struct type *builtin_type_int128;
struct type *builtin_type_uint128;
struct type *builtin_type_bool;
+
+/* 128 bit long vector types */
+struct type *builtin_type_v4_float;
+struct type *builtin_type_v4_int32;
+struct type *builtin_type_v8_int16;
+struct type *builtin_type_v16_int8;
+/* 64 bit long vector types */
+struct type *builtin_type_v2_float;
+struct type *builtin_type_v2_int32;
+struct type *builtin_type_v4_int16;
+struct type *builtin_type_v8_int8;
+
struct type *builtin_type_v4sf;
struct type *builtin_type_v4si;
struct type *builtin_type_v16qi;
/* Alloc a new type structure and fill it with some defaults. If
OBJFILE is non-NULL, then allocate the space for the type structure
- in that objfile's type_obstack. */
+ in that objfile's type_obstack. Otherwise allocate the new type structure
+ by xmalloc () (for permanent types). */
struct type *
alloc_type (struct objfile *objfile)
if (objfile == NULL)
{
- type = (struct type *) xmalloc (sizeof (struct type));
+ type = xmalloc (sizeof (struct type));
+ memset (type, 0, sizeof (struct type));
+ TYPE_MAIN_TYPE (type) = xmalloc (sizeof (struct main_type));
}
else
{
- type = (struct type *) obstack_alloc (&objfile->type_obstack,
- sizeof (struct type));
+ type = obstack_alloc (&objfile->type_obstack,
+ sizeof (struct type));
+ memset (type, 0, sizeof (struct type));
+ TYPE_MAIN_TYPE (type) = obstack_alloc (&objfile->type_obstack,
+ sizeof (struct main_type));
OBJSTAT (objfile, n_types++);
}
- memset ((char *) type, 0, sizeof (struct type));
+ memset (TYPE_MAIN_TYPE (type), 0, sizeof (struct main_type));
/* Initialize the fields that might not be zero. */
TYPE_CODE (type) = TYPE_CODE_UNDEF;
TYPE_OBJFILE (type) = objfile;
TYPE_VPTR_FIELDNO (type) = -1;
- TYPE_CV_TYPE (type) = type; /* chain back to itself */
- TYPE_AS_TYPE (type) = type; /* ditto */
+ TYPE_CHAIN (type) = type; /* Chain back to itself. */
+
+ return (type);
+}
+
+/* Alloc a new type instance structure, fill it with some defaults,
+ and point it at OLDTYPE. Allocate the new type instance from the
+ same place as OLDTYPE. */
+
+static struct type *
+alloc_type_instance (struct type *oldtype)
+{
+ struct type *type;
+
+ /* Allocate the structure. */
+
+ if (TYPE_OBJFILE (oldtype) == NULL)
+ {
+ type = xmalloc (sizeof (struct type));
+ memset (type, 0, sizeof (struct type));
+ }
+ else
+ {
+ type = obstack_alloc (&TYPE_OBJFILE (oldtype)->type_obstack,
+ sizeof (struct type));
+ memset (type, 0, sizeof (struct type));
+ }
+ TYPE_MAIN_TYPE (type) = TYPE_MAIN_TYPE (oldtype);
+
+ TYPE_CHAIN (type) = type; /* Chain back to itself for now. */
return (type);
}
+/* Clear all remnants of the previous type at TYPE, in preparation for
+ replacing it with something else. */
+static void
+smash_type (struct type *type)
+{
+ memset (TYPE_MAIN_TYPE (type), 0, sizeof (struct main_type));
+
+ /* For now, delete the rings. */
+ TYPE_CHAIN (type) = type;
+
+ /* For now, leave the pointer/reference types alone. */
+}
+
/* Lookup a pointer to a type TYPE. TYPEPTR, if nonzero, points
to a pointer to memory where the pointer type should be stored.
If *TYPEPTR is zero, update it to point to the pointer type we return.
