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yap-6.3/H/clause.h
Vítor Santos Costa bf8beba466 more Android fixes
merge trueFileName so that we don;t redo code
support rand48 and srand48
drop support for odbc and prolite, too much work.
2015-04-15 11:21:15 +01:00

456 lines
12 KiB
C

/*************************************************************************
* *
* YAP Prolog %W% %G% *
* *
* Yap Prolog was developed at NCCUP - Universidade do Porto *
* *
* Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 *
* *
**************************************************************************
* *
* File: clause.h *
* Last rev: *
* mods: *
* comments: clause info *
* *
*************************************************************************/
#include "Yatom.h"
#include "YapHeap.h"
/* consulting files */
typedef union CONSULT_OBJ {
const char *filename;
int mode;
Prop p;
UInt c;
} consult_obj;
/* Either we are assembling clauses or indexing code */
#define ASSEMBLING_CLAUSE 0
#define ASSEMBLING_INDEX 1
#define ASSEMBLING_EINDEX 2
#define NextDynamicClause(X) (((yamop *)X)->y_u.Otapl.d)
#define PredFirstClause 0
#define PredMiddleClause 1
#define PredLastClause 2
typedef struct logic_upd_index {
CELL ClFlags;
UInt ClRefCount;
#if defined(YAPOR) || defined(THREADS)
/* A lock for manipulating the clause */
// lockvar ClLock;
#endif
UInt ClSize;
struct logic_upd_index *ParentIndex;
struct logic_upd_index *SiblingIndex;
struct logic_upd_index *PrevSiblingIndex;
struct logic_upd_index *ChildIndex;
/* The instructions, at least one of the form sl */
PredEntry *ClPred;
yamop ClCode[MIN_ARRAY];
} LogUpdIndex;
/* The ordering of the first 3 fields should be compatible with dbrefs */
typedef struct logic_upd_clause {
Functor Id; /* allow pointers to this struct to id */
/* as dbref */
/* A set of flags describing info on the clause */
/* A set of flags describing info on the clause */
CELL ClFlags;
#if defined(YAPOR) || defined(THREADS)
/* A lock for manipulating the clause */
// lockvar ClLock;
#endif
UInt ClSize;
/* extra clause information for logical update indices and facts */
/* indices that may still backtrack to this clause */
UInt ClRefCount;
/* data for clauses with environments */
yamop *ClExt;
union {
DBTerm *ClSource;
Int ClLine;
} lusl;
/* doubly linked list of clauses */
struct logic_upd_clause *ClPrev, *ClNext;
/* parent pointer */
PredEntry *ClPred;
UInt ClTimeStart, ClTimeEnd;
/* The instructions, at least one of the form sl */
yamop ClCode[MIN_ARRAY];
} LogUpdClause;
#include "inline-only.h"
INLINE_ONLY inline EXTERN int VALID_TIMESTAMP(UInt, struct logic_upd_clause *);
INLINE_ONLY inline EXTERN int
VALID_TIMESTAMP(UInt timestamp, struct logic_upd_clause *cl)
{
return IN_BETWEEN(cl->ClTimeStart, timestamp, cl->ClTimeEnd);
}
typedef struct dynamic_clause {
/* A set of flags describing info on the clause */
CELL ClFlags;
#if defined(YAPOR) || defined(THREADS)
/* A lock for manipulating the clause */
lockvar ClLock;
#endif
UInt ClSize;
Int ClLine;
