of a new, higher priority expression. */
rhs = cp_parser_simple_cast_expression (parser);
+ rhs_type = ERROR_MARK;
/* Get another operator token. Look up its precedence to avoid
building a useless (immediately popped) stack entry for common
sp->prec = prec;
sp->tree_type = tree_type;
sp->lhs = lhs;
+ sp->lhs_type = lhs_type;
sp++;
lhs = rhs;
+ lhs_type = rhs_type;
prec = new_prec;
new_prec = lookahead_prec;
goto get_rhs;
prec = sp->prec;
tree_type = sp->tree_type;
rhs = lhs;
+ rhs_type = lhs_type;
lhs = sp->lhs;
+ lhs_type = sp->lhs_type;
}
overloaded_p = false;
- lhs = build_x_binary_op (tree_type, lhs, rhs, &overloaded_p);
+ lhs = build_x_binary_op (tree_type, lhs, lhs_type, rhs, rhs_type,
+ &overloaded_p);
+ lhs_type = tree_type;
/* If the binary operator required the use of an overloaded operator,
then this expression cannot be an integral constant-expression.
return expr;
}
+/* Parse a trait expression. */
+
+static tree
+cp_parser_trait_expr (cp_parser* parser, enum rid keyword)
+{
+ cp_trait_kind kind;
+ tree type1, type2 = NULL_TREE;
+ bool binary = false;
+ cp_decl_specifier_seq decl_specs;
+
+ switch (keyword)
+ {
+ case RID_HAS_NOTHROW_ASSIGN:
+ kind = CPTK_HAS_NOTHROW_ASSIGN;
+ break;
+ case RID_HAS_NOTHROW_CONSTRUCTOR:
+ kind = CPTK_HAS_NOTHROW_CONSTRUCTOR;
+ break;
+ case RID_HAS_NOTHROW_COPY:
+ kind = CPTK_HAS_NOTHROW_COPY;
+ break;
+ case RID_HAS_TRIVIAL_ASSIGN:
+ kind = CPTK_HAS_TRIVIAL_ASSIGN;
+ break;
+ case RID_HAS_TRIVIAL_CONSTRUCTOR:
+ kind = CPTK_HAS_TRIVIAL_CONSTRUCTOR;
+ break;
+ case RID_HAS_TRIVIAL_COPY:
+ kind = CPTK_HAS_TRIVIAL_COPY;
+ break;
+ case RID_HAS_TRIVIAL_DESTRUCTOR:
+ kind = CPTK_HAS_TRIVIAL_DESTRUCTOR;
+ break;
+ case RID_HAS_VIRTUAL_DESTRUCTOR:
+ kind = CPTK_HAS_VIRTUAL_DESTRUCTOR;
+ break;
+ case RID_IS_ABSTRACT:
+ kind = CPTK_IS_ABSTRACT;
+ break;
+ case RID_IS_BASE_OF:
+ kind = CPTK_IS_BASE_OF;
+ binary = true;
+ break;
+ case RID_IS_CLASS:
+ kind = CPTK_IS_CLASS;
+ break;
+ case RID_IS_CONVERTIBLE_TO:
+ kind = CPTK_IS_CONVERTIBLE_TO;
+ binary = true;
+ break;
+ case RID_IS_EMPTY:
+ kind = CPTK_IS_EMPTY;
+ break;
+ case RID_IS_ENUM:
+ kind = CPTK_IS_ENUM;
+ break;
+ case RID_IS_POD:
+ kind = CPTK_IS_POD;
+ break;
+ case RID_IS_POLYMORPHIC:
+ kind = CPTK_IS_POLYMORPHIC;
+ break;
+ case RID_IS_UNION:
+ kind = CPTK_IS_UNION;
+ break;
+ default:
+ gcc_unreachable ();
+ }
+
+ /* Consume the token. */
+ cp_lexer_consume_token (parser->lexer);
+
+ cp_parser_require (parser, CPP_OPEN_PAREN, "`('");
+
+ type1 = cp_parser_type_id (parser);
+
+ /* Build a trivial decl-specifier-seq. */
+ clear_decl_specs (&decl_specs);
+ decl_specs.type = type1;
+
+ /* Call grokdeclarator to figure out what type this is. */
+ type1 = grokdeclarator (NULL, &decl_specs, TYPENAME,
+ /*initialized=*/0, /*attrlist=*/NULL);
+
+ if (binary)
+ {
+ cp_parser_require (parser, CPP_COMMA, "`,'");
+
+ type2 = cp_parser_type_id (parser);
+
+ /* Build a trivial decl-specifier-seq. */
+ clear_decl_specs (&decl_specs);
+ decl_specs.type = type2;
+
+ /* Call grokdeclarator to figure out what type this is. */
+ type2 = grokdeclarator (NULL, &decl_specs, TYPENAME,
+ /*initialized=*/0, /*attrlist=*/NULL);
+ }
+
+ cp_parser_require (parser, CPP_CLOSE_PAREN, "`)'");
+
+ /* Complete the trait expr, which may mean either processing the
+ static assert now or saving it for template instantiation. */
+ return finish_trait_expr (kind, type1, type2);
+}
+
/* Statements [gram.stmt.stmt] */
/* Parse a statement.
try-block
IN_COMPOUND is true when the statement is nested inside a
- cp_parser_compound_statement; this matters for certain pragmas. */
+ cp_parser_compound_statement; this matters for certain pragmas.
+
+ If IF_P is not NULL, *IF_P is set to indicate whether the statement
+ is a (possibly labeled) if statement which is not enclosed in braces
+ and has an else clause. This is used to implement -Wparentheses. */
static void
cp_parser_statement (cp_parser* parser, tree in_statement_expr,
- bool in_compound)
+ bool in_compound, bool *if_p)
{
tree statement;
cp_token *token;
location_t statement_location;
restart:
+ if (if_p != NULL)
+ *if_p = false;
/* There is no statement yet. */
statement = NULL_TREE;
/* Peek at the next token. */
{
case RID_CASE:
case RID_DEFAULT:
- statement = cp_parser_labeled_statement (parser, in_statement_expr,
- in_compound);
- break;
+ /* Looks like a labeled-statement with a case label.
+ Parse the label, and then use tail recursion to parse
+ the statement. */
+ cp_parser_label_for_labeled_statement (parser);
+ goto restart;
case RID_IF:
case RID_SWITCH:
- statement = cp_parser_selection_statement (parser);
+ statement = cp_parser_selection_statement (parser, if_p);
break;
case RID_WHILE:
statement = cp_parser_try_block (parser);
break;
+ case RID_NAMESPACE:
+ /* This must be a namespace alias definition. */
+ cp_parser_declaration_statement (parser);
+ return;
+
default:
/* It might be a keyword like `int' that can start a
declaration-statement. */
labeled-statement. */
token = cp_lexer_peek_nth_token (parser->lexer, 2);
if (token->type == CPP_COLON)
- statement = cp_parser_labeled_statement (parser, in_statement_expr,
- in_compound);
+ {
+ /* Looks like a labeled-statement with an ordinary label.
+ Parse the label, and then use tail recursion to parse
+ the statement. */
+ cp_parser_label_for_labeled_statement (parser);
+ goto restart;
+ }
}
/* Anything that starts with a `{' must be a compound-statement. */
else if (token->type == CPP_OPEN_BRACE)
SET_EXPR_LOCATION (statement, statement_location);
}
-/* Parse a labeled-statement.
+/* Parse the label for a labeled-statement, i.e.
- labeled-statement:
- identifier : statement
- case constant-expression : statement
- default : statement
+ identifier :
+ case constant-expression :
+ default :
GNU Extension:
+ case constant-expression ... constant-expression : statement
- labeled-statement:
- case constant-expression ... constant-expression : statement
-
- Returns the new CASE_LABEL_EXPR, for a `case' or `default' label.
- For an ordinary label, returns a LABEL_EXPR.
+ When a label is parsed without errors, the label is added to the
+ parse tree by the finish_* functions, so this function doesn't
+ have to return the label. */
- IN_COMPOUND is as for cp_parser_statement: true when we're nested
- inside a compound. */
-
-static tree
-cp_parser_labeled_statement (cp_parser* parser, tree in_statement_expr,
- bool in_compound)
+static void
+cp_parser_label_for_labeled_statement (cp_parser* parser)
{
cp_token *token;
- tree statement = error_mark_node;
/* The next token should be an identifier. */
token = cp_lexer_peek_token (parser->lexer);
&& token->type != CPP_KEYWORD)
{
cp_parser_error (parser, "expected labeled-statement");
- return error_mark_node;
+ return;
}
switch (token->keyword)
expr_hi = NULL_TREE;
if (parser->in_switch_statement_p)
- statement = finish_case_label (expr, expr_hi);
+ finish_case_label (expr, expr_hi);
else
error ("case label %qE not within a switch statement", expr);
}
cp_lexer_consume_token (parser->lexer);
if (parser->in_switch_statement_p)
- statement = finish_case_label (NULL_TREE, NULL_TREE);
+ finish_case_label (NULL_TREE, NULL_TREE);
else
error ("case label not within a switch statement");
break;
default:
/* Anything else must be an ordinary label. */
- statement = finish_label_stmt (cp_parser_identifier (parser));
+ finish_label_stmt (cp_parser_identifier (parser));
break;
}
/* Require the `:' token. */
cp_parser_require (parser, CPP_COLON, "`:'");
- /* Parse the labeled statement. */
- cp_parser_statement (parser, in_statement_expr, in_compound);
-
- /* Return the label, in the case of a `case' or `default' label. */
- return statement;
}
/* Parse an expression-statement.
|| token->type == CPP_EOF
|| token->type == CPP_PRAGMA_EOL)
break;
+
+ /* If we are in a compound statement and find 'else' then
+ something went wrong. */
+ else if (token->type == CPP_KEYWORD && token->keyword == RID_ELSE)
+ {
+ if (parser->in_statement & IN_IF_STMT)
+ break;
+ else
+ {
+ token = cp_lexer_consume_token (parser->lexer);
+ error ("%<else%> without a previous %<if%>");
+ }
+ }
/* Parse the statement. */
- cp_parser_statement (parser, in_statement_expr, true);
+ cp_parser_statement (parser, in_statement_expr, true, NULL);
}
}
if ( condition ) statement else statement
switch ( condition ) statement
- Returns the new IF_STMT or SWITCH_STMT. */
+ Returns the new IF_STMT or SWITCH_STMT.