{
ntype = *typeptr;
objfile = TYPE_OBJFILE (ntype);
- memset ((char *) ntype, 0, sizeof (struct type));
+ smash_type (ntype);
TYPE_OBJFILE (ntype) = objfile;
}
{
ntype = *typeptr;
objfile = TYPE_OBJFILE (ntype);
- memset ((char *) ntype, 0, sizeof (struct type));
+ smash_type (ntype);
TYPE_OBJFILE (ntype) = objfile;
}
{
ntype = *typeptr;
objfile = TYPE_OBJFILE (ntype);
- memset ((char *) ntype, 0, sizeof (struct type));
+ smash_type (ntype);
TYPE_OBJFILE (ntype) = objfile;
}
return NULL;
}
-/* Make an address-space-delimited variant of a type -- a type that
- is identical to the one supplied except that it has an address
- space attribute attached to it (such as "code" or "data").
-
- This is for Harvard architectures. */
+/* Create a new type with instance flags NEW_FLAGS, based on TYPE.
+ If STORAGE is non-NULL, create the new type instance there. */
struct type *
-make_type_with_address_space (struct type *type, int space_flag)
+make_qualified_type (struct type *type, int new_flags,
+ struct type *storage)
{
struct type *ntype;
ntype = type;
do {
- if ((ntype->flags & space_flag) != 0)
+ if (TYPE_INSTANCE_FLAGS (ntype) == new_flags)
return ntype;
- ntype = TYPE_AS_TYPE (ntype);
+ ntype = TYPE_CHAIN (ntype);
} while (ntype != type);
- /* Create a new, duplicate type. */
- ntype = alloc_type (TYPE_OBJFILE (type));
- /* Copy original type. */
- memcpy ((char *) ntype, (char *) type, sizeof (struct type));
+ /* Create a new type instance. */
+ if (storage == NULL)
+ ntype = alloc_type_instance (type);
+ else
+ {
+ ntype = storage;
+ TYPE_MAIN_TYPE (ntype) = TYPE_MAIN_TYPE (type);
+ TYPE_CHAIN (ntype) = ntype;
+ }
/* Pointers or references to the original type are not relevant to
- the new type; but if the original type is a pointer, the new type
- points to the same thing (so TYPE_TARGET_TYPE remains unchanged). */
+ the new type. */
TYPE_POINTER_TYPE (ntype) = (struct type *) 0;
TYPE_REFERENCE_TYPE (ntype) = (struct type *) 0;
- TYPE_CV_TYPE (ntype) = ntype;
- /* Chain the new address-space-specific type to the old type. */
- ntype->as_type = type->as_type;
- type->as_type = ntype;
+ /* Chain the new qualified type to the old type. */
+ TYPE_CHAIN (ntype) = TYPE_CHAIN (type);
+ TYPE_CHAIN (type) = ntype;
+
+ /* Now set the instance flags and return the new type. */
+ TYPE_INSTANCE_FLAGS (ntype) = new_flags;
- /* Now set the address-space flag, and return the new type. */
- ntype->flags |= space_flag;
return ntype;
}
+/* Make an address-space-delimited variant of a type -- a type that
+ is identical to the one supplied except that it has an address
+ space attribute attached to it (such as "code" or "data").
