/************************************************************************ ** ** ** The YapTab/YapOr/OPTYap systems ** ** ** ** YapTab extends the Yap Prolog engine to support sequential tabling ** ** YapOr extends the Yap Prolog engine to support or-parallelism ** ** OPTYap extends the Yap Prolog engine to support or-parallel tabling ** ** ** ** ** ** Yap Prolog was developed at University of Porto, Portugal ** ** ** ************************************************************************/ /************************************ ** Includes & Prototypes ** ************************************/ #include #if HAVE_STRING_H #include #endif /* HAVE_STRING_H */ #include "opt.mavar.h" static inline Int freeze_current_cp(void); static inline void wake_frozen_cp(Int); static inline void abolish_frozen_cps_until(Int); static inline void abolish_frozen_cps_all(void); static inline void adjust_freeze_registers(void); static inline void mark_as_completed(sg_fr_ptr); static inline void unbind_variables(tr_fr_ptr, tr_fr_ptr); static inline void rebind_variables(tr_fr_ptr, tr_fr_ptr); static inline void restore_bindings(tr_fr_ptr, tr_fr_ptr); static inline CELL *expand_auxiliary_stack(CELL *); static inline void abolish_incomplete_subgoals(choiceptr); #ifdef YAPOR static inline void pruning_over_tabling_data_structures(void); static inline void collect_suspension_frames(or_fr_ptr); #ifdef TIMESTAMP_CHECK static inline susp_fr_ptr suspension_frame_to_resume(or_fr_ptr, long); #else static inline susp_fr_ptr suspension_frame_to_resume(or_fr_ptr); #endif /* TIMESTAMP_CHECK */ #endif /* YAPOR */ #ifdef TABLING_INNER_CUTS static inline void CUT_store_tg_answer(or_fr_ptr, ans_node_ptr, choiceptr, int); static inline tg_sol_fr_ptr CUT_store_tg_answers(or_fr_ptr, tg_sol_fr_ptr, int); static inline void CUT_validate_tg_answers(tg_sol_fr_ptr); static inline void CUT_join_tg_solutions(tg_sol_fr_ptr *, tg_sol_fr_ptr); static inline void CUT_join_solution_frame_tg_answers(tg_sol_fr_ptr); static inline void CUT_join_solution_frames_tg_answers(tg_sol_fr_ptr); static inline void CUT_free_tg_solution_frame(tg_sol_fr_ptr); static inline void CUT_free_tg_solution_frames(tg_sol_fr_ptr); static inline tg_sol_fr_ptr CUT_prune_tg_solution_frames(tg_sol_fr_ptr, int); #endif /* TABLING_INNER_CUTS */ /********************************* ** Tabling mode flags ** *********************************/ #define Flag_Batched 0x001 #define Flag_Local 0x002 #define Flags_SchedulingMode (Flag_Batched | Flag_Local) #define Flag_ExecAnswers 0x010 #define Flag_LoadAnswers 0x020 #define Flags_AnswersMode (Flag_ExecAnswers | Flag_LoadAnswers) #define Flag_LocalTrie 0x100 #define Flag_GlobalTrie 0x200 #define Flags_TrieMode (Flag_LocalTrie | Flag_GlobalTrie) #define SetMode_Batched(X) (X) = ((X) & ~Flags_SchedulingMode) | Flag_Batched #define SetMode_Local(X) (X) = ((X) & ~Flags_SchedulingMode) | Flag_Local #define SetMode_ExecAnswers(X) (X) = ((X) & ~Flags_AnswersMode) | Flag_ExecAnswers #define SetMode_LoadAnswers(X) (X) = ((X) & ~Flags_AnswersMode) | Flag_LoadAnswers #define SetMode_LocalTrie(X) (X) = ((X) & ~Flags_TrieMode) | Flag_LocalTrie #define SetMode_GlobalTrie(X) (X) = ((X) & ~Flags_TrieMode) | Flag_GlobalTrie #define IsMode_Batched(X) ((X) & Flag_Batched) #define IsMode_Local(X) ((X) & Flag_Local) #define IsMode_ExecAnswers(X) ((X) & Flag_ExecAnswers) #define IsMode_LoadAnswers(X) ((X) & Flag_LoadAnswers) #define IsMode_LocalTrie(X) ((X) & Flag_LocalTrie) #define IsMode_GlobalTrie(X) ((X) & Flag_GlobalTrie) /****************************** ** Tabling defines ** ******************************/ #define SHOW_MODE_STRUCTURE 0 #define SHOW_MODE_STATISTICS 1 #define TRAVERSE_MODE_NORMAL 0 #define TRAVERSE_MODE_DOUBLE 1 #define TRAVERSE_MODE_DOUBLE2 2 #define TRAVERSE_MODE_DOUBLE_END 3 #define TRAVERSE_MODE_LONGINT 4 #define TRAVERSE_MODE_LONGINT_END 5 /* do not change order !!! */ #define TRAVERSE_TYPE_SUBGOAL 0 #define TRAVERSE_TYPE_ANSWER 1 #define TRAVERSE_TYPE_GT_SUBGOAL 2 #define TRAVERSE_TYPE_GT_ANSWER 3 /* do not change order !!! */ #define TRAVERSE_POSITION_NEXT 0 #define TRAVERSE_POSITION_FIRST 1 #define TRAVERSE_POSITION_LAST 2 /* LowTagBits is 3 for 32 bit-machines and 7 for 64 bit-machines */ #define NumberOfLowTagBits (LowTagBits == 3 ? 