+
+ If IF_P is not NULL, *IF_P is set to indicate whether the statement
+ is a (possibly labeled) if statement which is not enclosed in
+ braces and has an else clause. This is used to implement
+ -Wparentheses. */
static tree
-cp_parser_selection_statement (cp_parser* parser)
+cp_parser_selection_statement (cp_parser* parser, bool *if_p)
{
cp_token *token;
enum rid keyword;
+ if (if_p != NULL)
+ *if_p = false;
+
/* Peek at the next token. */
token = cp_parser_require (parser, CPP_KEYWORD, "selection-statement");
if (keyword == RID_IF)
{
+ bool nested_if;
+ unsigned char in_statement;
+
/* Add the condition. */
finish_if_stmt_cond (condition, statement);
/* Parse the then-clause. */
- cp_parser_implicitly_scoped_statement (parser);
+ in_statement = parser->in_statement;
+ parser->in_statement |= IN_IF_STMT;
+ cp_parser_implicitly_scoped_statement (parser, &nested_if);
+ parser->in_statement = in_statement;
+
finish_then_clause (statement);
/* If the next token is `else', parse the else-clause. */
cp_lexer_consume_token (parser->lexer);
begin_else_clause (statement);
/* Parse the else-clause. */
- cp_parser_implicitly_scoped_statement (parser);
+ cp_parser_implicitly_scoped_statement (parser, NULL);
finish_else_clause (statement);
+
+ /* If we are currently parsing a then-clause, then
+ IF_P will not be NULL. We set it to true to
+ indicate that this if statement has an else clause.
+ This may trigger the Wparentheses warning below
+ when we get back up to the parent if statement. */
+ if (if_p != NULL)
+ *if_p = true;
+ }
+ else
+ {
+ /* This if statement does not have an else clause. If
+ NESTED_IF is true, then the then-clause is an if
+ statement which does have an else clause. We warn
+ about the potential ambiguity. */
+ if (nested_if)
+ warning (OPT_Wparentheses,
+ ("%Hsuggest explicit braces "
+ "to avoid ambiguous %<else%>"),
+ EXPR_LOCUS (statement));
}
/* Now we're all done with the if-statement. */
in_statement = parser->in_statement;
parser->in_switch_statement_p = true;
parser->in_statement |= IN_SWITCH_STMT;
- cp_parser_implicitly_scoped_statement (parser);
+ cp_parser_implicitly_scoped_statement (parser, NULL);
parser->in_switch_statement_p = in_switch_statement_p;
parser->in_statement = in_statement;
return cp_parser_expression (parser, /*cast_p=*/false);
}
+/* We check for a ) immediately followed by ; with no whitespacing
+ between. This is used to issue a warning for:
+
+ while (...);
+
+ and:
+
+ for (...);
+
+ as the semicolon is probably extraneous.
+
+ On parse errors, the next token might not be a ), so do nothing in
+ that case. */
+
+static void
+check_empty_body (cp_parser* parser, const char* type)
+{
+ cp_token *token;
+ cp_token *close_paren;
+ expanded_location close_loc;
+ expanded_location semi_loc;
+
+ close_paren = cp_lexer_peek_token (parser->lexer);
+ if (close_paren->type != CPP_CLOSE_PAREN)
+ return;
+
+ close_loc = expand_location (close_paren->location);
+ token = cp_lexer_peek_nth_token (parser->lexer, 2);
+
+ if (token->type != CPP_SEMICOLON
+ || (token->flags & PREV_WHITE))
+ return;
+
+ semi_loc = expand_location (token->location);
+ if (close_loc.line == semi_loc.line
+#ifdef USE_MAPPED_LOCATION
+ && close_loc.column+1 == semi_loc.column
+#endif
+ )
+ warning (OPT_Wempty_body,
+ "suggest a space before %<;%> or explicit braces around empty "
+ "body in %<%s%> statement",
+ type);
+}
+
/* Parse an iteration-statement.
iteration-statement:
/* Parse the condition. */
condition = cp_parser_condition (parser);
finish_while_stmt_cond (condition, statement);
+ check_empty_body (parser, "while");
/* Look for the `)'. */
cp_parser_require (parser, CPP_CLOSE_PAREN, "`)'");
/* Parse the dependent statement. */
statement = begin_do_stmt ();
/* Parse the body of the do-statement. */
parser->in_statement = IN_ITERATION_STMT;
- cp_parser_implicitly_scoped_statement (parser);
+ cp_parser_implicitly_scoped_statement (parser, NULL);
parser->in_statement = in_statement;
finish_do_body (statement);
/* Look for the `while' keyword. */
if (cp_lexer_next_token_is_not (parser->lexer, CPP_CLOSE_PAREN))
expression = cp_parser_expression (parser, /*cast_p=*/false);
finish_for_expr (expression, statement);
+ check_empty_body (parser, "for");
/* Look for the `)'. */
cp_parser_require (parser, CPP_CLOSE_PAREN, "`)'");
tree statement = error_mark_node;
cp_token *token;
enum rid keyword;
+ unsigned char in_statement;
/* Peek at the next token. */
token = cp_parser_require (parser, CPP_KEYWORD, "jump-statement");
switch (keyword)
{
case RID_BREAK:
- switch (parser->in_statement)
+ in_statement = parser->in_statement & ~IN_IF_STMT;
+ switch (in_statement)
{
case 0:
error ("break statement not within loop or switch");
break;
default:
- gcc_assert ((parser->in_statement & IN_SWITCH_STMT)
- || parser->in_statement == IN_ITERATION_STMT);
+ gcc_assert ((in_statement & IN_SWITCH_STMT)
+ || in_statement == IN_ITERATION_STMT);
statement = finish_break_stmt ();
break;
case IN_OMP_BLOCK:
break;
case RID_CONTINUE:
- switch (parser->in_statement & ~IN_SWITCH_STMT)
+ switch (parser->in_statement & ~(IN_SWITCH_STMT | IN_IF_STMT))
{
case 0:
error ("continue statement not within a loop");
but ensures that is in its own scope, even if it is not a
compound-statement.
+ If IF_P is not NULL, *IF_P is set to indicate whether the statement
+ is a (possibly labeled) if statement which is not enclosed in
+ braces and has an else clause. This is used to implement
+ -Wparentheses.
+
Returns the new statement. */
static tree
-cp_parser_implicitly_scoped_statement (cp_parser* parser)
+cp_parser_implicitly_scoped_statement (cp_parser* parser, bool *if_p)
{
tree statement;
+ if (if_p != NULL)
+ *if_p = false;
+
/* Mark if () ; with a special NOP_EXPR. */
if (cp_lexer_next_token_is (parser->lexer, CPP_SEMICOLON))
{
/* Create a compound-statement. */
statement = begin_compound_stmt (0);
/* Parse the dependent-statement. */
- cp_parser_statement (parser, NULL_TREE, false);
+ cp_parser_statement (parser, NULL_TREE, false, if_p);
/* Finish the dummy compound-statement. */
finish_compound_stmt (statement);
}
{
/* If the token is a `{', then we must take special action. */
if (cp_lexer_next_token_is_not (parser->lexer, CPP_OPEN_BRACE))
- cp_parser_statement (parser, NULL_TREE, false);
+ cp_parser_statement (parser, NULL_TREE, false, NULL);
else
{
/* Avoid calling cp_parser_compound_statement, so that we
__extension__ block-declaration
label-declaration
+ C++0x Extension:
+
+ block-declaration:
+ static_assert-declaration
+
If STATEMENT_P is TRUE, then this block-declaration is occurring as
part of a declaration-statement. */
cp_parser_using_directive (parser);
/* Otherwise, it's a using-declaration. */
else
- cp_parser_using_declaration (parser);
+ cp_parser_using_declaration (parser,
+ /*access_declaration_p=*/false);
}
/* If the next keyword is `__label__' we have a label declaration. */
else if (token1->keyword == RID_LABEL)
cp_parser_commit_to_tentative_parse (parser);
cp_parser_label_declaration (parser);
}
+ /* If the next token is `static_assert' we have a static assertion. */
+ else if (token1->keyword == RID_STATIC_ASSERT)
+ cp_parser_static_assert (parser, /*member_p=*/false);
/* Anything else must be a simple-declaration. */
else
cp_parser_simple_declaration (parser, !statement_p);
/* Parse the init-declarator. */
decl = cp_parser_init_declarator (parser, &decl_specifiers,
- /*checks=*/NULL_TREE,
+ /*checks=*/NULL,
function_definition_allowed_p,
/*member_p=*/false,
declares_class_or_enum,
/* The "typedef" keyword can only occur in a declaration; we
may as well commit at this point. */
cp_parser_commit_to_tentative_parse (parser);
+
+ if (decl_specs->storage_class != sc_none)
+ decl_specs->conflicting_specifiers_p = true;
break;
/* storage-class-specifier:
case RID_MUTABLE:
case RID_THREAD:
/* Consume the token. */
- return cp_lexer_consume_token (parser->lexer)->value;
+ return cp_lexer_consume_token (parser->lexer)->u.value;
default:
return NULL_TREE;
}
/* Consume the token. */
- return cp_lexer_consume_token (parser->lexer)->value;
+ return cp_lexer_consume_token (parser->lexer)->u.value;
}
/* Parse a linkage-specification.
pop_lang_context ();
}
+/* Parse a static_assert-declaration.
