/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: save.c * * Last rev: * * mods: * * comments: saving and restoring a Prolog computation * * * *************************************************************************/ #ifdef SCCS static char SccsId[] = "@(#)save.c 1.3 3/15/90"; #endif #include "config.h" #if _MSC_VER || defined(__MINGW32__) #if HAVE_WINSOCK2_H #include #endif #include #include #endif #include "absmi.h" #include "alloc.h" #if USE_DL_MALLOC #include "dlmalloc.h" #endif #include "yapio.h" #include "YapText.h" #include "sshift.h" #include "Foreign.h" #if HAVE_STRING_H #include #endif #if !HAVE_STRNCAT #define strncat(X,Y,Z) strcat(X,Y) #endif #if !HAVE_STRNCPY #define strncpy(X,Y,Z) strcpy(X,Y) #endif #if HAVE_FCNTL_H #include #endif #ifdef HAVE_UNISTD_H #include #endif #ifdef HAVE_SYS_TYPES_H #include #endif #ifdef HAVE_SYS_STAT_H #include #endif #include "iopreds.h" /********* hack for accesing several kinds of terms. Should be cleaned **/ static char end_msg[256] ="*** End of YAP saved state *****"; /* SWI IO, must be restarted after restore */ void initIO(void); #ifdef DEBUG /* * #FOR DEBUGGING define DEBUG_RESTORE0 to check the file stuff, #define DEBUG_RESTORE1 to see if it is able to prepare the chain, #define DEBUG_RESTORE2 to see how things are going, #define DEBUG_RESTORE3 to check if the atom chain is still a working chain, * define DEBUG_RESTORE4 if you want to set the output for some * particular file, * define DEBUG_RESTORE5 if you want to see how the stacks are being * cleaned up, * define DEBUG_RESTORE6 if you want to follow the execution in * * Also a file is defined where you can write things, by default stderr * * Good Luck */ #endif static int myread(FILE *, char *, Int); static Int mywrite(FILE *, char *, Int); static FILE *open_file(char *, int); static int close_file(void); static Int putout(CELL); static Int putcellptr(CELL *); static CELL get_cell(void); static CELL *get_cellptr( /* CELL * */ void); static int put_info(int, int CACHE_TYPE); static int save_regs(int CACHE_TYPE); static int save_code_info(void); static int save_heap(void); static int save_stacks(int CACHE_TYPE); static int save_crc(void); static Int do_save(int CACHE_TYPE); static Int p_save2( CACHE_TYPE1 ); static Int p_save_program( CACHE_TYPE1 ); static int check_header(CELL *, CELL *, CELL *, CELL * CACHE_TYPE); static int get_heap_info(CACHE_TYPE1); static int get_regs(int CACHE_TYPE); static int get_insts(OPCODE []); static int get_hash(void); static int CopyCode( CACHE_TYPE1 ); static int CopyStacks( CACHE_TYPE1 ); static int get_coded(int, OPCODE [] CACHE_TYPE); static void restore_codes(void); static void RestoreDB(DBEntry * CACHE_TYPE); static void RestoreDBTerm(DBTerm *, int CACHE_TYPE); static void CleanClauses(yamop *, yamop *,PredEntry * CACHE_TYPE); static void rehash(CELL *, int, int CACHE_TYPE); static void CleanCode(PredEntry * CACHE_TYPE); static void RestoreEntries(PropEntry *, int CACHE_TYPE); static void RestoreFreeSpace( CACHE_TYPE1 ); static void restore_heap(void); #ifdef DEBUG_RESTORE3 static void ShowAtoms(void); static void ShowEntries(PropEntry *); #endif static int OpenRestore(char *, char *, CELL *, CELL *, CELL *, CELL *, FILE **); static void CloseRestore(void); #ifndef _WIN32 static int check_opcodes(OPCODE []); #endif static void RestoreHeap(OPCODE [] CACHE_TYPE); static Int p_restore( CACHE_TYPE1 ); static void restore_heap_regs( CACHE_TYPE1 ); static void restore_regs(int CACHE_TYPE); #ifdef MACYAP static void NewFileInfo(long, long); extern int DefVol; #endif #ifdef _WIN32 #if HAVE_IO_H #include #endif #endif #ifdef LIGHT #include #include void LightBug(char *); static void LightBug(s) char *s; { } #endif /* LIGHT */ static Int do_SYSTEM_ERROR_INTERNAL(yap_error_number etype, const char *msg) { CACHE_REGS #if HAVE_SNPRINTF #if HAVE_STRERROR snprintf(LOCAL_ErrorSay,MAX_ERROR_MSG_SIZE,"%s (%s when reading %s)", msg, strerror(errno), LOCAL_FileNameBuf); #else snprintf(LOCAL_ErrorSay,MAX_ERROR_MSG_SIZE,"%s, (system error %d when reading %s)",msg,errno,LOCAL_FileNameBuf); #endif #else #if HAVE_STRERROR sprintf(LOCAL_ErrorSay,"%s, (%s when reading %s)",msg,strerror(errno),LOCAL_FileNameBuf); #else sprintf(LOCAL_ErrorSay,"%s, (system error %d when reading %s)",msg,errno,LOCAL_FileNameBuf); #endif #endif LOCAL_ErrorMessage = LOCAL_ErrorSay; LOCAL_Error_TYPE = etype; return -1; } inline static int myread(FILE *fd, char *buffer, Int len) { ssize_t nread; while (len > 0) { nread = fread(buffer, 1, (int)len, fd); if (nread < 1) { return do_SYSTEM_ERROR_INTERNAL(PERMISSION_ERROR_INPUT_PAST_END_OF_STREAM,"bad read on saved state"); } buffer += nread; len -= nread; } return len; } inline static Int mywrite(FILE *fd, char *buff, Int len) { ssize_t nwritten; while (len > 0) { nwritten = fwrite(buff, 1, (size_t)len, fd); if (nwritten < 0) { return do_SYSTEM_ERROR_INTERNAL(SYSTEM_ERROR_INTERNAL,"bad write on saved state"); } buff += nwritten; len -= nwritten; } return len; } #define FullSaved 1 /* Where the code was before */ typedef CELL *CELLPOINTER; static FILE *splfild = NULL; #ifdef DEBUG #ifdef DEBUG_RESTORE4 static FILE *errout; #else #define errout GLOBAL_stderr #endif #endif /* DEBUG */ static Int OldHeapUsed; static CELL which_save; /* Open a file to read or to write */ static FILE * open_file(char *my_file, int flag) { FILE *splfild; char flags[6]; int i=0; if (flag & O_RDONLY) { flags[i++] = 'r'; } if (flag & O_CREAT) { flags[i++] = 'w'; } if (flag & O_WRONLY) { flags[i++] = 'w'; } if (flag & O_APPEND) { flags[i++] = 'a'; } #if _WIN32 if (flag & O_BINARY) { flags[i++] = 'b'; } #endif flags[i] = '\0'; splfild = fopen( my_file, flags); #ifdef undf0 fprintf(errout, "Opened file %s\n", my_file); #endif return splfild; } static int close_file(void) { if (splfild == 0) return 0; if (fclose(splfild) < 0) return do_SYSTEM_ERROR_INTERNAL(SYSTEM_ERROR_INTERNAL,"bad close on saved state"); splfild = 0; return 1; } /* stores a cell in a file */ static Int putout(CELL l) { return mywrite(splfild, (char *) &l, sizeof(CELL)); } /* stores a pointer to a cell in a file */ static Int putcellptr(CELL *l) { return mywrite(splfild, (char *) &l, sizeof(CELLPOINTER)); } /* gets a cell from a file */ static CELL get_cell(void) { CELL l; myread(splfild, (char *) &l, Unsigned(sizeof(CELL))); return (l); } /* gets a cell from a file */ static CELL get_header_cell(void) { CELL l; size_t count = 0; int n; while (count < sizeof(CELL)) { if ((n = fread(&l, 1, sizeof(CELL)-count, splfild)) < 0) { do_SYSTEM_ERROR_INTERNAL(PERMISSION_ERROR_INPUT_PAST_END_OF_STREAM,"failed to read saved state header"); return 0L; } count += n; } return l; } /* gets a pointer to cell from a file */ static CELL * get_cellptr(void) { CELL *l; if (myread(splfild, (char *) &l, Unsigned(sizeof(CELLPOINTER))) < 0) return NULL; return (l); } /* * writes the header (at the moment YAPV*), info about what kind of saved * set, the work size, and the space ocuppied */ static int put_info(int info, int mode USES_REGS) { char msg[256]; sprintf(msg, "#!/bin/sh\nexec_dir=${YAPBINDIR:-%s}\nexec $exec_dir/yap $0 \"$@\"\n%cYAP-%s", YAP_BINDIR, 1, YAP_FULL_VERSION); if (mywrite(splfild, msg, strlen(msg) + 1)) return -1; if (putout(Unsigned(info)) < 0) return -1; /* say whether we just saved the heap or everything */ if (putout(mode) < 0) return -1; /* current state of stacks, to be used by SavedInfo */ /* space available in heap area */ if (putout(Unsigned(LOCAL_GlobalBase)-Unsigned(Yap_HeapBase)) < 0) return -1; /* space available for stacks */ if (putout(Unsigned(LOCAL_LocalBase)-Unsigned(LOCAL_GlobalBase)) < 0) return -1; /* space available for trail */ if (putout(Unsigned(LOCAL_TrailTop)-Unsigned(LOCAL_TrailBase)) < 0) return -1; /* Space used in heap area */ if (putout(Unsigned(HeapTop)-Unsigned(Yap_HeapBase)) < 0) return -1; /* Space used for local stack */ if (putout(Unsigned(LCL0)-Unsigned(ASP)) < 0) return -1; /* Space used for global stack */ if (putout(Unsigned(HR) - Unsigned(LOCAL_GlobalBase)) < 0) return -1; /* Space used for trail */ if (putout(Unsigned(TR) - Unsigned(LOCAL_TrailBase)) < 0) return -1; return 0; } static int save_regs(int mode USES_REGS) { /* save all registers */ if (putout((CELL)compile_arrays) < 0) return -1; if (mode == DO_EVERYTHING) { if (putcellptr((CELL *)CP) < 0) return -1; if (putcellptr(ENV) < 0) return -1; if (putcellptr(ASP) < 0) return -1; /* if (putout((CELL)N) < 0) return -1; */ if (putcellptr(H0) < 0) return -1; if (putcellptr(LCL0) < 0) return -1; if (putcellptr(HR) < 0) return -1; if (putcellptr(HB) < 0) return -1; if (putcellptr((CELL *)B) < 0) return -1; if (putcellptr((CELL *)TR) < 0) return -1; if (putcellptr(YENV) < 0) return -1; if (putcellptr(S) < 0) return -1; if (putcellptr((CELL *)P) < 0) return -1; if (putout(CreepFlag) < 0) return -1; if (putout(EventFlag) < 0) return -1; if (putcellptr((CELL *)EX) < 0) return -1; #if defined(YAPOR_SBA) || defined(TABLING) if (putcellptr(H_FZ) < 0) return -1; if (putcellptr((CELL *)B_FZ) < 0) return -1; if (putcellptr((CELL *)TR_FZ) < 0) return -1; #endif /* YAPOR_SBA || TABLING */ } if (putout(CurrentModule) < 0) return -1; if (mode == DO_EVERYTHING) { #ifdef COROUTINING if (putout(LOCAL_WokenGoals) < 0) return -1; #endif #ifdef DEPTH_LIMIT if (putout(DEPTH) < 0) return -1; #endif if (putout(LOCAL_GcGeneration) < 0) return -1; if (putout(LOCAL_GcPhase) < 0) return -1; if (putout(LOCAL_GcCurrentPhase) < 0) return -1; } /* The operand