UInt ClRefCount;
yamop *ClPrevious; /* immediate update clause */
/* The instructions, at least one of the form sl */
yamop ClCode[MIN_ARRAY];
} DynamicClause;
typedef struct static_index {
/* A set of flags describing info on the clause */
CELL ClFlags;
UInt ClSize;
struct static_index *SiblingIndex;
struct static_index *ChildIndex;
/* The instructions, at least one of the form sl */
PredEntry *ClPred;
yamop ClCode[MIN_ARRAY];
} StaticIndex;
typedef struct static_clause {
/* A set of flags describing info on the clause */
CELL ClFlags;
UInt ClSize;
union {
DBTerm *ClSource;
Int ClLine;
} usc;
struct static_clause *ClNext;
/* The instructions, at least one of the form sl */
yamop ClCode[MIN_ARRAY];
} StaticClause;
typedef struct static_mega_clause {
/* A set of flags describing info on the clause */
CELL ClFlags;
UInt ClSize;
PredEntry *ClPred;
UInt ClItemSize;
Int ClLine;
struct static_mega_clause *ClNext;
/* The instructions, at least one of the form sl */
yamop ClCode[MIN_ARRAY];
} MegaClause;
typedef union clause_obj {
struct logic_upd_clause luc;
struct logic_upd_index lui;
struct dynamic_clause ic;
struct static_clause sc;
struct static_mega_clause mc;
struct static_index si;
} ClauseUnion;
typedef union clause_ptr {
struct logic_upd_clause *luc;
struct logic_upd_index *lui;
struct dynamic_clause *ic;
struct static_clause *sc;
struct static_mega_clause *mc;
struct static_index *si;
} ClausePointer;
typedef struct index_t {
struct index_t *next, *prev;
UInt nels;
UInt arity;
PredEntry *ap;
CELL bmap;
int is_key;
int is_udi;
UInt ncollisions;
UInt max_col_count;
UInt ntrys;
UInt nentries;
UInt hsize;
BITS32 *key;
CELL *cls, *bcls;
BITS32 *links;
size_t size;
yamop *code;
BITS32 *udi_data;
void *udi_first, *udi_next;
UInt udi_free_args;
UInt udi_arg;
} Index_t;
INLINE_ONLY EXTERN inline BITS32 EXO_ADDRESS_TO_OFFSET(struct index_t *it, CELL *ptr);
INLINE_ONLY EXTERN inline BITS32
EXO_ADDRESS_TO_OFFSET(struct index_t *it, CELL* ptr)
{
return (ptr-it->cls)/it->arity+1;
}
INLINE_ONLY EXTERN inline CELL *EXO_OFFSET_TO_ADDRESS(struct index_t *it, BITS32 off);
INLINE_ONLY EXTERN inline CELL *
EXO_OFFSET_TO_ADDRESS(struct index_t *it, BITS32 off)
{
if (off == 0L)
return (CELL *)NULL;
return (it->cls)+(off-1)*it->arity;
}
INLINE_ONLY EXTERN inline BITS32 ADDRESS_TO_LINK(struct index_t *it, BITS32 *ptr);
INLINE_ONLY EXTERN inline BITS32
ADDRESS_TO_LINK(struct index_t *it, BITS32* ptr)
{
return ptr-it->links;
}
INLINE_ONLY EXTERN inline BITS32 *LINK_TO_ADDRESS(struct index_t *it, BITS32 off);
INLINE_ONLY EXTERN inline BITS32 *
LINK_TO_ADDRESS(struct index_t *it, BITS32 off)
{
return it->links+off;
}
typedef void (*CRefitExoIndex)(struct index_t **ip, UInt b[] USES_REGS);
typedef yamop * (*CEnterExoIndex)(struct index_t *it USES_REGS);
typedef int (*CRetryExoIndex)(struct index_t *it USES_REGS);
typedef struct dbterm_list {
/* a list of dbterms associated with a clause */
DBTerm *dbterms;
yamop *clause_code;
PredEntry *p;
struct dbterm_list *next_dbl;