+
+ This is for Harvard architectures. */
+
+struct type *
+make_type_with_address_space (struct type *type, int space_flag)
+{
+ struct type *ntype;
+ int new_flags = ((TYPE_INSTANCE_FLAGS (type)
+ & ~(TYPE_FLAG_CODE_SPACE | TYPE_FLAG_DATA_SPACE))
+ | space_flag);
+
+ return make_qualified_type (type, new_flags, NULL);
+}
/* Make a "c-v" variant of a type -- a type that is identical to the
one supplied except that it may have const or volatile attributes
register struct type *tmp_type = type; /* tmp type */
struct objfile *objfile;
- ntype = TYPE_CV_TYPE (type);
+ int new_flags = (TYPE_INSTANCE_FLAGS (type)
+ & ~(TYPE_FLAG_CONST | TYPE_FLAG_VOLATILE));
- while (ntype != type)
- {
- if ((TYPE_CONST (ntype) == cnst) &&
- (TYPE_VOLATILE (ntype) == voltl))
- {
- if (typeptr == 0)
- return ntype;
- else if (*typeptr == 0)
- {
- *typeptr = ntype; /* Tracking alloc, and we have new type. */
- return ntype;
- }
- }
- tmp_type = ntype;
- ntype = TYPE_CV_TYPE (ntype);
- }
-
- if (typeptr == 0 || *typeptr == 0) /* We'll need to allocate one. */
- {
- ntype = alloc_type (TYPE_OBJFILE (type));
- if (typeptr)
- *typeptr = ntype;
- }
- else
- /* We have storage, but need to reset it. */
- {
- ntype = *typeptr;
- objfile = TYPE_OBJFILE (ntype);
- /* memset ((char *) ntype, 0, sizeof (struct type)); */
- TYPE_OBJFILE (ntype) = objfile;
- }
-
- /* Copy original type */
- memcpy ((char *) ntype, (char *) type, sizeof (struct type));
- /* But zero out fields that shouldn't be copied */
- TYPE_POINTER_TYPE (ntype) = (struct type *) 0; /* Need new pointer kind */
- TYPE_REFERENCE_TYPE (ntype) = (struct type *) 0; /* Need new referene kind */
- TYPE_AS_TYPE (ntype) = ntype; /* Need new address-space kind. */
- /* Note: TYPE_TARGET_TYPE can be left as is */
-
- /* Set flags appropriately */
if (cnst)
- TYPE_FLAGS (ntype) |= TYPE_FLAG_CONST;
- else
- TYPE_FLAGS (ntype) &= ~TYPE_FLAG_CONST;
+ new_flags |= TYPE_FLAG_CONST;
if (voltl)
- TYPE_FLAGS (ntype) |= TYPE_FLAG_VOLATILE;
- else
- TYPE_FLAGS (ntype) &= ~TYPE_FLAG_VOLATILE;
-
- /* Fix the chain of cv variants */
- TYPE_CV_TYPE (ntype) = type;
- TYPE_CV_TYPE (tmp_type) = ntype;
+ new_flags |= TYPE_FLAG_VOLATILE;
- return ntype;
-}
-
-/* When reading in a class type, we may have created references to
- cv-qualified versions of the type (in method arguments, for
- instance). Update everything on the cv ring from the primary
- type TYPE.
-
- The only reason we do not need to do the same thing for address
- spaces is that type readers do not create address space qualified
- types. */
-void
-finish_cv_type (struct type *type)
-{
- struct type *ntype, *cv_type, *ptr_type, *ref_type;
- int cv_flags;
-
- gdb_assert (!TYPE_CONST (type) && !TYPE_VOLATILE (type));
-
- ntype = type;
- while ((ntype = TYPE_CV_TYPE (ntype)) != type)
+ if (typeptr && *typeptr != NULL)
{
- /* Save cv_flags. */
- cv_flags = TYPE_FLAGS (ntype) & (TYPE_FLAG_VOLATILE | TYPE_FLAG_CONST);
-
- /* If any reference or pointer types were created, save them too. */
- ptr_type = TYPE_POINTER_TYPE (ntype);
- ref_type = TYPE_REFERENCE_TYPE (ntype);
+ /* Objfile is per-core-type. This const-qualified type had best
+ belong to the same objfile as the type it is qualifying, unless
+ we are overwriting a stub type, in which case the safest thing
+ to do is to copy the core type into the new objfile. */
- /* Don't disturb the CV chain. */
- cv_type = TYPE_CV_TYPE (ntype);
-
- /* Verify that we haven't added any address-space qualified types,
- for the future. */
- gdb_assert (ntype == TYPE_AS_TYPE (ntype));
-
- /* Copy original type */
- memcpy ((char *) ntype, (char *) type, sizeof (struct type));
+ gdb_assert (TYPE_OBJFILE (*typeptr) == TYPE_OBJFILE (type)
+ || TYPE_STUB (*typeptr));
+ if (TYPE_OBJFILE (*typeptr) != TYPE_OBJFILE (type))
+ {
+ TYPE_MAIN_TYPE (*typeptr)
+ = TYPE_ALLOC (*typeptr, sizeof (struct main_type));
+ *TYPE_MAIN_TYPE (*typeptr)
+ = *TYPE_MAIN_TYPE (type);
+ }
+ }
+
+ ntype = make_qualified_type (type, new_flags, typeptr ? *typeptr : NULL);
- /* Restore everything. */
- TYPE_POINTER_TYPE (ntype) = ptr_type;
- TYPE_REFERENCE_TYPE (ntype) = ref_type;
- TYPE_CV_TYPE (ntype) = cv_type;
- TYPE_FLAGS (ntype) = TYPE_FLAGS (ntype) | cv_flags;
+ if (typeptr != NULL)
+ *typeptr = ntype;
- TYPE_AS_TYPE (ntype) = ntype;
- }
+ return ntype;
}
-/* Replace the contents of ntype with the type *type.