+
+ static_assert-declaration:
+ static_assert ( constant-expression , string-literal ) ;
+
+ If MEMBER_P, this static_assert is a class member. */
+
+static void
+cp_parser_static_assert(cp_parser *parser, bool member_p)
+{
+ tree condition;
+ tree message;
+ cp_token *token;
+ location_t saved_loc;
+
+ /* Peek at the `static_assert' token so we can keep track of exactly
+ where the static assertion started. */
+ token = cp_lexer_peek_token (parser->lexer);
+ saved_loc = token->location;
+
+ /* Look for the `static_assert' keyword. */
+ if (!cp_parser_require_keyword (parser, RID_STATIC_ASSERT,
+ "`static_assert'"))
+ return;
+
+ /* We know we are in a static assertion; commit to any tentative
+ parse. */
+ if (cp_parser_parsing_tentatively (parser))
+ cp_parser_commit_to_tentative_parse (parser);
+
+ /* Parse the `(' starting the static assertion condition. */
+ cp_parser_require (parser, CPP_OPEN_PAREN, "`('");
+
+ /* Parse the constant-expression. */
+ condition =
+ cp_parser_constant_expression (parser,
+ /*allow_non_constant_p=*/false,
+ /*non_constant_p=*/NULL);
+
+ /* Parse the separating `,'. */
+ cp_parser_require (parser, CPP_COMMA, "`,'");
+
+ /* Parse the string-literal message. */
+ message = cp_parser_string_literal (parser,
+ /*translate=*/false,
+ /*wide_ok=*/true);
+
+ /* A `)' completes the static assertion. */
+ if (!cp_parser_require (parser, CPP_CLOSE_PAREN, "`)'"))
+ cp_parser_skip_to_closing_parenthesis (parser,
+ /*recovering=*/true,
+ /*or_comma=*/false,
+ /*consume_paren=*/true);
+
+ /* A semicolon terminates the declaration. */
+ cp_parser_require (parser, CPP_SEMICOLON, "`;'");
+
+ /* Complete the static assertion, which may mean either processing
+ the static assert now or saving it for template instantiation. */
+ finish_static_assert (condition, message, saved_loc, member_p);
+}
+
/* Special member functions [gram.special] */
/* Parse a conversion-function-id.
/* Parse another optional declarator. */
declarator = cp_parser_conversion_declarator_opt (parser);
- /* Create the representation of the declarator. */
- if (class_type)
- declarator = make_ptrmem_declarator (cv_quals, class_type,
- declarator);
- else if (code == INDIRECT_REF)
- declarator = make_pointer_declarator (cv_quals, declarator);
- else
- declarator = make_reference_declarator (cv_quals, declarator);
-
- return declarator;
+ return cp_parser_make_indirect_declarator
+ (code, class_type, cv_quals, declarator);
}
return NULL;
/* Parse a mem-initializer-list.
mem-initializer-list:
- mem-initializer
- mem-initializer , mem-initializer-list */
+ mem-initializer ... [opt]
+ mem-initializer ... [opt] , mem-initializer-list */
static void
cp_parser_mem_initializer_list (cp_parser* parser)
/* Parse the mem-initializer. */
mem_initializer = cp_parser_mem_initializer (parser);
+ /* If the next token is a `...', we're expanding member initializers. */
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+
+ /* The TREE_PURPOSE must be a _TYPE, because base-specifiers
+ can be expanded but members cannot. */
+ if (mem_initializer != error_mark_node
+ && !TYPE_P (TREE_PURPOSE (mem_initializer)))
+ {
+ error ("cannot expand initializer for member %<%D%>",
+ TREE_PURPOSE (mem_initializer));
+ mem_initializer = error_mark_node;
+ }
+
+ /* Construct the pack expansion type. */
+ if (mem_initializer != error_mark_node)
+ mem_initializer = make_pack_expansion (mem_initializer);
+ }
/* Add it to the list, unless it was erroneous. */
if (mem_initializer != error_mark_node)
{
expression_list
= cp_parser_parenthesized_expression_list (parser, false,
/*cast_p=*/false,
+ /*allow_expansion_p=*/true,
/*non_constant_p=*/NULL);
if (expression_list == error_mark_node)
return error_mark_node;
tree parameter;
cp_token *token;
bool is_non_type;
+ bool is_parameter_pack;
/* Parse the template-parameter. */
- parameter = cp_parser_template_parameter (parser, &is_non_type);
+ parameter = cp_parser_template_parameter (parser,
+ &is_non_type,
+ &is_parameter_pack);
/* Add it to the list. */
if (parameter != error_mark_node)
parameter_list = process_template_parm (parameter_list,
parameter,
- is_non_type);
+ is_non_type,
+ is_parameter_pack);
else
{
tree err_parm = build_tree_list (parameter, parameter);
If all goes well, returns a TREE_LIST. The TREE_VALUE represents
the parameter. The TREE_PURPOSE is the default value, if any.
Returns ERROR_MARK_NODE on failure. *IS_NON_TYPE is set to true
- iff this parameter is a non-type parameter. */
+ iff this parameter is a non-type parameter. *IS_PARAMETER_PACK is
+ set to true iff this parameter is a parameter pack. */
static tree
-cp_parser_template_parameter (cp_parser* parser, bool *is_non_type)
+cp_parser_template_parameter (cp_parser* parser, bool *is_non_type,
+ bool *is_parameter_pack)
{
cp_token *token;
cp_parameter_declarator *parameter_declarator;
/* Assume it is a type parameter or a template parameter. */
*is_non_type = false;
+ /* Assume it not a parameter pack. */
+ *is_parameter_pack = false;
/* Peek at the next token. */
token = cp_lexer_peek_token (parser->lexer);
/* If it is `class' or `template', we have a type-parameter. */
if (token->keyword == RID_TEMPLATE)
- return cp_parser_type_parameter (parser);
+ return cp_parser_type_parameter (parser, is_parameter_pack);
/* If it is `class' or `typename' we do not know yet whether it is a
type parameter or a non-type parameter. Consider:
{
/* Peek at the token after `class' or `typename'. */
token = cp_lexer_peek_nth_token (parser->lexer, 2);
+ /* If it's an ellipsis, we have a template type parameter
+ pack. */
+ if (token->type == CPP_ELLIPSIS)
+ return cp_parser_type_parameter (parser, is_parameter_pack);
/* If it's an identifier, skip it. */
if (token->type == CPP_NAME)
token = cp_lexer_peek_nth_token (parser->lexer, 3);
if (token->type == CPP_COMMA
|| token->type == CPP_EQ
|| token->type == CPP_GREATER)
- return cp_parser_type_parameter (parser);
+ return cp_parser_type_parameter (parser, is_parameter_pack);
}
/* Otherwise, it is a non-type parameter.
parameter_declarator
= cp_parser_parameter_declaration (parser, /*template_parm_p=*/true,
/*parenthesized_p=*/NULL);
+
+ /* If the parameter declaration is marked as a parameter pack, set
+ *IS_PARAMETER_PACK to notify the caller. Also, unmark the
+ declarator's PACK_EXPANSION_P, otherwise we'll get errors from
+ grokdeclarator. */
+ if (parameter_declarator
+ && parameter_declarator->declarator
+ && parameter_declarator->declarator->parameter_pack_p)
+ {
+ *is_parameter_pack = true;
+ parameter_declarator->declarator->parameter_pack_p = false;
+ }
+
+ /* If the next token is an ellipsis, and we don't already have it
+ marked as a parameter pack, then we have a parameter pack (that
+ has no declarator); */
+ if (!*is_parameter_pack
+ && cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS)
+ && declarator_can_be_parameter_pack (parameter_declarator->declarator))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+ maybe_warn_variadic_templates ();
+
+ *is_parameter_pack = true;
+ }
+
parm = grokdeclarator (parameter_declarator->declarator,
¶meter_declarator->decl_specifiers,
PARM, /*initialized=*/0,
/*attrlist=*/NULL);
if (parm == error_mark_node)
return error_mark_node;
+
return build_tree_list (parameter_declarator->default_argument, parm);
}
template < template-parameter-list > class identifier [opt]
= id-expression
+ GNU Extension (variadic templates):
+
+ type-parameter:
+ class ... identifier [opt]
+ typename ... identifier [opt]
+
Returns a TREE_LIST. The TREE_VALUE is itself a TREE_LIST. The
TREE_PURPOSE is the default-argument, if any. The TREE_VALUE is
- the declaration of the parameter. */
+ the declaration of the parameter.
