#include <babeltrace/compiler.h>
#include <babeltrace/format.h>
-
+#include <errno.h>
static
-struct type *variant_type_new(struct type_class *type_class,
- struct declaration_scope *parent_scope);
+struct definition *_variant_definition_new(struct declaration *declaration,
+ struct definition_scope *parent_scope,
+ GQuark field_name, int index);
static
-void variant_type_free(struct type *type);
+void _variant_definition_free(struct definition *definition);
-void variant_copy(struct stream_pos *dest, const struct format *fdest,
- struct stream_pos *src, const struct format *fsrc,
- struct type *type)
+void variant_rw(struct stream_pos *ppos, struct definition *definition)
{
- struct type_variant *variant = container_of(type, struct type_variant,
- p);
- struct type_class_variant *variant_class = variant->_class;
+ struct definition_variant *variant_definition =
+ container_of(definition, struct definition_variant, p);
struct field *field;
- struct type_class *field_class;
+
+ field = variant_get_current_field(variant_definition);
+ generic_rw(ppos, field->definition);
+}
+
+static
+void _untagged_variant_declaration_free(struct declaration *declaration)
+{
+ struct declaration_untagged_variant *untagged_variant_declaration =
+ container_of(declaration, struct declaration_untagged_variant, p);
unsigned long i;
- fsrc->variant_begin(src, variant_class);
- fdest->variant_begin(dest, variant_class);
+ free_declaration_scope(untagged_variant_declaration->scope);
+ g_hash_table_destroy(untagged_variant_declaration->fields_by_tag);
- field = variant_type_get_current_field(variant);
- field_class = field->type->p._class;
- field_class->copy(dest, fdest, src, fsrc, &field->type->p);
+ for (i = 0; i < untagged_variant_declaration->fields->len; i++) {
+ struct declaration_field *declaration_field =
+ &g_array_index(untagged_variant_declaration->fields,
+ struct declaration_field, i);
+ declaration_unref(declaration_field->declaration);
+ }
+ g_array_free(untagged_variant_declaration->fields, true);
+ g_free(untagged_variant_declaration);
+}
- fsrc->variant_end(src, variant_class);
- fdest->variant_end(dest, variant_class);
+struct declaration_untagged_variant *untagged_variant_declaration_new(
+ struct declaration_scope *parent_scope)
+{
+ struct declaration_untagged_variant *untagged_variant_declaration;
+ struct declaration *declaration;
+
+ untagged_variant_declaration = g_new(struct declaration_untagged_variant, 1);
+ declaration = &untagged_variant_declaration->p;
+ untagged_variant_declaration->fields_by_tag = g_hash_table_new(g_direct_hash,
+ g_direct_equal);
+ untagged_variant_declaration->fields = g_array_sized_new(FALSE, TRUE,
+ sizeof(struct declaration_field),
+ DEFAULT_NR_STRUCT_FIELDS);
+ untagged_variant_declaration->scope = new_declaration_scope(parent_scope);
+ declaration->id = CTF_TYPE_UNTAGGED_VARIANT;
+ declaration->alignment = 1;
+ declaration->declaration_free = _untagged_variant_declaration_free;
+ declaration->definition_new = NULL;
+ declaration->definition_free = NULL;
+ declaration->ref = 1;
+ return untagged_variant_declaration;
}
static
-void variant_type_class_free(struct type_class *type_class)
+void _variant_declaration_free(struct declaration *declaration)
{
- struct type_class_variant *variant_class =
- container_of(type_class, struct type_class_variant, p);
- unsigned long i;
+ struct declaration_variant *variant_declaration =
+ container_of(declaration, struct declaration_variant, p);
- g_hash_table_destroy(struct_class->fields_by_tag);
+ _untagged_variant_declaration_free(&variant_declaration->untagged_variant->p);