base */ if (putcellptr(CellPtr(XREGS)) < 0) return -1; if (putout(which_save) < 0) return -1; /* Now start by saving the code */ /* the heap boundaries */ if (putcellptr(CellPtr(Yap_HeapBase)) < 0) return -1; if (putcellptr(CellPtr(HeapTop)) < 0) return -1; /* and the space it ocuppies */ if (putout(Unsigned(Yap_heap_regs->heap_used)) < 0) return -1; /* Then the start of the free code */ if (putcellptr(CellPtr(FreeBlocks)) < 0) return -1; if (putcellptr(CellPtr(AuxBase)) < 0) return -1; if (putcellptr(AuxSp) < 0) return -1; if (putcellptr(CellPtr(AuxTop)) < 0) return -1; if (putcellptr(CellPtr(LOCAL_ScratchPad.ptr)) < 0) return -1; if (putout(LOCAL_ScratchPad.sz) < 0) return -1; if (putout(LOCAL_ScratchPad.msz) < 0) return -1; if (mode == DO_EVERYTHING) { /* put the old trail base, just in case it moves again */ if (putout(ARG1) < 0) return -1; if (which_save == 2) { if (putout(ARG2) < 0) return -1; } if (putcellptr(CellPtr(LOCAL_TrailBase)) < 0) return -1; } return 0; } static int save_code_info(void) { /* First the instructions */ { op_numbers i; OPCODE my_ops[_std_top+1]; for (i = _Ystop; i <= _std_top; ++i) my_ops[i] = Yap_opcode(i); if (mywrite(splfild, (char *)my_ops, sizeof(OPCODE)*(_std_top+1)) < 0) return -1; } /* and the current character codes */ if (mywrite(splfild, (char *)Yap_chtype, NUMBER_OF_CHARS*sizeof(char_kind_t)) < 0) return -1; return 0; } static int save_heap(void) { #ifdef USE_SYSTEM_MALLOC return -1; #endif int j; /* Then save the whole heap */ Yap_ResetConsultStack(); j = Unsigned(HeapTop) - Unsigned(Yap_HeapBase); /* store 10 more cells because of the memory manager */ if (mywrite(splfild, (char *) Yap_HeapBase, j) < 0) return -1; return 0; } static int save_stacks(int mode USES_REGS) { int j; switch (mode) { case DO_EVERYTHING: /* Now, go and save the state */ /* Save the local stack */ j = Unsigned(LCL0) - Unsigned(ASP); if (mywrite(splfild, (char *) ASP, j) < 0) return -1; /* Save the global stack */ j = Unsigned(HR) - Unsigned(LOCAL_GlobalBase); if (mywrite(splfild, (char *) LOCAL_GlobalBase, j) < 0) return -1; /* Save the trail */ j = Unsigned(TR) - Unsigned(LOCAL_TrailBase); if (mywrite(splfild, (char *) LOCAL_TrailBase, j) < 0) return -1; break; case DO_ONLY_CODE: { tr_fr_ptr tr_ptr = TR; while (tr_ptr != (tr_fr_ptr)LOCAL_TrailBase) { CELL val = TrailTerm(tr_ptr-1); if (IsVarTerm(val)) { CELL *d1 = VarOfTerm(val); if (d1 < (CELL *)HeapTop) { if (putout(val) < 0) return -1; } } else if (IsPairTerm(val)) { CELL *d1 = RepPair(val); if (d1 < (CELL *)HeapTop) { if (putout(val) < 0) return -1; } } tr_ptr--; } } if (putcellptr(NULL) < 0) return -1; break; } return 0; } static int save_crc(void) { /* Save a CRC */ return mywrite(splfild, end_msg, 256); } static Int do_save(int mode USES_REGS) { Term t1 = Deref(ARG1); if (Yap_HoleSize) { Yap_Error(SYSTEM_ERROR_INTERNAL,MkAtomTerm(Yap_LookupAtom(LOCAL_FileNameBuf)), "restore/1: address space has holes of size %ld, cannot save", (long int)Yap_HoleSize); return FALSE; } if (!Yap_GetName(LOCAL_FileNameBuf, YAP_FILENAME_MAX, t1)) { Yap_Error(TYPE_ERROR_LIST,t1,"save/1"); return FALSE; } Yap_CloseStreams(TRUE); if ((splfild = open_file(LOCAL_FileNameBuf, O_WRONLY | O_CREAT)) < 0) { Yap_Error(SYSTEM_ERROR_INTERNAL,MkAtomTerm(Yap_LookupAtom(LOCAL_FileNameBuf)), "restore/1, open(%s)", strerror(errno)); return(FALSE); } if (put_info(FullSaved, mode PASS_REGS) < 0) return -1; if (save_regs(mode PASS_REGS) < 0) return -1; if (save_code_info() < 0) return -1; if (save_heap() < 0) return -1; if (save_stacks(mode PASS_REGS) < 0) return -1; if (save_crc() < 0) return -1; close_file(); return (TRUE); } /* Saves a complete prolog environment */ static Int p_save2( USES_REGS1 ) { Int res; yhandle_t CurSlot = Yap_StartSlots(); Term t; #ifdef YAPOR if (GLOBAL_number_workers != 1) { Yap_Error(SYSTEM_ERROR_INTERNAL,TermNil, "cannot perform save: more than a worker/thread running"); return(FALSE); } #endif /* YAPOR */ #ifdef THREADS if (GLOBAL_NOfThreads != 1) { Yap_Error(SYSTEM_ERROR_INTERNAL,TermNil, "cannot perform save: more than a worker/thread running"); return(FALSE); } #endif /* THREADS */ /* avoid double saves */ if (IsNonVarTerm(t = Deref(ARG2))) return TRUE; if (!Yap_unify(ARG2,MkIntTerm(1))) return FALSE; which_save = 2; CurSlot = Yap_StartSlots(); res = do_save(DO_EVERYTHING PASS_REGS); Yap_CloseSlots(CurSlot); return res; } /* Just save the program, not the stacks */ static Int p_save_program( USES_REGS1 ) { which_save = 0; return do_save(DO_ONLY_CODE PASS_REGS); } /* Now, to restore the saved code */ /* First check out if we are dealing with a valid file */ static int check_header(CELL *info, CELL *ATrail, CELL *AStack, CELL *AHeap USES_REGS) { char pp[256]; char msg[256]; CELL