2 : 3) #define MakeTableVarTerm(INDEX) ((INDEX) << NumberOfLowTagBits) #define VarIndexOfTableTerm(TERM) (((unsigned int) (TERM)) >> NumberOfLowTagBits) #define VarIndexOfTerm(TERM) \ ((((CELL) (TERM)) - GLOBAL_table_var_enumerator(0)) / sizeof(CELL)) #define IsTableVarTerm(TERM) \ ((CELL) (TERM)) >= GLOBAL_table_var_enumerator(0) && \ ((CELL) (TERM)) <= GLOBAL_table_var_enumerator(MAX_TABLE_VARS - 1) #ifdef TRIE_COMPACT_PAIRS #define PairTermMark NULL #define CompactPairInit AbsPair((Term *) 0) #define CompactPairEndTerm AbsPair((Term *) (LowTagBits + 1)) #define CompactPairEndList AbsPair((Term *) (2*(LowTagBits + 1))) #endif /* TRIE_COMPACT_PAIRS */ #define NORM_CP(CP) ((choiceptr)(CP)) #define GEN_CP(CP) ((struct generator_choicept *)(CP)) #define CONS_CP(CP) ((struct consumer_choicept *)(CP)) #define LOAD_CP(CP) ((struct loader_choicept *)(CP)) #ifdef DETERMINISTIC_TABLING #define DET_GEN_CP(CP) ((struct deterministic_generator_choicept *)(CP)) #define IS_DET_GEN_CP(CP) (*(CELL*)(DET_GEN_CP(CP) + 1) <= MAX_TABLE_VARS) #define IS_BATCHED_NORM_GEN_CP(CP) (GEN_CP(CP)->cp_dep_fr == NULL) #define IS_BATCHED_GEN_CP(CP) (IS_DET_GEN_CP(CP) || IS_BATCHED_NORM_GEN_CP(CP)) #else #define IS_BATCHED_GEN_CP(CP) (GEN_CP(CP)->cp_dep_fr == NULL) #endif /* DETERMINISTIC_TABLING */ #define TAG_AS_SUBGOAL_LEAF_NODE(NODE) TrNode_child(NODE) = (sg_node_ptr)((unsigned long int) TrNode_child(NODE) | 0x1) #define UNTAG_SUBGOAL_LEAF_NODE(NODE) ((sg_fr_ptr)((unsigned long int) (NODE) & ~(0x1))) #define IS_SUBGOAL_LEAF_NODE(NODE) ((unsigned long int) TrNode_child(NODE) & 0x1) #define TAG_AS_ANSWER_LEAF_NODE(NODE) TrNode_parent(NODE) = (ans_node_ptr)((unsigned long int) TrNode_parent(NODE) | 0x1) #define UNTAG_ANSWER_LEAF_NODE(NODE) ((ans_node_ptr)((unsigned long int) (NODE) & ~(0x1))) #define IS_ANSWER_LEAF_NODE(NODE) ((unsigned long int) TrNode_parent(NODE) & 0x1) #define MAX_NODES_PER_TRIE_LEVEL 8 #define MAX_NODES_PER_BUCKET (MAX_NODES_PER_TRIE_LEVEL / 2) #define BASE_HASH_BUCKETS 64 #define HASH_ENTRY(ENTRY, SEED) ((((unsigned long int) ENTRY) >> NumberOfLowTagBits) & (SEED)) #define SUBGOAL_TRIE_HASH_MARK ((Term) MakeTableVarTerm(MAX_TABLE_VARS)) #define IS_SUBGOAL_TRIE_HASH(NODE) (TrNode_entry(NODE) == SUBGOAL_TRIE_HASH_MARK) #define ANSWER_TRIE_HASH_MARK 0 #define IS_ANSWER_TRIE_HASH(NODE) (TrNode_instr(NODE) == ANSWER_TRIE_HASH_MARK) #define GLOBAL_TRIE_HASH_MARK ((Term) MakeTableVarTerm(MAX_TABLE_VARS)) #define IS_GLOBAL_TRIE_HASH(NODE) (TrNode_entry(NODE) == GLOBAL_TRIE_HASH_MARK) #define HASH_TABLE_LOCK(NODE) ((((unsigned long int) (NODE)) >> 5) & (TABLE_LOCK_BUCKETS - 1)) #define LOCK_TABLE(NODE) LOCK(GLOBAL_table_lock(HASH_TABLE_LOCK(NODE))) #define UNLOCK_TABLE(NODE) UNLOCK(GLOBAL_table_lock(HASH_TABLE_LOCK(NODE))) #define STACK_PUSH_UP(ITEM, STACK) *--(STACK) = (CELL)(ITEM) #define STACK_POP_UP(STACK) *--(STACK) #define STACK_PUSH_DOWN(ITEM, STACK) *(STACK)++ = (CELL)(ITEM) #define STACK_POP_DOWN(STACK) *(STACK)++ #define STACK_NOT_EMPTY(STACK, STACK_BASE) (STACK) != (STACK_BASE) #define AUX_STACK_CHECK_EXPAND(STACK, STACK_LIMIT) if ((STACK_LIMIT) >= (STACK)) EXPAND_AUX_STACK(STACK) #define STACK_CHECK_EXPAND(STACK, STACK_LIMIT) if ((STACK_LIMIT) >= (STACK)+4096) EXPAND_STACK(STACK) #if defined(YAPOR_COPY) || defined(YAPOR_COW) || defined(YAPOR_SBA) #define EXPAND_AUX_STACK(STACK) Yap_Error(INTERNAL_ERROR, TermNil, "stack full (AUX_STACK_CHECK_EXPAND)"); #define EXPAND_STACK(STACK) Yap_Error(INTERNAL_ERROR, TermNil, "stack full (STACK_CHECK_EXPAND)"); #else /* YAPOR_THREADS */ #define EXPAND_AUX_STACK(STACK) STACK = expand_auxiliary_stack(STACK) #define EXPAND_STACK(STACK) Yap_Error(INTERNAL_ERROR, TermNil, "stack full (STACK_CHECK_EXPAND)"); #endif /* YAPOR */ #define OPTYAP_ERROR_MESSAGE(OP, COND) /************************************* ** Data structures macros ** *************************************/ #ifdef YAPOR #define frame_with_suspensions_not_collected(OR_FR) \ (OrFr_nearest_suspnode(OR_FR) == NULL) #define find_dependency_node(SG_FR, LEADER_CP, DEP_ON_STACK) \ if (SgFr_gen_worker(SG_FR) == worker_id) { \ LEADER_CP = SgFr_gen_cp(SG_FR); \ DEP_ON_STACK = TRUE; \ } else { \ or_fr_ptr aux_or_fr = SgFr_gen_top_or_fr(SG_FR); \ while (! BITMAP_member(OrFr_members(aux_or_fr), worker_id)) \ aux_or_fr = OrFr_next(aux_or_fr); \ LEADER_CP = GetOrFr_node(aux_or_fr); \ DEP_ON_STACK = (LEADER_CP == SgFr_gen_cp(SG_FR)); \ } #define find_leader_node(LEADER_CP, DEP_ON_STACK) \ { dep_fr_ptr chain_dep_fr = LOCAL_top_dep_fr; \ while (YOUNGER_CP(DepFr_cons_cp(chain_dep_fr), LEADER_CP)) { \ if (LEADER_CP == DepFr_leader_cp(chain_dep_fr)) { \ DEP_ON_STACK |= DepFr_leader_dep_is_on_stack(chain_dep_fr); \ break; \ } else if (YOUNGER_CP(LEADER_CP, DepFr_leader_cp(chain_dep_fr))) { \ LEADER_CP = DepFr_leader_cp(chain_dep_fr); \ DEP_ON_STACK = DepFr_leader_dep_is_on_stack(chain_dep_fr); \ break; \ } \ chain_dep_fr = DepFr_next(chain_dep_fr); \ } \ } #ifdef TIMESTAMP #define DepFr_init_timestamp_field(DEP_FR) DepFr_timestamp(DEP_FR) = 0 #else #define DepFr_init_timestamp_field(DEP_FR) #endif /* TIMESTAMP */ #define YAPOR_SET_LOAD(CP_PTR) SCH_set_load(CP_PTR) #define SgFr_init_yapor_fields(SG_FR) \ SgFr_gen_worker(SG_FR) = worker_id; \ SgFr_gen_top_or_fr(SG_FR) = LOCAL_top_or_fr #define DepFr_init_yapor_fields(DEP_FR, DEP_ON_STACK, TOP_OR_FR) \ DepFr_leader_dep_is_on_stack(DEP_FR) = DEP_ON_STACK; \ DepFr_top_or_fr(DEP_FR) = TOP_OR_FR; \ DepFr_init_timestamp_field(DEP_FR) #else #define find_dependency_node(SG_FR, LEADER_CP, DEP_ON_STACK) \ LEADER_CP = SgFr_gen_cp(SG_FR); \ DEP_ON_STACK = TRUE #define find_leader_node(LEADER_CP, DEP_ON_STACK) \ { dep_fr_ptr chain_dep_fr = LOCAL_top_dep_fr; \ while (YOUNGER_CP(DepFr_cons_cp(chain_dep_fr), LEADER_CP)) { \ if (EQUAL_OR_YOUNGER_CP(LEADER_CP, DepFr_leader_cp(chain_dep_fr))) { \ LEADER_CP = DepFr_leader_cp(chain_dep_fr); \ break; \ } \ chain_dep_fr = DepFr_next(chain_dep_fr); \ } \ } #define YAPOR_SET_LOAD(CP_PTR) #define SgFr_init_yapor_fields(SG_FR) #define DepFr_init_yapor_fields(DEP_FR, DEP_ON_STACK, TOP_OR_FR) #endif /* YAPOR */ #ifdef TABLE_LOCK_AT_ENTRY_LEVEL #define TabEnt_init_lock_field(TAB_ENT) \ INIT_LOCK(TabEnt_lock(TAB_ENT)) #define SgHash_init_next_field(HASH, TAB_ENT) \ Hash_next(HASH) = TabEnt_hash_chain(TAB_ENT); \ TabEnt_hash_chain(TAB_ENT) = HASH #define AnsHash_init_next_field(HASH, SG_FR) \ Hash_next(HASH) = SgFr_hash_chain(SG_FR); \ SgFr_hash_chain(SG_FR) = HASH #else #define TabEnt_init_lock_field(TAB_ENT) #define SgHash_init_next_field(HASH, TAB_ENT) \ LOCK(TabEnt_lock(TAB_ENT)); \ Hash_next(HASH) = TabEnt_hash_chain(TAB_ENT); \ TabEnt_hash_chain(TAB_ENT) = HASH; \ UNLOCK(TabEnt_lock(TAB_ENT)) #define AnsHash_init_next_field(HASH, SG_FR) \ LOCK(SgFr_lock(SG_FR)); \ Hash_next(HASH) = SgFr_hash_chain(SG_FR); \ SgFr_hash_chain(SG_FR) = HASH; \ UNLOCK(SgFr_lock(SG_FR)) #endif /* TABLE_LOCK_AT_ENTRY_LEVEL */ #ifdef TABLE_LOCK_AT_NODE_LEVEL #define TrNode_init_lock_field(NODE) \ INIT_LOCK(TrNode_lock(NODE)) #else #define TrNode_init_lock_field(NODE) #endif /* TABLE_LOCK_AT_NODE_LEVEL */ #define new_table_entry(TAB_ENT, PRED_ENTRY, ATOM, ARITY) \ { register sg_node_ptr sg_node; \ new_subgoal_trie_node(sg_node, 0, NULL, NULL, NULL); \ ALLOC_TABLE_ENTRY(TAB_ENT); \ TabEnt_init_lock_field(TAB_ENT); \ TabEnt_pe(TAB_ENT) = PRED_ENTRY; \ TabEnt_atom(TAB_ENT) = ATOM; \ TabEnt_arity(TAB_ENT) = ARITY; \ TabEnt_flags(TAB_ENT) = 0; \ SetMode_Batched(TabEnt_flags(TAB_ENT)); \ SetMode_ExecAnswers(TabEnt_flags(TAB_ENT)); \ SetMode_LocalTrie(TabEnt_flags(TAB_ENT)); \ TabEnt_mode(TAB_ENT) = TabEnt_flags(TAB_ENT); \ if (IsMode_Local(yap_flags[TABLING_MODE_FLAG])) \ SetMode_Local(TabEnt_mode(TAB_ENT)); \ if (IsMode_LoadAnswers(yap_flags[TABLING_MODE_FLAG])) \ SetMode_LoadAnswers(TabEnt_mode(TAB_ENT)); \ if (IsMode_GlobalTrie(yap_flags[TABLING_MODE_FLAG])) \ SetMode_GlobalTrie(TabEnt_mode(TAB_ENT)); \ TabEnt_subgoal_trie(TAB_ENT) = sg_node; \ TabEnt_hash_chain(TAB_ENT) = NULL; \ TabEnt_next(TAB_ENT) = GLOBAL_root_tab_ent; \ GLOBAL_root_tab_ent = TAB_ENT; \ } #define new_subgoal_frame(SG_FR, CODE) \ { register ans_node_ptr ans_node; \ new_answer_trie_node(ans_node, 0, 0, NULL, NULL, NULL); \ ALLOC_SUBGOAL_FRAME(SG_FR); \ INIT_LOCK(SgFr_lock(SG_FR)); \ SgFr_code(SG_FR) = CODE; \ SgFr_state(SG_FR) = ready; \ SgFr_hash_chain(SG_FR) = NULL; \ SgFr_answer_trie(SG_FR) = ans_node; \ SgFr_first_answer(SG_FR) = NULL; \ SgFr_last_answer(SG_FR) = NULL; \ } #define init_subgoal_frame(SG_FR) \ { SgFr_init_yapor_fields(SG_FR); \ SgFr_state(SG_FR) = evaluating; \ SgFr_next(SG_FR) = LOCAL_top_sg_fr; \ LOCAL_top_sg_fr = SG_FR; \ } #define new_dependency_frame(DEP_FR, DEP_ON_STACK, TOP_OR_FR, LEADER_CP, CONS_CP, SG_FR, NEXT) \ ALLOC_DEPENDENCY_FRAME(DEP_FR); \ INIT_LOCK(DepFr_lock(DEP_FR)); \ DepFr_init_yapor_fields(DEP_FR, DEP_ON_STACK, TOP_OR_FR); \ DepFr_backchain_cp(DEP_FR) = NULL; \ DepFr_leader_cp(DEP_FR) = NORM_CP(LEADER_CP); \ DepFr_cons_cp(DEP_FR) = NORM_CP(CONS_CP); \ /* start with TrNode_child(DepFr_last_answer(DEP_FR)) pointing to SgFr_first_answer(SG_FR) */ \ DepFr_last_answer(DEP_FR) = (ans_node_ptr) ((unsigned