/************************************************************************* * * * 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 "Heap.h" /* consulting files */ typedef union CONSULT_OBJ { 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)->u.ld.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; union { PredEntry *pred; struct logic_upd_index *ParentIndex; } u; struct logic_upd_index *SiblingIndex; struct logic_upd_index *ChildIndex; /* The instructions, at least one of the form sl */ 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; DBTerm *ClSource; /* doubly linked list of clauses */ struct logic_upd_clause *ClPrev, *ClNext; /* parent pointer */ PredEntry *ClPred; /* The instructions, at least one of the form sl */ yamop ClCode[MIN_ARRAY]; } LogUpdClause; 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; 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 */ yamop ClCode[MIN_ARRAY]; } StaticIndex; typedef struct static_clause { /* A set of flags describing info on the clause */ Functor Id; CELL ClFlags; UInt ClSize; union { DBTerm *ClSource; PredEntry *ClPred; } usc; struct static_clause *ClNext; /* The instructions, at least one of the form sl */ yamop ClCode[MIN_ARRAY]; } StaticClause; typedef struct dead_clause { CELL ClFlags; #if defined(YAPOR) || defined(THREADS) /* A lock for manipulating the clause */ lockvar ClLock; UInt ref_count; #endif UInt ClSize; struct dead_clause *NextCl; /* dead clause */ } DeadClause; typedef union clause_obj { struct logic_upd_clause luc; struct logic_upd_index lui; struct dynamic_clause ic; struct static_clause sc; struct static_index si; } ClauseUnion; #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 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 defined(YAPOR) || defined(THREADS) #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 STD_PROTO(Yap_emit_x,(CELL)); wamreg STD_PROTO(Yap_compile_cmp_flags,(PredEntry *)); void STD_PROTO(Yap_InitComma,(void)); /* cdmgr.c */ void STD_PROTO(Yap_IPred,(PredEntry *)); void STD_PROTO(Yap_addclause,(Term,yamop *,int,Term)); void STD_PROTO(Yap_add_logupd_clause,(PredEntry *,LogUpdClause *,int)); void STD_PROTO(Yap_kill_iblock,(ClauseUnion *,ClauseUnion *,PredEntry *)); void STD_PROTO(Yap_cleanup_dangling_indices,(yamop *,yamop *,yamop *,yamop *)); void STD_PROTO(Yap_EraseStaticClause,(StaticClause *, Term)); ClauseUnion *STD_PROTO(Yap_find_owner_index,(yamop *, PredEntry *)); /* dbase.c */ void STD_PROTO(Yap_ErCl,(DynamicClause *)); void STD_PROTO(Yap_ErLogUpdCl,(LogUpdClause *)); void STD_PROTO(Yap_ErLogUpdIndex,(LogUpdIndex *)); /* exec.c */ Term STD_PROTO(Yap_cp_as_integer,(choiceptr)); /* index.c */ yamop *STD_PROTO(Yap_PredIsIndexable,(PredEntry *)); yamop *STD_PROTO(Yap_ExpandIndex,(PredEntry *)); yamop *STD_PROTO(Yap_CleanUpIndex,(struct logic_upd_index *)); void STD_PROTO(Yap_AddClauseToIndex,(PredEntry *,yamop *,int)); void STD_PROTO(Yap_RemoveClauseFromIndex,(PredEntry *,yamop *)); LogUpdClause *STD_PROTO(Yap_NthClause,(PredEntry *,Int)); LogUpdClause *STD_PROTO(Yap_FollowIndexingCode,(PredEntry *,yamop *, Term *, yamop *,yamop *)); #if USE_THREADED_CODE #define OP_HASH_SIZE 2048 static inline int rtable_hash_op(OPCODE opc, int hash_mask) { return((((CELL)opc) >> 3) & hash_mask); } /* given an opcode find the corresponding opnumber. This should make switches on ops a much easier operation */ static inline 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 (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 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, xl); if (np == p) return TRUE; } return FALSE; } else { return TRUE; } } #endif