((dynarr_type *) Dynarr_newf (sizeof (type)))
#define Dynarr_at(d, pos) ((d)->base[pos])
#define Dynarr_atp(d, pos) (&Dynarr_at (d, pos))
+#define Dynarr_begin(d) Dynarr_atp (d, 0)
+#define Dynarr_end(d) Dynarr_atp (d, Dynarr_length (d))
+#define Dynarr_sizeof(d) ((d)->cur * (d)->elsize)
#define Dynarr_length(d) ((d)->cur)
#define Dynarr_largest(d) ((d)->largest)
#define Dynarr_reset(d) ((d)->cur = 0)
# endif /* GNUC */
#endif
+/* No type has a greater alignment requirement than max_align_t.
+ (except perhaps for types we don't use, like long double) */
+typedef union
+{
+ struct { long l; } l;
+ struct { void *p; } p;
+ struct { void (*f)(void); } f;
+ struct { double d; } d;
+} max_align_t;
+
#ifndef ALIGNOF
# if defined (__GNUC__) && (__GNUC__ >= 2)
-# define ALIGNOF(x) __alignof__ (x)
+/* gcc has an extension that gives us exactly what we want. */
+# define ALIGNOF(type) __alignof__ (type)
+# elif ! defined (__cplusplus)
+/* The following is mostly portable, except that:
+ - it doesn't work for inside out declarations like void (*) (void).
+ (so just call ALIGNOF with a typedef'ed name)
+ - it doesn't work with C++. The C++ committee has decided,
+ in its infinite wisdom, that:
+ "Types must be declared in declarations, not in expressions." */
+# define ALIGNOF(type) offsetof (struct { char c; type member; }, member)
# else
-# define ALIGNOF(x) sizeof (x)
+/* C++ is annoying, but it has a big bag of tricks.
+ The following doesn't have the "inside out" declaration bug C does. */
+template<typename T> struct alignment_trick { char c; T member; };
+# define ALIGNOF(type) offsetof (alignment_trick<type>, member)
# endif
-#endif
+#endif /* ALIGNOF */
#define ALIGN_SIZE(len, unit) \
((((len) + (unit) - 1) / (unit)) * (unit))
/* #### Yuck, this is kind of evil */
#define ALIGN_PTR(ptr, unit) \
- ((void *) ALIGN_SIZE ((long) (ptr), unit))
+ ((void *) ALIGN_SIZE ((size_t) (ptr), unit))
#ifndef DO_NOTHING
#define DO_NOTHING do {} while (0)
Dynarr_declare (Lisp_Object);
} Lisp_Object_dynarr;
+typedef struct
+{
+ Dynarr_declare (Lisp_Object *);
+} Lisp_Object_ptr_dynarr;
+
/* Close your eyes now lest you vomit or spontaneously combust ... */
#define HACKEQ_UNSAFE(obj1, obj2) \
#endif /* not MULE */
-/* Return the true size of a struct with a variable-length array field. */
-#define FLEXIBLE_ARRAY_STRUCT_SIZEOF(flexible_array_structtype, \
- flexible_array_field, \
- flexible_array_length) \
- (offsetof (flexible_array_structtype, flexible_array_field) + \
- (offsetof (flexible_array_structtype, flexible_array_field[1]) - \
- offsetof (flexible_array_structtype, flexible_array_field[0])) * \
- (flexible_array_length))
+/* Return the true aligned size of a struct whose last member is a
+ variable-length array field. (this is known as the "struct hack") */
+/* Implementation: in practice, structtype and fieldtype usually have
+ the same alignment, but we can't be sure. We need to use
+ ALIGN_SIZE to be absolutely sure of getting the correct alignment.