+ g_array_free(variant_declaration->tag_name, TRUE);
+}
- for (i = 0; i < variant_class->fields->len; i++) {
- struct field *type_class_field =
- &g_array_index(variant_class->fields,
- struct type_class_field, i);
- type_class_unref(field->type_class);
- }
- g_array_free(variant_class->fields, true);
- g_free(variant_class);
+struct declaration_variant *
+ variant_declaration_new(struct declaration_untagged_variant *untagged_variant, const char *tag)
+{
+ struct declaration_variant *variant_declaration;
+ struct declaration *declaration;
+
+ variant_declaration = g_new(struct declaration_variant, 1);
+ declaration = &variant_declaration->p;
+ variant_declaration->untagged_variant = untagged_variant;
+ variant_declaration->tag_name = g_array_new(FALSE, TRUE, sizeof(GQuark));
+ append_scope_path(tag, variant_declaration->tag_name);
+ declaration->id = CTF_TYPE_VARIANT;
+ declaration->alignment = 1;
+ declaration->declaration_free = _variant_declaration_free;
+ declaration->definition_new = _variant_definition_new;
+ declaration->definition_free = _variant_definition_free;
+ declaration->ref = 1;
+ return variant_declaration;
}
-struct type_class_variant *
-variant_type_class_new(const char *name)
+/*
+ * tag_instance is assumed to be an enumeration.
+ * Returns 0 if OK, < 0 if error.
+ */
+static
+int check_enum_tag(struct definition_variant *variant,
+ struct definition *enum_tag)
{
- struct type_class_variant *variant_class;
- struct type_class *type_class;
- int ret;
-
- variant_class = g_new(struct type_class_variant, 1);
- type_class = &variant_class->p;
- variant_class->fields_by_tag = g_hash_table_new(g_direct_hash,
- g_direct_equal);
- variant_class->fields = g_array_sized_new(FALSE, TRUE,
- sizeof(struct type_class_field),
- DEFAULT_NR_STRUCT_FIELDS);
- type_class->name = g_quark_from_string(name);
- type_class->alignment = 1;
- type_class->copy = variant_copy;
- type_class->class_free = _variant_type_class_free;
- type_class->type_new = _variant_type_new;
- type_class->type_free = _variant_type_free;
- type_class->ref = 1;
-
- if (type_class->name) {
- ret = register_type(type_class);
- if (ret)
- goto error_register;
+ struct definition_enum *_enum =
+ container_of(enum_tag, struct definition_enum, p);
+ struct declaration_enum *enum_declaration = _enum->declaration;
+ int missing_field = 0;
+ unsigned long i;
+
+ /*
+ * Strictly speaking, each enumerator must map to a field of the
+ * variant. However, we are even stricter here by requiring that each
+ * variant choice map to an enumerator too. We then validate that the
+ * number of enumerators equals the number of variant choices.
+ */
+ if (variant->declaration->untagged_variant->fields->len != enum_get_nr_enumerators(enum_declaration))
+ return -EPERM;
+
+ for (i = 0; i < variant->declaration->untagged_variant->fields->len; i++) {
+ struct declaration_field *field_declaration =
+ &g_array_index(variant->declaration->untagged_variant->fields,
+ struct declaration_field, i);
+ if (!enum_quark_to_range_set(enum_declaration, field_declaration->name)) {
+ missing_field = 1;
+ break;
+ }
}
- return struct_class;
+ if (missing_field)
+ return -EPERM;
-error_register:
- g_hash_table_destroy(variant_class->fields_by_tag);
- g_array_free(variant_class->fields, true);
- g_free(variant_class);
- return NULL;
+ /*
+ * Check the enumeration: it must map each value to one and only one
+ * enumerator tag.
+ * TODO: we should also check that each range map to one and only one
+ * tag. For the moment, we will simply check this dynamically in
+ * variant_declaration_get_current_field().