hp_size, gb_size, lc_size, tr_size, mode; int n; /* make sure we always check if there are enough bytes */ /* skip the first line */ pp[0] = '\0'; do { if ((n = fread(pp, 1, 1, splfild)) <= 0) { do_SYSTEM_ERROR_INTERNAL(PERMISSION_ERROR_INPUT_PAST_END_OF_STREAM,"failed to scan first line from saved state"); return FAIL_RESTORE; } } while (pp[0] != 1); /* now check the version */ sprintf(msg, "YAP-%s", YAP_FULL_VERSION); { int count = 0, n, to_read = Unsigned(strlen(msg) + 1); while (count < to_read) { if ((n = fread(pp, 1, to_read-count, splfild)) <= 0) { do_SYSTEM_ERROR_INTERNAL(PERMISSION_ERROR_INPUT_PAST_END_OF_STREAM,"failed to scan version info from saved state"); return FAIL_RESTORE; } count += n; } } if (strcmp(pp, msg) != 0) { LOCAL_ErrorMessage = LOCAL_ErrorSay; strncpy(LOCAL_ErrorMessage, "saved state ", MAX_ERROR_MSG_SIZE); strncat(LOCAL_ErrorMessage, LOCAL_FileNameBuf, MAX_ERROR_MSG_SIZE-1); strncat(LOCAL_ErrorMessage, " failed to match version ID", MAX_ERROR_MSG_SIZE-1); LOCAL_Error_TYPE = SYSTEM_ERROR_SAVED_STATE; return FAIL_RESTORE; } /* check info on header */ /* ignore info on saved state */ *info = get_header_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; /* check the restore mode */ mode = get_header_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; if (mode != DO_EVERYTHING && mode != DO_ONLY_CODE) { return FAIL_RESTORE; } /* ignore info on stacks size */ *AHeap = get_header_cell(); if (LOCAL_ErrorMessage) { return FAIL_RESTORE; } *AStack = get_header_cell(); if (LOCAL_ErrorMessage) { return FAIL_RESTORE; } *ATrail = get_header_cell(); if (LOCAL_ErrorMessage) { return FAIL_RESTORE; } /* now, check whether we got enough enough space to load the saved space */ hp_size = get_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; while (Yap_HeapBase != NULL && hp_size > Unsigned(HeapLim) - Unsigned(Yap_HeapBase)) { if(!Yap_growheap(FALSE, hp_size, NULL)) { return FAIL_RESTORE; } } if (mode == DO_EVERYTHING) { lc_size = get_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; gb_size=get_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; if (Yap_HeapBase != NULL && lc_size+gb_size > Unsigned(LOCAL_LocalBase) - Unsigned(LOCAL_GlobalBase)) { if (LOCAL_ErrorMessage != NULL) LOCAL_ErrorMessage = "could not allocate enough stack space"; return FAIL_RESTORE; } if (Yap_HeapBase != NULL && (tr_size = get_cell()) > Unsigned(LOCAL_TrailTop) - Unsigned(LOCAL_TrailBase)) { if (LOCAL_ErrorMessage != NULL) LOCAL_ErrorMessage = "could not allocate enough trail space"; return FAIL_RESTORE; } } else { /* skip cell size */ get_header_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; get_header_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; get_header_cell(); if (LOCAL_ErrorMessage) return FAIL_RESTORE; } return(mode); } /* Gets the state of the heap, and evaluates the related variables */ static int get_heap_info(USES_REGS1) { LOCAL_OldHeapBase = (ADDR) get_cellptr(); if (LOCAL_ErrorMessage) return -1; LOCAL_OldHeapTop = (ADDR) get_cellptr(); if (LOCAL_ErrorMessage) return -1; OldHeapUsed = (Int) get_cell(); if (LOCAL_ErrorMessage) return -1; FreeBlocks = (BlockHeader *) get_cellptr(); if (LOCAL_ErrorMessage) return -1; AuxBase = (ADDR)get_cellptr(); if (LOCAL_ErrorMessage) return -1; AuxSp = get_cellptr(); if (LOCAL_ErrorMessage) return -1; AuxTop = (ADDR)get_cellptr(); if (LOCAL_ErrorMessage) return -1; LOCAL_ScratchPad.ptr = (ADDR)get_cellptr(); if (LOCAL_ErrorMessage) return -1; LOCAL_ScratchPad.sz = get_cell(); if (LOCAL_ErrorMessage) return -1; LOCAL_ScratchPad.msz = get_cell(); if (LOCAL_ErrorMessage) return -1; LOCAL_HDiff = Unsigned(Yap_HeapBase) - Unsigned(LOCAL_OldHeapBase); return 1; } /* Gets the register array */ /* Saves the old bases for the work areas */ /* and evaluates the difference from the old areas to the new ones */ static int get_regs(int flag USES_REGS) { CELL *NewGlobalBase = (CELL *)LOCAL_GlobalBase; CELL *NewLCL0 = LCL0; CELL *OldXREGS; /* Get regs */ compile_arrays = (int)get_cell(); if (LOCAL_ErrorMessage) return -1; if (flag == DO_EVERYTHING) { CP = (yamop *)get_cellptr(); if (LOCAL_ErrorMessage) return -1; ENV = get_cellptr(); if (LOCAL_ErrorMessage) return -1; ASP = get_cellptr(); if (LOCAL_ErrorMessage) return -1; /* N = get_cell(); */ H0 = get_cellptr(); if (LOCAL_ErrorMessage) return -1; LCL0 = get_cellptr(); if (LOCAL_ErrorMessage) return -1; HR = get_cellptr(); if (LOCAL_ErrorMessage) return -1; HB = get_cellptr(); if (LOCAL_ErrorMessage) return -1; B = (choiceptr)get_cellptr(); if (LOCAL_ErrorMessage) return -1; TR = (tr_fr_ptr)get_cellptr(); if (LOCAL_ErrorMessage) return -1; YENV = get_cellptr(); if (LOCAL_ErrorMessage) return -1; S = get_cellptr(); if (LOCAL_ErrorMessage) return -1; P = (yamop *)get_cellptr(); if (LOCAL_ErrorMessage) return -1; CreepFlag = get_cell(); if (LOCAL_ErrorMessage) return -1; EventFlag = get_cell(); if (LOCAL_ErrorMessage) return -1; EX = (struct DB_TERM *)get_cellptr(); if (LOCAL_ErrorMessage) return -1; #if defined(YAPOR_SBA) || defined(TABLING) H_FZ = get_cellptr(); if (LOCAL_ErrorMessage) return -1; B_FZ = (choiceptr)get_cellptr(); if (LOCAL_ErrorMessage) return -1; TR_FZ = (tr_fr_ptr)get_cellptr(); if (LOCAL_ErrorMessage) return -1; #endif /* YAPOR_SBA || TABLING */ } CurrentModule = get_cell(); if (LOCAL_ErrorMessage) return -1; if (flag == DO_EVERYTHING) { #ifdef COROUTINING LOCAL_WokenGoals = get_cell(); if (LOCAL_ErrorMessage) return -1; #endif #ifdef DEPTH_LIMIT DEPTH = get_cell(); if (LOCAL_ErrorMessage) return -1; #endif LOCAL_GcGeneration = get_cell(); if (LOCAL_ErrorMessage) return -1; LOCAL_GcPhase = get_cell(); if (LOCAL_ErrorMessage) return -1; LOCAL_GcCurrentPhase = get_cell(); if (LOCAL_ErrorMessage) return -1; } /* Get the old bases */ OldXREGS = get_cellptr(); if (LOCAL_ErrorMessage) return -1; which_save = get_cell(); if (LOCAL_ErrorMessage) return -1; LOCAL_XDiff = (CELL)XREGS - (CELL)OldXREGS; if (LOCAL_ErrorMessage) return -1; if (get_heap_info( PASS_REGS1 ) < 0) return -1; if (flag == DO_EVERYTHING) { ARG1 = get_cell(); if (LOCAL_ErrorMessage) return -1; if (which_save == 2) { ARG2 = get_cell(); if (LOCAL_ErrorMessage) return -1; } /* get old trail base */ LOCAL_OldTrailBase = (ADDR)get_cellptr(); if (LOCAL_ErrorMessage) return -1; /* Save the old register where we can easily access them */ LOCAL_OldASP = ASP; LOCAL_OldLCL0 = LCL0; LOCAL_OldGlobalBase = (CELL *)LOCAL_GlobalBase; LOCAL_OldH = HR; LOCAL_OldTR = TR; LOCAL_GDiff = Unsigned(NewGlobalBase) - Unsigned(LOCAL_GlobalBase); LOCAL_GDiff0 = 0; LOCAL_LDiff = Unsigned(NewLCL0) - Unsigned(LCL0); LOCAL_TrDiff = LOCAL_LDiff; LOCAL_GlobalBase = (ADDR)NewGlobalBase; LCL0 = NewLCL0; } return 1; } /* Get the old opcodes and place them in a hash table */ static int get_insts(OPCODE old_ops[]) { return myread(splfild, (char *)old_ops, sizeof(OPCODE)*(_std_top+1)); } /* Get the old atoms hash table */ static int get_hash(void) { return myread(splfild, (char *)Yap_chtype , NUMBER_OF_CHARS*sizeof(char_kind_t)); } /* Copy all of the old code to the new Heap */ static int CopyCode( USES_REGS1 ) { if (myread(splfild, (char *) Yap_HeapBase, (Unsigned(LOCAL_OldHeapTop) - Unsigned(LOCAL_OldHeapBase))) < 0) { return -1; } return 1; } /* Copy the local and global stack and also the trail to their new home */ /* In REGS we still have nonadjusted values !! */ static int CopyStacks( USES_REGS1 ) { Int j; char *NewASP; j = Unsigned(LOCAL_OldLCL0) - Unsigned(ASP); NewASP = (char *) (Unsigned(ASP) + (Unsigned(LCL0) - Unsigned(LOCAL_OldLCL0))); if (myread(splfild, (char *) NewASP, j) < 0) return -1; j = Unsigned(HR) - Unsigned(LOCAL_OldGlobalBase); if (myread(splfild, (char *) LOCAL_GlobalBase, j) < 0) return -1; j = Unsigned(TR) - Unsigned(LOCAL_OldTrailBase); if (myread(splfild, LOCAL_TrailBase, j)) return -1; return 1; } /* Copy the local and global stack and also the trail to their new home */ /* In REGS we still have nonadjusted values !! */ static int CopyTrailEntries( USES_REGS1 ) { CELL entry, *Entries; Entries = (CELL *)LOCAL_TrailBase; do { *Entries++ = entry = get_cell(); if (LOCAL_ErrorMessage) return -1; } while ((CODEADDR)entry != NULL); return 1; } /* get things which are saved in the file */ static int get_coded(int flag, OPCODE old_ops[] USES_REGS) { char my_end_msg[256]; if (get_regs(flag PASS_REGS) < 0) return -1; if (get_insts(old_ops) < 0) return -1; if (get_hash() < 0) return -1; if (CopyCode( PASS_REGS1 ) < 0) return -1; switch (flag) { case DO_EVERYTHING: if (CopyStacks( PASS_REGS1 ) < 0) return -1; break; case DO_ONLY_CODE: if (CopyTrailEntries( PASS_REGS1 ) < 0) return -1; break; } /* Check CRC */ if (myread(splfild, my_end_msg, 256) < 0) return -1; if (strcmp(end_msg,my_end_msg) != 0) { LOCAL_ErrorMessage = "bad trailing CRC in saved state"; return -1; } return 1; } /* restore some heap registers */ static void restore_heap_regs( USES_REGS1 ) { if (HeapTop) { HeapTop = AddrAdjust(HeapTop); *((YAP_SEG_SIZE *) HeapTop) = InUseFlag; } HeapMax = Yap_heap_regs->heap_used = OldHeapUsed; HeapLim = LOCAL_GlobalBase; } /* adjust abstract machine registers */ static void restore_regs(int flag USES_REGS) { restore_heap_regs( PASS_REGS1 ); if (CurrentModule) { CurrentModule = AtomTermAdjust(CurrentModule);; } if (flag == DO_EVERYTHING) { CP = PtoOpAdjust(CP); ENV = PtoLocAdjust(ENV); ASP = PtoLocAdjust(ASP); HR = PtoGloAdjust(HR); B = (choiceptr)PtoLocAdjust(CellPtr(B)); TR = PtoTRAdjust(TR); P = PtoOpAdjust(P); HB = PtoLocAdjust(HB); YENV = PtoLocAdjust(YENV); S = PtoGloAdjust(S); if (EX) { EX = DBTermAdjust(EX); RestoreDBTerm(EX, TRUE PASS_REGS); } LOCAL_WokenGoals = AbsAppl(PtoGloAdjust(RepAppl(LOCAL_WokenGoals))); } } static void recompute_mask(DBRef dbr) { if (dbr->Flags & DBNoVars) { dbr->Mask = Yap_EvalMasks((Term) dbr->DBT.Entry, &(dbr->Key)); } else if (dbr->Flags & DBComplex) { /* This is quite nasty, we want to recalculate the mask but we don't want to rebuild the whole term. We'll just build whatever we need to recompute the mask. */ CELL *x = (CELL *)HeapTop, *tp; unsigned int Arity, i; Term out; char *tbase = CharP(dbr->DBT.Contents-1); if (IsPairTerm(dbr->DBT.Entry)) { out = AbsPair(x); Arity = 2; tp = (CELL *)(tbase + (CELL) RepPair(dbr->DBT.Entry)); } else { Functor f; tp = (CELL *)(tbase + (CELL) RepAppl(dbr->DBT.Entry)); f = (Functor)(*tp++); out = AbsAppl(x); Arity = ArityOfFunctor(f); *x++ = (CELL)f; if (Arity > 3) Arity = 3; } for (i = 0; i < Arity; i++) { register Term tw = *tp++; if (IsVarTerm(tw)) { RESET_VARIABLE(x); } else if (IsApplTerm(tw)) { /* just fetch the functor from where it is in the data-base. This guarantees we have access to references and friends. */ CELL offset = (CELL)RepAppl(tw); if (offset > dbr->DBT.NOfCells*sizeof(CELL)) *x = tw; else *x = AbsAppl((CELL *)(tbase + offset)); } else if (IsAtomicTerm(tw)) { *x = tw; } else if (IsPairTerm(tw)) { *x = AbsPair(x); } x++; } dbr->Mask = Yap_EvalMasks(out, &(dbr->Key)); } } #define HASH_SHIFT 6 /* * This is used to make an hash table correct, after displacing its elements, * HCEnd should point to an area of free space, usually in the heap. The * routine is very dependent on the hash function used, and it destroys the * previous "hit" order */ static void rehash(CELL *oldcode, int NOfE, int KindOfEntries USES_REGS) { register CELL *savep, *basep; CELL *oldp = oldcode; int TableSize = NOfE - 1, NOfEntries; register int i; int hash; CELL WorkTerm, failplace = 0; CELL *Base = oldcode; if (LOCAL_HDiff == 0) return; basep = HR; if (HR + (NOfE*2) > ASP) { basep = (CELL *)TR; if (basep + (NOfE*2) > (CELL *)LOCAL_TrailTop) { if (!Yap_growtrail((ADDR)(basep + (NOfE*2))-LOCAL_TrailTop, TRUE)) { Yap_Error(RESOURCE_ERROR_TRAIL, TermNil, "not enough space to restore hash tables for indexing"); Yap_exit(1); } } } for (i = 0; i < NOfE; ++i) { if (*oldp == 0) { failplace = oldp[1]; break; } oldp += 2; } savep = basep; oldp = oldcode; for (i = 0; i < NOfE; ++i) { if (*oldp != 0) { savep[0] = oldp[0]; savep[1] = oldp[1]; oldp[0] = 0; oldp[1] = failplace; savep += 2; } oldp += 2; } NOfEntries = (savep - basep)/2; savep = basep; for (i = 0; i < NOfEntries; ++i) { register Int d; CELL *hentry; WorkTerm = savep[i*2]; hash = (Unsigned(WorkTerm) >> HASH_SHIFT) & TableSize; hentry = Base + hash * 2; d = TableSize & (Unsigned(WorkTerm) | 1); while (*hentry) { #ifdef DEBUG #ifdef CLASHES ++clashes; #endif /* CLASHES */ #endif /* DEBUG */ hash = (hash + d) & TableSize; hentry = Base + hash * 2; } hentry[0] = WorkTerm; hentry[1] = savep[i*2+1]; } } static void RestoreSWIHash(void) { // Yap_InitSWIHash(); } static void RestoreFlags( UInt NFlags ) { } #include "rheap.h" /* restore the atom entries which are invisible for the user */ static void RestoreIOStructures(void) { Yap_InitStdStreams(); } static void RestoreFreeSpace( USES_REGS1 ) { #if USE_DL_MALLOC Yap_av = (struct malloc_state *)AddrAdjust((ADDR)Yap_av); Yap_RestoreDLMalloc(); if (AuxSp != NULL) { if (AuxBase < LOCAL_OldHeapBase || AuxBase > LOCAL_OldHeapTop) { AuxSp = NULL; AuxBase = NULL; AuxTop = NULL; } else { AuxSp = PtoHeapCellAdjust(AuxSp); AuxBase = AddrAdjust(AuxBase); AuxTop = AddrAdjust(AuxTop); LOCAL_ScratchPad.ptr = AddrAdjust(LOCAL_ScratchPad.ptr); } } #else /* restores the list of free space, with its curious structure */ BlockHeader *bpt, *bsz; if (FreeBlocks != NULL) FreeBlocks = BlockAdjust(FreeBlocks); bpt = FreeBlocks; if (AuxSp != NULL) AuxSp = CellPtoHeapAdjust(AuxSp); if (AuxTop != NULL) AuxTop = AddrAdjust(AuxTop); while (bpt != NULL) { if (bpt->b_next != NULL) { bsz = bpt->b_next = BlockAdjust(bpt->b_next); while (bsz != NULL) { if (bsz->b_next_size != NULL) bsz->b_next_size = BlockAdjust(bsz->b_next_size); if (bsz->b_next != NULL) bsz->b_next = BlockAdjust(bsz->b_next); bsz = bsz->b_next; } } if (bpt->b_next_size != NULL) bpt->b_next_size = BlockAdjust(bpt->b_next_size); bpt = bpt->b_next_size; } *((YAP_SEG_SIZE *) HeapTop) = InUseFlag; #endif } static void RestoreAtomList(Atom atm USES_REGS) { AtomEntry *at; at = RepAtom(atm); if (EndOfPAEntr(at)) return; do { RestoreAtom(at PASS_REGS); at = RepAtom(at->NextOfAE); } while (!EndOfPAEntr(at)); } static void RestoreHashPreds( USES_REGS1 ) { UInt size = PredHashTableSize; bool malloced = FALSE; PredEntry **np; UInt i; PredEntry **oldp = PredHash; np = (PredEntry **) Yap_AllocAtomSpace(sizeof(PredEntry *)*size); if (!np) { if (!