We define "byte-packed" types as aligned on the byte size, namely 8-bit.
We define "bit-packed" types as following on the next bit, as defined by the
-"bitfields" section.
+"Integers" section.
All basic types, except bitfields, are either aligned on an architecture-defined
specific alignment or byte-packed, depending on the architecture preference.
Architectures providing fast unaligned write byte-packed basic types to save
space, aligning each type on byte boundaries (8-bit). Architectures with slow
unaligned writes align types on specific alignment values. If no specific
-alignment is declared for a type nor its parents, it is assumed to be bit-packed
-for bitfields and byte-packed for other types.
+alignment is declared for a type, it is assumed to be bit-packed for
+integers with size not multiple of 8 bits and for gcc bitfields. All
+other types are byte-packed.
Metadata attribute representation of a specific alignment:
size = 32;
signed = false;
align = 32;
-} : uint32_t;
+} := uint32_t;
Definition of a named 5-bit signed bitfield:
size = 5;
signed = true;
align = 1;
-} : int5_t;
+} := int5_t;
4.1.6 GNU/C bitfields
exp_dig = 8; /* sizeof(float) * CHAR_BIT - FLT_MANT_DIG */
mant_dig = 24; /* FLT_MANT_DIG */
byte_order = native;
-} : float;
+} := float;
TODO: define NaN, +inf, -inf behavior.
is in fact a range of size 1. This single-value range is supported without
repeating the start and end values with the value = string declaration.
-If a numeric value is encountered between < >, it represents the integer type
-size used to hold the enumeration, in bits.
-
-enum name <integer_type OR size> {
+enum name <integer_type> {
somestring = start_value1 ... end_value1,
"other string" = start_value2 ... end_value2,
yet_another_string, /* will be assigned to end_value2 + 1 */
If the values are omitted, the enumeration starts at 0 and increment of 1 for
each entry:
-enum name <32> {
+enum name <unsigned int> {
ZERO,
ONE,
TWO,
};
struct {
- enum <integer_type or size> { sel1, sel2, sel3, ... } tag_field;
+ enum <integer_type> { sel1, sel2, sel3, ... } tag_field;
...
variant name <tag_field> v;
}
metadata:
struct {
- enum <integer_type or size> { sel1, sel2, sel3, ... } tag_field;
+ enum <integer_type> { sel1, sel2, sel3, ... } tag_field;
...
variant <tag_field> {
field_type sel1;
typealias string {
encoding = UTF8 OR ASCII;
-} : name;
+} := name;
A nameless string type can be declared as a field type:
* Type declarations behave similarly to the C standard.
*/
-typedef aliased_type_prefix aliased_type new_type aliased_type_postfix;
+typedef aliased_type_specifiers new_type_declarators;
/* e.g.: typedef struct example new_type_name[10]; */
* typealias
*
* The "typealias" declaration can be used to give a name (including
- * prefix/postfix) to a type. It should also be used to map basic C types
- * (float, int, unsigned long, ...) to a CTF type. Typealias is a superset of
- * "typedef": it also allows assignment of a simple variable identifier to a
- * type.
+ * pointer declarator specifier) to a type. It should also be used to
+ * map basic C types (float, int, unsigned long, ...) to a CTF type.
+ * Typealias is a superset of "typedef": it also allows assignment of a
+ * simple variable identifier to a type.
*/
typealias type_class {
...
-} : new_type_prefix new_type new_type_postfix;
+} := type_specifiers type_declarator;
/*
* e.g.:
* size = 32;
* align = 32;
* signed = false;
- * } : struct page *;
+ * } := struct page *;
*
* typealias integer {
* size = 32;
* align = 32;
* signed = true;
- * } : int;
+ * } := int;
*/
struct name {
...
};
-enum name <integer_type or size> {
+enum name <integer_type> {
...
};
...
}
-enum <integer_type or size> {
+enum <integer_type> {
...
}
struct-or-variant-declaration:
specifier-qualifier-list struct-or-variant-declarator-list ;
declaration-specifiers storage-class-specifier declaration-specifiers declarator-list ;
- typealias declaration-specifiers abstract-declarator-list : declaration-specifiers abstract-declarator-list ;
- typealias declaration-specifiers abstract-declarator-list : declarator-list ;
+ typealias declaration-specifiers abstract-declarator-list := declaration-specifiers abstract-declarator-list ;
+ typealias declaration-specifiers abstract-declarator-list := declarator-list ;
specifier-qualifier-list:
type-specifier specifier-qualifier-list-opt
enum identifier-opt < declaration-specifiers > { enumerator-list }
enum identifier-opt < declaration-specifiers > { enumerator-list , }
enum identifier < declaration-specifiers >
- enum identifier-opt < integer-constant > { enumerator-list }
- enum identifier-opt < integer-constant > { enumerator-list , }
- enum identifier < integer-constant >
enumerator-list:
enumerator
event { ctf-assignment-expression-list-opt }
stream { ctf-assignment-expression-list-opt }
trace { ctf-assignment-expression-list-opt }
- typealias declaration-specifiers abstract-declarator-list : declaration-specifiers abstract-declarator-list ;
- typealias declaration-specifiers abstract-declarator-list : declarator-list ;
+ typealias declaration-specifiers abstract-declarator-list := declaration-specifiers abstract-declarator-list ;
+ typealias declaration-specifiers abstract-declarator-list := declarator-list ;
ctf-type-specifier:
floating_point { ctf-assignment-expression-list-opt }
unary-expression assignment-operator unary-expression
unary-expression type-assignment-operator type-specifier
declaration-specifiers storage-class-specifier declaration-specifiers declarator-list
- typealias declaration-specifiers abstract-declarator-list : declaration-specifiers abstract-declarator-list
- typealias declaration-specifiers abstract-declarator-list : declarator-list
+ typealias declaration-specifiers abstract-declarator-list := declaration-specifiers abstract-declarator-list
+ typealias declaration-specifiers abstract-declarator-list := declarator-list