+ */
+ return 0;
}
+
+
static
-struct type_variant *_variant_type_new(struct type_class *type_class,
- struct declaration_scope *parent_scope)
+struct definition *
+ _variant_definition_new(struct declaration *declaration,
+ struct definition_scope *parent_scope,
+ GQuark field_name, int index)
{
- struct type_class_variant *variant_class =
- container_of(type_class, struct type_class_variant, p);
- struct type_struct *variant;
+ struct declaration_variant *variant_declaration =
+ container_of(declaration, struct declaration_variant, p);
+ struct definition_variant *variant;
+ unsigned long i;
- variant = g_new(struct type_variant, 1);
- type_class_ref(&variant_class->p);
- variant->p._class = variant_class;
+ variant = g_new(struct definition_variant, 1);
+ declaration_ref(&variant_declaration->p);
+ variant->p.declaration = declaration;
+ variant->declaration = variant_declaration;
variant->p.ref = 1;
- variant->scope = new_declaration_scope(parent_scope);
+ variant->p.index = index;
+ variant->scope = new_definition_scope(parent_scope, field_name);
+ variant->enum_tag = lookup_definition(variant->scope->scope_path,
+ variant_declaration->tag_name,
+ parent_scope);
+
+ if (!variant->enum_tag
+ || check_enum_tag(variant, variant->enum_tag) < 0)
+ goto error;
+ definition_ref(variant->enum_tag);
variant->fields = g_array_sized_new(FALSE, TRUE,
sizeof(struct field),
- DEFAULT_NR_STRUCT_FIELDS);
+ variant_declaration->untagged_variant->fields->len);
+ g_array_set_size(variant->fields, variant_declaration->untagged_variant->fields->len);
+ for (i = 0; i < variant_declaration->untagged_variant->fields->len; i++) {
+ struct declaration_field *declaration_field =
+ &g_array_index(variant_declaration->untagged_variant->fields,
+ struct declaration_field, i);
+ struct field *field = &g_array_index(variant->fields,
+ struct field, i);
+
+ field->name = declaration_field->name;
+ /*
+ * All child definition are at index 0, because they are
+ * various choices of the same field.
+ */
+ field->definition =
+ declaration_field->declaration->definition_new(declaration_field->declaration,
+ variant->scope,
+ field->name, 0);
+ }
variant->current_field = NULL;
return &variant->p;
+error:
+ free_definition_scope(variant->scope);
+ declaration_unref(&variant_declaration->p);
+ g_free(variant);
+ return NULL;
}
static
-void variant_type_free(struct type *type)
+void _variant_definition_free(struct definition *definition)
{
- struct type_variant *variant = container_of(type, struct type_variant,
- p);
+ struct definition_variant *variant =
+ container_of(definition, struct definition_variant, p);
unsigned long i;
+ assert(variant->fields->len == variant->declaration->untagged_variant->fields->len);
for (i = 0; i < variant->fields->len; i++) {
struct field *field = &g_array_index(variant->fields,
struct field, i);
- type_unref(field->type);
+ definition_unref(field->definition);
}
- free_declaration_scope(variant->scope);
- type_class_unref(variant->p._class);
+ definition_unref(variant->enum_tag);
+ free_definition_scope(variant->scope);
+ declaration_unref(variant->p.declaration);
g_free(variant);
}
-void variant_type_class_add_field(struct type_class_variant *variant_class,
- const char *tag_name,
- struct type_class *type_class)
+void untagged_variant_declaration_add_field(struct declaration_untagged_variant *untagged_variant_declaration,
+ const char *field_name,
+ struct declaration *field_declaration)
{
- struct type_class_field *field;
+ struct declaration_field *field;
unsigned long index;
- g_array_set_size(variant_class->fields, variant_class->fields->len + 1);
- index = variant_class->fields->len - 1; /* last field (new) */
- field = &g_array_index(variant_class->fields, struct type_class_field, index);
- field->name = g_quark_from_string(tag_name);
- type_ref(type_class);
- field->type_class = type_class;