+/* Replace the contents of ntype with the type *type. This changes the
+ contents, rather than the pointer for TYPE_MAIN_TYPE (ntype); thus
+ the changes are propogated to all types in the TYPE_CHAIN.
- This function should not be necessary, but is due to quirks in the stabs
- reader. This should go away. It does not handle the replacement type
- being cv-qualified; it could be easily fixed to, but it should go away,
- remember? */
+ In order to build recursive types, it's inevitable that we'll need
+ to update types in place --- but this sort of indiscriminate
+ smashing is ugly, and needs to be replaced with something more
+ controlled. TYPE_MAIN_TYPE is a step in this direction; it's not
+ clear if more steps are needed. */
void
replace_type (struct type *ntype, struct type *type)
{
struct type *cv_chain, *as_chain, *ptr, *ref;
- cv_chain = TYPE_CV_TYPE (ntype);
- as_chain = TYPE_AS_TYPE (ntype);
- ptr = TYPE_POINTER_TYPE (ntype);
- ref = TYPE_REFERENCE_TYPE (ntype);
-
- *ntype = *type;
+ *TYPE_MAIN_TYPE (ntype) = *TYPE_MAIN_TYPE (type);
- TYPE_POINTER_TYPE (ntype) = ptr;
- TYPE_REFERENCE_TYPE (ntype) = ref;
- TYPE_CV_TYPE (ntype) = cv_chain;
- TYPE_AS_TYPE (ntype) = as_chain;
-
- finish_cv_type (ntype);
+ /* Assert that the two types have equivalent instance qualifiers.
+ This should be true for at least all of our debug readers. */
+ gdb_assert (TYPE_INSTANCE_FLAGS (ntype) == TYPE_INSTANCE_FLAGS (type));
}
/* Implement direct support for MEMBER_TYPE in GNU C++.
