* all copies or substantial portions of the Software.
*/
-#include <babeltrace/format.h>
#include <babeltrace/align.h>
+#include <babeltrace/list.h>
+#include <stdbool.h>
+#include <stdint.h>
+#include <limits.h>
#include <string.h>
+#include <glib.h>
+#include <assert.h>
/* Preallocate this many fields for structures */
#define DEFAULT_NR_STRUCT_FIELDS 8
* Always update stream_pos with move_pos and init_pos.
*/
struct stream_pos {
- unsigned char *base; /* Base address */
+ char *base; /* Base address */
size_t offset; /* Offset from base, in bits */
int dummy; /* Dummy position, for length calculation */
};
static inline
-void init_pos(struct stream_pos *pos, unsigned char *base)
+void init_pos(struct stream_pos *pos, char *base)
{
pos->base = base; /* initial base, page-aligned */
pos->offset = 0;
}
static inline
-unsigned char *get_pos_addr(struct stream_pos *pos)
+char *get_pos_addr(struct stream_pos *pos)
{
/* Only makes sense to get the address after aligning on CHAR_BIT */
- assert(!(pos->alignment % CHAR_BIT));
+ assert(!(pos->offset % CHAR_BIT));
return pos->base + (pos->offset / CHAR_BIT);
}
+struct format;
+
struct type_class {
GQuark name; /* type name */
size_t alignment; /* type alignment, in bits */
+ int ref; /* number of references to the type */
/*
* Type copy function. Knows how to find the child type_class from the
* parent type_class.
*/
- size_t (*copy)(struct stream_pos *dest, const struct format *fdest,
- struct stream_pos *src, const struct format *fsrc,
- const struct type_class *type_class);
+ void (*copy)(struct stream_pos *dest, const struct format *fdest,
+ struct stream_pos *src, const struct format *fsrc,
+ const struct type_class *type_class);
void (*free)(struct type_class *type_class);
};
struct type_class_float {
struct type_class p;
- struct int_class *sign;
- struct int_class *mantissa;
- struct int_class *exp;
+ struct type_class_integer *sign;
+ struct type_class_integer *mantissa;
+ struct type_class_integer *exp;
int byte_order;
/* TODO: we might want to express more info about NaN, +inf and -inf */
};
+/*
+ * enum_val_equal assumes that signed and unsigned memory layout overlap.
+ */
+struct enum_range {
+ union {
+ int64_t _signed;
+ uint64_t _unsigned;
+ } start; /* lowest range value */
+ union {
+ int64_t _signed;
+ uint64_t _unsigned;
+ } end; /* highest range value */
+};
+
+struct enum_range_to_quark {
+ struct cds_list_head node;
+ struct enum_range range;
+ GQuark quark;
+};
+
+/*
+ * We optimize the common case (range of size 1: single value) by creating a
+ * hash table mapping values to quark sets. We then lookup the ranges to
+ * complete the quark set.
+ *
+ * TODO: The proper structure to hold the range to quark set mapping would be an
+ * interval tree, with O(n) size, O(n*log(n)) build time and O(log(n)) query
+ * time. Using a simple O(n) list search for now for implementation speed and
+ * given that we can expect to have a _relatively_ small number of enumeration
+ * ranges. This might become untrue if we are fed with symbol tables often
+ * required to lookup function names from instruction pointer value.
+ */
struct enum_table {
- GHashTable *value_to_quark; /* Tuples (value, GQuark) */
- GHashTable *quark_to_value; /* Tuples (GQuark, value) */
+ GHashTable *value_to_quark_set; /* (value, GQuark GArray) */
+ struct cds_list_head range_to_quark; /* (range, GQuark) */
+ GHashTable *quark_to_range_set; /* (GQuark, range GArray) */
};
struct type_class_enum {
- struct type_class_int p; /* inherit from integer */
+ struct type_class_integer p; /* inherit from integer */
struct enum_table table;
};
struct type_class *elem;
};
-struct type_class *ctf_lookup_type(GQuark qname);
-int ctf_register_type(struct type_class *type_class);
+struct type_class *lookup_type(GQuark qname);
+int register_type(struct type_class *type_class);
+
+void type_ref(struct type_class *type_class);
+void type_unref(struct type_class *type_class);
/* Nameless types can be created by passing a NULL name */
* A GQuark can be translated to/from strings with g_quark_from_string() and
* g_quark_to_string().
*/
-GQuark enum_uint_to_quark(const struct type_class_enum *enum_class, uint64_t v);
-GQuark enum_int_to_quark(const struct type_class_enum *enum_class, uint64_t v);
-uint64_t enum_quark_to_uint(const struct type_class_enum *enum_class,
- size_t len, int byte_order, GQuark q);
-int64_t enum_quark_to_int(const struct type_class_enum *enum_class,
- size_t len, int byte_order, GQuark q);
+
+/*
+ * Returns a GArray of GQuark or NULL.
+ * Caller must release the GArray with g_array_unref().
+ */
+GArray *enum_uint_to_quark_set(const struct type_class_enum *enum_class,
+ uint64_t v);
+
+/*
+ * Returns a GArray of GQuark or NULL.
+ * Caller must release the GArray with g_array_unref().
+ */
+GArray *enum_int_to_quark_set(const struct type_class_enum *enum_class,
+ uint64_t v);
+
+/*
+ * Returns a GArray of struct enum_range or NULL.
+ * Callers do _not_ own the returned GArray (and therefore _don't_ need to
+ * release it).
+ */
+GArray *enum_quark_to_range_set(const struct type_class_enum *enum_class,
+ GQuark q);
void enum_signed_insert(struct type_class_enum *enum_class,
- int64_t v, GQuark q);
+ int64_t start, int64_t end, GQuark q);
void enum_unsigned_insert(struct type_class_enum *enum_class,
- uint64_t v, GQuark q);
+ uint64_t start, uint64_t end, GQuark q);
struct type_class_enum *enum_type_new(const char *name,
size_t len, int byte_order,
struct type_class_struct *struct_type_new(const char *name);
void struct_type_free(struct type_class_struct *struct_class);
void struct_type_add_field(struct type_class_struct *struct_class,
- GQuark field_name,
+ const char *field_name,
struct type_class *type_class);
/*
* Returns the index of a field within a structure.