/************************************************************************* * * * 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: sshift.h * * Last rev: 19/2/88 * * mods: * * comments: stack shifter functionality for YAP * * * *************************************************************************/ /* The difference between the old stack pointers and the new ones */ extern Int HDiff, GDiff, LDiff, TrDiff, XDiff, DelayDiff; /* The old stack pointers */ extern CELL *OldASP, *OldLCL0; extern tr_fr_ptr OldTR; extern CELL *OldGlobalBase, *OldH, *OldH0; extern ADDR OldTrailBase, OldTrailTop; extern ADDR OldHeapBase, OldHeapTop; #define CharP(ptr) ((char *) (ptr)) inline EXTERN int IsHeapP(CELL *); inline EXTERN int IsHeapP(CELL * ptr) { return (int) ((ptr >= (CELL *)HeapBase && ptr <= (CELL *)HeapTop) ); } /* Adjusting cells and pointers to cells */ inline EXTERN CELL * PtoGloAdjust(CELL *); inline EXTERN CELL * PtoGloAdjust(CELL * ptr) { return (CELL *) (((CELL *)(CharP(ptr) + GDiff)) ); } inline EXTERN CELL * PtoDelayAdjust(CELL *); inline EXTERN CELL * PtoDelayAdjust(CELL * ptr) { return (CELL *) (((CELL *)(CharP(ptr) + DelayDiff)) ); } inline EXTERN tr_fr_ptr PtoTRAdjust(tr_fr_ptr); inline EXTERN tr_fr_ptr PtoTRAdjust(tr_fr_ptr ptr) { return (tr_fr_ptr) (((tr_fr_ptr)(CharP(ptr) + TrDiff)) ); } inline EXTERN CELL * CellPtoTRAdjust(CELL *); inline EXTERN CELL * CellPtoTRAdjust(CELL * ptr) { return (CELL *) (((CELL *)(CharP(ptr) + TrDiff)) ); } inline EXTERN CELL * PtoLocAdjust(CELL *); inline EXTERN CELL * PtoLocAdjust(CELL * ptr) { return (CELL *) (((CELL *)(CharP(ptr) + LDiff)) ); } inline EXTERN choiceptr ChoicePtrAdjust(choiceptr); inline EXTERN choiceptr ChoicePtrAdjust(choiceptr ptr) { return (choiceptr) (((choiceptr)(CharP(ptr) + LDiff)) ); } #ifdef TABLING inline EXTERN choiceptr ConsumerChoicePtrAdjust(choiceptr); inline EXTERN choiceptr ConsumerChoicePtrAdjust(choiceptr ptr) { return (choiceptr) (((choiceptr)(CharP(ptr) + LDiff)) ); } inline EXTERN choiceptr GeneratorChoicePtrAdjust(choiceptr); inline EXTERN choiceptr GeneratorChoicePtrAdjust(choiceptr ptr) { return (choiceptr) (((choiceptr)(CharP(ptr) + LDiff)) ); } #endif /* TABLING */ inline EXTERN CELL GlobalAdjust(CELL); inline EXTERN CELL GlobalAdjust(CELL val) { return (CELL) ((val+GDiff) ); } inline EXTERN CELL DelayAdjust(CELL); inline EXTERN CELL DelayAdjust(CELL val) { return (CELL) ((val+DelayDiff) ); } inline EXTERN ADDR GlobalAddrAdjust(ADDR); inline EXTERN ADDR GlobalAddrAdjust(ADDR ptr) { return (ADDR) ((ptr+GDiff) ); } inline EXTERN ADDR DelayAddrAdjust(ADDR); inline EXTERN ADDR DelayAddrAdjust(ADDR ptr) { return (ADDR) ((ptr+DelayDiff) ); } inline EXTERN CELL LocalAdjust(CELL); inline EXTERN CELL LocalAdjust(CELL val) { return (CELL) ((val+LDiff) ); } inline EXTERN ADDR