return (result_type);
}
-
/* Construct and return a type of the form:
struct NAME { ELT_TYPE ELT_NAME[N]; }
We use these types for SIMD registers. For example, the type of
char *elt_name,
int n)
{
- struct type *t;
- struct field *f;
-
- /* Build the field structure. */
- f = xmalloc (sizeof (*f));
- memset (f, 0, sizeof (*f));
- f->loc.bitpos = 0;
- f->type = create_array_type (0, elt_type,
- create_range_type (0, builtin_type_int,
- 0, n-1));
- f->name = elt_name;
-
- /* Build a struct type with that field. */
- t = init_type (TYPE_CODE_STRUCT, n * TYPE_LENGTH (elt_type), 0, 0, 0);
- t->nfields = 1;
- t->fields = f;
- TYPE_TAG_NAME (t) = name;
+ struct type *simd_type;
+ struct type *array_type;
+
+ simd_type = init_composite_type (name, TYPE_CODE_STRUCT);
+ array_type = create_array_type (0, elt_type,
+ create_range_type (0, builtin_type_int,
+ 0, n-1));
+ append_composite_type_field (simd_type, elt_name, array_type);
+ return simd_type;
+}
- return t;
+static struct type *
+init_vector_type (struct type *elt_type, int n)
+{
+ struct type *array_type;
+
+ array_type = create_array_type (0, elt_type,
+ create_range_type (0, builtin_type_int,
+ 0, n-1));
+ TYPE_FLAGS (array_type) |= TYPE_FLAG_VECTOR;
+ return array_type;
}
static struct type *
/* Construct a type for the 128 bit registers. The type we're
building is this: */
#if 0
- union __gdb_builtin_type_vec128
+ union __gdb_builtin_type_vec128
{
- struct __builtin_v16qi v16qi;
- struct __builtin_v8hi v8hi;
- struct __builtin_v4si v4si;
- struct __builtin_v4sf v4sf;
- uint128_t uint128;
+ int128_t uint128;
+ float v4_float[4];
+ int32_t v4_int32[4];
+ int16_t v8_int16[8];
+ int8_t v16_int8[16];
};
#endif
struct type *t;
- struct field *f;
-
- f = (struct field *) xcalloc (5, sizeof (*f));
-
- FIELD_TYPE (f[0]) = builtin_type_int128;
- FIELD_NAME (f[0]) = "uint128";
-
- FIELD_TYPE (f[1]) = builtin_type_v4sf;
- FIELD_NAME (f[1]) = "v4sf";
- FIELD_TYPE (f[2]) = builtin_type_v4si;
- FIELD_NAME (f[2]) = "v4si";
-
- FIELD_TYPE (f[3]) = builtin_type_v8hi;
- FIELD_NAME (f[3]) = "v8hi";
-
- FIELD_TYPE (f[4]) = builtin_type_v16qi;
- FIELD_NAME (f[4]) = "v16qi";
-
- /* Build a union type with those fields. */
- t = init_type (TYPE_CODE_UNION, 16, 0, 0, 0);
- TYPE_NFIELDS (t) = 5;
- TYPE_FIELDS (t) = f;
- TYPE_TAG_NAME (t) = "__gdb_builtin_type_vec128";
+ t = init_composite_type ("__gdb_builtin_type_vec128", TYPE_CODE_UNION);
+ append_composite_type_field (t, "uint128", builtin_type_int128);
+ append_composite_type_field (t, "v4_float", builtin_type_v4_float);
+ append_composite_type_field (t, "v4_int32", builtin_type_v4_int32);
+ append_composite_type_field (t, "v8_int16", builtin_type_v8_int16);
+ append_composite_type_field (t, "v16_int8", builtin_type_v16_int8);
return t;
}
objfile = TYPE_OBJFILE (type);
- memset ((char *) type, 0, sizeof (struct type));
+ smash_type (type);
TYPE_OBJFILE (type) = objfile;
TYPE_TARGET_TYPE (type) = to_type;
TYPE_DOMAIN_TYPE (type) = domain;
