/********************************************************************** The OPTYap Prolog system OPTYap extends the Yap Prolog system to support or-parallel tabling Copyright: R. Rocha and NCC - University of Porto, Portugal File: tab.tries.C version: $Id: tab.tries.c,v 1.24 2008-05-20 18:25:37 ricroc Exp $ **********************************************************************/ /* ------------------ ** ** Includes ** ** ------------------ */ #include "Yap.h" #ifdef TABLING #include #ifdef HAVE_STRING_H #include #endif /* HAVE_STRING_H */ #include "Yatom.h" #include "Heap.h" #include "yapio.h" #include "tab.macros.h" /* ------------------------------------- ** ** Local functions declaration ** ** ------------------------------------- */ #ifdef YAPOR #ifdef TABLING_INNER_CUTS static int update_answer_trie_branch(ans_node_ptr previous_node, ans_node_ptr node); #else static int update_answer_trie_branch(ans_node_ptr node); #endif /* TABLING_INNER_CUTS */ #else static void update_answer_trie_branch(ans_node_ptr node, int position); #endif /* YAPOR */ static void traverse_subgoal_trie(sg_node_ptr sg_node, char *str, int str_index, int *arity, int depth, int mode, int position); static void traverse_answer_trie(ans_node_ptr ans_node, char *str, int str_index, int *arity, int var_index, int depth, int mode, int position); /* ----------------------- ** ** Local inlines ** ** ----------------------- */ STD_PROTO(static inline sg_node_ptr subgoal_trie_node_check_insert, (tab_ent_ptr, sg_node_ptr, Term)); STD_PROTO(static inline ans_node_ptr answer_trie_node_check_insert, (sg_fr_ptr, ans_node_ptr, Term, int)); #if defined(TABLE_LOCK_AT_WRITE_LEVEL) #define LOCK_NODE(NODE) LOCK_TABLE(NODE) #define UNLOCK_NODE(NODE) UNLOCK_TABLE(NODE) #elif defined(TABLE_LOCK_AT_NODE_LEVEL) #define LOCK_NODE(NODE) TRIE_LOCK(TrNode_lock(NODE)) #define UNLOCK_NODE(NODE) UNLOCK(TrNode_lock(NODE)) #else #define LOCK_NODE(NODE) #define UNLOCK_NODE(NODE) #endif /* TABLE_LOCK_LEVEL */ #ifdef TABLE_LOCK_AT_WRITE_LEVEL static inline sg_node_ptr subgoal_trie_node_check_insert(tab_ent_ptr tab_ent, sg_node_ptr parent_node, Term t) { sg_node_ptr child_node; sg_hash_ptr hash; child_node = TrNode_child(parent_node); if (child_node == NULL) { #ifdef ALLOC_BEFORE_CHECK new_subgoal_trie_node(child_node, t, NULL, parent_node, NULL); #endif /* ALLOC_BEFORE_CHECK */ LOCK_NODE(parent_node); if (TrNode_child(parent_node)) { sg_node_ptr chain_node = TrNode_child(parent_node); if (IS_SUBGOAL_HASH(chain_node)) { #ifdef ALLOC_BEFORE_CHECK FREE_SUBGOAL_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); hash = (sg_hash_ptr) chain_node; goto subgoal_hash; } do { if (TrNode_entry(chain_node) == t) { #ifdef ALLOC_BEFORE_CHECK FREE_SUBGOAL_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); return chain_node; } chain_node = TrNode_next(chain_node); } while (chain_node); #ifdef ALLOC_BEFORE_CHECK TrNode_next(child_node) = TrNode_child(parent_node); #else new_subgoal_trie_node(child_node, t, NULL, parent_node, TrNode_child(parent_node)); } else { new_subgoal_trie_node(child_node, t, NULL, parent_node, NULL); #endif /* ALLOC_BEFORE_CHECK */ } TrNode_child(parent_node) = child_node; UNLOCK_NODE(parent_node); return child_node; } if (! IS_SUBGOAL_HASH(child_node)) { sg_node_ptr first_node = child_node; int count_nodes = 0; do { if (TrNode_entry(child_node) == t) { return child_node; } count_nodes++; child_node = TrNode_next(child_node); } while (child_node); #ifdef ALLOC_BEFORE_CHECK new_subgoal_trie_node(child_node, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ LOCK_NODE(parent_node); if (first_node != TrNode_child(parent_node)) { sg_node_ptr chain_node = TrNode_child(parent_node); if (IS_SUBGOAL_HASH(chain_node)) { #ifdef ALLOC_BEFORE_CHECK FREE_SUBGOAL_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); hash = (sg_hash_ptr) chain_node; goto subgoal_hash; } do { if (TrNode_entry(chain_node) == t) { #ifdef ALLOC_BEFORE_CHECK FREE_SUBGOAL_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); return chain_node; } count_nodes++; chain_node = TrNode_next(chain_node); } while (chain_node != first_node); #ifdef ALLOC_BEFORE_CHECK TrNode_next(child_node) = TrNode_child(parent_node); #else new_subgoal_trie_node(child_node, t, NULL, parent_node, TrNode_child(parent_node)); } else { new_subgoal_trie_node(child_node, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ } if (count_nodes >= MAX_NODES_PER_TRIE_LEVEL) { /* alloc a new hash */ sg_node_ptr chain_node, next_node, *bucket; new_subgoal_hash(hash, count_nodes, tab_ent); chain_node = child_node; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), BASE_HASH_BUCKETS - 1)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); TrNode_child(parent_node) = (sg_node_ptr) hash; } else { TrNode_child(parent_node) = child_node; } UNLOCK_NODE(parent_node); return child_node; } hash = (sg_hash_ptr) child_node; subgoal_hash: { /* trie nodes with hashing */ sg_node_ptr *bucket, first_node; int seed, count_nodes = 0; seed = Hash_seed(hash); bucket = Hash_bucket(hash, HASH_TERM(t, seed)); first_node = child_node = *bucket; while (child_node) { if (TrNode_entry(child_node) == t) { return child_node; } count_nodes++; child_node = TrNode_next(child_node); } #ifdef ALLOC_BEFORE_CHECK new_subgoal_trie_node(child_node, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ LOCK_NODE(parent_node); if (seed != Hash_seed(hash)) { /* the hash has been expanded */ #ifdef ALLOC_BEFORE_CHECK FREE_SUBGOAL_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); goto subgoal_hash; } if (first_node != *bucket) { sg_node_ptr chain_node = *bucket; do { if (TrNode_entry(chain_node) == t) { #ifdef ALLOC_BEFORE_CHECK FREE_SUBGOAL_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); return chain_node; } count_nodes++; chain_node = TrNode_next(chain_node); } while (chain_node != first_node); #ifdef ALLOC_BEFORE_CHECK TrNode_next(child_node) = *bucket; #else new_subgoal_trie_node(child_node, t, NULL, parent_node, *bucket); } else { new_subgoal_trie_node(child_node, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ } *bucket = child_node; Hash_num_nodes(hash)++; if (count_nodes >= MAX_NODES_PER_BUCKET && Hash_num_nodes(hash) > Hash_num_buckets(hash)) { /* expand current hash */ sg_node_ptr chain_node, next_node, *first_old_bucket, *old_bucket; first_old_bucket = Hash_buckets(hash); old_bucket = first_old_bucket + Hash_num_buckets(hash); Hash_num_buckets(hash) *= 2; ALLOC_HASH_BUCKETS(Hash_buckets(hash), Hash_num_buckets(hash)); seed = Hash_num_buckets(hash) - 1; do { if (*--old_bucket) { chain_node = *old_bucket; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), seed)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); } } while (old_bucket != first_old_bucket); FREE_HASH_BUCKETS(first_old_bucket); } UNLOCK_NODE(parent_node); return child_node; } } static inline ans_node_ptr answer_trie_node_check_insert(sg_fr_ptr sg_fr, ans_node_ptr parent_node, Term t, int instr) { ans_node_ptr child_node; ans_hash_ptr hash; #ifdef TABLING_ERRORS if (IS_ANSWER_LEAF_NODE(parent_node)) TABLING_ERROR_MESSAGE("IS_ANSWER_LEAF_NODE(parent_node) (answer_trie_node_check_insert)"); #endif /* TABLING_ERRORS */ child_node = TrNode_child(parent_node); if (child_node == NULL) { #ifdef ALLOC_BEFORE_CHECK new_answer_trie_node(child_node, instr, t, NULL, parent_node, NULL); #endif /* ALLOC_BEFORE_CHECK */ LOCK_NODE(parent_node); if (TrNode_child(parent_node)) { ans_node_ptr chain_node = TrNode_child(parent_node); if (IS_ANSWER_HASH(chain_node)) { #ifdef ALLOC_BEFORE_CHECK FREE_ANSWER_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); hash = (ans_hash_ptr) chain_node; goto answer_hash; } do { if (TrNode_entry(chain_node) == t) { #ifdef ALLOC_BEFORE_CHECK FREE_ANSWER_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); return chain_node; } chain_node = TrNode_next(chain_node); } while (chain_node); #ifdef ALLOC_BEFORE_CHECK TrNode_next(child_node) = TrNode_child(parent_node); #else new_answer_trie_node(child_node, instr, t, NULL, parent_node, TrNode_child(parent_node)); } else { new_answer_trie_node(child_node, instr, t, NULL, parent_node, NULL); #endif /* ALLOC_BEFORE_CHECK */ } TrNode_child(parent_node) = child_node; UNLOCK_NODE(parent_node); return child_node; } if (! IS_ANSWER_HASH(child_node)) { ans_node_ptr first_node = child_node; int count_nodes = 0; do { if (TrNode_entry(child_node) == t) { return child_node; } count_nodes++; child_node = TrNode_next(child_node); } while (child_node); #ifdef ALLOC_BEFORE_CHECK new_answer_trie_node(child_node, instr, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ LOCK_NODE(parent_node); if (first_node != TrNode_child(parent_node)) { ans_node_ptr chain_node = TrNode_child(parent_node); if (IS_ANSWER_HASH(chain_node)) { #ifdef ALLOC_BEFORE_CHECK FREE_ANSWER_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); hash = (ans_hash_ptr) chain_node; goto answer_hash; } do { if (TrNode_entry(chain_node) == t) { #ifdef ALLOC_BEFORE_CHECK FREE_ANSWER_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); return chain_node; } count_nodes++; chain_node = TrNode_next(chain_node); } while (chain_node != first_node); #ifdef ALLOC_BEFORE_CHECK TrNode_next(child_node) = TrNode_child(parent_node); #else new_answer_trie_node(child_node, instr, t, NULL, parent_node, TrNode_child(parent_node)); } else { new_answer_trie_node(child_node, instr, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ } if (count_nodes >= MAX_NODES_PER_TRIE_LEVEL) { /* alloc a new hash */ ans_node_ptr chain_node, next_node, *bucket; new_answer_hash(hash, count_nodes, sg_fr); chain_node = child_node; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), BASE_HASH_BUCKETS - 1)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); TrNode_child(parent_node) = (ans_node_ptr) hash; } else { TrNode_child(parent_node) = child_node; } UNLOCK_NODE(parent_node); return child_node; } hash = (ans_hash_ptr) child_node; answer_hash: { /* trie nodes with hashing */ ans_node_ptr *bucket, first_node; int seed, count_nodes = 0; seed = Hash_seed(hash); bucket = Hash_bucket(hash, HASH_TERM(t, seed)); first_node = child_node = *bucket; while (child_node) { if (TrNode_entry(child_node) == t) { return child_node; } count_nodes++; child_node = TrNode_next(child_node); } #ifdef ALLOC_BEFORE_CHECK new_answer_trie_node(child_node, instr, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ LOCK_NODE(parent_node); if (seed != Hash_seed(hash)) { /* the hash has been expanded */ #ifdef ALLOC_BEFORE_CHECK FREE_ANSWER_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); goto answer_hash; } if (first_node != *bucket) { ans_node_ptr chain_node = *bucket; do { if (TrNode_entry(chain_node) == t) { #ifdef ALLOC_BEFORE_CHECK FREE_ANSWER_TRIE_NODE(child_node); #endif /* ALLOC_BEFORE_CHECK */ UNLOCK_NODE(parent_node); return chain_node; } count_nodes++; chain_node = TrNode_next(chain_node); } while (chain_node != first_node); #ifdef ALLOC_BEFORE_CHECK TrNode_next(child_node) = *bucket; #else new_answer_trie_node(child_node, instr, t, NULL, parent_node, *bucket); } else { new_answer_trie_node(child_node, instr, t, NULL, parent_node, first_node); #endif /* ALLOC_BEFORE_CHECK */ } *bucket = child_node; Hash_num_nodes(hash)++; if (count_nodes >= MAX_NODES_PER_BUCKET && Hash_num_nodes(hash) > Hash_num_buckets(hash)) { /* expand current hash */ ans_node_ptr chain_node, next_node, *first_old_bucket, *old_bucket; first_old_bucket = Hash_buckets(hash); old_bucket = first_old_bucket + Hash_num_buckets(hash); Hash_num_buckets(hash) *= 2; ALLOC_HASH_BUCKETS(Hash_buckets(hash), Hash_num_buckets(hash)); seed = Hash_num_buckets(hash) - 1; do { if (*--old_bucket) { chain_node = *old_bucket; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), seed)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); } } while (old_bucket != first_old_bucket); FREE_HASH_BUCKETS(first_old_bucket); } UNLOCK_NODE(parent_node); return child_node; } } #else /* TABLE_LOCK_AT_ENTRY_LEVEL || TABLE_LOCK_AT_NODE_LEVEL || ! YAPOR */ static inline sg_node_ptr subgoal_trie_node_check_insert(tab_ent_ptr tab_ent, sg_node_ptr parent_node, Term t) { sg_node_ptr child_node; LOCK_NODE(parent_node); child_node = TrNode_child(parent_node); if (child_node == NULL) { new_subgoal_trie_node(child_node, t, NULL, parent_node, NULL); TrNode_child(parent_node) = child_node; UNLOCK_NODE(parent_node); return child_node; } if (! IS_SUBGOAL_HASH(child_node)) { int count_nodes = 0; do { if (TrNode_entry(child_node) == t) { UNLOCK_NODE(parent_node); return child_node; } count_nodes++; child_node = TrNode_next(child_node); } while (child_node); new_subgoal_trie_node(child_node, t, NULL, parent_node, TrNode_child(parent_node)); if (count_nodes >= MAX_NODES_PER_TRIE_LEVEL) { /* alloc a new hash */ sg_hash_ptr hash; sg_node_ptr chain_node, next_node, *bucket; new_subgoal_hash(hash, count_nodes, tab_ent); chain_node = child_node; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), BASE_HASH_BUCKETS - 1)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); TrNode_child(parent_node) = (sg_node_ptr) hash; } else { TrNode_child(parent_node) = child_node; } UNLOCK_NODE(parent_node); return child_node; } { /* trie nodes with hashing */ sg_hash_ptr hash; sg_node_ptr *bucket; int count_nodes = 0; hash = (sg_hash_ptr) child_node; bucket = Hash_bucket(hash, HASH_TERM(t, Hash_seed(hash))); child_node = *bucket; while (child_node) { if (TrNode_entry(child_node) == t) { UNLOCK_NODE(parent_node); return child_node; } count_nodes++; child_node = TrNode_next(child_node); } new_subgoal_trie_node(child_node, t, NULL, parent_node, *bucket); *bucket = child_node; Hash_num_nodes(hash)++; if (count_nodes >= MAX_NODES_PER_BUCKET && Hash_num_nodes(hash) > Hash_num_buckets(hash)) { /* expand current hash */ sg_node_ptr chain_node, next_node, *first_old_bucket, *old_bucket; int seed; first_old_bucket = Hash_buckets(hash); old_bucket = first_old_bucket + Hash_num_buckets(hash); Hash_num_buckets(hash) *= 2; ALLOC_HASH_BUCKETS(Hash_buckets(hash), Hash_num_buckets(hash)); seed = Hash_num_buckets(hash) - 1; do { if (*--old_bucket) { chain_node = *old_bucket; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), seed)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); } } while (old_bucket != first_old_bucket); FREE_HASH_BUCKETS(first_old_bucket); } UNLOCK_NODE(parent_node); return child_node; } } static inline ans_node_ptr answer_trie_node_check_insert(sg_fr_ptr sg_fr, ans_node_ptr parent_node, Term t, int instr) { ans_node_ptr child_node; #ifdef TABLING_ERRORS if (IS_ANSWER_LEAF_NODE(parent_node)) TABLING_ERROR_MESSAGE("IS_ANSWER_LEAF_NODE(parent_node) (answer_trie_node_check_insert)"); #endif /* TABLING_ERRORS */ LOCK_NODE(parent_node); child_node = TrNode_child(parent_node); if (child_node == NULL) { new_answer_trie_node(child_node, instr, t, NULL, parent_node, NULL); TrNode_child(parent_node) = child_node; UNLOCK_NODE(parent_node); return child_node; } if (! IS_ANSWER_HASH(child_node)) { int count_nodes = 0; do { if (TrNode_entry(child_node) == t) { UNLOCK_NODE(parent_node); return child_node; } count_nodes++; child_node = TrNode_next(child_node); } while (child_node); new_answer_trie_node(child_node, instr, t, NULL, parent_node, TrNode_child(parent_node)); if (count_nodes >= MAX_NODES_PER_TRIE_LEVEL) { /* alloc a new hash */ ans_hash_ptr hash; ans_node_ptr chain_node, next_node, *bucket; new_answer_hash(hash, count_nodes, sg_fr); chain_node = child_node; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), BASE_HASH_BUCKETS - 1)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); TrNode_child(parent_node) = (ans_node_ptr) hash; } else { TrNode_child(parent_node) = child_node; } UNLOCK_NODE(parent_node); return child_node; } { /* trie nodes with hashing */ ans_hash_ptr hash; ans_node_ptr *bucket; int count_nodes = 0; hash = (ans_hash_ptr) child_node; bucket = Hash_bucket(hash, HASH_TERM(t, Hash_seed(hash))); child_node = *bucket; while (child_node) { if (TrNode_entry(child_node) == t) { UNLOCK_NODE(parent_node); return child_node; } count_nodes++; child_node = TrNode_next(child_node); } new_answer_trie_node(child_node, instr, t, NULL, parent_node, *bucket); *bucket = child_node; Hash_num_nodes(hash)++; if (count_nodes >= MAX_NODES_PER_BUCKET && Hash_num_nodes(hash) > Hash_num_buckets(hash)) { /* expand current hash */ ans_node_ptr chain_node, next_node, *first_old_bucket, *old_bucket; int seed; first_old_bucket = Hash_buckets(hash); old_bucket = first_old_bucket + Hash_num_buckets(hash); Hash_num_buckets(hash) *= 2; ALLOC_HASH_BUCKETS(Hash_buckets(hash), Hash_num_buckets(hash)); seed = Hash_num_buckets(hash) - 1; do { if (*--old_bucket) { chain_node = *old_bucket; do { bucket = Hash_bucket(hash, HASH_TERM(TrNode_entry(chain_node), seed)); next_node = TrNode_next(chain_node); TrNode_next(chain_node) = *bucket; *bucket = chain_node; chain_node = next_node; } while (chain_node); } } while (old_bucket != first_old_bucket); FREE_HASH_BUCKETS(first_old_bucket); } UNLOCK_NODE(parent_node); return child_node; } } #endif /* TABLE_LOCK_LEVEL */ /* -------------------------- ** ** Global functions ** ** -------------------------- */ sg_fr_ptr subgoal_search(yamop *preg, CELL **Yaddr) { int i, j, count_vars, arity; CELL *stack_vars, *stack_terms_limit, *stack_terms_base, *stack_terms; sg_node_ptr current_sg_node; tab_ent_ptr tab_ent; sg_fr_ptr sg_fr; arity = preg->u.Otapl.s; tab_ent = preg->u.Otapl.te; count_vars = 0; stack_vars = *Yaddr; stack_terms_limit = (CELL *)TR; stack_terms_base = stack_terms = (CELL *)Yap_TrailTop; current_sg_node = TabEnt_subgoal_trie(tab_ent); #ifdef TABLE_LOCK_AT_ENTRY_LEVEL LOCK(TabEnt_lock(tab_ent)); #endif /* TABLE_LOCK_LEVEL */ for (i = 1; i <= arity; i++) { STACK_CHECK_EXPAND(stack_terms, stack_terms_limit, stack_terms_base); STACK_PUSH_UP(Deref(XREGS[i]), stack_terms); do { Term t = STACK_POP_DOWN(stack_terms); if (IsVarTerm(t)) { if (IsTableVarTerm(t)) { t = MakeTableVarTerm(VarIndexOfTerm(t)); current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, t); } else { if (count_vars == MAX_TABLE_VARS) Yap_Error(INTERNAL_ERROR, TermNil, "MAX_TABLE_VARS exceeded (subgoal_search)"); STACK_PUSH_UP(t, stack_vars); *((CELL *)t) = GLOBAL_table_var_enumerator(count_vars); t = MakeTableVarTerm(count_vars); count_vars++; current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, t); } } else if (IsAtomOrIntTerm(t)) { current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, t); } else if (IsPairTerm(t)) { #ifdef TRIE_COMPACT_PAIRS CELL *aux = RepPair(t); if (aux == PairTermMark) { t = STACK_POP_DOWN(stack_terms); if (IsPairTerm(t)) { aux = RepPair(t); t = Deref(*(aux + 1)); if (t == TermNil) { current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, CompactPairEndList); } else { /* STACK_CHECK_EXPAND(stack_terms, stack_terms_limit + 2, stack_terms_base); */ /* STACK_CHECK_EXPAND is not necessary here because the situation of pushing ** ** up 3 terms has already initially checked for the CompactPairInit term */ STACK_PUSH_UP(t, stack_terms); STACK_PUSH_UP(AbsPair(PairTermMark), stack_terms); } STACK_PUSH_UP(Deref(*aux), stack_terms); } else { current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, CompactPairEndTerm); STACK_PUSH_UP(t, stack_terms); } } else { current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, CompactPairInit); t = Deref(*(aux + 1)); if (t == TermNil) { current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, CompactPairEndList); } else { STACK_CHECK_EXPAND(stack_terms, stack_terms_limit + 2, stack_terms_base); STACK_PUSH_UP(t, stack_terms); STACK_PUSH_UP(AbsPair(PairTermMark), stack_terms); } STACK_PUSH_UP(Deref(*aux), stack_terms); } #else current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, AbsPair(NULL)); STACK_CHECK_EXPAND(stack_terms, stack_terms_limit + 1, stack_terms_base); STACK_PUSH_UP(Deref(*(RepPair(t) + 1)), stack_terms); STACK_PUSH_UP(Deref(*(RepPair(t))), stack_terms); #endif /* TRIE_COMPACT_PAIRS */ } else if (IsApplTerm(t)) { Functor f = FunctorOfTerm(t); current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, AbsAppl((Term *)f)); if (f == FunctorDouble) { volatile Float dbl = FloatOfTerm(t); volatile Term *t_dbl = (Term *)((void *) &dbl); #if SIZEOF_DOUBLE == 2 * SIZEOF_INT_P