+ g_array_set_size(untagged_variant_declaration->fields, untagged_variant_declaration->fields->len + 1);
+ index = untagged_variant_declaration->fields->len - 1; /* last field (new) */
+ field = &g_array_index(untagged_variant_declaration->fields, struct declaration_field, index);
+ field->name = g_quark_from_string(field_name);
+ declaration_ref(field_declaration);
+ field->declaration = field_declaration;
/* Keep index in hash rather than pointer, because array can relocate */
- g_hash_table_insert(variant_class->fields_by_name,
+ g_hash_table_insert(untagged_variant_declaration->fields_by_tag,
(gpointer) (unsigned long) field->name,
(gpointer) index);
/*
*/
}
-struct type_class_field *
-struct_type_class_get_field_from_tag(struct type_class_variant *variant_class,
- GQuark tag)
+struct declaration_field *
+untagged_variant_declaration_get_field_from_tag(struct declaration_untagged_variant *untagged_variant_declaration, GQuark tag)
{
unsigned long index;
- index = (unsigned long) g_hash_table_lookup(variant_class->fields_by_tag,
+ index = (unsigned long) g_hash_table_lookup(untagged_variant_declaration->fields_by_tag,
(gconstpointer) (unsigned long) tag);
- return &g_array_index(variant_class->fields, struct type_class_field, index);
-}
-
-/*
- * tag_instance is assumed to be an enumeration.
- */
-int variant_type_set_tag(struct type_variant *variant,
- struct type *enum_tag_instance)
-{
- struct type_enum *_enum =
- container_of(struct type_enum, variant->enum_tag, p);
- struct type_class_enum *enum_class = _enum->_class;
- int missing_field = 0;
- unsigned long i;
-
- /*
- * Strictly speaking, each enumerator must map to a field of the
- * variant. However, we are even stricter here by requiring that each
- * variant choice map to an enumerator too. We then validate that the
- * number of enumerators equals the number of variant choices.
- */
- if (variant->_class->fields->len != enum_get_nr_enumerators(enum_class))
- return -EPERM;
-
- for (i = 0; i < variant->_class->fields->len; i++) {
- struct type_class_field *field_class =
- &g_array_index(variant->_class->fields,
- struct type_class_field, i);
- if (!enum_quark_to_range_set(enum_class, field_class->name)) {
- missing_field = 1;
- break;
- }
- }
- if (missing_field)
- return -EPERM;
-
- /*
- * Check the enumeration: it must map each value to one and only one
- * enumerator tag.
- * TODO: we should also check that each range map to one and only one
- * tag. For the moment, we will simply check this dynamically in
- * variant_type_get_current_field().
- */
-
- /* Set the enum tag field */
- variant->enum_tag = enum_tag_instance;
- return 0;
+ return &g_array_index(untagged_variant_declaration->fields, struct declaration_field, index);
}
/*
* field returned only valid as long as the field structure is not appended to.
*/
-struct field *
-variant_type_get_current_field(struct type_variant *variant)
+struct field *variant_get_current_field(struct definition_variant *variant)
{
- struct type_enum *_enum =
- container_of(struct type_enum, variant->enum_tag, p);
- struct variat_type_class *variant_class = variant->_class;
+ struct definition_enum *_enum =
+ container_of(variant->enum_tag, struct definition_enum, p);
+ struct declaration_variant *variant_declaration = variant->declaration;
unsigned long index;
GArray *tag_array;
GQuark tag;
*/
assert(tag_array->len == 1);
tag = g_array_index(tag_array, GQuark, 0);
- index = (unsigned long) g_hash_table_lookup(variant_class->fields_by_tag,
+ index = (unsigned long) g_hash_table_lookup(variant_declaration->untagged_variant->fields_by_tag,
(gconstpointer) (unsigned long) tag);
- variant->current_field = &g_array_index(variant_class->fields, struct field, index);
+ variant->current_field = &g_array_index(variant->fields, struct field, index);
return variant->current_field;
}
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