+
+ Sets *IS_PARAMETER_PACK if this is a template parameter pack. */
static tree
-cp_parser_type_parameter (cp_parser* parser)
+cp_parser_type_parameter (cp_parser* parser, bool *is_parameter_pack)
{
cp_token *token;
tree parameter;
tree identifier;
tree default_argument;
+ /* If the next token is an ellipsis, we have a template
+ argument pack. */
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...' token. */
+ cp_lexer_consume_token (parser->lexer);
+ maybe_warn_variadic_templates ();
+
+ *is_parameter_pack = true;
+ }
+
/* If the next token is an identifier, then it names the
parameter. */
if (cp_lexer_next_token_is (parser->lexer, CPP_NAME))
/* Parse the default-argument. */
push_deferring_access_checks (dk_no_deferred);
default_argument = cp_parser_type_id (parser);
+
+ /* Template parameter packs cannot have default
+ arguments. */
+ if (*is_parameter_pack)
+ {
+ if (identifier)
+ error ("template parameter pack %qD cannot have a default argument",
+ identifier);
+ else
+ error ("template parameter packs cannot have default arguments");
+ default_argument = NULL_TREE;
+ }
pop_deferring_access_checks ();
}
else
cp_parser_require (parser, CPP_GREATER, "`>'");
/* Look for the `class' keyword. */
cp_parser_require_keyword (parser, RID_CLASS, "`class'");
+ /* If the next token is an ellipsis, we have a template
+ argument pack. */
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...' token. */
+ cp_lexer_consume_token (parser->lexer);
+ maybe_warn_variadic_templates ();
+
+ *is_parameter_pack = true;
+ }
/* If the next token is an `=', then there is a
default-argument. If the next token is a `>', we are at
the end of the parameter-list. If the next token is a `,',
/* See if the default argument is valid. */
default_argument
= check_template_template_default_arg (default_argument);
+
+ /* Template parameter packs cannot have default
+ arguments. */
+ if (*is_parameter_pack)
+ {
+ if (identifier)
+ error ("template parameter pack %qD cannot have a default argument",
+ identifier);
+ else
+ error ("template parameter packs cannot have default arguments");
+ default_argument = NULL_TREE;
+ }
pop_deferring_access_checks ();
}
else
bool check_dependency_p,
bool is_declaration)
{
+ int i;
tree template;
tree arguments;
tree template_id;
cp_token_position start_of_id = 0;
- tree access_check = NULL_TREE;
+ deferred_access_check *chk;
+ VEC (deferred_access_check,gc) *access_check;
cp_token *next_token, *next_token_2;
bool is_identifier;
next_token = cp_lexer_peek_token (parser->lexer);
if (next_token->type == CPP_TEMPLATE_ID)
{
- tree value;
- tree check;
+ struct tree_check *check_value;
/* Get the stored value. */
- value = cp_lexer_consume_token (parser->lexer)->value;
+ check_value = cp_lexer_consume_token (parser->lexer)->u.tree_check_value;
/* Perform any access checks that were deferred. */
- for (check = TREE_PURPOSE (value); check; check = TREE_CHAIN (check))
- perform_or_defer_access_check (TREE_PURPOSE (check),
- TREE_VALUE (check));
+ access_check = check_value->checks;
+ if (access_check)
+ {
+ for (i = 0 ;
+ VEC_iterate (deferred_access_check, access_check, i, chk) ;
+ ++i)
+ {
+ perform_or_defer_access_check (chk->binfo,
+ chk->decl,
+ chk->diag_decl);
+ }
+ }
/* Return the stored value. */
- return TREE_VALUE (value);
+ return check_value->value;
}
/* Avoid performing name lookup if there is no possibility of
template_id = lookup_template_function (template, arguments);
}
- /* Retrieve any deferred checks. Do not pop this access checks yet
- so the memory will not be reclaimed during token replacing below. */
- access_check = get_deferred_access_checks ();
-
/* If parsing tentatively, replace the sequence of tokens that makes
up the template-id with a CPP_TEMPLATE_ID token. That way,
should we re-parse the token stream, we will not have to repeat
/* Reset the contents of the START_OF_ID token. */
token->type = CPP_TEMPLATE_ID;
- token->value = build_tree_list (access_check, template_id);
+ /* Retrieve any deferred checks. Do not pop this access checks yet
+ so the memory will not be reclaimed during token replacing below. */
+ token->u.tree_check_value = GGC_CNEW (struct tree_check);
+ token->u.tree_check_value->value = template_id;
+ token->u.tree_check_value->checks = get_deferred_access_checks ();
token->keyword = RID_MAX;
/* Purge all subsequent tokens. */
/* Parse a template-argument-list.
template-argument-list:
- template-argument
- template-argument-list , template-argument
+ template-argument ... [opt]
+ template-argument-list , template-argument ... [opt]
Returns a TREE_VEC containing the arguments. */
/* Parse the template-argument. */
argument = cp_parser_template_argument (parser);
+
+ /* If the next token is an ellipsis, we're expanding a template
+ argument pack. */
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...' token. */
+ cp_lexer_consume_token (parser->lexer);
+
+ /* Make the argument into a TYPE_PACK_EXPANSION or
+ EXPR_PACK_EXPANSION. */
+ argument = make_pack_expansion (argument);
+ }
+
if (n_args == alloced)
{
alloced *= 2;
/* A variable without external linkage might still be a
valid constant-expression, so no error is issued here
if the external-linkage check fails. */
- if (!DECL_EXTERNAL_LINKAGE_P (argument))
+ if (!address_p && !DECL_EXTERNAL_LINKAGE_P (argument))
cp_parser_simulate_error (parser);
}
else if (is_overloaded_fn (argument))
else
need_lang_pop = false;
/* Let the front end know that we are beginning a specialization. */
- begin_specialization ();
+ if (!begin_specialization ())
+ {
+ end_specialization ();
+ cp_parser_skip_to_end_of_block_or_statement (parser);
+ return;
+ }
+
/* If the next keyword is `template', we need to figure out whether
or not we're looking a template-declaration. */
if (cp_lexer_next_token_is_keyword (parser->lexer, RID_TEMPLATE))
else
/* Parse the dependent declaration. */
cp_parser_single_declaration (parser,
- /*checks=*/NULL_TREE,
+ /*checks=*/NULL,
/*member_p=*/false,
+ /*explicit_specialization_p=*/true,
/*friend_p=*/NULL);
/* We're done with the specialization. */
end_specialization ();
++decl_specs->specs[(int)ds];
decl_specs->any_specifiers_p = true;
}
- return cp_lexer_consume_token (parser->lexer)->value;
+ return cp_lexer_consume_token (parser->lexer)->u.value;
}
/* If we do not already have a type-specifier, assume we are looking
decl_specs->any_specifiers_p = true;
/* Consume the token. */
- id = cp_lexer_consume_token (parser->lexer)->value;
+ id = cp_lexer_consume_token (parser->lexer)->u.value;
/* There is no valid C++ program where a non-template type is
followed by a "<". That usually indicates that the user thought
/*check_dependency_p=*/true,
/*type_p=*/true,
is_declaration);
- /* For everything but enumeration types, consider a template-id. */
- /* For an enumeration type, consider only a plain identifier. */
+ /* For everything but enumeration types, consider a template-id.
+ For an enumeration type, consider only a plain identifier. */
if (tag_type != enum_type)
{
bool template_p = false;
if (parser->scope)
{
tree decl;
+ tree ambiguous_decls;
decl = cp_parser_lookup_name (parser, identifier,
tag_type,
/*is_template=*/false,
/*is_namespace=*/false,
/*check_dependency=*/true,
- /*ambiguous_decls=*/NULL);
+ &ambiguous_decls);
+
+ /* If the lookup was ambiguous, an error will already have been
+ issued. */
+ if (ambiguous_decls)
+ return error_mark_node;
/* If we are parsing friend declaration, DECL may be a
TEMPLATE_DECL tree node here. However, we need to check
}
if (TREE_CODE (TREE_TYPE (decl)) != TYPENAME_TYPE)
- check_elaborated_type_specifier
- (tag_type, decl,
- (parser->num_template_parameter_lists
- || DECL_SELF_REFERENCE_P (decl)));
+ {
+ bool allow_template = (parser->num_template_parameter_lists
+ || DECL_SELF_REFERENCE_P (decl));
+ type = check_elaborated_type_specifier (tag_type, decl,
+ allow_template);
+
+ if (type == error_mark_node)
+ return error_mark_node;
+ }
type = TREE_TYPE (decl);
}
return NULL_TREE;
/* Issue an error message if type-definitions are forbidden here. */
- cp_parser_check_type_definition (parser);
-
- /* Create the new type. We do this before consuming the opening brace
- so the enum will be recorded as being on the line of its tag (or the
- 'enum' keyword, if there is no tag). */
- type = start_enum (identifier);
-
+ if (!cp_parser_check_type_definition (parser))
+ type = error_mark_node;
+ else
+ /* Create the new type. We do this before consuming the opening
+ brace so the enum will be recorded as being on the line of its
+ tag (or the 'enum' keyword, if there is no tag). */
+ type = start_enum (identifier);
+
/* Consume the opening brace. */
cp_lexer_consume_token (parser->lexer);
if (identifier == error_mark_node)
return;
/* Look for the `=' token. */
+ if (!cp_parser_uncommitted_to_tentative_parse_p (parser)
+ && cp_lexer_next_token_is (parser->lexer, CPP_OPEN_BRACE))
+ {
+ error ("%<namespace%> definition is not allowed here");
+ /* Skip the definition. */
+ cp_lexer_consume_token (parser->lexer);
+ if (cp_parser_skip_to_closing_brace (parser))
+ cp_lexer_consume_token (parser->lexer);
+ return;
+ }
cp_parser_require (parser, CPP_EQ, "`='");
/* Look for the qualified-namespace-specifier. */
namespace_specifier
return cp_parser_namespace_name (parser);
}
-/* Parse a using-declaration.
+/* Parse a using-declaration, or, if ACCESS_DECLARATION_P is true, an
+ access declaration.
using-declaration:
using typename [opt] :: [opt] nested-name-specifier unqualified-id ;
- using :: unqualified-id ; */
+ using :: unqualified-id ;
-static void
-cp_parser_using_declaration (cp_parser* parser)
+ access-declaration:
+ qualified-id ;
+
+ */
+
+static bool
+cp_parser_using_declaration (cp_parser* parser,
+ bool access_declaration_p)
{
cp_token *token;
bool typename_p = false;
tree identifier;
tree qscope;
- /* Look for the `using' keyword. */
- cp_parser_require_keyword (parser, RID_USING, "`using'");
-
- /* Peek at the next token. */
- token = cp_lexer_peek_token (parser->lexer);
- /* See if it's `typename'. */
- if (token->keyword == RID_TYPENAME)
+ if (access_declaration_p)
+ cp_parser_parse_tentatively (parser);
+ else
{
- /* Remember that we've seen it. */
- typename_p = true;
- /* Consume the `typename' token. */
- cp_lexer_consume_token (parser->lexer);
+ /* Look for the `using' keyword. */
+ cp_parser_require_keyword (parser, RID_USING, "`using'");
+
+ /* Peek at the next token. */
+ token = cp_lexer_peek_token (parser->lexer);
+ /* See if it's `typename'. */
+ if (token->keyword == RID_TYPENAME)
+ {
+ /* Remember that we've seen it. */
+ typename_p = true;
+ /* Consume the `typename' token. */
+ cp_lexer_consume_token (parser->lexer);
+ }
}
/* Look for the optional global scope qualification. */
if (!qscope)
qscope = global_namespace;
+ if (access_declaration_p && cp_parser_error_occurred (parser))
+ /* Something has already gone wrong; there's no need to parse
+ further. Since an error has occurred, the return value of
+ cp_parser_parse_definitely will be false, as required. */
+ return cp_parser_parse_definitely (parser);
+
/* Parse the unqualified-id. */
identifier = cp_parser_unqualified_id (parser,
/*template_keyword_p=*/false,
/*declarator_p=*/true,
/*optional_p=*/false);
+ if (access_declaration_p)
+ {
+ if (cp_lexer_next_token_is_not (parser->lexer, CPP_SEMICOLON))
+ cp_parser_simulate_error (parser);
+ if (!cp_parser_parse_definitely (parser))
+ return false;
+ }
+
/* The function we call to handle a using-declaration is different
depending on what scope we are in. */
if (qscope == error_mark_node || identifier == error_mark_node)
/* Look for the final `;'. */
cp_parser_require (parser, CPP_SEMICOLON, "`;'");
+
+ return true;
}
/* Parse a using-directive.