} DBTermList;
#define ClauseCodeToDynamicClause(p) ((DynamicClause *)((CODEADDR)(p)-(CELL)(((DynamicClause *)NULL)->ClCode)))
#define ClauseCodeToStaticClause(p) ((StaticClause *)((CODEADDR)(p)-(CELL)(((StaticClause *)NULL)->ClCode)))
#define ClauseCodeToLogUpdClause(p) ((LogUpdClause *)((CODEADDR)(p)-(CELL)(((LogUpdClause *)NULL)->ClCode)))
#define ClauseCodeToMegaClause(p) ((MegaClause *)((CODEADDR)(p)-(CELL)(((MegaClause *)NULL)->ClCode)))
#define ClauseCodeToLogUpdIndex(p) ((LogUpdIndex *)((CODEADDR)(p)-(CELL)(((LogUpdIndex *)NULL)->ClCode)))
#define ClauseCodeToStaticIndex(p) ((StaticIndex *)((CODEADDR)(p)-(CELL)(((StaticIndex *)NULL)->ClCode)))
#define ClauseFlagsToDynamicClause(p) ((DynamicClause *)(p))
#define ClauseFlagsToLogUpdClause(p) ((LogUpdClause *)((CODEADDR)(p)-(CELL)(&(((LogUpdClause *)NULL)->ClFlags))))
#define ClauseFlagsToLogUpdIndex(p) ((LogUpdIndex *)((CODEADDR)(p)-(CELL)(&(((LogUpdIndex *)NULL)->ClFlags))))
#define ClauseFlagsToStaticClause(p) ((StaticClause *)(p))
#define DynamicFlags(X) (ClauseCodeToDynamicClause(X)->ClFlags)
#define DynamicLock(X) (ClauseCodeToDynamicClause(X)->ClLock)
#if MULTIPLE_STACKS
#define INIT_CLREF_COUNT(X) (X)->ClRefCount = 0
#define INC_CLREF_COUNT(X) (X)->ClRefCount++
#define DEC_CLREF_COUNT(X) (X)->ClRefCount--
#define CL_IN_USE(X) ((X)->ClRefCount)
#else
#define INIT_CLREF_COUNT(X)
#define INC_CLREF_COUNT(X)
#define DEC_CLREF_COUNT(X)
#define CL_IN_USE(X) ((X)->ClFlags & InUseMask || (X)->ClRefCount)
#endif
/* amasm.c */
wamreg Yap_emit_x(CELL);
COUNT Yap_compile_cmp_flags(PredEntry *);
void Yap_InitComma(void);
/* cdmgr.c */
void Yap_IPred(PredEntry *, UInt, yamop *);
int Yap_addclause(Term,yamop *,int,Term,Term*);
void Yap_add_logupd_clause(PredEntry *,LogUpdClause *,int);
void Yap_kill_iblock(ClauseUnion *,ClauseUnion *,PredEntry *);
void Yap_EraseStaticClause(StaticClause *, PredEntry *, Term);
ClauseUnion *Yap_find_owner_index(yamop *, PredEntry *);
/* dbase.c */
void Yap_ErCl(DynamicClause *);
void Yap_ErLogUpdCl(LogUpdClause *);
void Yap_ErLogUpdIndex(LogUpdIndex *);
Int Yap_Recordz(Atom, Term);
Int Yap_db_nth_recorded( PredEntry *, Int USES_REGS );
Int Yap_unify_immediate_ref(DBRef ref USES_REGS );
/* exec.c */
Term Yap_cp_as_integer(choiceptr);
/* index.c */
yamop *Yap_PredIsIndexable(PredEntry *, UInt, yamop *);
yamop *Yap_ExpandIndex(PredEntry *, UInt);
void Yap_CleanUpIndex(struct logic_upd_index *);
void Yap_CleanKids(struct logic_upd_index *);
void Yap_AddClauseToIndex(PredEntry *,yamop *,int);
void Yap_RemoveClauseFromIndex(PredEntry *,yamop *);
LogUpdClause *Yap_NthClause(PredEntry *,Int);
LogUpdClause *Yap_FollowIndexingCode(PredEntry *,yamop *, Term *, yamop *,yamop *);
/* exo.c */
yamop *Yap_ExoLookup(PredEntry *ap USES_REGS);
CELL Yap_NextExo(choiceptr cpt, struct index_t *it);
#
#if USE_THREADED_CODE
#define OP_HASH_SIZE 2048
INLINE_ONLY inline EXTERN int rtable_hash_op(OPCODE opc, int hash_mask);
INLINE_ONLY inline EXTERN int
rtable_hash_op(OPCODE opc, int hash_mask) {