objfile = TYPE_OBJFILE (type);
- memset ((char *) type, 0, sizeof (struct type));
+ smash_type (type);
TYPE_OBJFILE (type) = objfile;
TYPE_TARGET_TYPE (type) = to_type;
TYPE_DOMAIN_TYPE (type) = domain;
for (p = current_language->la_builtin_type_vector; *p != NULL; p++)
{
- if (STREQ ((**p)->name, name))
+ if (STREQ (TYPE_NAME (**p), name))
{
return (**p);
}
lookup_template_type (char *name, struct type *type, struct block *block)
{
struct symbol *sym;
- char *nam = (char *) alloca (strlen (name) + strlen (type->name) + 4);
+ char *nam = (char *) alloca (strlen (name) + strlen (TYPE_NAME (type)) + 4);
strcpy (nam, name);
strcat (nam, "<");
- strcat (nam, type->name);
+ strcat (nam, TYPE_NAME (type));
strcat (nam, " >"); /* FIXME, extra space still introduced in gcc? */
sym = lookup_symbol (nam, block, VAR_NAMESPACE, 0, (struct symtab **) NULL);
complain (&msg, tcode);
}
}
- if (t->target_type)
- add_mangled_type (pextras, t->target_type);
+ if (TYPE_TARGET_TYPE (t))
+ add_mangled_type (pextras, TYPE_TARGET_TYPE (t));
}
#if 0
argtypes = (struct type **)
TYPE_ALLOC (type, (argcount + 2) * sizeof (struct type *));
p = argtypetext;
- /* FIXME: This is wrong for static member functions. */
- argtypes[0] = lookup_pointer_type (type);
- argcount = 1;
+
+ /* Add THIS pointer for non-static methods. */
+ f = TYPE_FN_FIELDLIST1 (type, method_id);
+ if (TYPE_FN_FIELD_STATIC_P (f, signature_id))
+ argcount = 0;
+ else
+ {
+ argtypes[0] = lookup_pointer_type (type);
+ argcount = 1;
+ }
if (*p != ')') /* () means no args, skip while */
{
xfree (demangled_name);
- f = TYPE_FN_FIELDLIST1 (type, method_id);
-
TYPE_FN_FIELD_PHYSNAME (f, signature_id) = mangled_name;
/* Now update the old "stub" type into a real type. */
return (type);
}
+/* Helper function. Create an empty composite type. */
+
+struct type *
+init_composite_type (char *name, enum type_code code)
+{
+ struct type *t;
+ gdb_assert (code == TYPE_CODE_STRUCT
+ || code == TYPE_CODE_UNION);
+ t = init_type (code, 0, 0, NULL, NULL);
+ TYPE_TAG_NAME (t) = name;
+ return t;
+}
+
+/* Helper function. Append a field to a composite type. */
+
+void
+append_composite_type_field (struct type *t, char *name, struct type *field)
+{
+ struct field *f;
+ TYPE_NFIELDS (t) = TYPE_NFIELDS (t) + 1;
+ TYPE_FIELDS (t) = xrealloc (TYPE_FIELDS (t),
+ sizeof (struct field) * TYPE_NFIELDS (t));
+ f = &(TYPE_FIELDS (t)[TYPE_NFIELDS (t) - 1]);
+ memset (f, 0, sizeof f[0]);
+ FIELD_TYPE (f[0]) = field;
+ FIELD_NAME (f[0]) = name;
+ if (TYPE_CODE (t) == TYPE_CODE_UNION)
+ {
+ if (TYPE_LENGTH (t) < TYPE_LENGTH (field))
+ TYPE_LENGTH (t) = TYPE_LENGTH (field);
+ }
+ else if (TYPE_CODE (t) == TYPE_CODE_STRUCT)
+ {
+ TYPE_LENGTH (t) = TYPE_LENGTH (t) + TYPE_LENGTH (field);
+ if (TYPE_NFIELDS (t) > 1)
+ {
+ FIELD_BITPOS (f[0]) = (FIELD_BITPOS (f[-1])
+ + TYPE_LENGTH (field) * TARGET_CHAR_BIT);
+ }
+ }
+}
+
/* Look up a fundamental type for the specified objfile.
May need to construct such a type if this is the first use.
