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yap-6.3/OPTYap/tab.structs.h
2011-11-09 11:00:31 +00:00

370 lines
14 KiB
C

/************************************************************************
** **
** 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 **
** **
************************************************************************/
/************************************************************************
** Table Space Data Structures **
************************************************************************/
/**************************
** table_entry **
**************************/
typedef struct table_entry {
#if defined(YAPOR) || defined(THREADS)
lockvar lock;
#endif /* YAPOR || THREADS */
struct pred_entry *pred_entry;
Atom pred_atom;
int pred_arity;
short pred_flags;
short execution_mode; /* combines yap_flags with pred_flags */
#ifdef MODE_DIRECTED_TABLING
int* mode_directed_array;
#endif /*MODE_DIRECTED_TABLING*/
struct subgoal_trie_node *subgoal_trie;
struct subgoal_trie_hash *hash_chain;
struct table_entry *next;
} *tab_ent_ptr;
#define TabEnt_lock(X) ((X)->lock)
#define TabEnt_pe(X) ((X)->pred_entry)
#define TabEnt_atom(X) ((X)->pred_atom)
#define TabEnt_arity(X) ((X)->pred_arity)
#define TabEnt_flags(X) ((X)->pred_flags)
#define TabEnt_mode(X) ((X)->execution_mode)
#define TabEnt_mode_directed(X) ((X)->mode_directed_array)
#define TabEnt_subgoal_trie(X) ((X)->subgoal_trie)
#define TabEnt_hash_chain(X) ((X)->hash_chain)
#define TabEnt_next(X) ((X)->next)
/***********************************************************************
** global_trie_node, subgoal_trie_node and answer_trie_node **
***********************************************************************/
typedef struct subgoal_trie_node {
Term entry;
struct subgoal_trie_node *parent;
struct subgoal_trie_node *child;
struct subgoal_trie_node *next;
#ifdef TABLE_LOCK_AT_NODE_LEVEL
lockvar lock;
#endif /* TABLE_LOCK_AT_NODE_LEVEL */
} *sg_node_ptr;
typedef struct answer_trie_node {
OPCODE trie_instruction; /* u.opc */
#ifdef YAPOR
int or_arg; /* u.Otapl.or_arg */
#endif /* YAPOR */
Term entry;
struct answer_trie_node *parent;
struct answer_trie_node *child;
struct answer_trie_node *next;
#ifdef TABLE_LOCK_AT_NODE_LEVEL
lockvar lock;
#endif /* TABLE_LOCK_AT_NODE_LEVEL */
} *ans_node_ptr;
typedef struct global_trie_node {
Term entry;
struct global_trie_node *parent;
struct global_trie_node *child;
struct global_trie_node *next;
#ifdef TABLE_LOCK_AT_NODE_LEVEL
lockvar lock;
#endif /* TABLE_LOCK_AT_NODE_LEVEL */
} *gt_node_ptr;
#define TrNode_instr(X) ((X)->trie_instruction)
#define TrNode_or_arg(X) ((X)->or_arg)
#define TrNode_entry(X) ((X)->entry)
#define TrNode_parent(X) ((X)->parent)
#define TrNode_child(X) ((X)->child)
#define TrNode_sg_fr(X) ((X)->child)
#define TrNode_next(X) ((X)->next)
#define TrNode_lock(X) ((X)->lock)
/***********************************************************************
** global_trie_hash, subgoal_trie_hash and answer_trie_hash **
***********************************************************************/
typedef struct subgoal_trie_hash {
/* the first field is used for compatibility **
** with the subgoal_trie_node data structure */
Term mark;
int number_of_buckets;
struct subgoal_trie_node **buckets;
int number_of_nodes;
struct subgoal_trie_hash *next;
} *sg_hash_ptr;
typedef struct answer_trie_hash {
/* the first field is used for compatibility **
** with the answer_trie_node data structure */
OPCODE mark;
int number_of_buckets;
struct answer_trie_node **buckets;
int number_of_nodes;
#ifdef MODE_DIRECTED_TABLING
struct answer_trie_hash *previous;
#endif /*MODE_DIRECTED_TABLING*/
struct answer_trie_hash *next;
} *ans_hash_ptr;
typedef struct global_trie_hash {
/* the first field is used for compatibility **
** with the global_trie_node data structure */
Term mark;
int number_of_buckets;
struct global_trie_node **buckets;
int number_of_nodes;
#ifdef USE_PAGES_MALLOC
struct global_trie_hash *next;
#endif /* USE_PAGES_MALLOC */
} *gt_hash_ptr;
