struct ec_node;
struct ec_parsed;
+struct ec_completed;
struct ec_strvec;
struct ec_keyval;
-/* return 0 on success, else -errno. */
-typedef int (*ec_node_build_t)(struct ec_node *node);
-
-typedef struct ec_parsed *(*ec_node_parse_t)(const struct ec_node *node,
- const struct ec_strvec *strvec);
-typedef struct ec_completed *(*ec_node_complete_t)(const struct ec_node *node,
- const struct ec_strvec *strvec);
-typedef const char * (*ec_node_desc_t)(const struct ec_node *);
-typedef void (*ec_node_init_priv_t)(struct ec_node *);
-typedef void (*ec_node_free_priv_t)(struct ec_node *);
-
#define EC_NODE_TYPE_REGISTER(t) \
static void ec_node_init_##t(void); \
static void __attribute__((constructor, used)) \
TAILQ_HEAD(ec_node_type_list, ec_node_type);
+/* return 0 on success, else -errno. */
+typedef int (*ec_node_build_t)(struct ec_node *node);
+
+typedef int (*ec_node_parse_t)(const struct ec_node *node,
+ struct ec_parsed *state,
+ const struct ec_strvec *strvec);
+typedef int (*ec_node_complete_t)(const struct ec_node *node,
+ struct ec_completed *completed_state,
+ struct ec_parsed *parsed_state,
+ const struct ec_strvec *strvec);
+typedef size_t (*ec_node_get_max_parse_len_t)(const struct ec_node *node);
+typedef const char * (*ec_node_desc_t)(const struct ec_node *);
+typedef void (*ec_node_init_priv_t)(struct ec_node *);
+typedef void (*ec_node_free_priv_t)(struct ec_node *);
+
/**
* A structure describing a node type.
*/
ec_node_build_t build; /* (re)build the node, called by generic parse */
ec_node_parse_t parse;
ec_node_complete_t complete;
+ ec_node_get_max_parse_len_t get_max_parse_len;
ec_node_desc_t desc;
size_t size;
ec_node_init_priv_t init_priv;
/* create a_new node node */
struct ec_node *ec_node(const char *typename, const char *id);
+struct ec_node *ec_node_clone(struct ec_node *node);
void ec_node_free(struct ec_node *node);
+/**
+ * Get the max len of strvec that can be parsed by this node
+ *
+ * If there is no maximum, return SIZE_MAX.
+ */
+size_t ec_node_get_max_parse_len(const struct ec_node *node);
+
/* XXX add more accessors */
struct ec_keyval *ec_node_attrs(const struct ec_node *node);
struct ec_node *ec_node_parent(const struct ec_node *node);
void ec_node_dump(FILE *out, const struct ec_node *node);
struct ec_node *ec_node_find(struct ec_node *node, const char *id);
-/* XXX split this file ? */
-
-TAILQ_HEAD(ec_parsed_list, ec_parsed);
-
-/*
- node == NULL + empty children list means "no match"
-*/
-struct ec_parsed {
- TAILQ_ENTRY(ec_parsed) next;
- struct ec_parsed_list children;
- const struct ec_node *node;
- struct ec_strvec *strvec;
-};
-
-struct ec_parsed *ec_parsed(void);
-void ec_parsed_free(struct ec_parsed *parsed);
-struct ec_node *ec_node_clone(struct ec_node *node);
-void ec_parsed_free_children(struct ec_parsed *parsed);
-
-const struct ec_strvec *ec_parsed_strvec(
- const struct ec_parsed *parsed);
-
-void ec_parsed_set_match(struct ec_parsed *parsed,
- const struct ec_node *node, struct ec_strvec *strvec);
-
-/* XXX we could use a cache to store possible completions or match: the
- * cache would be per-node, and would be reset for each call to parse()
- * or complete() ? */
-/* a NULL return value is an error, with errno set
- ENOTSUP: no ->parse() operation
-*/
-struct ec_parsed *ec_node_parse(struct ec_node *node, const char *str);
-
-/* mostly internal to nodes */
-/* XXX it should not reset cache
- * ... not sure... it is used by tests */
-struct ec_parsed *ec_node_parse_strvec(struct ec_node *node,
- const struct ec_strvec *strvec);
-
-void ec_parsed_add_child(struct ec_parsed *parsed,
- struct ec_parsed *child);
-void ec_parsed_del_child(struct ec_parsed *parsed,
- struct ec_parsed *child);
-void ec_parsed_dump(FILE *out, const struct ec_parsed *parsed);
-
-struct ec_parsed *ec_parsed_find_first(struct ec_parsed *parsed,
- const char *id);
-
-const char *ec_parsed_to_string(const struct ec_parsed *parsed);
-size_t ec_parsed_len(const struct ec_parsed *parsed);
-size_t ec_parsed_matches(const struct ec_parsed *parsed);
-
-struct ec_completed_elt {
- TAILQ_ENTRY(ec_completed_elt) next;
- const struct ec_node *node;
- char *add;
-};
-
-TAILQ_HEAD(ec_completed_elt_list, ec_completed_elt);
-
-
-struct ec_completed {
- struct ec_completed_elt_list elts;
- unsigned count;
- unsigned count_match;
- char *smallest_start;
-};
-
-/*
- * return a completed object filled with elts
- * return NULL on error (nomem?)
- */
-struct ec_completed *ec_node_complete(struct ec_node *node,
- const char *str);
-struct ec_completed *ec_node_complete_strvec(struct ec_node *node,
- const struct ec_strvec *strvec);
-struct ec_completed *ec_completed(void);
-struct ec_completed_elt *ec_completed_elt(const struct ec_node *node,
- const char *add);
-void ec_completed_add_elt(struct ec_completed *completed,
- struct ec_completed_elt *elt);
-void ec_completed_elt_free(struct ec_completed_elt *elt);
-void ec_completed_merge(struct ec_completed *completed1,
- struct ec_completed *completed2);
-void ec_completed_free(struct ec_completed *completed);
-void ec_completed_dump(FILE *out,
- const struct ec_completed *completed);
-struct ec_completed *ec_node_default_complete(const struct ec_node *gen_node,
- const struct ec_strvec *strvec);
-
-/* cannot return NULL */
-const char *ec_completed_smallest_start(
- const struct ec_completed *completed);
-
-enum ec_completed_filter_flags {
- EC_MATCH = 1,
- EC_NO_MATCH = 2,
-};
-
-unsigned int ec_completed_count(
- const struct ec_completed *completed,
- enum ec_completed_filter_flags flags);
-
-struct ec_completed_iter {
- enum ec_completed_filter_flags flags;
- const struct ec_completed *completed;
- const struct ec_completed_elt *cur;
-};
-
-struct ec_completed_iter *
-ec_completed_iter(struct ec_completed *completed,
- enum ec_completed_filter_flags flags);
-
-const struct ec_completed_elt *ec_completed_iter_next(
- struct ec_completed_iter *iter);
-
-void ec_completed_iter_free(struct ec_completed_iter *iter);
-
-
#endif