too. Doing that means that we have to treat the `::' operator as
two `:' tokens. */
if (cp_parser_allow_gnu_extensions_p (parser)
- && at_function_scope_p ()
+ && parser->in_function_body
&& (cp_lexer_next_token_is (parser->lexer, CPP_COLON)
|| cp_lexer_next_token_is (parser->lexer, CPP_SCOPE)))
{
cp_parser_require (parser, CPP_SEMICOLON, "`;'");
/* Create the ASM_EXPR. */
- if (at_function_scope_p ())
+ if (parser->in_function_body)
{
asm_stmt = finish_asm_stmt (volatile_p, string, outputs,
inputs, clobbers);
static tree
cp_parser_init_declarator (cp_parser* parser,
cp_decl_specifier_seq *decl_specifiers,
- tree checks,
+ VEC (deferred_access_check,gc)* checks,
bool function_definition_allowed_p,
bool member_p,
int declares_class_or_enum,
if (declarator == cp_error_declarator)
return error_mark_node;
+ /* Check that the number of template-parameter-lists is OK. */
+ if (!cp_parser_check_declarator_template_parameters (parser, declarator))
+ return error_mark_node;
+
if (declares_class_or_enum & 2)
cp_parser_check_for_definition_in_return_type (declarator,
decl_specifiers->type);
/* Check to see whether or not this declaration is a friend. */
friend_p = cp_parser_friend_p (decl_specifiers);
- /* Check that the number of template-parameter-lists is OK. */
- if (!cp_parser_check_declarator_template_parameters (parser, declarator))
- return error_mark_node;
-
/* Enter the newly declared entry in the symbol table. If we're
processing a declaration in a class-specifier, we wait until
after processing the initializer. */
is_non_constant_init = true;
if (is_initialized)
{
- if (declarator->kind == cdk_function
- && declarator->declarator->kind == cdk_id
- && initialization_kind == CPP_EQ)
- initializer = cp_parser_pure_specifier (parser);
+ if (function_declarator_p (declarator))
+ {
+ if (initialization_kind == CPP_EQ)
+ initializer = cp_parser_pure_specifier (parser);
+ else
+ {
+ /* If the declaration was erroneous, we don't really
+ know what the user intended, so just silently
+ consume the initializer. */
+ if (decl != error_mark_node)
+ error ("initializer provided for function");
+ cp_parser_skip_to_closing_parenthesis (parser,
+ /*recovering=*/true,
+ /*or_comma=*/false,
+ /*consume_paren=*/true);
+ }
+ }
else
initializer = cp_parser_initializer (parser,
&is_parenthesized_init,
((is_parenthesized_init || !is_initialized)
? 0 : LOOKUP_ONLYCONVERTING));
}
+ else if ((cxx_dialect != cxx98) && friend_p
+ && decl && TREE_CODE (decl) == FUNCTION_DECL)
+ /* Core issue #226 (C++0x only): A default template-argument
+ shall not be specified in a friend class template
+ declaration. */
+ check_default_tmpl_args (decl, current_template_parms, /*is_primary=*/1,
+ /*is_partial=*/0, /*is_friend_decl=*/1);
+
if (!friend_p && pushed_scope)
pop_scope (pushed_scope);
&& !cp_parser_parse_definitely (parser))
declarator = NULL;
- /* Build the representation of the ptr-operator. */
- if (class_type)
- declarator = make_ptrmem_declarator (cv_quals,
- class_type,
- declarator);
- else if (code == INDIRECT_REF)
- declarator = make_pointer_declarator (cv_quals, declarator);
- else
- declarator = make_reference_declarator (cv_quals, declarator);
+ declarator = cp_parser_make_indirect_declarator
+ (code, class_type, cv_quals, declarator);
}
/* Everything else is a direct-declarator. */
else
/* Normally, the array bound must be an integral constant
expression. However, as an extension, we allow VLAs
in function scopes. */
- else if (!at_function_scope_p ())
+ else if (!parser->in_function_body)
{
error ("array bound is not an integer constant");
bounds = error_mark_node;
tree unqualified_name;
special_function_kind sfk;
bool abstract_ok;
+ bool pack_expansion_p = false;
/* Parse a declarator-id */
abstract_ok = (dcl_kind == CP_PARSER_DECLARATOR_EITHER);
if (abstract_ok)
- cp_parser_parse_tentatively (parser);
+ {
+ cp_parser_parse_tentatively (parser);
+
+ /* If we see an ellipsis, we should be looking at a
+ parameter pack. */
+ if (token->type == CPP_ELLIPSIS)
+ {
+ /* Consume the `...' */
+ cp_lexer_consume_token (parser->lexer);
+
+ pack_expansion_p = true;
+ }
+ }
+
unqualified_name
= cp_parser_declarator_id (parser, /*optional_p=*/abstract_ok);
qualifying_scope = parser->scope;
if (abstract_ok)
{
- if (!cp_parser_parse_definitely (parser))
+ bool okay = false;
+
+ if (!unqualified_name && pack_expansion_p)
+ {
+ /* Check whether an error occurred. */
+ okay = !cp_parser_error_occurred (parser);
+
+ /* We already consumed the ellipsis to mark a
+ parameter pack, but we have no way to report it,
+ so abort the tentative parse. We will be exiting
+ immediately anyway. */
+ cp_parser_abort_tentative_parse (parser);
+ }
+ else
+ okay = cp_parser_parse_definitely (parser);
+
+ if (!okay)
unqualified_name = error_mark_node;
else if (unqualified_name
&& (qualifying_scope
if (unqualified_name == error_mark_node)
{
declarator = cp_error_declarator;
+ pack_expansion_p = false;
+ declarator->parameter_pack_p = false;
break;
}
/*only_current_p=*/false);
/* If that failed, the declarator is invalid. */
if (type == error_mark_node)
- error ("%<%T::%D%> is not a type",
+ error ("%<%T::%E%> is not a type",
TYPE_CONTEXT (qualifying_scope),
TYPE_IDENTIFIER (qualifying_scope));
qualifying_scope = type;
}
sfk = sfk_none;
+
if (unqualified_name)
{
tree class_type;
unqualified_name,
sfk);
declarator->id_loc = token->location;
+ declarator->parameter_pack_p = pack_expansion_p;
+
+ if (pack_expansion_p)
+ maybe_warn_variadic_templates ();
handle_declarator:;
scope = get_scope_of_declarator (declarator);
& cv-qualifier-seq [opt]
Returns INDIRECT_REF if a pointer, or pointer-to-member, was used.
- Returns ADDR_EXPR if a reference was used. In the case of a
- pointer-to-member, *TYPE is filled in with the TYPE containing the
- member. *CV_QUALS is filled in with the cv-qualifier-seq, or
- TYPE_UNQUALIFIED, if there are no cv-qualifiers. Returns
- ERROR_MARK if an error occurred. */
-
+ Returns ADDR_EXPR if a reference was used, or NON_LVALUE_EXPR for
+ an rvalue reference. In the case of a pointer-to-member, *TYPE is
+ filled in with the TYPE containing the member. *CV_QUALS is
+ filled in with the cv-qualifier-seq, or TYPE_UNQUALIFIED, if there
+ are no cv-qualifiers. Returns ERROR_MARK if an error occurred.
+ Note that the tree codes returned by this function have nothing
+ to do with the types of trees that will be eventually be created
+ to represent the pointer or reference type being parsed. They are
+ just constants with suggestive names. */
static enum tree_code
cp_parser_ptr_operator (cp_parser* parser,
tree* type,
/* Peek at the next token. */
token = cp_lexer_peek_token (parser->lexer);
- /* If it's a `*' or `&' we have a pointer or reference. */
- if (token->type == CPP_MULT || token->type == CPP_AND)
- {
- /* Remember which ptr-operator we were processing. */
- code = (token->type == CPP_AND ? ADDR_EXPR : INDIRECT_REF);
- /* Consume the `*' or `&'. */
+ /* If it's a `*', `&' or `&&' we have a pointer or reference. */
+ if (token->type == CPP_MULT)
+ code = INDIRECT_REF;
+ else if (token->type == CPP_AND)
+ code = ADDR_EXPR;
+ else if ((cxx_dialect != cxx98) &&
+ token->type == CPP_AND_AND) /* C++0x only */
+ code = NON_LVALUE_EXPR;
+
+ if (code != ERROR_MARK)
+ {
+ /* Consume the `*', `&' or `&&'. */
cp_lexer_consume_token (parser->lexer);
/* A `*' can be followed by a cv-qualifier-seq, and so can a
/* Parse a parameter declaration.