#define Hash_mark(X) ((X)->mark)
#define Hash_num_buckets(X) ((X)->number_of_buckets)
#define Hash_seed(X) ((X)->number_of_buckets - 1)
#define Hash_buckets(X) ((X)->buckets)
#define Hash_bucket(X,N) ((X)->buckets + N)
#define Hash_num_nodes(X) ((X)->number_of_nodes)
#define Hash_previous(X) ((X)->previous)
#define Hash_next(X) ((X)->next)
/************************************************************************
** Execution Data Structures **
************************************************************************/
/****************************
** choice points **
****************************/
struct generator_choicept {
struct choicept cp;
struct dependency_frame *cp_dep_fr; /* always NULL if batched scheduling */
struct subgoal_frame *cp_sg_fr;
#ifdef LOW_LEVEL_TRACER
struct pred_entry *cp_pred_entry;
#endif /* LOW_LEVEL_TRACER */
};
#ifdef DETERMINISTIC_TABLING
struct deterministic_generator_choicept {
struct deterministic_choicept cp;
struct subgoal_frame *cp_sg_fr;
#ifdef LOW_LEVEL_TRACER
struct pred_entry *cp_pred_entry;
#endif /* LOW_LEVEL_TRACER */
};
#endif /* DETERMINISTIC_TABLING */
struct consumer_choicept {
struct choicept cp;
struct dependency_frame *cp_dep_fr;
#ifdef LOW_LEVEL_TRACER
struct pred_entry *cp_pred_entry;
#endif /* LOW_LEVEL_TRACER */
};
struct loader_choicept {
struct choicept cp;
struct answer_trie_node *cp_last_answer;
#ifdef LOW_LEVEL_TRACER
struct pred_entry *cp_pred_entry;
#endif /* LOW_LEVEL_TRACER */
};
/****************************
** subgoal_frame **
****************************/
typedef struct subgoal_frame {
#if defined(YAPOR) || defined(THREADS)
lockvar lock;
#endif /* YAPOR || THREADS */
#ifdef YAPOR
int generator_worker;
struct or_frame *top_or_frame_on_generator_branch;
#endif /* YAPOR */
yamop *code_of_subgoal;
enum { /* do not change order !!! */
incomplete = 0, /* INCOMPLETE_TABLING */
ready = 1,
evaluating = 2,
complete = 3,
complete_in_use = 4, /* LIMIT_TABLING */
compiled = 5,
compiled_in_use = 6 /* LIMIT_TABLING */
} state_flag;
choiceptr generator_choice_point;
struct answer_trie_hash *hash_chain;
struct answer_trie_node *answer_trie;
struct answer_trie_node *first_answer;
struct answer_trie_node *last_answer;
#ifdef INCOMPLETE_TABLING
struct answer_trie_node *try_answer;
#endif /* INCOMPLETE_TABLING */
#ifdef MODE_DIRECTED_TABLING
struct answer_trie_node *invalid_chain;
int* mode_directed_array;
#endif /*MODE_DIRECTED_TABLING*/
#ifdef LIMIT_TABLING
struct subgoal_frame *previous;
#endif /* LIMIT_TABLING */
struct subgoal_frame *next;
} *sg_fr_ptr;
#define SgFr_lock(X) ((X)->lock)
#define SgFr_gen_worker(X) ((X)->generator_worker)
#define SgFr_gen_top_or_fr(X) ((X)->top_or_frame_on_generator_branch)
#define SgFr_code(X) ((X)->code_of_subgoal)
#define SgFr_tab_ent(X) (((X)->code_of_subgoal)->u.Otapl.te)
#define SgFr_arity(X) (((X)->code_of_subgoal)->u.Otapl.s)
#define SgFr_state(X) ((X)->state_flag)
#define SgFr_gen_cp(X) ((X)->generator_choice_point)
#define SgFr_hash_chain(X) ((X)->hash_chain)
#define SgFr_answer_trie(X) ((X)->answer_trie)
#define SgFr_first_answer(X) ((X)->first_answer)
#define SgFr_last_answer(X) ((X)->last_answer)
#define SgFr_try_answer(X) ((X)->try_answer)
#define SgFr_invalid_chain(X) ((X)->invalid_chain)
#define SgFr_mode_directed(X) ((X)->mode_directed_array)
#define SgFr_previous(X) ((X)->previous)
#define SgFr_next(X) ((X)->next)
/**************************************************************************************************
SgFr_lock: spin-lock to modify the frame fields.
SgFr_gen_worker: the id of the worker that had allocated the frame.
SgFr_gen_top_or_fr: a pointer to the top or-frame in the generator choice point branch.
When the generator choice point is shared the pointer is updated
to its or-frame. It is used to find the direct dependency node for
consumer nodes in other workers branches.
SgFr_code initial instruction of the subgoal's compiled code.
SgFr_tab_ent a pointer to the correspondent table entry.
SgFr_arity the arity of the subgoal.