long int) (SG_FR) + \ (unsigned long int) (&SgFr_first_answer((sg_fr_ptr)DEP_FR)) - \ (unsigned long int) (&TrNode_child((ans_node_ptr)DEP_FR))); \ DepFr_next(DEP_FR) = NEXT #define new_suspension_frame(SUSP_FR, TOP_OR_FR_ON_STACK, TOP_DEP, TOP_SG, \ H_REG, B_REG, TR_REG, H_SIZE, B_SIZE, TR_SIZE) \ ALLOC_SUSPENSION_FRAME(SUSP_FR); \ SuspFr_top_or_fr_on_stack(SUSP_FR) = TOP_OR_FR_ON_STACK; \ SuspFr_top_dep_fr(SUSP_FR) = TOP_DEP; \ SuspFr_top_sg_fr(SUSP_FR) = TOP_SG; \ SuspFr_global_reg(SUSP_FR) = (void *) (H_REG); \ SuspFr_local_reg(SUSP_FR) = (void *) (B_REG); \ SuspFr_trail_reg(SUSP_FR) = (void *) (TR_REG); \ ALLOC_BLOCK(SuspFr_global_start(SUSP_FR), H_SIZE + B_SIZE + TR_SIZE, void *); \ SuspFr_local_start(SUSP_FR) = SuspFr_global_start(SUSP_FR) + H_SIZE; \ SuspFr_trail_start(SUSP_FR) = SuspFr_local_start(SUSP_FR) + B_SIZE; \ SuspFr_global_size(SUSP_FR) = H_SIZE; \ SuspFr_local_size(SUSP_FR) = B_SIZE; \ SuspFr_trail_size(SUSP_FR) = TR_SIZE; \ memcpy(SuspFr_global_start(SUSP_FR), SuspFr_global_reg(SUSP_FR), H_SIZE); \ memcpy(SuspFr_local_start(SUSP_FR), SuspFr_local_reg(SUSP_FR), B_SIZE); \ memcpy(SuspFr_trail_start(SUSP_FR), SuspFr_trail_reg(SUSP_FR), TR_SIZE) #define new_subgoal_trie_node(NODE, ENTRY, CHILD, PARENT, NEXT) \ ALLOC_SUBGOAL_TRIE_NODE(NODE); \ TrNode_entry(NODE) = ENTRY; \ TrNode_init_lock_field(NODE); \ TrNode_child(NODE) = CHILD; \ TrNode_parent(NODE) = PARENT; \ TrNode_next(NODE) = NEXT #define new_answer_trie_node(NODE, INSTR, ENTRY, CHILD, PARENT, NEXT) \ ALLOC_ANSWER_TRIE_NODE(NODE); \ TrNode_instr(NODE) = INSTR; \ TrNode_entry(NODE) = ENTRY; \ TrNode_init_lock_field(NODE); \ TrNode_child(NODE) = CHILD; \ TrNode_parent(NODE) = PARENT; \ TrNode_next(NODE) = NEXT #define new_global_trie_node(NODE, ENTRY, CHILD, PARENT, NEXT) \ ALLOC_GLOBAL_TRIE_NODE(NODE); \ TrNode_entry(NODE) = ENTRY; \ TrNode_child(NODE) = CHILD; \ TrNode_parent(NODE) = PARENT; \ TrNode_next(NODE) = NEXT #define new_subgoal_trie_hash(HASH, NUM_NODES, TAB_ENT) \ ALLOC_SUBGOAL_TRIE_HASH(HASH); \ Hash_mark(HASH) = SUBGOAL_TRIE_HASH_MARK; \ Hash_num_buckets(HASH) = BASE_HASH_BUCKETS; \ ALLOC_HASH_BUCKETS(Hash_buckets(HASH), BASE_HASH_BUCKETS); \ Hash_num_nodes(HASH) = NUM_NODES; \ SgHash_init_next_field(HASH, TAB_ENT) #define new_answer_trie_hash(HASH, NUM_NODES, SG_FR) \ ALLOC_ANSWER_TRIE_HASH(HASH); \ Hash_mark(HASH) = ANSWER_TRIE_HASH_MARK; \ Hash_num_buckets(HASH) = BASE_HASH_BUCKETS; \ ALLOC_HASH_BUCKETS(Hash_buckets(HASH), BASE_HASH_BUCKETS); \ Hash_num_nodes(HASH) = NUM_NODES; \ AnsHash_init_next_field(HASH, SG_FR) #define new_global_trie_hash(HASH, NUM_NODES) \ ALLOC_GLOBAL_TRIE_HASH(HASH); \ Hash_mark(HASH) = GLOBAL_TRIE_HASH_MARK; \ Hash_num_buckets(HASH) = BASE_HASH_BUCKETS; \ ALLOC_HASH_BUCKETS(Hash_buckets(HASH), BASE_HASH_BUCKETS); \ Hash_num_nodes(HASH) = NUM_NODES #ifdef LIMIT_TABLING #define insert_into_global_sg_fr_list(SG_FR) \ SgFr_previous(SG_FR) = GLOBAL_last_sg_fr; \ SgFr_next(SG_FR) = NULL; \ if (GLOBAL_first_sg_fr == NULL) \ GLOBAL_first_sg_fr = SG_FR; \ else \ SgFr_next(GLOBAL_last_sg_fr) = SG_FR; \ GLOBAL_last_sg_fr = SG_FR #define remove_from_global_sg_fr_list(SG_FR) \ if (SgFr_previous(SG_FR)) { \ if ((SgFr_next(SgFr_previous(SG_FR)) = SgFr_next(SG_FR)) != NULL) \ SgFr_previous(SgFr_next(SG_FR)) = SgFr_previous(SG_FR); \ else \ GLOBAL_last_sg_fr = SgFr_previous(SG_FR); \ } else { \ if ((GLOBAL_first_sg_fr = SgFr_next(SG_FR)) != NULL) \ SgFr_previous(SgFr_next(SG_FR)) = NULL; \ else \ GLOBAL_last_sg_fr = NULL; \ } \ if (GLOBAL_check_sg_fr == SG_FR) \ GLOBAL_check_sg_fr = SgFr_previous(SG_FR) #else #define insert_into_global_sg_fr_list(SG_FR) #define remove_from_global_sg_fr_list(SG_FR) #endif /* LIMIT_TABLING */ /****************************** ** Inline funcions ** ******************************/ static inline Int freeze_current_cp(void) { CACHE_REGS choiceptr freeze_cp = B; B_FZ = freeze_cp; H_FZ = freeze_cp->cp_h; TR_FZ = freeze_cp->cp_tr; B = B->cp_b; HB = B->cp_h; return (LOCAL_LocalBase - (ADDR)freeze_cp); } static inline void wake_frozen_cp(Int frozen_offset) { CACHE_REGS choiceptr frozen_cp = (choiceptr)(LOCAL_LocalBase - frozen_offset); restore_bindings(TR, frozen_cp->cp_tr); B = frozen_cp; TR = TR_FZ; TRAIL_LINK(B->cp_tr); return; } static inline void abolish_frozen_cps_until(Int frozen_offset) { CACHE_REGS choiceptr frozen_cp = (choiceptr)(LOCAL_LocalBase - frozen_offset); B_FZ = frozen_cp; H_FZ = frozen_cp->cp_h; TR_FZ = frozen_cp->cp_tr; return; } static