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A function is represented by a FUNCTION_DECL
node. A set of
overloaded functions is sometimes represented by an OVERLOAD
node.
An OVERLOAD
node is not a declaration, so none of the
‘DECL_’ macros should be used on an OVERLOAD
. An
OVERLOAD
node is similar to a TREE_LIST
. Use
OVL_CURRENT
to get the function associated with an
OVERLOAD
node; use OVL_NEXT
to get the next
OVERLOAD
node in the list of overloaded functions. The macros
OVL_CURRENT
and OVL_NEXT
are actually polymorphic; you can
use them to work with FUNCTION_DECL
nodes as well as with
overloads. In the case of a FUNCTION_DECL
, OVL_CURRENT
will always return the function itself, and OVL_NEXT
will always
be NULL_TREE
.
To determine the scope of a function, you can use the
DECL_CONTEXT
macro. This macro will return the class
(either a RECORD_TYPE
or a UNION_TYPE
) or namespace (a
NAMESPACE_DECL
) of which the function is a member. For a virtual
function, this macro returns the class in which the function was
actually defined, not the base class in which the virtual declaration
occurred.
If a friend function is defined in a class scope, the
DECL_FRIEND_CONTEXT
macro can be used to determine the class in
which it was defined. For example, in
class C { friend void f() {} };
the DECL_CONTEXT
for f
will be the
global_namespace
, but the DECL_FRIEND_CONTEXT
will be the
RECORD_TYPE
for C
.
The following macros and functions can be used on a FUNCTION_DECL
:
DECL_MAIN_P
This predicate holds for a function that is the program entry point
::code
.
DECL_LOCAL_FUNCTION_P
This predicate holds if the function was declared at block scope, even though it has a global scope.
DECL_ANTICIPATED
This predicate holds if the function is a built-in function but its prototype is not yet explicitly declared.
DECL_EXTERN_C_FUNCTION_P
This predicate holds if the function is declared as an
‘extern "C"
’ function.
DECL_LINKONCE_P
This macro holds if multiple copies of this function may be emitted in
various translation units. It is the responsibility of the linker to
merge the various copies. Template instantiations are the most common
example of functions for which DECL_LINKONCE_P
holds; G++
instantiates needed templates in all translation units which require them,
and then relies on the linker to remove duplicate instantiations.
FIXME: This macro is not yet implemented.
DECL_FUNCTION_MEMBER_P
This macro holds if the function is a member of a class, rather than a member of a namespace.
DECL_STATIC_FUNCTION_P
This predicate holds if the function a static member function.
DECL_NONSTATIC_MEMBER_FUNCTION_P
This macro holds for a non-static member function.
DECL_CONST_MEMFUNC_P
This predicate holds for a const
-member function.
DECL_VOLATILE_MEMFUNC_P
This predicate holds for a volatile
-member function.
DECL_CONSTRUCTOR_P
This macro holds if the function is a constructor.
DECL_NONCONVERTING_P
This predicate holds if the constructor is a non-converting constructor.
DECL_COMPLETE_CONSTRUCTOR_P
This predicate holds for a function which is a constructor for an object of a complete type.
DECL_BASE_CONSTRUCTOR_P
This predicate holds for a function which is a constructor for a base class sub-object.
DECL_COPY_CONSTRUCTOR_P
This predicate holds for a function which is a copy-constructor.
DECL_DESTRUCTOR_P
This macro holds if the function is a destructor.
DECL_COMPLETE_DESTRUCTOR_P
This predicate holds if the function is the destructor for an object a complete type.
DECL_OVERLOADED_OPERATOR_P
This macro holds if the function is an overloaded operator.
DECL_CONV_FN_P
This macro holds if the function is a type-conversion operator.
DECL_GLOBAL_CTOR_P
This predicate holds if the function is a file-scope initialization function.
DECL_GLOBAL_DTOR_P
This predicate holds if the function is a file-scope finalization function.
DECL_THUNK_P
This predicate holds if the function is a thunk.
These functions represent stub code that adjusts the this
pointer
and then jumps to another function. When the jumped-to function
returns, control is transferred directly to the caller, without
returning to the thunk. The first parameter to the thunk is always the
this
pointer; the thunk should add THUNK_DELTA
to this
value. (The THUNK_DELTA
is an int
, not an
INTEGER_CST
.)
Then, if THUNK_VCALL_OFFSET
(an INTEGER_CST
) is nonzero
the adjusted this
pointer must be adjusted again. The complete
calculation is given by the following pseudo-code:
this += THUNK_DELTA if (THUNK_VCALL_OFFSET) this += (*((ptrdiff_t **) this))[THUNK_VCALL_OFFSET]
Finally, the thunk should jump to the location given
by DECL_INITIAL
; this will always be an expression for the
address of a function.
DECL_NON_THUNK_FUNCTION_P
This predicate holds if the function is not a thunk function.
GLOBAL_INIT_PRIORITY
If either DECL_GLOBAL_CTOR_P
or DECL_GLOBAL_DTOR_P
holds,
then this gives the initialization priority for the function. The
linker will arrange that all functions for which
DECL_GLOBAL_CTOR_P
holds are run in increasing order of priority
before main
is called. When the program exits, all functions for
which DECL_GLOBAL_DTOR_P
holds are run in the reverse order.
TYPE_RAISES_EXCEPTIONS
This macro returns the list of exceptions that a (member-)function can
raise. The returned list, if non NULL
, is comprised of nodes
whose TREE_VALUE
represents a type.
TYPE_NOTHROW_P
This predicate holds when the exception-specification of its arguments
is of the form ‘()
’.
DECL_ARRAY_DELETE_OPERATOR_P
This predicate holds if the function an overloaded
operator delete[]
.
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