parameter-declaration:
- decl-specifier-seq declarator
+ decl-specifier-seq ... [opt] declarator
decl-specifier-seq declarator = assignment-expression
- decl-specifier-seq abstract-declarator [opt]
+ decl-specifier-seq ... [opt] abstract-declarator [opt]
decl-specifier-seq abstract-declarator [opt] = assignment-expression
If TEMPLATE_PARM_P is TRUE, then this parameter-declaration
/* Peek at the next token. */
token = cp_lexer_peek_token (parser->lexer);
+
/* If the next token is a `)', `,', `=', `>', or `...', then there
- is no declarator. */
+ is no declarator. However, when variadic templates are enabled,
+ there may be a declarator following `...'. */
if (token->type == CPP_CLOSE_PAREN
|| token->type == CPP_COMMA
|| token->type == CPP_EQ
- || token->type == CPP_ELLIPSIS
|| token->type == CPP_GREATER)
{
declarator = NULL;
cp_parser_attributes_opt (parser));
}
+ /* If the next token is an ellipsis, and we have not seen a
+ declarator name, and the type of the declarator contains parameter
+ packs but it is not a TYPE_PACK_EXPANSION, then we actually have
+ a parameter pack expansion expression. Otherwise, leave the
+ ellipsis for a C-style variadic function. */
+ token = cp_lexer_peek_token (parser->lexer);
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ tree type = decl_specifiers.type;
+
+ if (type && DECL_P (type))
+ type = TREE_TYPE (type);
+
+ if (type
+ && TREE_CODE (type) != TYPE_PACK_EXPANSION
+ && declarator_can_be_parameter_pack (declarator)
+ && (!declarator || !declarator->parameter_pack_p)
+ && uses_parameter_packs (type))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+ maybe_warn_variadic_templates ();
+
+ /* Build a pack expansion type */
+ if (declarator)
+ declarator->parameter_pack_p = true;
+ else
+ decl_specifiers.type = make_pack_expansion (type);
+ }
+ }
+
/* The restriction on defining new types applies only to the type
of the parameter, not to the default argument. */
parser->type_definition_forbidden_message = saved_message;
++depth;
break;
+ case CPP_RSHIFT:
+ if (cxx_dialect == cxx98)
+ break;
+ /* Fall through for C++0x, which treats the `>>'
+ operator like two `>' tokens in certain
+ cases. */
+
case CPP_GREATER:
/* If we see a non-nested `>', and `>' is not an
operator, then it marks the end of the default
else if (token->type == CPP_OPEN_PAREN)
init = cp_parser_parenthesized_expression_list (parser, false,
/*cast_p=*/false,
+ /*allow_expansion_p=*/true,
non_constant_p);
else
{
/* Parse an initializer-list.
initializer-list:
- initializer-clause
- initializer-list , initializer-clause
+ initializer-clause ... [opt]
+ initializer-list , initializer-clause ... [opt]
GNU Extension:
&& cp_lexer_next_token_is (parser->lexer, CPP_NAME)
&& cp_lexer_peek_nth_token (parser->lexer, 2)->type == CPP_COLON)
{
+ /* Warn the user that they are using an extension. */
+ if (pedantic)
+ pedwarn ("ISO C++ does not allow designated initializers");
/* Consume the identifier. */
- identifier = cp_lexer_consume_token (parser->lexer)->value;
+ identifier = cp_lexer_consume_token (parser->lexer)->u.value;
/* Consume the `:'. */
cp_lexer_consume_token (parser->lexer);
}
if (clause_non_constant_p)
*non_constant_p = true;
+ /* If we have an ellipsis, this is an initializer pack
+ expansion. */
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+
+ /* Turn the initializer into an initializer expansion. */
+ initializer = make_pack_expansion (initializer);
+ }
+
/* Add it to the vector. */
CONSTRUCTOR_APPEND_ELT(v, identifier, initializer);
int has_trailing_semicolon;
bool nested_name_specifier_p;
unsigned saved_num_template_parameter_lists;
+ bool saved_in_function_body;
tree old_scope = NULL_TREE;
tree scope = NULL_TREE;
+ tree bases;
push_deferring_access_checks (dk_no_deferred);
/* Parse the class-head. */
type = cp_parser_class_head (parser,
&nested_name_specifier_p,
- &attributes);
+ &attributes,
+ &bases);
/* If the class-head was a semantic disaster, skip the entire body
of the class. */
if (!type)
return error_mark_node;
}
+ /* Process the base classes. If they're invalid, skip the
+ entire class body. */
+ if (!xref_basetypes (type, bases))
+ {
+ /* Consuming the closing brace yields better error messages
+ later on. */
+ if (cp_parser_skip_to_closing_brace (parser))
+ cp_lexer_consume_token (parser->lexer);
+ pop_deferring_access_checks ();
+ return error_mark_node;
+ }
+
/* Issue an error message if type-definitions are forbidden here. */
cp_parser_check_type_definition (parser);
/* Remember that we are defining one more class. */
saved_num_template_parameter_lists
= parser->num_template_parameter_lists;
parser->num_template_parameter_lists = 0;
+ /* We are not in a function body. */
+ saved_in_function_body = parser->in_function_body;
+ parser->in_function_body = false;
/* Start the class. */
if (nested_name_specifier_p)
/* Put back any saved access checks. */
pop_deferring_access_checks ();
- /* Restore the count of active template-parameter-lists. */
+ /* Restore saved state. */
+ parser->in_function_body = saved_in_function_body;
parser->num_template_parameter_lists
= saved_num_template_parameter_lists;
class-key attributes nested-name-specifier [opt] template-id
base-clause [opt]
+ Upon return BASES is initialized to the list of base classes (or
+ NULL, if there are none) in the same form returned by
+ cp_parser_base_clause.
+
Returns the TYPE of the indicated class. Sets
*NESTED_NAME_SPECIFIER_P to TRUE iff one of the productions
involving a nested-name-specifier was used, and FALSE otherwise.
static tree
cp_parser_class_head (cp_parser* parser,
bool* nested_name_specifier_p,
- tree *attributes_p)
+ tree *attributes_p,
+ tree *bases)
{
tree nested_name_specifier;
enum tag_types class_key;
bool invalid_explicit_specialization_p = false;
tree pushed_scope = NULL_TREE;
unsigned num_templates;
- tree bases;
/* Assume no nested-name-specifier will be present. */
*nested_name_specifier_p = false;
type. */
num_templates = 0;
+ *bases = NULL_TREE;
+
/* Look for the class-key. */
class_key = cp_parser_class_key (parser);
if (class_key == none_type)
type = NULL_TREE;
goto done;
}
+ else if (type == error_mark_node)
+ type = NULL_TREE;
/* We will have entered the scope containing the class; the names of
base classes should be looked up in that context. For example:
struct A::C : B {};
is valid. */
- bases = NULL_TREE;
/* Get the list of base-classes, if there is one. */
if (cp_lexer_next_token_is (parser->lexer, CPP_COLON))
- bases = cp_parser_base_clause (parser);
-
- /* Process the base classes. */
- xref_basetypes (type, bases);
+ *bases = cp_parser_base_clause (parser);
done:
/* Leave the scope given by the nested-name-specifier. We will
/* Consume the access-specifier. */
cp_lexer_consume_token (parser->lexer);
/* Remember which access-specifier is active. */
- current_access_specifier = token->value;
+ current_access_specifier = token->u.value;
/* Look for the `:'. */
cp_parser_require (parser, CPP_COLON, "`:'");
break;
member-declarator:
declarator attributes [opt] pure-specifier [opt]
declarator attributes [opt] constant-initializer [opt]
- identifier [opt] attributes [opt] : constant-expression */
+ identifier [opt] attributes [opt] : constant-expression
+
+ C++0x Extensions:
+
+ member-declaration:
+ static_assert-declaration */
static void
cp_parser_member_declaration (cp_parser* parser)
if (cp_lexer_next_token_is_keyword (parser->lexer, RID_USING))
{
/* Parse the using-declaration. */
- cp_parser_using_declaration (parser);
-
+ cp_parser_using_declaration (parser,
+ /*access_declaration_p=*/false);
return;
}
return;
}
+ /* If the next token is `static_assert' we have a static assertion. */
+ if (cp_lexer_next_token_is_keyword (parser->lexer, RID_STATIC_ASSERT))
+ {
+ cp_parser_static_assert (parser, /*member_p=*/true);
+ return;
+ }
+
+ if (cp_parser_using_declaration (parser, /*access_declaration=*/true))
+ return;
+
/* Parse the decl-specifier-seq. */
cp_parser_decl_specifier_seq (parser,
CP_PARSER_FLAGS_OPTIONAL,
for a pure-specifier; otherwise, we look for a
constant-initializer. When we call `grokfield', it will
perform more stringent semantics checks. */
- if (declarator->kind == cdk_function
- && declarator->declarator->kind == cdk_id)
+ if (function_declarator_p (declarator))
initializer = cp_parser_pure_specifier (parser);
else
/* Parse the initializer. */
token = cp_lexer_peek_token (parser->lexer);
/* If the next token is a semicolon, consume it. */
if (token->type == CPP_SEMICOLON)
- cp_lexer_consume_token (parser->lexer);
+ {
+ if (pedantic && !in_system_header)
+ pedwarn ("extra %<;%>");
+ cp_lexer_consume_token (parser->lexer);
+ }
return;
}
else
: base-specifier-list
base-specifier-list:
- base-specifier
- base-specifier-list , base-specifier
+ base-specifier ... [opt]
+ base-specifier-list , base-specifier ... [opt]
Returns a TREE_LIST representing the base-classes, in the order in
which they were declared. The representation of each node is as
{
cp_token *token;
tree base;
+ bool pack_expansion_p = false;
/* Look for the base-specifier. */
base = cp_parser_base_specifier (parser);
+ /* Look for the (optional) ellipsis. */
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+
+ pack_expansion_p = true;
+ }
+
/* Add BASE to the front of the list. */
if (base != error_mark_node)
{
+ if (pack_expansion_p)
+ /* Make this a pack expansion type. */
+ TREE_VALUE (base) = make_pack_expansion (TREE_VALUE (base));
+ else
+ check_for_bare_parameter_packs (TREE_VALUE (base));
+
TREE_CHAIN (base) = bases;
bases = base;
}
/* Parse an (optional) type-id-list.