(np = (PredEntry **) malloc(sizeof(PredEntry *)*size))) { Yap_Error(SYSTEM_ERROR_FATAL,TermNil,"Could not allocate space for pred table"); return; } malloced = TRUE; } for (i = 0; i < size; i++) { np[i] = NULL; } for (i = 0; i < PredHashTableSize; i++) { PredEntry *p = oldp[i]; if (p) p = PredEntryAdjust(p); while (p) { Prop nextp; UInt hsh; if (p->NextOfPE) p->NextOfPE = PropAdjust(p->NextOfPE); nextp = p->NextOfPE; CleanCode(p PASS_REGS); hsh = PRED_HASH(p->FunctorOfPred, p->ModuleOfPred, size); p->NextOfPE = AbsPredProp(np[hsh]); np[hsh] = p; p = RepPredProp(nextp); } } for (i = 0; i < size; i++) { PredHash[i] = np[i]; } if (malloced) free((ADDR)np); else Yap_FreeAtomSpace((ADDR)np); } /* * This is the really tough part, to restore the whole of the heap */ static void restore_heap(void) { restore_codes(); RestoreIOStructures(); } #ifdef DEBUG_RESTORE3 static void ShowEntries(pp) PropEntry *pp; { while (!EndOfPAEntr(pp)) { fprintf(GLOBAL_stderr,"Estou a ver a prop %x em %x\n", pp->KindOfPE, pp); pp = RepProp(pp->NextOfPE); } } static void ShowAtoms() { AtomHashEntry *HashPtr = HashChain; register int i; for (i = 0; i < AtomHashTableSize; ++i) { if (HashPtr->Entry != NIL) { AtomEntry *at; at = RepAtom(HashPtr->Entry); do { fprintf(GLOBAL_stderr,"Passei ao %s em %x\n", at->StrOfAE, at); ShowEntries(RepProp(at->PropsOfAE)); } while (!EndOfPAEntr(at = RepAtom(at->NextOfAE))); } HashPtr++; } HashPtr = WideHashChain; for (i = 0; i < WideAtomHashTableSize; ++i) { if (HashPtr->Entry != NIL) { AtomEntry *at; at = RepAtom(HashPtr->Entry); do { fprintf(GLOBAL_stderr,"Passei ao %s em %x\n", at->StrOfAE, at); ShowEntries(RepProp(at->PropsOfAE)); } while (!EndOfPAEntr(at = RepAtom(at->NextOfAE))); } HashPtr++; } } #endif /* DEBUG_RESTORE3 */ #include static int commit_to_saved_state(char *s, CELL *Astate, CELL *ATrail, CELL *AStack, CELL *AHeap) { CACHE_REGS int mode; if ((mode = check_header(Astate,ATrail,AStack,AHeap PASS_REGS)) == FAIL_RESTORE) return(FAIL_RESTORE); LOCAL_PrologMode = BootMode; if (Yap_HeapBase) { if (falseGlobalPrologFlag( HALT_AFTER_CONSULT_FLAG ) && !silentMode( )) { Yap_TrueFileName(s,LOCAL_FileNameBuf2, YAP_FILENAME_MAX); fprintf(stderr, "%% Restoring file %s\n", LOCAL_FileNameBuf2); } Yap_CloseStreams(TRUE); } #ifdef DEBUG_RESTORE4 /* * This should be another file, like the log file */ errout = GLOBAL_stderr; #endif return mode; } static int try_open(char *inpf, CELL *Astate, CELL *ATrail, CELL *AStack, CELL *AHeap, FILE **streamp) { int mode; if (streamp) { if ((*streamp = fopen(inpf, "rb"))) { return DO_ONLY_CODE; } return FAIL_RESTORE; } if ((splfild = open_file(inpf, O_RDONLY)) < 0) { return FAIL_RESTORE; } if ((mode = commit_to_saved_state(inpf,Astate,ATrail,AStack,AHeap)) != FAIL_RESTORE) { CACHE_REGS LOCAL_ErrorMessage = NULL; return mode; } return mode; } static int OpenRestore(char *inpf, char *YapLibDir, CELL *Astate, CELL *ATrail, CELL *AStack, CELL *AHeap, FILE **streamp) { CACHE_REGS int mode; char fname[PATH_MAX+1]; if (!Yap_trueFileName( inpf, YAP_STARTUP, YapLibDir, fname, true, YAP_SAVED_STATE, true, true)) return false; if (fname[0] && (mode = try_open(fname,Astate,ATrail,AStack,AHeap,streamp)) != FAIL_RESTORE) { return mode; } /* try to open from current directory */ /* could not open file */ if (LOCAL_ErrorMessage == NULL) { do_SYSTEM_ERROR_INTERNAL(PERMISSION_ERROR_OPEN_SOURCE_SINK,"incorrect saved state "); } else { strncpy(LOCAL_FileNameBuf, inpf, YAP_FILENAME_MAX-1); do_SYSTEM_ERROR_INTERNAL(PERMISSION_ERROR_OPEN_SOURCE_SINK,"could not open saved state"); } return FAIL_RESTORE; } FILE * Yap_OpenRestore(char *inpf, char *YapLibDir) { FILE *stream = NULL; OpenRestore(inpf, YapLibDir, NULL, NULL, NULL, NULL, &stream); return stream; } static void CloseRestore(void) { CACHE_REGS #ifdef DEBUG_RESTORE3 ShowAtoms(); #endif close_file(); LOCAL_PrologMode = UserMode; } #if !defined(_WIN32) static int check_opcodes(OPCODE old_ops[]) { #if USE_THREADED_CODE bool have_shifted = FALSE; op_numbers op = _Ystop; for (op = _Ystop; op < _std_top; op++) { if (Yap_opcode(op) != old_ops[op]) { have_shifted = TRUE; break; } } return have_shifted; #else /* be conservative */ return TRUE; #endif } #endif static void RestoreHeap(OPCODE old_ops[] USES_REGS) { bool heap_moved = (LOCAL_OldHeapBase != Yap_HeapBase || LOCAL_XDiff), opcodes_moved; Term mod = CurrentModule; CurrentModule = PROLOG_MODULE; #if defined(_WIN32) /* It seems that under WIN32 opcodes may not have moved but the remaining code may have bmoved */ opcodes_moved = TRUE; #else opcodes_moved = check_opcodes(old_ops); #endif /* opcodes_moved has side-effects and should be tried first */ if (heap_moved) { opcodes_moved = TRUE; RestoreFreeSpace( PASS_REGS1 ); } if (heap_moved || opcodes_moved) { restore_heap(); } /* This must be done after restore_heap */ Yap_InitAbsmi(); if (opcodes_moved) { Yap_InitCPreds(); Yap_InitBackCPreds(); } if (!