inline void abolish_frozen_cps_all(void) { CACHE_REGS B_FZ = (choiceptr) LOCAL_LocalBase; H_FZ = (CELL *) LOCAL_GlobalBase; TR_FZ = (tr_fr_ptr) LOCAL_TrailBase; return; } static inline void adjust_freeze_registers(void) { CACHE_REGS B_FZ = DepFr_cons_cp(LOCAL_top_dep_fr); H_FZ = B_FZ->cp_h; TR_FZ = B_FZ->cp_tr; return; } static inline void mark_as_completed(sg_fr_ptr sg_fr) { LOCK(SgFr_lock(sg_fr)); SgFr_state(sg_fr) = complete; UNLOCK(SgFr_lock(sg_fr)); return; } static inline void unbind_variables(tr_fr_ptr unbind_tr, tr_fr_ptr end_tr) { CACHE_REGS TABLING_ERROR_CHECKING(unbind_variables, unbind_tr < end_tr); /* unbind loop */ while (unbind_tr != end_tr) { CELL ref = (CELL) TrailTerm(--unbind_tr); /* check for global or local variables */ if (IsVarTerm(ref)) { /* unbind variable */ RESET_VARIABLE(ref); } else if (IsPairTerm(ref)) { ref = (CELL) RepPair(ref); if (IN_BETWEEN(LOCAL_TrailBase, ref, LOCAL_TrailTop)) { /* avoid frozen segments */ unbind_tr = (tr_fr_ptr) ref; TABLING_ERROR_CHECKING(unbind_variables, unbind_tr > (tr_fr_ptr) LOCAL_TrailTop); TABLING_ERROR_CHECKING(unbind_variables, unbind_tr < end_tr); } #ifdef MULTI_ASSIGNMENT_VARIABLES } else { CELL *aux_ptr = RepAppl(ref); --unbind_tr; Term aux_val = TrailVal(unbind_tr); *aux_ptr = aux_val; #endif /* MULTI_ASSIGNMENT_VARIABLES */ } } return; } static inline void rebind_variables(tr_fr_ptr rebind_tr, tr_fr_ptr end_tr) { CACHE_REGS TABLING_ERROR_CHECKING(rebind_variables, rebind_tr < end_tr); /* rebind loop */ Yap_NEW_MAHASH((ma_h_inner_struct *)H PASS_REGS); while (rebind_tr != end_tr) { CELL ref = (CELL) TrailTerm(--rebind_tr); /* check for global or local variables */ if (IsVarTerm(ref)) { /* rebind variable */ *((CELL *)ref) = TrailVal(rebind_tr); } else if (IsPairTerm(ref)) { ref = (CELL) RepPair(ref); if (IN_BETWEEN(LOCAL_TrailBase, ref, LOCAL_TrailTop)) { /* avoid frozen segments */ rebind_tr = (tr_fr_ptr) ref; TABLING_ERROR_CHECKING(rebind_variables, rebind_tr > (tr_fr_ptr) LOCAL_TrailTop); TABLING_ERROR_CHECKING(rebind_variables, rebind_tr < end_tr); } #ifdef MULTI_ASSIGNMENT_VARIABLES } else { CELL *cell_ptr = RepAppl(ref); if (!Yap_lookup_ma_var(cell_ptr PASS_REGS)) { /* first time we found the variable, let's put the new value */ *cell_ptr = TrailVal(rebind_tr); } --rebind_tr; #endif /* MULTI_ASSIGNMENT_VARIABLES */ } } return; } static inline void restore_bindings(tr_fr_ptr unbind_tr, tr_fr_ptr rebind_tr) { CACHE_REGS CELL ref; tr_fr_ptr end_tr; TABLING_ERROR_CHECKING(restore_variables, unbind_tr < rebind_tr); end_tr = rebind_tr; Yap_NEW_MAHASH((ma_h_inner_struct *)H PASS_REGS); while (unbind_tr != end_tr) { /* unbind loop */ while (unbind_tr > end_tr) { ref = (CELL) TrailTerm(--unbind_tr); if (IsVarTerm(ref)) { RESET_VARIABLE(ref); } else if (IsPairTerm(ref)) { ref = (CELL) RepPair(ref); if (IN_BETWEEN(LOCAL_TrailBase, ref, LOCAL_TrailTop)) { /* avoid frozen segments */ unbind_tr = (tr_fr_ptr) ref; TABLING_ERROR_CHECKING(restore_variables, unbind_tr > (tr_fr_ptr) LOCAL_TrailTop); } #ifdef MULTI_ASSIGNMENT_VARIABLES } else if (IsApplTerm(ref)) { CELL *pt = RepAppl(ref); /* AbsAppl means */ /* multi-assignment variable */ /* so that the upper cell is the old value */ --unbind_tr; if (!Yap_lookup_ma_var(pt PASS_REGS)) { pt[0] = TrailVal(unbind_tr); } #endif /* MULTI_ASSIGNMENT_VARIABLES */ } } /* look for end */ while (unbind_tr < end_tr) { ref = (CELL) TrailTerm(--end_tr); if (IsPairTerm(ref)) { ref = (CELL) RepPair(ref); if (IN_BETWEEN(LOCAL_TrailBase, ref, LOCAL_TrailTop)) { /* avoid frozen segments */ end_tr = (tr_fr_ptr) ref; TABLING_ERROR_CHECKING(restore_variables, end_tr > (tr_fr_ptr) LOCAL_TrailTop); } } } } /* rebind loop */ while (rebind_tr != end_tr) { ref = (CELL) TrailTerm(--rebind_tr); if (IsVarTerm(ref)) { *((CELL *)ref) = TrailVal(rebind_tr); } else if (IsPairTerm(ref)) { ref = (CELL) RepPair(ref); if (IN_BETWEEN(LOCAL_TrailBase, ref, LOCAL_TrailTop)) { /* avoid frozen segments */ rebind_tr = (tr_fr_ptr) ref; TABLING_ERROR_CHECKING(restore_variables, rebind_tr > (tr_fr_ptr) LOCAL_TrailTop); TABLING_ERROR_CHECKING(restore_variables, rebind_tr < end_tr); } #ifdef MULTI_ASSIGNMENT_VARIABLES } else { CELL *cell_ptr = RepAppl(ref); /* first time we found the variable, let's put the new value */ *cell_ptr = TrailVal(rebind_tr); --rebind_tr; #endif /* MULTI_ASSIGNMENT_VARIABLES */ } } return; } static inline CELL *expand_auxiliary_stack(CELL *stack) { CACHE_REGS void *old_top = LOCAL_TrailTop; INFORMATION_MESSAGE("Expanding trail in 64 Kbytes"); if (! Yap_growtrail(K64, TRUE)) { /* TRUE means 'contiguous_only' */ Yap_Error(OUT_OF_TRAIL_ERROR, TermNil, "stack full (STACK_CHECK_EXPAND)"); return NULL; } else { UInt diff = (void *)LOCAL_TrailTop - old_top; CELL *new_stack = (CELL *)((void *)stack + diff); memmove((void *)new_stack, (void *)stack, old_top - (void *)stack); return new_stack; } } static inline void abolish_incomplete_subgoals(choiceptr prune_cp) { CACHE_REGS #ifdef YAPOR if (EQUAL_OR_YOUNGER_CP(GetOrFr_node(LOCAL_top_susp_or_fr), prune_cp)) pruning_over_tabling_data_structures(); #endif /* YAPOR */ if (EQUAL_OR_YOUNGER_CP(DepFr_cons_cp(LOCAL_top_dep_fr), prune_cp)) { #ifdef YAPOR if (GLOBAL_parallel_execution_mode) pruning_over_tabling_data_structures(); #endif /* YAPOR */ do { dep_fr_ptr dep_fr = LOCAL_top_dep_fr; LOCAL_top_dep_fr = DepFr_next(dep_fr); FREE_DEPENDENCY_FRAME(dep_fr); } while (EQUAL_OR_YOUNGER_CP(DepFr_cons_cp(LOCAL_top_dep_fr), prune_cp)); adjust_freeze_registers(); } while (LOCAL_top_sg_fr && EQUAL_OR_YOUNGER_CP(SgFr_gen_cp(LOCAL_top_sg_fr), prune_cp)) { sg_fr_ptr sg_fr; #ifdef YAPOR if (GLOBAL_parallel_execution_mode) pruning_over_tabling_data_structures(); #endif /* YAPOR */ sg_fr = LOCAL_top_sg_fr; LOCAL_top_sg_fr = SgFr_next(sg_fr); LOCK(SgFr_lock(sg_fr)); if (SgFr_first_answer(sg_fr) == NULL) { /* no answers --> ready */ SgFr_state(sg_fr) = ready; UNLOCK(SgFr_lock(sg_fr)); } else if (SgFr_first_answer(sg_fr) == SgFr_answer_trie(sg_fr)) { /* yes answer --> complete */ #ifndef TABLING_EARLY_COMPLETION /* with early completion, at this point the subgoal should be already completed */ SgFr_state(sg_fr) = complete; #endif /* TABLING_EARLY_COMPLETION */ UNLOCK(SgFr_lock(sg_fr)); } else { /* answers --> incomplete/ready */ #ifdef INCOMPLETE_TABLING SgFr_state(sg_fr) = incomplete; UNLOCK(SgFr_lock(sg_fr)); #else ans_node_ptr node; SgFr_state(sg_fr) = ready; free_answer_hash_chain(SgFr_hash_chain(sg_fr)); SgFr_hash_chain(sg_fr) = NULL; SgFr_first_answer(sg_fr) = NULL; SgFr_last_answer(sg_fr) = NULL; node = TrNode_child(SgFr_answer_trie(sg_fr)); TrNode_child(SgFr_answer_trie(sg_fr)) = NULL; UNLOCK(SgFr_lock(sg_fr)); free_answer_trie(node, TRAVERSE_MODE_NORMAL, TRAVERSE_POSITION_FIRST); #endif /* INCOMPLETE_TABLING */ } #ifdef LIMIT_TABLING insert_into_global_sg_fr_list(sg_fr); #endif /* LIMIT_TABLING */ } return; } #ifdef YAPOR static inline void pruning_over_tabling_data_structures(void) { Yap_Error(INTERNAL_ERROR, TermNil, "pruning over tabling data structures"); return; } static inline void collect_suspension_frames(or_fr_ptr or_fr) { CACHE_REGS int depth; or_fr_ptr *susp_ptr; OPTYAP_ERROR_CHECKING(collect_suspension_frames, IS_UNLOCKED(or_fr)); OPTYAP_ERROR_CHECKING(collect_suspension_frames, OrFr_suspensions(or_fr) == NULL); /* order collected suspension frames by depth */ depth = OrFr_depth(or_fr); susp_ptr = & LOCAL_top_susp_or_fr; while (OrFr_depth(*susp_ptr) > depth) susp_ptr = & OrFr_nearest_suspnode(*susp_ptr); OrFr_nearest_suspnode(or_fr) = *susp_ptr; *susp_ptr = or_fr; return; } static inline #ifdef TIMESTAMP_CHECK susp_fr_ptr suspension_frame_to_resume(or_fr_ptr susp_or_fr, long timestamp) { #else susp_fr_ptr suspension_frame_to_resume(or_fr_ptr susp_or_fr) { #endif /* TIMESTAMP_CHECK */ choiceptr top_cp; susp_fr_ptr *susp_ptr, susp_fr; dep_fr_ptr dep_fr; top_cp = GetOrFr_node(susp_or_fr); susp_ptr = & OrFr_suspensions(susp_or_fr); susp_fr = *susp_ptr; while (susp_fr) { dep_fr = SuspFr_top_dep_fr(susp_fr); do { if (TrNode_child(DepFr_last_answer(dep_fr))) { /* unconsumed answers in susp_fr */ *susp_ptr = SuspFr_next(susp_fr); return susp_fr; } #ifdef TIMESTAMP_CHECK DepFr_timestamp(dep_fr) = timestamp; #endif /* TIMESTAMP_CHECK */ dep_fr = DepFr_next(dep_fr); #ifdef TIMESTAMP_CHECK } while (timestamp > DepFr_timestamp(dep_fr) && YOUNGER_CP(DepFr_cons_cp(dep_fr), top_cp)); #else } while (YOUNGER_CP(DepFr_cons_cp(dep_fr), top_cp)); #endif /* TIMESTAMP_CHECK */ susp_ptr = & SuspFr_next(susp_fr); susp_fr = *susp_ptr; } /* no suspension frame with unconsumed answers */ return NULL; } #endif /* YAPOR */ #ifdef TABLING_INNER_CUTS static inline void CUT_store_tg_answer(or_fr_ptr or_frame, ans_node_ptr ans_node, choiceptr gen_cp, int ltt) { tg_sol_fr_ptr tg_sol_fr, *solution_ptr, next, ltt_next; tg_ans_fr_ptr tg_ans_fr; solution_ptr = & OrFr_tg_solutions(or_frame); while (*solution_ptr && YOUNGER_CP(gen_cp, TgSolFr_gen_cp(*solution_ptr))) { solution_ptr = & TgSolFr_next(*solution_ptr); } if (*solution_ptr && gen_cp == TgSolFr_gen_cp(*solution_ptr)) { if (ltt >= TgSolFr_ltt(*solution_ptr)) { while (*solution_ptr && ltt > TgSolFr_ltt(*solution_ptr)) { solution_ptr = & TgSolFr_ltt_next(*solution_ptr); } if (*solution_ptr && ltt == TgSolFr_ltt(*solution_ptr)) { tg_ans_fr = TgSolFr_first(*solution_ptr); if (TgAnsFr_free_slot(tg_ans_fr) == TG_ANSWER_SLOTS) { ALLOC_TG_ANSWER_FRAME(tg_ans_fr); TgAnsFr_free_slot(tg_ans_fr) = 1; TgAnsFr_answer(tg_ans_fr, 0) = ans_node; TgAnsFr_next(tg_ans_fr) = TgSolFr_first(*solution_ptr); TgSolFr_first(*solution_ptr) = tg_ans_fr; } else { TgAnsFr_answer(tg_ans_fr, TgAnsFr_free_slot(tg_ans_fr)) = ans_node; TgAnsFr_free_slot(tg_ans_fr)++; } return; } ltt_next = *solution_ptr; next = NULL; } else { ltt_next = *solution_ptr; next = TgSolFr_next(*solution_ptr); } } else { ltt_next = NULL; next = *solution_ptr; } ALLOC_TG_ANSWER_FRAME(tg_ans_fr); TgAnsFr_free_slot(tg_ans_fr) = 1; TgAnsFr_answer(tg_ans_fr, 0) = ans_node; TgAnsFr_next(tg_ans_fr) = NULL; ALLOC_TG_SOLUTION_FRAME(tg_sol_fr); TgSolFr_gen_cp(tg_sol_fr) = gen_cp; TgSolFr_ltt(tg_sol_fr) = ltt; TgSolFr_first(tg_sol_fr) = tg_ans_fr; TgSolFr_last(tg_sol_fr) = tg_ans_fr; TgSolFr_ltt_next(tg_sol_fr) = ltt_next; TgSolFr_next(tg_sol_fr) = next; *solution_ptr = tg_sol_fr; return; } static inline tg_sol_fr_ptr CUT_store_tg_answers(or_fr_ptr or_frame, tg_sol_fr_ptr new_solution, int ltt) { tg_sol_fr_ptr *old_solution_ptr, next_new_solution; choiceptr node, gen_cp; old_solution_ptr = & OrFr_tg_solutions(or_frame); node = GetOrFr_node(or_frame); while (new_solution && YOUNGER_CP(node, TgSolFr_gen_cp(new_solution))) { next_new_solution = TgSolFr_next(new_solution); gen_cp = TgSolFr_gen_cp(new_solution); while (*old_solution_ptr && YOUNGER_CP(gen_cp, TgSolFr_gen_cp(*old_solution_ptr))) { old_solution_ptr = & TgSolFr_next(*old_solution_ptr); } if (*old_solution_ptr && gen_cp == TgSolFr_gen_cp(*old_solution_ptr)) { if (ltt >= TgSolFr_ltt(*old_solution_ptr)) { tg_sol_fr_ptr *ltt_next_old_solution_ptr; ltt_next_old_solution_ptr = old_solution_ptr; while (*ltt_next_old_solution_ptr && ltt > TgSolFr_ltt(*ltt_next_old_solution_ptr)) { ltt_next_old_solution_ptr = & TgSolFr_ltt_next(*ltt_next_old_solution_ptr); } if (*ltt_next_old_solution_ptr && ltt == TgSolFr_ltt(*ltt_next_old_solution_ptr)) { TgAnsFr_next(TgSolFr_last(*ltt_next_old_solution_ptr)) = TgSolFr_first(new_solution); TgSolFr_last(*ltt_next_old_solution_ptr) = TgSolFr_last(new_solution); FREE_TG_SOLUTION_FRAME(new_solution); } else { TgSolFr_ltt(new_solution) = ltt; TgSolFr_ltt_next(new_solution) = *ltt_next_old_solution_ptr; TgSolFr_next(new_solution) = NULL; *ltt_next_old_solution_ptr = new_solution; } } else { TgSolFr_ltt(new_solution) = ltt; TgSolFr_ltt_next(new_solution) = *old_solution_ptr; TgSolFr_next(new_solution) = TgSolFr_next(*old_solution_ptr); *old_solution_ptr = new_solution; } } else { TgSolFr_ltt(new_solution) = ltt; TgSolFr_ltt_next(new_solution) = NULL; TgSolFr_next(new_solution) = *old_solution_ptr; *old_solution_ptr = new_solution; } old_solution_ptr = & TgSolFr_next(*old_solution_ptr); new_solution = next_new_solution; } return new_solution; } static inline void CUT_validate_tg_answers(tg_sol_fr_ptr valid_solutions) { tg_ans_fr_ptr valid_answers, free_answer; tg_sol_fr_ptr ltt_valid_solutions, free_solution; ans_node_ptr first_answer, last_answer, ans_node; sg_fr_ptr sg_fr; int slots; while (valid_solutions) { first_answer = last_answer = NULL; #ifdef DETERMINISTIC_TABLING if (IS_DET_GEN_CP(TgSolFr_gen_cp(valid_solutions))) sg_fr = DET_GEN_CP(TgSolFr_gen_cp(valid_solutions))->cp_sg_fr; else #endif /* DETERMINISTIC_TABLING */ sg_fr = GEN_CP(TgSolFr_gen_cp(valid_solutions))->cp_sg_fr; ltt_valid_solutions = valid_solutions; valid_solutions = TgSolFr_next(valid_solutions); do { valid_answers = TgSolFr_first(ltt_valid_solutions); do { slots = TgAnsFr_free_slot(valid_answers); do { ans_node = TgAnsFr_answer(valid_answers, --slots); #if defined(TABLE_LOCK_AT_ENTRY_LEVEL) LOCK(SgFr_lock(sg_fr)); #elif defined(TABLE_LOCK_AT_NODE_LEVEL) LOCK(TrNode_lock(ans_node)); #elif defined(TABLE_LOCK_AT_WRITE_LEVEL) LOCK_TABLE(ans_node); #endif /* TABLE_LOCK_LEVEL */ if (! IS_ANSWER_LEAF_NODE(ans_node)) { TAG_AS_ANSWER_LEAF_NODE(ans_node); if (first_answer == NULL) first_answer = ans_node; else TrNode_child(last_answer) = ans_node; last_answer = ans_node; } #if