type-id-list:
- type-id
- type-id-list , type-id
+ type-id ... [opt]
+ type-id-list , type-id ... [opt]
Returns a TREE_LIST. The TREE_VALUE of each node is a TYPE,
in the order that the types were presented. */
/* Get the next type-id. */
type = cp_parser_type_id (parser);
+ /* Parse the optional ellipsis. */
+ if (cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+
+ /* Turn the type into a pack expansion expression. */
+ type = make_pack_expansion (type);
+ }
/* Add it to the list. */
types = add_exception_specifier (types, type, /*complain=*/1);
/* Peek at the next token. */
/* Look for the `try' keyword. */
if (!cp_parser_require_keyword (parser, RID_TRY, "`try'"))
return false;
- /* Let the rest of the front-end know where we are. */
+ /* Let the rest of the front end know where we are. */
try_block = begin_function_try_block (&compound_stmt);
/* Parse the function-body. */
ctor_initializer_p
/* Save away the identifier that indicates which attribute
this is. */
- identifier = token->value;
+ identifier = token->u.value;
attribute = build_tree_list (identifier, NULL_TREE);
/* Peek at the next token. */
{
arguments = cp_parser_parenthesized_expression_list
(parser, true, /*cast_p=*/false,
+ /*allow_expansion_p=*/false,
/*non_constant_p=*/NULL);
/* Save the arguments away. */
TREE_VALUE (attribute) = arguments;
is correct; there shouldn't be a `template <>' for
the definition of `S<int>::f'. */
- if (CLASSTYPE_TEMPLATE_INFO (scope)
- && (CLASSTYPE_TEMPLATE_INSTANTIATION (scope)
- || uses_template_parms (CLASSTYPE_TI_ARGS (scope)))
- && PRIMARY_TEMPLATE_P (CLASSTYPE_TI_TEMPLATE (scope)))
+ if (!CLASSTYPE_TEMPLATE_INFO (scope))
+ /* If SCOPE does not have template information of any
+ kind, then it is not a template, nor is it nested
+ within a template. */
+ break;
+ if (explicit_class_specialization_p (scope))
+ break;
+ if (PRIMARY_TEMPLATE_P (CLASSTYPE_TI_TEMPLATE (scope)))
++num_templates;
scope = TYPE_CONTEXT (scope);
/* The common case is that this is not a constructor declarator, so
try to avoid doing lots of work if at all possible. It's not
valid declare a constructor at function scope. */
- if (at_function_scope_p ())
+ if (parser->in_function_body)
return false;
/* And only certain tokens can begin a constructor declarator. */
next_token = cp_lexer_peek_token (parser->lexer);
/* A parameter declaration begins with a decl-specifier,
which is either the "attribute" keyword, a storage class
specifier, or (usually) a type-specifier. */
- && !cp_lexer_next_token_is_keyword (parser->lexer, RID_ATTRIBUTE)
- && !cp_parser_storage_class_specifier_opt (parser))
+ && !cp_lexer_next_token_is_decl_specifier_keyword (parser->lexer))
{
tree type;
tree pushed_scope = NULL_TREE;
cp_parser_skip_to_end_of_block_or_statement (parser);
fn = error_mark_node;
}
+ else if (DECL_INITIAL (current_function_decl) != error_mark_node)
+ {
+ /* Seen already, skip it. An error message has already been output. */
+ cp_parser_skip_to_end_of_block_or_statement (parser);
+ fn = current_function_decl;
+ current_function_decl = NULL_TREE;
+ /* If this is a function from a class, pop the nested class. */
+ if (current_class_name)
+ pop_nested_class ();
+ }
else
fn = cp_parser_function_definition_after_declarator (parser,
/*inline_p=*/false);
tree fn;
bool ctor_initializer_p = false;
bool saved_in_unbraced_linkage_specification_p;
+ bool saved_in_function_body;
unsigned saved_num_template_parameter_lists;
+ saved_in_function_body = parser->in_function_body;
+ parser->in_function_body = true;
/* If the next token is `return', then the code may be trying to
make use of the "named return value" extension that G++ used to
support. */
= saved_in_unbraced_linkage_specification_p;
parser->num_template_parameter_lists
= saved_num_template_parameter_lists;
+ parser->in_function_body = saved_in_function_body;
return fn;
}
cp_parser_template_declaration_after_export (cp_parser* parser, bool member_p)
{
tree decl = NULL_TREE;
- tree checks;
+ VEC (deferred_access_check,gc) *checks;
tree parameter_list;
bool friend_p = false;
bool need_lang_pop;
/* And the `<'. */
if (!cp_parser_require (parser, CPP_LESS, "`<'"))
return;
+ if (at_class_scope_p () && current_function_decl)
+ {
+ /* 14.5.2.2 [temp.mem]
+
+ A local class shall not have member templates. */
+ error ("invalid declaration of member template in local class");
+ cp_parser_skip_to_end_of_block_or_statement (parser);
+ return;
+ }
/* [temp]
A template ... shall not have C linkage. */
decl = cp_parser_single_declaration (parser,
checks,
member_p,
+ /*explicit_specialization_p=*/false,
&friend_p);
pop_deferring_access_checks ();
get_deferred_access_checks. */
static void
-cp_parser_perform_template_parameter_access_checks (tree checks)
+cp_parser_perform_template_parameter_access_checks (VEC (deferred_access_check,gc)* checks)
{
++processing_template_parmlist;
perform_access_checks (checks);
static tree
cp_parser_single_declaration (cp_parser* parser,
- tree checks,
+ VEC (deferred_access_check,gc)* checks,
bool member_p,
+ bool explicit_specialization_p,
bool* friend_p)
{
int declares_class_or_enum;
if (!decl
&& (cp_lexer_next_token_is_not (parser->lexer, CPP_SEMICOLON)
|| decl_specifiers.type != error_mark_node))
- decl = cp_parser_init_declarator (parser,
- &decl_specifiers,
- checks,
- /*function_definition_allowed_p=*/true,
- member_p,
- declares_class_or_enum,
- &function_definition_p);
+ {
+ decl = cp_parser_init_declarator (parser,
+ &decl_specifiers,
+ checks,
+ /*function_definition_allowed_p=*/true,
+ member_p,
+ declares_class_or_enum,
+ &function_definition_p);
+
+ /* 7.1.1-1 [dcl.stc]
+
+ A storage-class-specifier shall not be specified in an explicit
+ specialization... */
+ if (decl
+ && explicit_specialization_p
+ && decl_specifiers.storage_class != sc_none)
+ {
+ error ("explicit template specialization cannot have a storage class");
+ decl = error_mark_node;
+ }
+ }
pop_deferring_access_checks ();
expression_list
= cp_parser_parenthesized_expression_list (parser, false,
/*cast_p=*/true,
+ /*allow_expansion_p=*/true,
/*non_constant_p=*/NULL);
cast = build_functional_cast (type, expression_list);
saved_skip_evaluation = skip_evaluation;
skip_evaluation = false;
/* Parse the template-argument-list itself. */
- if (cp_lexer_next_token_is (parser->lexer, CPP_GREATER))
+ if (cp_lexer_next_token_is (parser->lexer, CPP_GREATER)
+ || cp_lexer_next_token_is (parser->lexer, CPP_RSHIFT))
arguments = NULL_TREE;
else
arguments = cp_parser_template_argument_list (parser);
a '>>' instead, it's probably just a typo. */
if (cp_lexer_next_token_is (parser->lexer, CPP_RSHIFT))
{
- if (!saved_greater_than_is_operator_p)
+ if (cxx_dialect != cxx98)
+ {
+ /* In C++0x, a `>>' in a template argument list or cast
+ expression is considered to be two separate `>'
+ tokens. So, change the current token to a `>', but don't
+ consume it: it will be consumed later when the outer
+ template argument list (or cast expression) is parsed.