current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, *(t_dbl + 1)); #endif /* SIZEOF_DOUBLE x SIZEOF_INT_P */ current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, *t_dbl); } else if (f == FunctorLongInt) { Int li = LongIntOfTerm(t); current_sg_node = subgoal_trie_node_check_insert(tab_ent, current_sg_node, li); } else if (f == FunctorDBRef) { Yap_Error(INTERNAL_ERROR, TermNil, "unsupported type tag (FunctorDBRef in subgoal_search)"); } else if (f == FunctorBigInt) { Yap_Error(INTERNAL_ERROR, TermNil, "unsupported type tag (FunctorBigInt in subgoal_search)"); } else { STACK_CHECK_EXPAND(stack_terms, stack_terms_limit + ArityOfFunctor(f) - 1, stack_terms_base); for (j = ArityOfFunctor(f); j >= 1; j--) STACK_PUSH_UP(Deref(*(RepAppl(t) + j)), stack_terms); } } else { Yap_Error(INTERNAL_ERROR, TermNil, "unknown type tag (subgoal_search)"); } } while (STACK_NOT_EMPTY(stack_terms, stack_terms_base)); } #if defined(TABLE_LOCK_AT_NODE_LEVEL) LOCK(TrNode_lock(current_sg_node)); #elif defined(TABLE_LOCK_AT_WRITE_LEVEL) LOCK_TABLE(current_sg_node); #endif /* TABLE_LOCK_LEVEL */ if (TrNode_sg_fr(current_sg_node) == NULL) { /* new tabled subgoal */ new_subgoal_frame(sg_fr, preg); TrNode_sg_fr(current_sg_node) = (sg_node_ptr) sg_fr; } else { sg_fr = (sg_fr_ptr) TrNode_sg_fr(current_sg_node); #ifdef LIMIT_TABLING if (SgFr_state(sg_fr) <= ready) { /* incomplete or ready */ remove_from_global_sg_fr_list(sg_fr); } #endif /* LIMIT_TABLING */ } #if defined(TABLE_LOCK_AT_ENTRY_LEVEL) UNLOCK(TabEnt_lock(tab_ent)); #elif defined(TABLE_LOCK_AT_NODE_LEVEL) UNLOCK(TrNode_lock(current_sg_node)); #elif defined(TABLE_LOCK_AT_WRITE_LEVEL) UNLOCK_TABLE(current_sg_node); #endif /* TABLE_LOCK_LEVEL */ STACK_PUSH_UP(count_vars, stack_vars); *Yaddr = stack_vars++; /* reset variables */ while (count_vars--) { Term t = STACK_POP_DOWN(stack_vars); RESET_VARIABLE(t); } return sg_fr; } ans_node_ptr answer_search(sg_fr_ptr sg_fr, CELL *subs_ptr) { int i, j, count_vars, subs_arity; CELL *stack_vars, *stack_terms_base, *stack_terms; ans_node_ptr current_ans_node; #ifdef TRIE_COMPACT_PAIRS int in_new_pair = 0; #else #define in_new_pair 0 #endif /* TRIE_COMPACT_PAIRS */ count_vars = 0; subs_arity = *subs_ptr; stack_vars = (CELL *)TR; stack_terms_base = stack_terms = (CELL *)Yap_TrailTop; current_ans_node = SgFr_answer_trie(sg_fr); for (i = subs_arity; i >= 1; i--) { #ifdef TABLING_ERRORS if (IsNonVarTerm(*(subs_ptr + i))) TABLING_ERROR_MESSAGE("IsNonVarTem(*(subs_ptr + i)) (answer_search)"); #endif /* TABLING_ERRORS */ STACK_CHECK_EXPAND(stack_terms, stack_vars, stack_terms_base); STACK_PUSH_UP(Deref(*(subs_ptr + i)), stack_terms); do { Term t = STACK_POP_DOWN(stack_terms); if (IsVarTerm(t)) { t = Deref(t); if (IsTableVarTerm(t)) { t = MakeTableVarTerm(VarIndexOfTerm(t)); current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, t, _trie_retry_val + in_new_pair); } else { if (count_vars == MAX_TABLE_VARS) Yap_Error(INTERNAL_ERROR, TermNil, "MAX_TABLE_VARS exceeded (answer_search)"); STACK_PUSH_DOWN(t, stack_vars); *((CELL *)t) = GLOBAL_table_var_enumerator(count_vars); t = MakeTableVarTerm(count_vars); count_vars++; current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, t, _trie_retry_var + in_new_pair); } #ifdef TRIE_COMPACT_PAIRS in_new_pair = 0; #endif /* TRIE_COMPACT_PAIRS */ } else if (IsAtomOrIntTerm(t)) { current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, t, _trie_retry_atom + in_new_pair); #ifdef TRIE_COMPACT_PAIRS in_new_pair = 0; #endif /* TRIE_COMPACT_PAIRS */ } else if (IsPairTerm(t)) { #ifdef TRIE_COMPACT_PAIRS CELL *aux = RepPair(t); if (aux == PairTermMark) { t = STACK_POP_DOWN(stack_terms); if (IsPairTerm(t)) { aux = RepPair(t); t = Deref(*(aux + 1)); if (t == TermNil) { current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, CompactPairEndList, _trie_retry_pair); } else { /* STACK_CHECK_EXPAND(stack_terms, stack_vars + 2, stack_terms_base); */ /* STACK_CHECK_EXPAND is not necessary here because the situation of pushing ** ** up 3 terms has already initially checked for the CompactPairInit term */ STACK_PUSH_UP(t, stack_terms); STACK_PUSH_UP(AbsPair(PairTermMark), stack_terms); in_new_pair = 4; } STACK_PUSH_UP(Deref(*aux), stack_terms); } else { current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, CompactPairEndTerm, _trie_retry_null); STACK_PUSH_UP(t, stack_terms); } } else { current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, CompactPairInit, _trie_retry_null + in_new_pair); t = Deref(*(aux + 1)); if (t == TermNil) { current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, CompactPairEndList, _trie_retry_pair); in_new_pair = 0; } else { STACK_CHECK_EXPAND(stack_terms, stack_vars + 2, stack_terms_base); STACK_PUSH_UP(t, stack_terms); STACK_PUSH_UP(AbsPair(PairTermMark), stack_terms); in_new_pair = 4; } STACK_PUSH_UP(Deref(*aux), stack_terms); } #else current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, AbsPair(NULL), _trie_retry_pair); STACK_CHECK_EXPAND(stack_terms, stack_vars + 1, stack_terms_base); STACK_PUSH_UP(Deref(*(RepPair(t) + 1)), stack_terms); STACK_PUSH_UP(Deref(*(RepPair(t))), stack_terms); #endif /* TRIE_COMPACT_PAIRS */ } else if (IsApplTerm(t)) { Functor f = FunctorOfTerm(t); if (f == FunctorDouble) { volatile Float dbl = FloatOfTerm(t); volatile Term *t_dbl = (Term *)((void *) &dbl); current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, AbsAppl((Term *)f), _trie_retry_null + in_new_pair); #if SIZEOF_DOUBLE == 2 * SIZEOF_INT_P current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, *(t_dbl + 1), _trie_retry_extension); #endif /* SIZEOF_DOUBLE x SIZEOF_INT_P */ current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, *t_dbl, _trie_retry_extension); current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, AbsAppl((Term *)f), _trie_retry_float); } else if (f == FunctorLongInt) { Int li = LongIntOfTerm (t); current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, AbsAppl((Term *)f), _trie_retry_null + in_new_pair); current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, li, _trie_retry_extension); current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, AbsAppl((Term *)f), _trie_retry_long); } else if (f == FunctorDBRef) { Yap_Error(INTERNAL_ERROR, TermNil, "unsupported type tag (FunctorDBRef in answer_search)"); } else if (f == FunctorBigInt) { Yap_Error(INTERNAL_ERROR, TermNil, "unsupported type tag (FunctorBigInt in answer_search)"); } else { current_ans_node = answer_trie_node_check_insert(sg_fr, current_ans_node, AbsAppl((Term *)f), _trie_retry_struct + in_new_pair); STACK_CHECK_EXPAND(stack_terms, stack_vars + ArityOfFunctor(f) - 1, stack_terms_base); for (j = ArityOfFunctor(f); j >= 1; j--) STACK_PUSH_UP(Deref(*(RepAppl(t) + j)), stack_terms); } #ifdef