/********************************************* File: base_tries.c Author: Ricardo Rocha Comments: Tries base module for Yap Prolog version: $ID$ *********************************************/ /* -------------------------- */ /* Includes */ /* -------------------------- */ #include #include #include #include "core_tries.h" #include "base_tries.h" /* -------------------------- */ /* Local Variables */ /* -------------------------- */ static TrEngine TRIE_ENGINE; static TrEntry FIRST_TRIE, CURRENT_TRIE; /* -------------------------- */ /* API */ /* -------------------------- */ inline void trie_init_module(void) { TRIE_ENGINE = core_trie_init_module(); FIRST_TRIE = NULL; return; } inline void trie_data_load(TrNode node, YAP_Int depth, FILE *file) { TrData data; new_trie_data(data, CURRENT_TRIE, node); PUT_DATA_IN_LEAF_TRIE_NODE(node, data); return; } inline void trie_data_copy(TrNode node_dest, TrNode node_source) { TrData data_dest; new_trie_data(data_dest, CURRENT_TRIE, node_dest); PUT_DATA_IN_LEAF_TRIE_NODE(node_dest, data_dest); return; } inline void trie_data_destruct(TrNode node) { TrEntry trie; TrData data; data = (TrData) GET_DATA_FROM_LEAF_TRIE_NODE(node); trie = TrData_trie(data); if (data == TrEntry_traverse_data(trie)) TrEntry_traverse_data(trie) = TrData_previous(data); if (TrData_next(data)) { TrData_previous(TrData_next(data)) = TrData_previous(data); TrData_next(TrData_previous(data)) = TrData_next(data); } else TrData_next(TrData_previous(data)) = NULL; free_trie_data(data); return; } inline TrEntry trie_open(void) { TrEntry trie; TrNode node; node = core_trie_open(TRIE_ENGINE); new_trie_entry(trie, node); if (FIRST_TRIE) TrEntry_previous(FIRST_TRIE) = trie; FIRST_TRIE = trie; return trie; } inline void trie_close(TrEntry trie) { core_trie_close(TRIE_ENGINE, TrEntry_trie(trie), &trie_data_destruct); if (TrEntry_next(trie)) { TrEntry_previous(TrEntry_next(trie)) = TrEntry_previous(trie); TrEntry_next(TrEntry_previous(trie)) = TrEntry_next(trie); } else TrEntry_next(TrEntry_previous(trie)) = NULL; free_trie_entry(trie); return; } inline void trie_close_all(void) { TrEntry trie; core_trie_close_all(TRIE_ENGINE, &trie_data_destruct); while (FIRST_TRIE) { trie = TrEntry_next(FIRST_TRIE); free_trie_entry(FIRST_TRIE); FIRST_TRIE = trie; } return; } inline void trie_set_mode(YAP_Int mode) { core_trie_set_mode(mode); return; } inline YAP_Int trie_get_mode(void) { return core_trie_get_mode(); } inline TrData trie_put_entry(TrEntry trie, YAP_Term entry) { TrData data; TrNode node; node = core_trie_put_entry(TRIE_ENGINE, TrEntry_trie(trie), entry, NULL); if (!(data = (TrData) GET_DATA_FROM_LEAF_TRIE_NODE(node))) { new_trie_data(data, trie, node); PUT_DATA_IN_LEAF_TRIE_NODE(node, data); } return data; } inline TrData trie_check_entry(TrEntry trie, YAP_Term entry) { TrNode node; if (!(node = core_trie_check_entry(TrEntry_trie(trie), entry))) return NULL; return (TrData) GET_DATA_FROM_LEAF_TRIE_NODE(node); } inline YAP_Term trie_get_entry(TrData data) { return core_trie_get_entry(TrData_leaf(data)); } inline TrData trie_get_first_entry(TrEntry trie) { TrData data; data = TrEntry_first_data(trie); return data; } inline TrData trie_get_last_entry(TrEntry trie) { TrData data; data = TrEntry_last_data(trie); return data; } inline TrData trie_traverse_init(TrEntry trie, TrData init_data) { TrData data; data = TrData_next(init_data); TrEntry_traverse_data(trie) = data; return data; } inline TrData trie_traverse_cont(TrEntry trie) { TrData data; data = TrEntry_traverse_data(trie); if (data) { data = TrData_next(data); TrEntry_traverse_data(trie) = data; } return data; } inline void trie_remove_entry(TrData data) { core_trie_remove_entry(TRIE_ENGINE, TrData_leaf(data), &trie_data_destruct); return; } inline void trie_remove_subtree(TrData data) { core_trie_remove_subtree(TRIE_ENGINE, TrData_leaf(data), &trie_data_destruct); return; } inline void trie_join(TrEntry trie_dest, TrEntry trie_source) { CURRENT_TRIE = trie_dest; core_trie_join(TRIE_ENGINE, TrEntry_trie(trie_dest), TrEntry_trie(trie_source), NULL, &trie_data_copy); return; } inline void trie_intersect(TrEntry trie_dest, TrEntry trie_source) { core_trie_intersect(TRIE_ENGINE, TrEntry_trie(trie_dest), TrEntry_trie(trie_source), NULL, &trie_data_destruct); return; } inline YAP_Int trie_count_join(TrEntry trie1, TrEntry trie2) { return core_trie_count_join(TrEntry_trie(trie1), TrEntry_trie(trie2)); } inline YAP_Int trie_count_intersect(TrEntry trie1, TrEntry trie2) { return core_trie_count_intersect(TrEntry_trie(trie1), TrEntry_trie(trie2)); } inline void trie_save(TrEntry trie, FILE *file) { core_trie_save(TrEntry_trie(trie), file, NULL); return; } inline TrEntry trie_load(FILE *file) { TrEntry trie; TrNode node; new_trie_entry(trie, NULL); CURRENT_TRIE = trie; if (!(node = core_trie_load(TRIE_ENGINE, file, &trie_data_load))) { free_trie_entry(trie); return NULL; } TrEntry_trie(trie) = node; if (FIRST_TRIE) TrEntry_previous(FIRST_TRIE) = trie; FIRST_TRIE = trie; return trie; } inline void trie_stats(YAP_Int *memory, YAP_Int *tries, YAP_Int *entries, YAP_Int *nodes) { core_trie_stats(TRIE_ENGINE, memory, tries, entries, nodes); return; } inline void trie_max_stats(YAP_Int *memory, YAP_Int *tries, YAP_Int *entries, YAP_Int *nodes) { core_trie_max_stats(TRIE_ENGINE, memory, tries, entries, nodes); return; } inline void trie_usage(TrEntry trie, YAP_Int *entries, YAP_Int *nodes, YAP_Int *virtual_nodes) { core_trie_usage(TrEntry_trie(trie), entries, nodes, virtual_nodes); return; } inline void trie_print(TrEntry trie) { core_trie_print(TrEntry_trie(trie), NULL); return; }