+ Note that this replacement of `>' for `>>' is necessary
+ even if we are parsing tentatively: in the tentative
+ case, after calling
+ cp_parser_enclosed_template_argument_list we will always
+ throw away all of the template arguments and the first
+ closing `>', either because the template argument list
+ was erroneous or because we are replacing those tokens
+ with a CPP_TEMPLATE_ID token. The second `>' (which will
+ not have been thrown away) is needed either to close an
+ outer template argument list or to complete a new-style
+ cast. */
+ cp_token *token = cp_lexer_peek_token (parser->lexer);
+ token->type = CPP_GREATER;
+ }
+ else if (!saved_greater_than_is_operator_p)
{
/* If we're in a nested template argument list, the '>>' has
to be a typo for '> >'. We emit the error message, but we
"within a nested template argument list",
&token->location);
- /* ??? Proper recovery should terminate two levels of
- template argument list here. */
token->type = CPP_GREATER;
}
else
const char *saved_message;
bool saved_integral_constant_expression_p;
bool saved_non_integral_constant_expression_p;
+ bool pack_expansion_p = false;
/* Initialize FORMAT the first time we get here. */
if (!format)
= parser->non_integral_constant_expression_p;
parser->integral_constant_expression_p = false;
+ /* If it's a `...', then we are computing the length of a parameter
+ pack. */
+ if (keyword == RID_SIZEOF
+ && cp_lexer_next_token_is (parser->lexer, CPP_ELLIPSIS))
+ {
+ /* Consume the `...'. */
+ cp_lexer_consume_token (parser->lexer);
+ maybe_warn_variadic_templates ();
+
+ /* Note that this is an expansion. */
+ pack_expansion_p = true;
+ }
+
/* Do not actually evaluate the expression. */
++skip_evaluation;
/* If it's a `(', then we might be looking at the type-id
if (!expr)
expr = cp_parser_unary_expression (parser, /*address_p=*/false,
/*cast_p=*/false);
+
+ if (pack_expansion_p)
+ /* Build a pack expansion. */
+ expr = make_pack_expansion (expr);
+
/* Go back to evaluating expressions. */
--skip_evaluation;
}
else if (decl_specs->storage_class != sc_none)
{
- decl_specs->multiple_storage_classes_p = true;
+ decl_specs->conflicting_specifiers_p = true;
return;
}
gcc_unreachable ();
}
decl_specs->storage_class = storage_class;
+
+ /* A storage class specifier cannot be applied alongside a typedef
+ specifier. If there is a typedef specifier present then set
+ conflicting_specifiers_p which will trigger an error later
+ on in grokdeclarator. */
+ if (decl_specs->specs[(int)ds_typedef])
+ decl_specs->conflicting_specifiers_p = true;
}
/* Update the DECL_SPECS to reflect the TYPE_SPEC. If USER_DEFINED_P
++level;
break;
+ case CPP_RSHIFT:
+ if (cxx_dialect == cxx98)
+ /* C++0x views the `>>' operator as two `>' tokens, but
+ C++98 does not. */
+ break;
+ else if (!nesting_depth && level-- == 0)
+ {
+ /* We've hit a `>>' where the first `>' closes the
+ template argument list, and the second `>' is
+ spurious. Just consume the `>>' and stop; we've
+ already produced at least one error. */
+ cp_lexer_consume_token (parser->lexer);
+ return;
+ }
+ /* Fall through for C++0x, so we handle the second `>' in
+ the `>>'. */
+
case CPP_GREATER:
if (!nesting_depth && level-- == 0)
{
return (token->type == CPP_OPEN_BRACE || token->type == CPP_COLON);
}
-/* Returns TRUE iff the next token is the "," or ">" ending a
- template-argument. */
+/* Returns TRUE iff the next token is the "," or ">" (or `>>', in
+ C++0x) ending a template-argument. */
static bool
cp_parser_next_token_ends_template_argument_p (cp_parser *parser)
cp_token *token;
token = cp_lexer_peek_token (parser->lexer);
- return (token->type == CPP_COMMA || token->type == CPP_GREATER);
+ return (token->type == CPP_COMMA
+ || token->type == CPP_GREATER
+ || token->type == CPP_ELLIPSIS
+ || ((cxx_dialect != cxx98) && token->type == CPP_RSHIFT));
}
/* Returns TRUE iff the n-th token is a "<", or the n-th is a "[" and the
static void
cp_parser_pre_parsed_nested_name_specifier (cp_parser *parser)
{
- tree value;
- tree check;
+ int i;
+ struct tree_check *check_value;
+ deferred_access_check *chk;
+ VEC (deferred_access_check,gc) *checks;
/* Get the stored value. */
- value = cp_lexer_consume_token (parser->lexer)->value;
+ check_value = cp_lexer_consume_token (parser->lexer)->u.tree_check_value;
/* Perform any access checks that were deferred. */
- for (check = TREE_PURPOSE (value); check; check = TREE_CHAIN (check))
- perform_or_defer_access_check (TREE_PURPOSE (check), TREE_VALUE (check));
+ checks = check_value->checks;
+ if (checks)
+ {
+ for (i = 0 ;
+ VEC_iterate (deferred_access_check, checks, i, chk) ;
+ ++i)
+ {
+ perform_or_defer_access_check (chk->binfo,
+ chk->decl,
+ chk->diag_decl);
+ }
+ }
/* Set the scope from the stored value. */
- parser->scope = TREE_VALUE (value);
- parser->qualifying_scope = TREE_TYPE (value);
+ parser->scope = check_value->value;
+ parser->qualifying_scope = check_value->qualifying_scope;
parser->object_scope = NULL_TREE;
}
case CPP_OBJC_STRING:
kwd = cp_lexer_consume_token (parser->lexer);
- return objc_build_string_object (kwd->value);
+ return objc_build_string_object (kwd->u.value);
case CPP_KEYWORD:
switch (kwd->keyword)
break;
}
default:
- error ("misplaced %<@%D%> Objective-C++ construct", kwd->value);
+ error ("misplaced %<@%D%> Objective-C++ construct", kwd->u.value);
cp_parser_skip_to_end_of_block_or_statement (parser);
}
objc-alias-declaration:
@compatibility_alias identifier identifier ;
- This function registers the alias mapping with the Objective-C front-end.
+ This function registers the alias mapping with the Objective-C front end.
It returns nothing. */
static void
@class objc-identifier-list ;
The function registers the forward declarations with the Objective-C
- front-end. It returns nothing. */
+ front end. It returns nothing. */
static void
cp_parser_objc_class_declaration (cp_parser* parser)
tree quals = NULL_TREE, node;
cp_token *token = cp_lexer_peek_token (parser->lexer);
- node = token->value;
+ node = token->u.value;
while (node && TREE_CODE (node) == IDENTIFIER_NODE
&& (node == ridpointers [(int) RID_IN]
quals = tree_cons (NULL_TREE, node, quals);
cp_lexer_consume_token (parser->lexer);
token = cp_lexer_peek_token (parser->lexer);
- node = token->value;
+ node = token->u.value;
}
return quals;
case CPP_OR_EQ: return get_identifier ("or_eq");
case CPP_XOR: return get_identifier ("xor");
case CPP_XOR_EQ: return get_identifier ("xor_eq");
- default: return token->value;
+ default: return token->u.value;
}
}
cp_parser_objc_end_implementation (parser);
break;
default:
- error ("misplaced %<@%D%> Objective-C++ construct", kwd->value);
+ error ("misplaced %<@%D%> Objective-C++ construct", kwd->u.value);
cp_parser_skip_to_end_of_block_or_statement (parser);
}
}
case RID_AT_THROW:
return cp_parser_objc_throw_statement (parser);
default:
- error ("misplaced %<@%D%> Objective-C++ construct", kwd->value);
+ error ("misplaced %<@%D%> Objective-C++ construct", kwd->u.value);
cp_parser_skip_to_end_of_block_or_statement (parser);
}
\f
/* OpenMP 2.5 parsing routines. */
-/* All OpenMP clauses. OpenMP 2.5. */
-typedef enum pragma_omp_clause {
- PRAGMA_OMP_CLAUSE_NONE = 0,
-
- PRAGMA_OMP_CLAUSE_COPYIN,
- PRAGMA_OMP_CLAUSE_COPYPRIVATE,
- PRAGMA_OMP_CLAUSE_DEFAULT,
- PRAGMA_OMP_CLAUSE_FIRSTPRIVATE,
- PRAGMA_OMP_CLAUSE_IF,
- PRAGMA_OMP_CLAUSE_LASTPRIVATE,
- PRAGMA_OMP_CLAUSE_NOWAIT,
- PRAGMA_OMP_CLAUSE_NUM_THREADS,
- PRAGMA_OMP_CLAUSE_ORDERED,
- PRAGMA_OMP_CLAUSE_PRIVATE,
- PRAGMA_OMP_CLAUSE_REDUCTION,
- PRAGMA_OMP_CLAUSE_SCHEDULE,
- PRAGMA_OMP_CLAUSE_SHARED
-} pragma_omp_clause;
-
/* Returns name of the next clause.
If the clause is not recognized PRAGMA_OMP_CLAUSE_NONE is returned and
the token is not consumed. Otherwise appropriate pragma_omp_clause is
result = PRAGMA_OMP_CLAUSE_PRIVATE;
else if (cp_lexer_next_token_is (parser->lexer, CPP_NAME))
{
- tree id = cp_lexer_peek_token (parser->lexer)->value;
+ tree id = cp_lexer_peek_token (parser->lexer)->u.value;
const char *p = IDENTIFIER_POINTER (id);
switch (p[0])
return list;
if (cp_lexer_next_token_is (parser->lexer, CPP_NAME))
{
- tree id = cp_lexer_peek_token (parser->lexer)->value;
+ tree id = cp_lexer_peek_token (parser->lexer)->u.value;
const char *p = IDENTIFIER_POINTER (id);
switch (p[0])
if (cp_lexer_next_token_is (parser->lexer, CPP_NAME))
{
- tree id = cp_lexer_peek_token (parser->lexer)->value;
+ tree id = cp_lexer_peek_token (parser->lexer)->u.value;
const char *p = IDENTIFIER_POINTER (id);
switch (p[0])
tree stmt = begin_omp_structured_block ();
unsigned int save = cp_parser_begin_omp_structured_block (parser);
- cp_parser_statement (parser, NULL_TREE, false);
+ cp_parser_statement (parser, NULL_TREE, false, NULL);
cp_parser_end_omp_structured_block (parser, save);
return finish_omp_structured_block (stmt);
/* Note that the grammar doesn't call for a structured block here,
though the loop as a whole is a structured block. */
body = push_stmt_list ();
- cp_parser_statement (parser, NULL_TREE, false);
+ cp_parser_statement (parser, NULL_TREE, false, NULL);
body = pop_stmt_list (body);
return finish_omp_for (loc, decl, init, cond, incr, body, pre_body);
while (1)
{
- cp_parser_statement (parser, NULL_TREE, false);
+ cp_parser_statement (parser, NULL_TREE, false, NULL);
tok = cp_lexer_peek_token (parser->lexer);
if (tok->pragma_kind == PRAGMA_OMP_SECTION)
}
else if (cp_lexer_next_token_is (parser->lexer, CPP_NAME))
{
- tree id = cp_lexer_peek_token (parser->lexer)->value;
+ tree id = cp_lexer_peek_token (parser->lexer)->u.value;
const char *p = IDENTIFIER_POINTER (id);
if (strcmp (p, "sections") == 0)
{
vars = cp_parser_omp_var_list (parser, 0, NULL);
cp_parser_require_pragma_eol (parser, pragma_tok);
- if (!targetm.have_tls)
- sorry ("threadprivate variables not supported in this target");
-
finish_omp_threadprivate (vars);
}
cp_lexer_get_preprocessor_token (NULL, first_token);
if (first_token->type == CPP_STRING)
{
- name = first_token->value;
+ name = first_token->u.value;
cp_lexer_get_preprocessor_token (NULL, first_token);
if (first_token->type != CPP_PRAGMA_EOL)
tok = cp_lexer_peek_token (the_parser->lexer);
ret = tok->type;
- *value = tok->value;
+ *value = tok->u.value;
if (ret == CPP_PRAGMA_EOL || ret == CPP_EOF)
ret = CPP_EOF;
the_parser = NULL;
}
-/* This variable must be provided by every front end. */
-
-int yydebug;
-
#include "gt-cp-parser.h"