TRIE_COMPACT_PAIRS in_new_pair = 0; #endif /* TRIE_COMPACT_PAIRS */ } else { Yap_Error(INTERNAL_ERROR, TermNil, "unknown type tag (answer_search)"); } } while (STACK_NOT_EMPTY(stack_terms, stack_terms_base)); } /* reset variables */ while (count_vars--) { Term t = STACK_POP_UP(stack_vars); RESET_VARIABLE(t); } return current_ans_node; } void load_answer_trie(ans_node_ptr ans_node, CELL *subs_ptr) { CELL *stack_vars_base, *stack_vars, *stack_terms_base, *stack_terms; int subs_arity, i, n_vars = -1; Term t; #ifdef TRIE_COMPACT_PAIRS int stack_terms_pair_offset = 0; #endif /* TRIE_COMPACT_PAIRS */ if ((subs_arity = *subs_ptr) == 0) return; #ifdef TABLING_ERRORS if (H < H_FZ) TABLING_ERROR_MESSAGE("H < H_FZ (load_answer_trie)"); #endif /* TABLING_ERRORS */ stack_vars_base = stack_vars = (CELL *)TR; stack_terms_base = stack_terms = (CELL *)Yap_TrailTop; t = TrNode_entry(ans_node); ans_node = UNTAG_ANSWER_LEAF_NODE(TrNode_parent(ans_node)); do { if (IsVarTerm(t)) { int var_index = VarIndexOfTableTerm(t); STACK_CHECK_EXPAND(stack_terms, stack_vars_base + var_index + 1, stack_terms_base); if(var_index > n_vars) { for (i = var_index; i > n_vars; i--) stack_vars_base[i] = 0; n_vars = var_index; stack_vars = stack_vars_base + var_index; } if (stack_vars_base[var_index] == 0) stack_vars_base[var_index] = MkVarTerm(); STACK_PUSH_UP(stack_vars_base[var_index], stack_terms); } else if (IsAtomOrIntTerm(t)) { STACK_CHECK_EXPAND(stack_terms, stack_vars, stack_terms_base); STACK_PUSH_UP(t, stack_terms); } else if (IsPairTerm(t)) { #ifdef TRIE_COMPACT_PAIRS if (t == CompactPairInit) { Term *stack_aux = stack_terms_base - stack_terms_pair_offset; Term head, tail = STACK_POP_UP(stack_aux); while (STACK_NOT_EMPTY(stack_aux, stack_terms)) { head = STACK_POP_UP(stack_aux); tail = MkPairTerm(head, tail); } stack_terms = stack_terms_base - stack_terms_pair_offset; stack_terms_pair_offset = (int) STACK_POP_DOWN(stack_terms); STACK_PUSH_UP(tail, stack_terms); } else { /* CompactPairEndList / CompactPairEndTerm */ Term last; STACK_CHECK_EXPAND(stack_terms, stack_vars + 1, stack_terms_base); last = STACK_POP_DOWN(stack_terms); STACK_PUSH_UP(stack_terms_pair_offset, stack_terms); stack_terms_pair_offset = (int) (stack_terms_base - stack_terms); if (t == CompactPairEndList) STACK_PUSH_UP(TermNil, stack_terms); STACK_PUSH_UP(last, stack_terms); } #else Term head = STACK_POP_DOWN(stack_terms); Term tail = STACK_POP_DOWN(stack_terms); t = MkPairTerm(head, tail); STACK_PUSH_UP(t, stack_terms); #endif /* TRIE_COMPACT_PAIRS */ } else if (IsApplTerm(t)) { Functor f = (Functor) RepAppl(t); if (f == FunctorDouble) { volatile Float dbl; volatile Term *t_dbl = (Term *)((void *) &dbl); t = TrNode_entry(ans_node); ans_node = TrNode_parent(ans_node); *t_dbl = t; #if SIZEOF_DOUBLE == 2 * SIZEOF_INT_P t = TrNode_entry(ans_node); ans_node = TrNode_parent(ans_node); *(t_dbl + 1) = t; #endif /* SIZEOF_DOUBLE x SIZEOF_INT_P */ ans_node = TrNode_parent(ans_node); t = MkFloatTerm(dbl); STACK_CHECK_EXPAND(stack_terms, stack_vars, stack_terms_base); STACK_PUSH_UP(t, stack_terms); } else if (f == FunctorLongInt) { Int li = TrNode_entry(ans_node); ans_node = TrNode_parent(ans_node); ans_node = TrNode_parent(ans_node); t = MkLongIntTerm(li); STACK_CHECK_EXPAND(stack_terms, stack_vars, stack_terms_base); STACK_PUSH_UP(t, stack_terms); } else { int f_arity = ArityOfFunctor(f); t = Yap_MkApplTerm(f, f_arity, stack_terms); stack_terms += f_arity; STACK_CHECK_EXPAND(stack_terms, stack_vars, stack_terms_base); STACK_PUSH_UP(t, stack_terms); } } t = TrNode_entry(ans_node); ans_node = TrNode_parent(ans_node); } while (ans_node); for (i = subs_arity; i >= 1; i--) { CELL *subs_var = (CELL *) *(subs_ptr + i); t = STACK_POP_DOWN(stack_terms); Bind(subs_var, t); } #ifdef TABLING_ERRORS if (stack_terms != (CELL *)Yap_TrailTop) TABLING_ERROR_MESSAGE("stack_terms != Yap_TrailTop (load_answer_trie)"); #endif /* TABLING_ERRORS */ return; } void private_completion(sg_fr_ptr sg_fr) { /* complete subgoals */ #ifdef LIMIT_TABLING sg_fr_ptr aux_sg_fr; while (LOCAL_top_sg_fr != sg_fr) { aux_sg_fr = LOCAL_top_sg_fr; LOCAL_top_sg_fr = SgFr_next(aux_sg_fr); mark_as_completed(aux_sg_fr); insert_into_global_sg_fr_list(aux_sg_fr); } aux_sg_fr = LOCAL_top_sg_fr; LOCAL_top_sg_fr = SgFr_next(aux_sg_fr); mark_as_completed(aux_sg_fr); insert_into_global_sg_fr_list(aux_sg_fr); #else while (LOCAL_top_sg_fr != sg_fr) { mark_as_completed(LOCAL_top_sg_fr); LOCAL_top_sg_fr = SgFr_next(LOCAL_top_sg_fr); } mark_as_completed(LOCAL_top_sg_fr); LOCAL_top_sg_fr = SgFr_next(LOCAL_top_sg_fr); #endif /* LIMIT_TABLING */ /* release dependency frames */ while (EQUAL_OR_YOUNGER_CP(DepFr_cons_cp(LOCAL_top_dep_fr), B)) { /* never equal if batched scheduling */ dep_fr_ptr dep_fr = DepFr_next(LOCAL_top_dep_fr); FREE_DEPENDENCY_FRAME(LOCAL_top_dep_fr); LOCAL_top_dep_fr = dep_fr; } /* adjust freeze registers */ adjust_freeze_registers(); return; } void free_subgoal_trie_branch(sg_node_ptr node, int nodes_left, int nodes_extra, int position) { int current_nodes_left = 0, current_nodes_extra = 0; /* save current state if first sibling node */ if (position == TRAVERSE_POSITION_FIRST) { current_nodes_left = nodes_left; current_nodes_extra = nodes_extra; } if (nodes_extra) { #ifdef TRIE_COMPACT_PAIRS if (nodes_extra < 0) { Term t = TrNode_entry(node); if (IsPairTerm(t)) { if (t == CompactPairInit) nodes_extra--; else /* CompactPairEndList / CompactPairEndTerm */ nodes_extra++; } } else #endif /* TRIE_COMPACT_PAIRS */ if (--nodes_extra == 0) nodes_left--; } else { Term t = TrNode_entry(node); if (IsVarTerm(t) || IsAtomOrIntTerm(t)) nodes_left--; else if (IsPairTerm(t)) #ifdef TRIE_COMPACT_PAIRS /* CompactPairInit */ nodes_extra = -1; #else nodes_left++; #endif /* TRIE_COMPACT_PAIRS */ else if (IsApplTerm(t)) { Functor f = (Functor) RepAppl(t); if (f == FunctorDouble) #if SIZEOF_DOUBLE == 2 * SIZEOF_INT_P nodes_extra = 2; #else nodes_extra = 1; #endif /* SIZEOF_DOUBLE x SIZEOF_INT_P */ else if (f == FunctorLongInt) nodes_extra = 1; else nodes_left += ArityOfFunctor(f) - 1; } } if (nodes_left) free_subgoal_trie_branch(TrNode_child(node), nodes_left, nodes_extra, TRAVERSE_POSITION_FIRST); else { sg_fr_ptr sg_fr; ans_node_ptr ans_node; sg_fr = (sg_fr_ptr) TrNode_sg_fr(node); free_answer_hash_chain(SgFr_hash_chain(sg_fr)); ans_node = SgFr_answer_trie(sg_fr); if (TrNode_child(ans_node)) free_answer_trie_branch(TrNode_child(ans_node), TRAVERSE_POSITION_FIRST); FREE_ANSWER_TRIE_NODE(ans_node); #ifdef LIMIT_TABLING remove_from_global_sg_fr_list(sg_fr); #endif /* LIMIT_TABLING */ FREE_SUBGOAL_FRAME(sg_fr); } if (position == TRAVERSE_POSITION_FIRST) { sg_node_ptr next = TrNode_next(node); FREE_SUBGOAL_TRIE_NODE(node); /* restore the initial