return((((CELL)opc) >> 3) & hash_mask);
}
INLINE_ONLY inline EXTERN op_numbers Yap_op_from_opcode(OPCODE opc);
/* given an opcode find the corresponding opnumber. This should make
switches on ops a much easier operation */
INLINE_ONLY inline EXTERN op_numbers
Yap_op_from_opcode(OPCODE opc)
{
int j = rtable_hash_op(opc,OP_HASH_SIZE-1);
while (OP_RTABLE[j].opc != opc) {
if (!OP_RTABLE[j].opc)
return _Nstop;
if (j == OP_HASH_SIZE-1) {
j = 0;
} else {
j++;
}
}
return OP_RTABLE[j].opnum;
}
#else
static inline op_numbers
Yap_op_from_opcode(OPCODE opc)
{
return((op_numbers)opc);
}
#endif /* USE_THREADED_CODE */
#if defined(YAPOR) || defined(THREADS)
static inline int same_lu_block(yamop **, yamop *);
static inline int
same_lu_block(yamop **paddr, yamop *p)
{
yamop *np = *paddr;
if (np != p) {
OPCODE jmp_op = Yap_opcode(_jump_if_nonvar);
while (np->opc == jmp_op) {
np = NEXTOP(np, xll);
if (np == p) return TRUE;
}
return FALSE;
} else {
return TRUE;
}
}
#endif
#define Yap_MkStaticRefTerm(cp, ap) __Yap_MkStaticRefTerm((cp), (ap) PASS_REGS)
static inline Term
__Yap_MkStaticRefTerm(StaticClause *cp, PredEntry *ap USES_REGS)
{
Term t[2];
t[0] = MkIntegerTerm((Int)cp);
t[1] = MkIntegerTerm((Int)ap);
return Yap_MkApplTerm(FunctorStaticClause,2,t);
}
static inline StaticClause *
Yap_ClauseFromTerm(Term t)
{
return (StaticClause *)IntegerOfTerm(ArgOfTerm(1,t));
}
#define Yap_MkMegaRefTerm(ap, ipc) __Yap_MkMegaRefTerm((ap), (ipc) PASS_REGS)
static inline Term
__Yap_MkMegaRefTerm(PredEntry *ap,yamop *ipc USES_REGS)
{
Term t[2];
t[0] = MkIntegerTerm((Int)ap);
t[1] = MkIntegerTerm((Int)ipc);
return Yap_MkApplTerm(FunctorMegaClause,2,t);
}
static inline yamop *
Yap_MegaClauseFromTerm(Term t)
{
return (yamop *)IntegerOfTerm(ArgOfTerm(2,t));
}
static inline PredEntry *
Yap_MegaClausePredicateFromTerm(Term t)
{
return (PredEntry *)IntegerOfTerm(ArgOfTerm(1,t));
}
#define Yap_MkExoRefTerm(ap, i) __Yap_MkExoRefTerm((ap), (i) PASS_REGS)
static inline Term
__Yap_MkExoRefTerm(PredEntry *ap,Int i USES_REGS)
{
Term t[2];
t[0] = MkIntegerTerm((Int)ap);
t[1] = MkIntegerTerm((Int)i);
return Yap_MkApplTerm(FunctorExoClause,2,t);
}
static inline Int
Yap_ExoClauseFromTerm(Term t)
{
return IntegerOfTerm(ArgOfTerm(2,t));
}
static inline PredEntry *
Yap_ExoClausePredicateFromTerm(Term t)
{
return (PredEntry *)IntegerOfTerm(ArgOfTerm(1,t));
}
#define DEAD_REF(ref) FALSE
typedef enum {
FIND_PRED_FROM_ANYWHERE,
FIND_PRED_FROM_CP,
FIND_PRED_FROM_ENV
} find_pred_type;
Int Yap_PredForCode(yamop *, find_pred_type, Atom *, UInt *, Term *);
PredEntry *Yap_PredEntryForCode(yamop *, find_pred_type, CODEADDR *, CODEADDR *);
LogUpdClause *Yap_new_ludbe(Term, PredEntry *, UInt);
Term Yap_LUInstance(LogUpdClause *, UInt);
/* udi.c */
int Yap_new_udi_clause(PredEntry *, yamop *, Term);
yamop *Yap_udi_search(PredEntry *);
#ifdef DEBUG
void Yap_bug_location(yamop *);
#endif
#if LOW_PROF
void Yap_InformOfRemoval(void *);
void Yap_dump_code_area_for_profiler(void);
#else
#define Yap_InformOfRemoval(X)
#endif