+ To help the compiler's optimizer, we use a ternary expression that
+ only a very stupid compiler would fail to correctly simplify. */
+#define FLEXIBLE_ARRAY_STRUCT_SIZEOF(structtype, \
+ fieldtype, \
+ fieldname, \
+ array_length) \
+(ALIGNOF (structtype) == ALIGNOF (fieldtype) \
+ ? (offsetof (structtype, fieldname) + \
+ (offsetof (structtype, fieldname[1]) - \
+ offsetof (structtype, fieldname[0])) * \
+ (array_length)) \
+ : (ALIGN_SIZE \
+ ((offsetof (structtype, fieldname) + \
+ (offsetof (structtype, fieldname[1]) - \
+ offsetof (structtype, fieldname[0])) * \
+ (array_length)), \
+ ALIGNOF (structtype))))
/*------------------------------ vector --------------------------------*/
/* threshold for doing another gc */
-extern EMACS_INT gc_cons_threshold;
+extern Fixnum gc_cons_threshold;
/* Structure for recording stack slots that need marking */
RETURN_SANS_WARNINGS ret_nunb_val; \
} while (0)
+extern Lisp_Object_ptr_dynarr *staticpros;
+
/* Call staticpro (&var) to protect static variable `var'. */
void staticpro (Lisp_Object *);
/* var will not be saved at dump time */
void staticpro_nodump (Lisp_Object *);
-/* Call dumpstruct(&var, &desc) to dump the structure pointed to by `var'. */
-void dumpstruct (void *, const struct struct_description *);
+/* dump_add_root_struct_ptr (&var, &desc) dumps the structure pointed to by `var'. */
+#ifdef PDUMP
+void dump_add_root_struct_ptr (void *, const struct struct_description *);
+#else
+#define dump_add_root_struct_ptr(varaddr,descaddr) DO_NOTHING
+#endif
+
+/* dump_add_opaque (&var, size) dumps the opaque static structure `var'. */
+#ifdef PDUMP
+void dump_add_opaque (void *, size_t);
+#else
+#define dump_add_opaque(varaddr,size) DO_NOTHING
+#endif
+
+/* Call dump_add_opaque_int (&int_var) to dump `int_var', of type `int'. */
+#ifdef PDUMP
+#define dump_add_opaque_int(int_varaddr) do { \
+ int *dao_ = (int_varaddr); /* type check */ \
+ dump_add_opaque (dao_, sizeof (*dao_)); \
+} while (0)
+#else
+#define dump_add_opaque_int(int_varaddr) DO_NOTHING
+#endif
-/* Call dumpopaque(&var, size) to dump the opaque static structure `var'. */
-void dumpopaque (void *, size_t);
+/* Call dump_add_opaque_fixnum (&fixnum_var) to dump `fixnum_var', of type `Fixnum'. */
+#ifdef PDUMP
+#define dump_add_opaque_fixnum(fixnum_varaddr) do { \
+ Fixnum *dao_ = (fixnum_varaddr); /* type check */ \
+ dump_add_opaque (dao_, sizeof (*dao_)); \
+} while (0)
+#else
+#define dump_add_opaque_fixnum(fixnum_varaddr) DO_NOTHING
+#endif
-/* Call pdump_wire(&var) to ensure that var is properly updated after pdump. */
-void pdump_wire (Lisp_Object *);
+/* Call dump_add_root_object (&var) to ensure that var is properly updated after pdump. */
+#ifdef PDUMP
+void dump_add_root_object (Lisp_Object *);
+#else
+#define dump_add_root_object(varaddr) DO_NOTHING
+#endif
-/* Call pdump_wire(&var) to ensure that var is properly updated after
- pdump. var must point to a linked list of objects out of which
+/* Call dump_add_root_object (&var) to ensure that var is properly updated after
+ pdump. var must point to a linked list of objects out of which
some may not be dumped */
-void pdump_wire_list (Lisp_Object *);
+#ifdef PDUMP
+void dump_add_weak_object_chain (Lisp_Object *);
+#else
+#define dump_add_weak_object_chain(varaddr) DO_NOTHING
+#endif
/* Nonzero means Emacs has already been initialized.
Used during startup to detect startup of dumped Emacs. */
void release_breathing_space (void);
Lisp_Object noseeum_cons (Lisp_Object, Lisp_Object);
Lisp_Object make_vector (size_t, Lisp_Object);
-#ifdef HAVE_GGC
-Lisp_Object make_older_vector (size_t, Lisp_Object);
-void make_vector_newer (Lisp_Object);
-#endif
Lisp_Object vector1 (Lisp_Object);
Lisp_Object vector2 (Lisp_Object, Lisp_Object);
Lisp_Object vector3 (Lisp_Object, Lisp_Object, Lisp_Object);
extern int noninteractive, noninteractive1;
extern int fatal_error_in_progress;
extern int preparing_for_armageddon;
-extern int emacs_priority;
+extern Fixnum emacs_priority;
extern int running_asynch_code;
extern int suppress_early_error_handler_backtrace;