SgFr_state: a flag that indicates the subgoal state.
SgFr_gen_cp: a pointer to the correspondent generator choice point.
SgFr_hash_chain: a pointer to the first answer_trie_hash struct for the subgoal in hand.
SgFr_answer_trie: a pointer to the top answer trie node.
It is used to check for/insert new answers.
SgFr_first_answer: a pointer to the bottom answer trie node of the first available answer.
SgFr_last_answer: a pointer to the bottom answer trie node of the last available answer.
SgFr_try_answer: a pointer to the bottom answer trie node of the last tried answer.
It is used when a subgoal was not completed during the previous evaluation.
Not completed subgoals start by trying the answers already found.
SgFr_invalid_chain: a pointer to the first invalid leaf node when using mode directed tabling.
SgFr_mode_directed: a pointer to the mode directed array.
SgFr_previous: a pointer to the previous subgoal frame on the chain.
SgFr_next: a pointer to the next subgoal frame on the chain.
**************************************************************************************************/
/*******************************
** dependency_frame **
*******************************/
typedef struct dependency_frame {
#if defined(YAPOR) || defined(THREADS)
lockvar lock;
#endif /* YAPOR || THREADS */
#ifdef YAPOR
int leader_dependency_is_on_stack;
struct or_frame *top_or_frame;
#ifdef TIMESTAMP_CHECK
long timestamp;
#endif /* TIMESTAMP_CHECK */
#endif /* YAPOR */
choiceptr backchain_choice_point;
choiceptr leader_choice_point;
choiceptr consumer_choice_point;
struct answer_trie_node *last_consumed_answer;
struct dependency_frame *next;
} *dep_fr_ptr;
#define DepFr_lock(X) ((X)->lock)
#define DepFr_leader_dep_is_on_stack(X) ((X)->leader_dependency_is_on_stack)
#define DepFr_top_or_fr(X) ((X)->top_or_frame)
#define DepFr_timestamp(X) ((X)->timestamp)
#define DepFr_backchain_cp(X) ((X)->backchain_choice_point)
#define DepFr_leader_cp(X) ((X)->leader_choice_point)
#define DepFr_cons_cp(X) ((X)->consumer_choice_point)
#define DepFr_last_answer(X) ((X)->last_consumed_answer)
#define DepFr_next(X) ((X)->next)
/*******************************************************************************************************
DepFr_lock: lock variable to modify the frame fields.
DepFr_leader_dep_is_on_stack: the generator choice point for the correspondent consumer choice point
is on the worker's stack (FALSE/TRUE).
DepFr_top_or_fr: a pointer to the top or-frame in the consumer choice point branch.
When the consumer choice point is shared the pointer is updated to
its or-frame. It is used to update the LOCAL_top_or_fr when a worker
backtracks through answers.
DepFr_timestamp: a timestamp used to optimize the search for suspension frames to be
resumed.
DepFr_backchain_cp: a pointer to the nearest choice point with untried alternatives.
It is used to efficiently return (backtrack) to the leader node where
we perform the last backtracking through answers operation.
DepFr_leader_cp: a pointer to the leader choice point.
DepFr_cons_cp: a pointer to the correspondent consumer choice point.
DepFr_last_answer: a pointer to the last consumed answer.
DepFr_next: a pointer to the next dependency frame on the chain.
*******************************************************************************************************/
/*******************************
** suspension_frame **
*******************************/
#ifdef YAPOR
typedef struct suspension_frame {
struct or_frame *top_or_frame_on_stack;
struct dependency_frame *top_dependency_frame;
struct subgoal_frame *top_subgoal_frame;
struct suspended_block {
void *resume_register;
void *block_start;
long block_size;
} global_block, local_block, trail_block;
struct suspension_frame *next;
} *susp_fr_ptr;
#endif /* YAPOR */
#define SuspFr_top_or_fr_on_stack(X) ((X)->top_or_frame_on_stack)
#define SuspFr_top_dep_fr(X) ((X)->top_dependency_frame)
#define SuspFr_top_sg_fr(X) ((X)->top_subgoal_frame)
#define SuspFr_global_reg(X) ((X)->global_block.resume_register)
#define SuspFr_global_start(X) ((X)->global_block.block_start)
#define SuspFr_global_size(X) ((X)->global_block.block_size)
#define SuspFr_local_reg(X) ((X)->local_block.resume_register)
#define SuspFr_local_start(X) ((X)->local_block.block_start)
#define SuspFr_local_size(X) ((X)->local_block.block_size)
#define SuspFr_trail_reg(X) ((X)->trail_block.resume_register)
#define SuspFr_trail_start(X) ((X)->trail_block.block_start)
#define SuspFr_trail_size(X) ((X)->trail_block.block_size)
#define SuspFr_next(X) ((X)->next)