LocalAddrAdjust(ADDR); inline EXTERN ADDR LocalAddrAdjust(ADDR ptr) { return (ADDR) ((ptr+LDiff) ); } inline EXTERN CELL TrailAdjust(CELL); inline EXTERN CELL TrailAdjust(CELL val) { return (CELL) ((val+TrDiff) ); } inline EXTERN ADDR TrailAddrAdjust(ADDR); inline EXTERN ADDR TrailAddrAdjust(ADDR ptr) { return (ADDR) ((ptr+TrDiff) ); } /* heap data structures */ inline EXTERN Functor FuncAdjust(Functor); inline EXTERN Functor FuncAdjust(Functor f) { return (Functor) ((Functor)(CharP(f)+HDiff) ); } inline EXTERN CELL * CellPtoHeapAdjust(CELL *); inline EXTERN CELL * CellPtoHeapAdjust(CELL * ptr) { return (CELL *) (((CELL *)(CharP(ptr) + HDiff)) ); } #if USE_OFFSETS inline EXTERN Atom AtomAdjust(Atom); inline EXTERN Atom AtomAdjust(Atom at) { return (Atom) ((at) ); } inline EXTERN Term AtomTermAdjust(Term); inline EXTERN Term AtomTermAdjust(Term at) { return (Term) ((at) ); } inline EXTERN Prop PropAdjust(Prop); inline EXTERN Prop PropAdjust(Prop p) { return (Prop) ((p) ); } #else inline EXTERN Atom AtomAdjust(Atom); inline EXTERN Atom AtomAdjust(Atom at) { return (Atom) ((Atom)(CharP(at)+HDiff) ); } #if MMAP_ADDR >= 0x40000000 inline EXTERN Term AtomTermAdjust(Term); inline EXTERN Term AtomTermAdjust(Term at) { return (Term) ((at) ); } #else inline EXTERN Term AtomTermAdjust(Term); inline EXTERN Term AtomTermAdjust(Term at) { return (Term) (MkAtomTerm((Atom)(CharP(AtomOfTerm(at)+HDiff))) ); } #endif inline EXTERN Prop PropAdjust(Prop); inline EXTERN Prop PropAdjust(Prop p) { return (Prop) ((Prop)(CharP(p)+HDiff) ); } #endif #if TAGS_FAST_OPS inline EXTERN Term BlobTermAdjust(Term); inline EXTERN Term BlobTermAdjust(Term t) { return (Term) ((t-HDiff) ); } #else inline EXTERN Term BlobTermAdjust(Term); inline EXTERN Term BlobTermAdjust(Term t) { return (Term) ((t+HDiff) ); } #endif inline EXTERN AtomEntry * AtomEntryAdjust(AtomEntry *); inline EXTERN AtomEntry * AtomEntryAdjust(AtomEntry * at) { return (AtomEntry *) ((AtomEntry *)(CharP(at)+HDiff) ); } inline EXTERN consult_obj * ConsultObjAdjust(consult_obj *); inline EXTERN consult_obj * ConsultObjAdjust(consult_obj * co) { return (consult_obj *) ((consult_obj *)(CharP(co)+HDiff) ); } inline EXTERN DBRef DBRefAdjust(DBRef); inline EXTERN DBRef DBRefAdjust(DBRef dbr) { return (DBRef) ((DBRef)(CharP(dbr)+HDiff) ); } inline EXTERN Term CodeAdjust(Term); inline EXTERN Term CodeAdjust(Term dbr) { return (Term) (((Term)(dbr)+HDiff) ); } inline EXTERN ADDR AddrAdjust(ADDR); inline EXTERN ADDR AddrAdjust(ADDR addr) { return (ADDR) ((ADDR)(CharP(addr)+HDiff) ); } inline EXTERN CODEADDR CodeAddrAdjust(CODEADDR); inline EXTERN CODEADDR CodeAddrAdjust(CODEADDR addr) { return (CODEADDR) ((CODEADDR)(CharP(addr)+HDiff) ); } inline EXTERN BlockHeader * BlockAdjust(BlockHeader *); inline EXTERN BlockHeader * BlockAdjust(BlockHeader * addr) { return (BlockHeader *) ((BlockHeader *)(CharP(addr)+HDiff) ); } inline EXTERN yamop * PtoOpAdjust(yamop *); inline EXTERN yamop * PtoOpAdjust(yamop * ptr) { return (yamop *) (((yamop *)(CharP(ptr) + HDiff)) ); } inline EXTERN CELL * PtoHeapCellAdjust(CELL *); inline EXTERN CELL * PtoHeapCellAdjust(CELL * ptr) { return (CELL *) (((CELL *)(CharP(ptr) + HDiff)) ); } inline EXTERN PredEntry * PtoPredAdjust(PredEntry *); inline EXTERN PredEntry * PtoPredAdjust(PredEntry * ptr) { return (PredEntry *) (((CELL *)(CharP(ptr) + HDiff)) ); } #if PRECOMPUTE_REGADDRESS inline EXTERN AREG XAdjust(AREG); inline EXTERN AREG XAdjust(AREG reg) { return (AREG) ((AREG)((reg)+XDiff) ); } #else inline EXTERN AREG XAdjust(AREG); inline EXTERN AREG XAdjust(AREG reg) { return (AREG) ((reg) ); } #endif inline EXTERN YREG YAdjust(YREG); inline EXTERN YREG YAdjust(YREG reg) { return (YREG) ((reg) ); } inline EXTERN int IsOldLocal(CELL); inline EXTERN int IsOldLocal(CELL reg) { return (int) (IN_BETWEEN(OldASP, reg, OldLCL0)); } /* require because the trail might contain dangling pointers */ inline EXTERN int IsOldLocalInTR(CELL); inline EXTERN int IsOldLocalInTR(CELL reg) { return (int) (IN_BETWEEN(OldH, reg, OldLCL0) ); } inline EXTERN int IsOldLocalInTRPtr(CELL *); inline EXTERN int IsOldLocalInTRPtr(CELL * ptr) { return (int) (IN_BETWEEN(OldH, ptr, OldLCL0) ); } inline EXTERN int IsOldH(CELL); inline EXTERN int IsOldH(CELL reg) { return (int) (( CharP(reg) == CharP(OldH) ) ); } inline EXTERN int IsOldGlobal(CELL); inline EXTERN int IsOldGlobal(CELL reg) { return (int) (IN_BETWEEN(OldH0, reg, OldH) ); } inline EXTERN int IsOldGlobalPtr(CELL *); inline EXTERN int IsOldGlobalPtr(CELL * ptr) { return (int) (IN_BETWEEN( OldH0, ptr, OldH) ); } inline EXTERN int IsOldDelay(CELL); inline EXTERN int IsOldDelay(CELL reg) { return (int) (IN_BETWEEN(OldGlobalBase, reg, OldH0) ); } inline EXTERN int IsOldDelayPtr(CELL *); inline EXTERN int IsOldDelayPtr(CELL * ptr) { return (int) (IN_BETWEEN( OldGlobalBase, ptr, OldH0) ); } inline EXTERN int IsOldTrail(CELL); inline EXTERN int IsOldTrail(CELL reg) { return (int) (IN_BETWEEN(OldTrailBase, reg, OldTR) ); } inline EXTERN int IsOldTrailPtr(CELL *); inline EXTERN int IsOldTrailPtr(CELL * ptr) { return (int) (IN_BETWEEN(OldTrailBase, ptr, OldTR) ); } inline EXTERN int IsOldCode(CELL); inline EXTERN int IsOldCode(CELL reg) { return (int) (IN_BETWEEN(OldHeapBase, reg, OldHeapTop) ); } inline EXTERN int IsOldCodeCellPtr(CELL *); inline EXTERN int IsOldCodeCellPtr(CELL * ptr) { return (int) (IN_BETWEEN(OldHeapBase, ptr, OldHeapTop) ); } inline EXTERN int IsGlobal(CELL); inline EXTERN int IsGlobal(CELL reg) { return (int) (IN_BETWEEN(GlobalBase, reg, H) ); } void STD_PROTO(AdjustStacksAndTrail, (void)); void STD_PROTO(AdjustRegs, (int));