(Yap_ReInitConstExps() && Yap_ReInitUnaryExps() && Yap_ReInitBinaryExps())) { Yap_Error(SYSTEM_ERROR_INTERNAL, TermNil, "arithmetic operator not in saved state"); } #ifdef DEBUG_RESTORE1 fprintf(errout, "phase 1 done\n"); #endif CurrentModule = mod; } /* * This function is called to know about the parameters of the last saved * state */ int Yap_SavedInfo(char *FileName, char *YapLibDir, CELL *ATrail, CELL *AStack, CELL *AHeap) { return DO_ONLY_CODE; CELL MyTrail, MyStack, MyHeap, MyState; int mode; mode = OpenRestore(FileName, YapLibDir, &MyState, &MyTrail, &MyStack, &MyHeap, NULL); if (mode == FAIL_RESTORE) { return -1; } close_file(); if (! *AHeap) *AHeap = MyHeap / 1024; if (mode != DO_ONLY_CODE && *AStack) *AStack = MyStack / 1024; if (mode != DO_ONLY_CODE && *ATrail) *ATrail = MyTrail / 1024; return (MyState); } static void UnmarkTrEntries( USES_REGS1 ) { CELL entry, *Entries; /* initialize a choice point */ B = (choiceptr)LCL0; B--; B->cp_ap = NOCODE; Entries = (CELL *)LOCAL_TrailBase; while ((entry = *Entries++) != (CELL)NULL) { if (!IsVarTerm(entry)) { if(IsPairTerm(entry)) { CELL *ent = CellPtoHeapAdjust(RepPair(entry)); register CELL flags; flags = *ent; ResetFlag(InUseMask, flags); *ent = flags; if (FlagOn((DirtyMask|ErasedMask), flags)) { if (FlagOn(DBClMask, flags)) { Yap_ErDBE(DBStructFlagsToDBStruct(ent)); } else { if (flags & LogUpdMask) { if (flags & IndexMask) { if (FlagOn(ErasedMask, flags)) Yap_ErLogUpdIndex(ClauseFlagsToLogUpdIndex(ent)); else Yap_CleanUpIndex(ClauseFlagsToLogUpdIndex(ent)); } else { Yap_ErLogUpdCl(ClauseFlagsToLogUpdClause(ent)); } } else { Yap_ErCl(ClauseFlagsToDynamicClause(ent)); } } } #ifdef MULTI_ASSIGNMENT_VARIABLES } else /* if (IsApplTerm(d1)) */ { Entries += 2; #endif } } } B = NULL; } int in_limbo = FALSE; /* cleanup any records we had in the saved state. They are now inaccessible */ static void FreeRecords(void) { struct record_list *ptr; ptr = Yap_Records; Yap_Records = NULL; while (ptr) { struct record_list *optr = ptr; Yap_ReleaseTermFromDB(ptr->dbrecord); ptr = ptr->next_rec; Yap_FreeCodeSpace((void *)optr); } } /* * This function is called when wanting only to restore the heap and * associated registers */ static int Restore(char *s, char *lib_dir USES_REGS) { int restore_mode; OPCODE old_ops[_std_top+1]; CELL MyTrail, MyStack, MyHeap, MyState; if ((restore_mode = OpenRestore(s, lib_dir, &MyState, &MyTrail, &MyStack, &MyHeap, NULL)) == FAIL_RESTORE) return(FALSE); Yap_ShutdownLoadForeign(); in_limbo = TRUE; if (get_coded(restore_mode, old_ops PASS_REGS) < 0) return FAIL_RESTORE; restore_regs(restore_mode PASS_REGS); in_limbo = FALSE; /*#endif*/ RestoreHeap(old_ops PASS_REGS); switch(restore_mode) { case DO_EVERYTHING: if (LOCAL_OldHeapBase != Yap_HeapBase || LOCAL_OldLCL0 != LCL0 || LOCAL_OldGlobalBase != (CELL *)LOCAL_GlobalBase || LOCAL_OldTrailBase != LOCAL_TrailBase) { Yap_AdjustStacksAndTrail(); if (which_save == 2) { Yap_AdjustRegs(2); } else { Yap_AdjustRegs(1); } break; #ifdef DEBUG_RESTORE2 fprintf(errout, "phase 2 done\n"); #endif } break; case DO_ONLY_CODE: UnmarkTrEntries( PASS_REGS1 ); Yap_InitYaamRegs( 0 ); break; } Yap_ReOpenLoadForeign(); FreeRecords(); /* restart IO */ // initIO(); /* reset time */ Yap_ReInitWTime(); #if USE_DL_MALLOC || USE_SYSTEM_MALLOC if (!AuxSp) { Yap_InitPreAllocCodeSpace( 0 ); } #endif CloseRestore(); if (which_save == 2) { Yap_unify(ARG2, MkIntTerm(0)); } return restore_mode; } int Yap_SavedStateRestore(char *s, char *lib_dir) { CACHE_REGS return Restore(s, lib_dir PASS_REGS); } static Int p_restore( USES_REGS1 ) { int mode; char s[YAP_FILENAME_MAX+1]; Term t1 = Deref(ARG1); #ifdef YAPOR if (GLOBAL_number_workers != 1) { Yap_Error(SYSTEM_ERROR_INTERNAL,TermNil,"cannot perform save: more than a worker/thread running"); return(FALSE); } #endif /* YAPOR */ #ifdef THREADS if (GLOBAL_NOfThreads != 1) { Yap_Error(SYSTEM_ERROR_INTERNAL,TermNil,"cannot perform save: more than a worker/thread running"); return(FALSE); } #endif /* THREADS */ if (!Yap_GetName(s, YAP_FILENAME_MAX, t1)) { Yap_Error(TYPE_ERROR_LIST,t1,"restore/1"); return(FALSE); } if ((mode = Restore(s, NULL PASS_REGS)) == DO_ONLY_CODE) { Yap_RestartYap( 3 ); } return(mode != FAIL_RESTORE); } void Yap_InitSavePreds(void) { Yap_InitCPred("$save", 2, p_save2, SyncPredFlag); Yap_InitCPred("$save_program", 1, p_save_program, SyncPredFlag); Yap_InitCPred("$restore", 1, p_restore, SyncPredFlag); }