while (*args != NULL)
{
recursive_dump_type (*args, spaces + 2);
- if ((*args++)->code == TYPE_CODE_VOID)
+ if (TYPE_CODE (*args++) == TYPE_CODE_VOID)
{
break;
}
printfi_filtered (spaces, "reference_type ");
gdb_print_host_address (TYPE_REFERENCE_TYPE (type), gdb_stdout);
printf_filtered ("\n");
- printfi_filtered (spaces, "cv_type ");
- gdb_print_host_address (TYPE_CV_TYPE (type), gdb_stdout);
- printf_filtered ("\n");
- printfi_filtered (spaces, "as_type ");
- gdb_print_host_address (TYPE_AS_TYPE (type), gdb_stdout);
+ printfi_filtered (spaces, "type_chain ");
+ gdb_print_host_address (TYPE_CHAIN (type), gdb_stdout);
printf_filtered ("\n");
+ printfi_filtered (spaces, "instance_flags 0x%x", TYPE_INSTANCE_FLAGS (type));
+ if (TYPE_CONST (type))
+ {
+ puts_filtered (" TYPE_FLAG_CONST");
+ }
+ if (TYPE_VOLATILE (type))
+ {
+ puts_filtered (" TYPE_FLAG_VOLATILE");
+ }
+ if (TYPE_CODE_SPACE (type))
+ {
+ puts_filtered (" TYPE_FLAG_CODE_SPACE");
+ }
+ if (TYPE_DATA_SPACE (type))
+ {
+ puts_filtered (" TYPE_FLAG_DATA_SPACE");
+ }
+ puts_filtered ("\n");
printfi_filtered (spaces, "flags 0x%x", TYPE_FLAGS (type));
if (TYPE_UNSIGNED (type))
{
{
puts_filtered (" TYPE_FLAG_STATIC");
}
- if (TYPE_CONST (type))
- {
- puts_filtered (" TYPE_FLAG_CONST");
- }
- if (TYPE_VOLATILE (type))
- {
- puts_filtered (" TYPE_FLAG_VOLATILE");
- }
if (TYPE_PROTOTYPED (type))
{
puts_filtered (" TYPE_FLAG_PROTOTYPED");
{
puts_filtered (" TYPE_FLAG_INCOMPLETE");
}
- if (TYPE_CODE_SPACE (type))
- {
- puts_filtered (" TYPE_FLAG_CODE_SPACE");
- }
- if (TYPE_DATA_SPACE (type))
- {
- puts_filtered (" TYPE_FLAG_DATA_SPACE");
- }
if (TYPE_VARARGS (type))
{
puts_filtered (" TYPE_FLAG_VARARGS");
}
+ /* This is used for things like AltiVec registers on ppc. Gcc emits
+ an attribute for the array type, which tells whether or not we
+ have a vector, instead of a regular array. */
+ if (TYPE_VECTOR (type))
+ {
+ puts_filtered (" TYPE_FLAG_VECTOR");
+ }
puts_filtered ("\n");
printfi_filtered (spaces, "nfields %d ", TYPE_NFIELDS (type));
gdb_print_host_address (TYPE_FIELDS (type), gdb_stdout);
builtin_type_v2si
= init_simd_type ("__builtin_v2si", builtin_type_int32, "f", 2);
+ /* 128 bit vectors. */
+ builtin_type_v4_float = init_vector_type (builtin_type_float, 4);
+ builtin_type_v4_int32 = init_vector_type (builtin_type_int32, 4);
+ builtin_type_v8_int16 = init_vector_type (builtin_type_int16, 8);
+ builtin_type_v16_int8 = init_vector_type (builtin_type_int8, 16);
+ /* 64 bit vectors. */
+ builtin_type_v2_float = init_vector_type (builtin_type_float, 2);
+ builtin_type_v2_int32 = init_vector_type (builtin_type_int32, 2);
+ builtin_type_v4_int16 = init_vector_type (builtin_type_int16, 4);
+ builtin_type_v8_int8 = init_vector_type (builtin_type_int8, 8);
+
/* Vector types. */
- builtin_type_vec128
- = build_builtin_type_vec128 ();
+ builtin_type_vec128 = build_builtin_type_vec128 ();
/* Pointer/Address types. */
register_gdbarch_swap (&builtin_type_v8hi, sizeof (struct type *), NULL);
register_gdbarch_swap (&builtin_type_v4hi, sizeof (struct type *), NULL);
register_gdbarch_swap (&builtin_type_v2si, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v4_float, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v4_int32, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v8_int16, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v16_int8, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v2_float, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v2_int32, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v8_int8, sizeof (struct type *), NULL);
+ register_gdbarch_swap (&builtin_type_v4_int16, sizeof (struct type *), NULL);
register_gdbarch_swap (&builtin_type_vec128, sizeof (struct type *), NULL);
REGISTER_GDBARCH_SWAP (builtin_type_void_data_ptr);
REGISTER_GDBARCH_SWAP (builtin_type_void_func_ptr);