defined(TABLE_LOCK_AT_ENTRY_LEVEL) UNLOCK(SgFr_lock(sg_fr)); #elif defined(TABLE_LOCK_AT_NODE_LEVEL) UNLOCK(TrNode_lock(ans_node)); #elif defined(TABLE_LOCK_AT_WRITE_LEVEL) UNLOCK_TABLE(ans_node); #endif /* TABLE_LOCK_LEVEL */ } while (slots); free_answer = valid_answers; valid_answers = TgAnsFr_next(valid_answers); FREE_TG_ANSWER_FRAME(free_answer); } while (valid_answers); free_solution = ltt_valid_solutions; ltt_valid_solutions = TgSolFr_ltt_next(ltt_valid_solutions); FREE_TG_SOLUTION_FRAME(free_solution); } while (ltt_valid_solutions); if (first_answer) { LOCK(SgFr_lock(sg_fr)); if (SgFr_first_answer(sg_fr) == NULL) { SgFr_first_answer(sg_fr) = first_answer; } else { TrNode_child(SgFr_last_answer(sg_fr)) = first_answer; } SgFr_last_answer(sg_fr) = last_answer; UNLOCK(SgFr_lock(sg_fr)); } } return; } static inline void CUT_join_tg_solutions(tg_sol_fr_ptr *old_solution_ptr, tg_sol_fr_ptr new_solution) { tg_sol_fr_ptr next_old_solution, next_new_solution; choiceptr gen_cp; do { gen_cp = TgSolFr_gen_cp(new_solution); while (*old_solution_ptr && YOUNGER_CP(gen_cp, TgSolFr_gen_cp(*old_solution_ptr))) { old_solution_ptr = & TgSolFr_next(*old_solution_ptr); } if (*old_solution_ptr) { next_old_solution = *old_solution_ptr; *old_solution_ptr = new_solution; CUT_join_solution_frame_tg_answers(new_solution); if (gen_cp == TgSolFr_gen_cp(next_old_solution)) { tg_sol_fr_ptr free_solution; TgAnsFr_next(TgSolFr_last(new_solution)) = TgSolFr_first(next_old_solution); TgSolFr_last(new_solution) = TgSolFr_last(next_old_solution); free_solution = next_old_solution; next_old_solution = TgSolFr_next(next_old_solution); FREE_TG_SOLUTION_FRAME(free_solution); if (! next_old_solution) { if ((next_new_solution = TgSolFr_next(new_solution))) { CUT_join_solution_frames_tg_answers(next_new_solution); } return; } } gen_cp = TgSolFr_gen_cp(next_old_solution); next_new_solution = TgSolFr_next(new_solution); while (next_new_solution && YOUNGER_CP(gen_cp, TgSolFr_gen_cp(next_new_solution))) { new_solution = next_new_solution; next_new_solution = TgSolFr_next(new_solution); CUT_join_solution_frame_tg_answers(new_solution); } old_solution_ptr = & TgSolFr_next(new_solution); TgSolFr_next(new_solution) = next_old_solution; new_solution = next_new_solution; } else { *old_solution_ptr = new_solution; CUT_join_solution_frames_tg_answers(new_solution); return; } } while (new_solution); return; } static inline void CUT_join_solution_frame_tg_answers(tg_sol_fr_ptr join_solution) { tg_sol_fr_ptr next_solution; while ((next_solution = TgSolFr_ltt_next(join_solution))) { TgAnsFr_next(TgSolFr_last(join_solution)) = TgSolFr_first(next_solution); TgSolFr_last(join_solution) = TgSolFr_last(next_solution); TgSolFr_ltt_next(join_solution) = TgSolFr_ltt_next(next_solution); FREE_TG_SOLUTION_FRAME(next_solution); } return; } static inline void CUT_join_solution_frames_tg_answers(tg_sol_fr_ptr join_solution) { do { CUT_join_solution_frame_tg_answers(join_solution); join_solution = TgSolFr_next(join_solution); } while (join_solution); return; } static inline void CUT_free_tg_solution_frame(tg_sol_fr_ptr solution) { tg_ans_fr_ptr current_answer, next_answer; current_answer = TgSolFr_first(solution); do { next_answer = TgAnsFr_next(current_answer); FREE_TG_ANSWER_FRAME(current_answer); current_answer = next_answer; } while (current_answer); FREE_TG_SOLUTION_FRAME(solution); return; } static inline void CUT_free_tg_solution_frames(tg_sol_fr_ptr current_solution) { tg_sol_fr_ptr ltt_solution, next_solution; while (current_solution) { ltt_solution = TgSolFr_ltt_next(current_solution); while (ltt_solution) { next_solution = TgSolFr_ltt_next(ltt_solution); CUT_free_tg_solution_frame(ltt_solution); ltt_solution = next_solution; } next_solution = TgSolFr_next(current_solution); CUT_free_tg_solution_frame(current_solution); current_solution = next_solution; } return; } static inline tg_sol_fr_ptr CUT_prune_tg_solution_frames(tg_sol_fr_ptr solutions, int ltt) { tg_sol_fr_ptr ltt_next_solution, return_solution; if (! solutions) return NULL; return_solution = CUT_prune_tg_solution_frames(TgSolFr_next(solutions), ltt); while (solutions && ltt > TgSolFr_ltt(solutions)) { ltt_next_solution = TgSolFr_ltt_next(solutions); CUT_free_tg_solution_frame(solutions); solutions = ltt_next_solution; } if (solutions) { TgSolFr_next(solutions) = return_solution; return solutions; } else { return return_solution; } } #endif /* TABLING_INNER_CUTS */