state */ nodes_left = current_nodes_left; nodes_extra = current_nodes_extra; while (next) { node = next; next = TrNode_next(node); free_subgoal_trie_branch(node, nodes_left, nodes_extra, TRAVERSE_POSITION_NEXT); } } else FREE_SUBGOAL_TRIE_NODE(node); return; } void free_answer_trie_branch(ans_node_ptr node, int position) { #ifdef TABLING_INNER_CUTS if (TrNode_child(node) && ! IS_ANSWER_LEAF_NODE(node)) #else if (! IS_ANSWER_LEAF_NODE(node)) #endif /* TABLING_INNER_CUTS */ free_answer_trie_branch(TrNode_child(node), TRAVERSE_POSITION_FIRST); if (position == TRAVERSE_POSITION_FIRST) { ans_node_ptr next = TrNode_next(node); FREE_ANSWER_TRIE_NODE(node); while (next) { node = next; next = TrNode_next(node); free_answer_trie_branch(node, TRAVERSE_POSITION_NEXT); } } else FREE_ANSWER_TRIE_NODE(node); return; } void update_answer_trie(sg_fr_ptr sg_fr) { ans_node_ptr node; free_answer_hash_chain(SgFr_hash_chain(sg_fr)); SgFr_hash_chain(sg_fr) = NULL; SgFr_state(sg_fr) += 2; /* complete --> compiled : complete_in_use --> compiled_in_use */ node = TrNode_child(SgFr_answer_trie(sg_fr)); if (node) { #ifdef YAPOR TrNode_instr(node) -= 1; #ifdef TABLING_INNER_CUTS update_answer_trie_branch(NULL, node); #else update_answer_trie_branch(node); #endif /* TABLING_INNER_CUTS */ #else /* TABLING */ update_answer_trie_branch(node, TRAVERSE_POSITION_FIRST); #endif /* YAPOR */ } return; } static struct trie_statistics{ int show; long subgoals; long subgoals_incomplete; long subgoal_trie_nodes; long subgoal_linear_nodes; int subgoal_trie_max_depth; int subgoal_trie_min_depth; long answers; long answers_yes; long answers_no; long answers_pruned; long answer_trie_nodes; long answer_linear_nodes; int answer_trie_max_depth; int answer_trie_min_depth; } trie_stats; #define TrStat_show trie_stats.show #define TrStat_subgoals trie_stats.subgoals #define TrStat_sg_incomplete trie_stats.subgoals_incomplete #define TrStat_sg_nodes trie_stats.subgoal_trie_nodes #define TrStat_sg_linear_nodes trie_stats.subgoal_linear_nodes #define TrStat_sg_max_depth trie_stats.subgoal_trie_max_depth #define TrStat_sg_min_depth trie_stats.subgoal_trie_min_depth #define TrStat_answers trie_stats.answers #define TrStat_answers_yes trie_stats.answers_yes #define TrStat_answers_no trie_stats.answers_no #define TrStat_ans_pruned trie_stats.answers_pruned #define TrStat_ans_nodes trie_stats.answer_trie_nodes #define TrStat_ans_linear_nodes trie_stats.answer_linear_nodes #define TrStat_ans_max_depth trie_stats.answer_trie_max_depth #define TrStat_ans_min_depth trie_stats.answer_trie_min_depth #define STR_ARRAY_SIZE 100000 #define ARITY_ARRAY_SIZE 10000 #define SHOW_TABLE(MESG, ARGS...) if (TrStat_show) fprintf(Yap_stdout, MESG, ##ARGS) void traverse_table(tab_ent_ptr tab_ent, int show_table) { sg_node_ptr sg_node = TrNode_child(TabEnt_subgoal_trie(tab_ent)); TrStat_show = show_table; TrStat_subgoals = 0; TrStat_sg_incomplete = 0; TrStat_sg_nodes = 1; TrStat_sg_linear_nodes = 0; TrStat_sg_max_depth = -1; TrStat_sg_min_depth = -1; TrStat_answers = 0; TrStat_answers_yes = 0; TrStat_answers_no = 0; TrStat_ans_pruned = 0; TrStat_ans_nodes = 0; TrStat_ans_linear_nodes = 0; TrStat_ans_max_depth = -1; TrStat_ans_min_depth = -1; if (sg_node) { if (TabEnt_arity(tab_ent)) { char *str = (char *) malloc(sizeof(char) * STR_ARRAY_SIZE); int str_index = sprintf(str, " ?- %s(", AtomName(TabEnt_atom(tab_ent))); int *arity = (int *) malloc(sizeof(int) * ARITY_ARRAY_SIZE); arity[0] = 1; arity[1] = TabEnt_arity(tab_ent); traverse_subgoal_trie(sg_node, str, str_index, arity, 1, TRAVERSE_MODE_NORMAL, TRAVERSE_POSITION_FIRST); free(str); free(arity); } else { sg_fr_ptr sg_fr = (sg_fr_ptr) sg_node; TrStat_subgoals++; TrStat_sg_linear_nodes = TrStat_sg_min_depth = TrStat_sg_max_depth = 0; SHOW_TABLE(" ?- %s.\n", AtomName(TabEnt_atom(tab_ent))); TrStat_ans_nodes++; TrStat_ans_max_depth = TrStat_ans_min_depth = 0; if (SgFr_first_answer(sg_fr) == NULL) { if (SgFr_state(sg_fr) < complete) { TrStat_sg_incomplete++; SHOW_TABLE(" ---> INCOMPLETE\n"); } else { TrStat_answers_no++; SHOW_TABLE(" NO\n"); } } else { /* SgFr_first_answer(sg_fr) == SgFr_answer_trie(sg_fr) */ TrStat_answers_yes++; TrStat_answers++; SHOW_TABLE(" TRUE\n"); } } } else SHOW_TABLE(" EMPTY\n"); return; } void table_stats(void) { fprintf(Yap_stdout, "\n Subgoal trie structure"); fprintf(Yap_stdout, "\n subgoals: %ld", TrStat_subgoals); fprintf(Yap_stdout, "\n subgoals incomplete: %ld", TrStat_sg_incomplete); fprintf(Yap_stdout, "\n nodes: %ld (%ld%c saving)", TrStat_sg_nodes, TrStat_sg_linear_nodes == 0 ? 0 : (TrStat_sg_linear_nodes - TrStat_sg_nodes + 1) * 100 / TrStat_sg_linear_nodes, '%'); fprintf(Yap_stdout, "\n average depth: %.2f (%d min - %d max)", TrStat_subgoals == 0 ? 0 : (float)TrStat_sg_linear_nodes / (float)TrStat_subgoals, TrStat_sg_min_depth < 0 ? 0 : TrStat_sg_min_depth, TrStat_sg_max_depth < 0 ? 0 : TrStat_sg_max_depth); fprintf(Yap_stdout, "\n Answer trie structure"); fprintf(Yap_stdout, "\n answers: %ld", TrStat_answers); fprintf(Yap_stdout, "\n yes answers: %ld", TrStat_answers_yes); fprintf(Yap_stdout, "\n no answers: %ld", TrStat_answers_no); fprintf(Yap_stdout, "\n pruned answers: %ld", TrStat_ans_pruned); fprintf(Yap_stdout, "\n nodes: %ld (%ld%c saving)", TrStat_ans_nodes, TrStat_ans_linear_nodes == 0 ? 0 : (TrStat_ans_linear_nodes - TrStat_ans_nodes + TrStat_subgoals) * 100 / TrStat_ans_linear_nodes, '%'); fprintf(Yap_stdout, "\n average depth: %.2f (%d min - %d max)", TrStat_answers == 0 ? 0 : (float)TrStat_ans_linear_nodes / (float)TrStat_answers, TrStat_ans_min_depth < 0 ? 0 : TrStat_ans_min_depth, TrStat_ans_max_depth < 0 ? 0 : TrStat_ans_max_depth); fprintf(Yap_stdout, "\n Total memory in use\n %ld bytes\n", sizeof(struct table_entry) + TrStat_sg_nodes * sizeof(struct subgoal_trie_node) + TrStat_ans_nodes * sizeof(struct answer_trie_node) + TrStat_subgoals * sizeof(struct subgoal_frame)); return; } /* ------------------------- ** ** Local functions ** ** ------------------------- */ #ifdef YAPOR #ifdef TABLING_INNER_CUTS static int update_answer_trie_branch(ans_node_ptr previous_node, ans_node_ptr node) { int ltt; if (! IS_ANSWER_LEAF_NODE(node)) { if (TrNode_child(node)) { TrNode_instr(TrNode_child(node)) -= 1; /* retry --> try */ update_answer_trie_branch(NULL, TrNode_child(node)); if (TrNode_child(node)) goto update_next_trie_branch; } /* node belonging to a pruned answer */ if (previous_node) { TrNode_next(previous_node) = TrNode_next(node); FREE_ANSWER_TRIE_NODE(node); if (TrNode_next(previous_node)) { return update_answer_trie_branch(previous_node, TrNode_next(previous_node)); } else { TrNode_instr(previous_node) -= 2; /* retry --> trust : try --> do */ return 0; } } else { TrNode_child(TrNode_parent(node)) = TrNode_next(node); if (TrNode_next(node)) { TrNode_instr(TrNode_next(node)) -= 1; /* retry --> try */ update_answer_trie_branch(NULL, TrNode_next(node)); } FREE_ANSWER_TRIE_NODE(node); return 0; } } update_next_trie_branch: if (TrNode_next(node)) { ltt = 1 + update_answer_trie_branch(node, TrNode_next(node)); } else { TrNode_instr(node) -= 2; /* retry --> trust : try --> do */ ltt = 1; } TrNode_or_arg(node) = ltt; TrNode_instr(node) = Yap_opcode(TrNode_instr(node)); return ltt; } #else static int update_answer_trie_branch(ans_node_ptr node) { int ltt; if (! IS_ANSWER_LEAF_NODE(node)) { TrNode_instr(TrNode_child(node)) -= 1; /* retry --> try */ update_answer_trie_branch(TrNode_child(node)); } if (TrNode_next(node)) { ltt = 1 + update_answer_trie_branch(TrNode_next(node)); } else { TrNode_instr(node) -= 2; /* retry --> trust : try --> do */ ltt = 1; } TrNode_or_arg(node) = ltt; TrNode_instr(node) = Yap_opcode(TrNode_instr(node)); return ltt; } #endif /* TABLING_INNER_CUTS */ #else /* TABLING */ static void update_answer_trie_branch(ans_node_ptr node, int position) { if (! IS_ANSWER_LEAF_NODE(node)) update_answer_trie_branch(TrNode_child(node), TRAVERSE_POSITION_FIRST); /* retry --> try */ if (position == TRAVERSE_POSITION_FIRST) { ans_node_ptr next = TrNode_next(node); if (next) { while (TrNode_next(next)) { update_answer_trie_branch(next, TRAVERSE_POSITION_NEXT); /* retry --> retry */ next = TrNode_next(next); } update_answer_trie_branch(next, TRAVERSE_POSITION_LAST); /* retry --> trust */ } else position += TRAVERSE_POSITION_LAST; /* try --> do */ } TrNode_instr(node) = Yap_opcode(TrNode_instr(node) - position); return; } #endif /* YAPOR */ static void traverse_subgoal_trie(sg_node_ptr sg_node, char *str, int str_index, int *arity, int depth, int mode, int position) { int *current_arity = NULL, current_str_index = 0, current_mode = 0; Term t; /* test if hashing */ if (IS_SUBGOAL_HASH(sg_node)) { sg_node_ptr *bucket, *last_bucket; sg_hash_ptr hash; hash = (sg_hash_ptr) sg_node; bucket = Hash_buckets(hash); last_bucket = bucket + Hash_num_buckets(hash); current_arity = (int *) malloc(sizeof(int) * (arity[0] + 1)); memcpy(current_arity, arity, sizeof(int) * (arity[0] + 1)); do { if (*bucket) { traverse_subgoal_trie(*bucket, str, str_index, arity, depth, mode, TRAVERSE_POSITION_FIRST); memcpy(arity, current_arity, sizeof(int) * (current_arity[0] + 1)); #ifdef TRIE_COMPACT_PAIRS if (arity[arity[0]] == -2 && str[str_index - 1] != '[') str[str_index - 1] = ','; #else if (arity[arity[0]] == -1) str[str_index - 1] = '|'; #endif /* TRIE_COMPACT_PAIRS */ } } while (++bucket != last_bucket); free(current_arity); return; } /* save current state if first sibling node */ if (position == TRAVERSE_POSITION_FIRST) { current_arity = (int *) malloc(sizeof(int) * (arity[0] + 1)); memcpy(current_arity, arity, sizeof(int) * (arity[0] + 1)); current_str_index = str_index; current_mode = mode; } /* test the node type */ t = TrNode_entry(sg_node); #if SIZEOF_DOUBLE == 2 * SIZEOF_INT_P if (mode == TRAVERSE_MODE_FLOAT) { arity[0]++; arity[arity[0]] = (int) t; mode = TRAVERSE_MODE_FLOAT2; } else if (mode == TRAVERSE_MODE_FLOAT2) { volatile Float dbl; volatile Term *t_dbl = (Term *)((void *) &dbl); *t_dbl = t; *(t_dbl + 1) = (Term) arity[arity[0]]; arity[0]--; #else /* SIZEOF_DOUBLE == SIZEOF_INT_P */ if (mode == TRAVERSE_MODE_FLOAT) { volatile Float dbl; volatile Term *t_dbl = (Term *)((void *) &dbl); *t_dbl = t; #endif /* SIZEOF_DOUBLE x SIZEOF_INT_P */ str_index += sprintf(& str[str_index], "%.15g", dbl); while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } mode = TRAVERSE_MODE_NORMAL; } else if (mode == TRAVERSE_MODE_LONG) { Int li = (Int) t; #if SHORT_INTS str_index += sprintf(& str[str_index], "%ld", li); #else str_index += sprintf(& str[str_index], "%d", li); #endif /* SHORT_INTS */ while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } mode = TRAVERSE_MODE_NORMAL; } else if (IsVarTerm(t)) { #if SHORT_INTS str_index += sprintf(& str[str_index], "VAR%ld", VarIndexOfTableTerm(t)); #else str_index += sprintf(& str[str_index], "VAR%d", VarIndexOfTableTerm(t)); #endif /* SHORT_INTS */ while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } } else if (IsIntTerm(t)) { #if SHORT_INTS str_index += sprintf(& str[str_index], "%ld", IntOfTerm(t)); #else str_index += sprintf(& str[str_index], "%d", IntOfTerm(t)); #endif /* SHORT_INTS */ while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } } else if (IsAtomTerm(t)) { #ifndef TRIE_COMPACT_PAIRS if (arity[arity[0]] == -1 && t == TermNil) { str[str_index - 1] = ']'; arity[0]--; } else #endif /* TRIE_COMPACT_PAIRS */ str_index += sprintf(& str[str_index], "%s", AtomName(AtomOfTerm(t))); while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } } else if (IsPairTerm(t)) { #ifdef TRIE_COMPACT_PAIRS if (t == CompactPairEndList) arity[arity[0]] = -1; else if (t == CompactPairEndTerm) { str[str_index - 1] = '|'; arity[arity[0]] = -1; #else if (arity[arity[0]] == -1) { str[str_index - 1] = ','; arity[arity[0]] = -2; #endif /* TRIE_COMPACT_PAIRS */ } else { str_index += sprintf(& str[str_index], "["); arity[0]++; arity[arity[0]] = -2; } } else if (IsApplTerm(t)) { Functor f = (Functor) RepAppl(t); if (f == FunctorDouble) { mode = TRAVERSE_MODE_FLOAT; } else if (f == FunctorLongInt) { mode = TRAVERSE_MODE_LONG; } else { str_index += sprintf(& str[str_index], "%s(", AtomName(NameOfFunctor(f))); arity[0]++; arity[arity[0]] = ArityOfFunctor(f); } } TrStat_sg_nodes++; /* show answers ... */ if (arity[0] == 0) { sg_fr_ptr sg_fr = (sg_fr_ptr) TrNode_child(sg_node); str[str_index] = 0; TrStat_subgoals++; TrStat_sg_linear_nodes+= depth; if (TrStat_sg_max_depth < 0) { TrStat_sg_min_depth = TrStat_sg_max_depth = depth; } else if (depth < TrStat_sg_min_depth) { TrStat_sg_min_depth = depth; } else if (depth > TrStat_sg_max_depth) { TrStat_sg_max_depth = depth; } SHOW_TABLE("%s.\n", str); TrStat_ans_nodes++; if (SgFr_first_answer(sg_fr) == NULL) { if (TrStat_ans_max_depth < 0) TrStat_ans_max_depth = 0; TrStat_ans_min_depth = 0; if (SgFr_state(sg_fr) < complete) { TrStat_sg_incomplete++; SHOW_TABLE(" ---> INCOMPLETE\n"); } else { TrStat_answers_no++; SHOW_TABLE(" NO\n"); } } else if (SgFr_first_answer(sg_fr) == SgFr_answer_trie(sg_fr)) { if (TrStat_ans_max_depth < 0) TrStat_ans_max_depth = 0; TrStat_ans_min_depth = 0; TrStat_answers_yes++; TrStat_answers++; SHOW_TABLE(" TRUE\n"); } else { arity[0] = 0; traverse_answer_trie(TrNode_child(SgFr_answer_trie(sg_fr)), &str[str_index], 0, arity, 0, 1, TRAVERSE_MODE_NORMAL, TRAVERSE_POSITION_FIRST); if (SgFr_state(sg_fr) < complete) { TrStat_sg_incomplete++; SHOW_TABLE(" ---> INCOMPLETE\n"); } } } /* ... or continue with child node */ else traverse_subgoal_trie(TrNode_child(sg_node), str, str_index, arity, depth + 1, mode, TRAVERSE_POSITION_FIRST); /* continue iteratively with sibling nodes */ if (position == TRAVERSE_POSITION_FIRST) { /* restore the initial state */ str_index = current_str_index; mode = current_mode; sg_node = TrNode_next(sg_node); while (sg_node) { memcpy(arity, current_arity, sizeof(int) * (current_arity[0] + 1)); #ifdef TRIE_COMPACT_PAIRS if (arity[arity[0]] == -2 && str[str_index - 1] != '[') str[str_index - 1] = ','; #else if (arity[arity[0]] == -1) str[str_index - 1] = '|'; #endif /* TRIE_COMPACT_PAIRS */ traverse_subgoal_trie(sg_node, str, str_index, arity, depth, mode, TRAVERSE_POSITION_NEXT); sg_node = TrNode_next(sg_node); } free(current_arity); } return; } static void traverse_answer_trie(ans_node_ptr ans_node, char *str, int str_index, int *arity, int var_index, int depth, int mode, int position) { int *current_arity = NULL, current_str_index = 0, current_var_index = 0, current_mode = 0; Term t; /* test if hashing */ if (IS_ANSWER_HASH(ans_node)) { ans_node_ptr *bucket, *last_bucket; ans_hash_ptr hash; hash = (ans_hash_ptr) ans_node; bucket = Hash_buckets(hash); last_bucket = bucket + Hash_num_buckets(hash); current_arity = (int *) malloc(sizeof(int) * (arity[0] + 1)); memcpy(current_arity, arity, sizeof(int) * (arity[0] + 1)); do { if (*bucket) { traverse_answer_trie(*bucket, str, str_index, arity, var_index, depth, mode, TRAVERSE_POSITION_FIRST); memcpy(arity, current_arity, sizeof(int) * (current_arity[0] + 1)); #ifdef TRIE_COMPACT_PAIRS if (arity[arity[0]] == -2 && str[str_index - 1] != '[') str[str_index - 1] = ','; #else if (arity[arity[0]] == -1) str[str_index - 1] = '|'; #endif /* TRIE_COMPACT_PAIRS */ } } while (++bucket != last_bucket); free(current_arity); return; } /* save current state if first sibling node */ if (position == TRAVERSE_POSITION_FIRST) { current_arity = (int *) malloc(sizeof(int) * (arity[0] + 1)); memcpy(current_arity, arity, sizeof(int) * (arity[0] + 1)); current_str_index = str_index; current_var_index = var_index; current_mode = mode; } /* print VAR when starting a term */ if (arity[0] == 0 && mode == TRAVERSE_MODE_NORMAL) { str_index += sprintf(& str[str_index], " VAR%d: ", var_index); var_index++; } /* test the node type */ t = TrNode_entry(ans_node); if (mode == TRAVERSE_MODE_FLOAT) { #if SIZEOF_DOUBLE == 2 * SIZEOF_INT_P arity[0]++; arity[arity[0]] = (int) t; mode = TRAVERSE_MODE_FLOAT2; } else if (mode == TRAVERSE_MODE_FLOAT2) { volatile Float dbl; volatile Term *t_dbl = (Term *)((void *) &dbl); *t_dbl = t; *(t_dbl + 1) = (Term) arity[arity[0]]; arity[0]--; #else /* SIZEOF_DOUBLE == SIZEOF_INT_P */ volatile Float dbl; volatile Term *t_dbl = (Term *)((void *) &dbl); *t_dbl = t; #endif /* SIZEOF_DOUBLE x SIZEOF_INT_P */ str_index += sprintf(& str[str_index], "%.15g", dbl); while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } mode = TRAVERSE_MODE_FLOAT_END; } else if (mode == TRAVERSE_MODE_FLOAT_END) { mode = TRAVERSE_MODE_NORMAL; } else if (mode == TRAVERSE_MODE_LONG) { Int li = (Int) t; #if SHORT_INTS str_index += sprintf(& str[str_index], "%ld", li); #else str_index += sprintf(& str[str_index], "%d", li); #endif /* SHORT_INTS */ while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } mode = TRAVERSE_MODE_LONG_END; } else if (mode == TRAVERSE_MODE_LONG_END) { mode = TRAVERSE_MODE_NORMAL; } else if (IsVarTerm(t)) { #if SHORT_INTS str_index += sprintf(& str[str_index], "ANSVAR%ld", VarIndexOfTableTerm(t)); #else str_index += sprintf(& str[str_index], "ANSVAR%d", VarIndexOfTableTerm(t)); #endif /* SHORT_INTS */ while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } } else if (IsIntTerm(t)) { #if SHORT_INTS str_index += sprintf(& str[str_index], "%ld", IntOfTerm(t)); #else str_index += sprintf(& str[str_index], "%d", IntOfTerm(t)); #endif /* SHORT_INTS */ while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } } else if (IsAtomTerm(t)) { #ifndef TRIE_COMPACT_PAIRS if (arity[arity[0]] == -1 && t == TermNil) { str[str_index - 1] = ']'; arity[0]--; } else #endif /* TRIE_COMPACT_PAIRS */ str_index += sprintf(& str[str_index], "%s", AtomName(AtomOfTerm(t))); while (arity[0]) { if (arity[arity[0]] > 0) { arity[arity[0]]--; if (arity[arity[0]] == 0) { str_index += sprintf(& str[str_index], ")"); arity[0]--; } else { str_index += sprintf(& str[str_index], ","); break; } } else { if (arity[arity[0]] == -2) { #ifdef TRIE_COMPACT_PAIRS str_index += sprintf(& str[str_index], ","); #else str_index += sprintf(& str[str_index], "|"); arity[arity[0]] = -1; #endif /* TRIE_COMPACT_PAIRS */ break; } else { str_index += sprintf(& str[str_index], "]"); arity[0]--; } } } } else if (IsPairTerm(t)) { #ifdef TRIE_COMPACT_PAIRS if (t == CompactPairEndList) arity[arity[0]] = -1; else if (t == CompactPairEndTerm) { str[str_index - 1] = '|'; arity[arity[0]] = -1; #else if (arity[arity[0]] == -1) { str[str_index - 1] = ','; arity[arity[0]] = -2; #endif /* TRIE_COMPACT_PAIRS */ } else { str_index += sprintf(& str[str_index], "["); arity[0]++; arity[arity[0]] = -2; } } else if (IsApplTerm(t)) { Functor f = (Functor) RepAppl(t); if (f == FunctorDouble) { mode = TRAVERSE_MODE_FLOAT; } else if (f == FunctorLongInt) { mode = TRAVERSE_MODE_LONG; } else { str_index += sprintf(& str[str_index], "%s(", AtomName(NameOfFunctor(f))); arity[0]++; arity[arity[0]] = ArityOfFunctor(f); } } TrStat_ans_nodes++; /* show answer .... */ if (IS_ANSWER_LEAF_NODE(ans_node)) { str[str_index] = 0; SHOW_TABLE("%s\n", str); TrStat_answers++; TrStat_ans_linear_nodes+= depth; if (TrStat_ans_max_depth < 0) TrStat_ans_min_depth = TrStat_ans_max_depth = depth; else if (depth < TrStat_ans_min_depth) TrStat_ans_min_depth = depth; else if (depth > TrStat_ans_max_depth) TrStat_ans_max_depth = depth; } #ifdef TABLING_INNER_CUTS /* ... or continue with pruned node */ else if (TrNode_child(ans_node) == NULL) TrStat_ans_pruned++; #endif /* TABLING_INNER_CUTS */ /* ... or continue with child node */ else traverse_answer_trie(TrNode_child(ans_node), str, str_index, arity, var_index, depth + 1, mode, TRAVERSE_POSITION_FIRST); /* continue iteratively with sibling nodes */ if (position == TRAVERSE_POSITION_FIRST) { /* restore the initial state */ str_index = current_str_index; var_index = current_var_index; mode = current_mode; ans_node = TrNode_next(ans_node); while (ans_node) { memcpy(arity, current_arity, sizeof(int) * (current_arity[0] + 1)); #ifdef TRIE_COMPACT_PAIRS if (arity[arity[0]] == -2 && str[str_index - 1] != '[') str[str_index - 1] = ','; #else if (arity[arity[0]] == -1) str[str_index - 1] = '|'; #endif /* TRIE_COMPACT_PAIRS */ traverse_answer_trie(ans_node, str, str_index, arity, var_index, depth, mode, TRAVERSE_POSITION_NEXT); ans_node = TrNode_next(ans_node); } free(current_arity); } return; } #endif /* TABLING */