/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: sysbits.c * * Last rev: 4/03/88 * * mods: * * comments: very much machine dependent routines * * * *************************************************************************/ #ifdef SCCS static char SccsId[] = "%W% %G%"; #endif /* * In this routine we shall try to include the inevitably machine dependant * routines. These include, for the moment : Time, A rudimentary form of * signal handling, OS calls, * * Vitor Santos Costa, February 1987 * */ #include "Yap.h" #include "yapio.h" #include "eval.h" #include "Yatom.h" #include "Heap.h" #include "alloc.h" #include "tracer.h" #include #if STDC_HEADERS #include #endif #if HAVE_SYS_TIME_H && !defined(__MINGW32__) && !_MSC_VER #include #endif #if HAVE_UNISTD_H #include #endif #if HAVE_SYS_WAIT_H && !defined(__MINGW32__) && !_MSC_VER #include #endif #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_GETPWNAM #include #endif #if HAVE_SYS_STAT_H #include #endif #if HAVE_SYS_TYPES_H #include #endif #if HAVE_FCNTL_H #include #endif #ifdef _WIN32 #define _WIN32_WINNT 0x0400 #include /* required for DLL compatibility */ #if HAVE_DIRECT_H #include #endif #include #else #if HAVE_SYS_PARAM_H #include #endif #endif #if HAVE_LIBREADLINE #include #endif STATIC_PROTO (void InitPageSize, (void)); STATIC_PROTO (void InitTime, (void)); STATIC_PROTO (void InitWTime, (void)); STATIC_PROTO (Int p_sh, (void)); STATIC_PROTO (Int p_shell, (void)); STATIC_PROTO (Int p_system, (void)); STATIC_PROTO (Int p_mv, (void)); STATIC_PROTO (Int p_cd, (void)); STATIC_PROTO (Int p_getcwd, (void)); STATIC_PROTO (Int p_dir_sp, (void)); STATIC_PROTO (void InitRandom, (void)); STATIC_PROTO (Int p_srandom, (void)); STATIC_PROTO (Int p_alarm, (void)); STATIC_PROTO (Int p_getenv, (void)); STATIC_PROTO (Int p_putenv, (void)); #ifdef MACYAP STATIC_PROTO (int chdir, (char *)); /* #define signal skel_signal */ #endif /* MACYAP */ STD_PROTO (void exit, (int)); #ifdef _WIN32 static void WinError(char *yap_error) { char msg[256]; /* Error, we could not read time */ FormatMessage(FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, NULL, GetLastError(), MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT), msg, 256, NULL); Error(SYSTEM_ERROR, TermNil, "%s: %s", yap_error, msg); } #endif /* _WIN32 */ #define is_valid_env_char(C) ( ((C) >= 'a' && (C) <= 'z') || ((C) >= 'A' && \ (C) <= 'Z') || (C) == '_' ) int dir_separator (int ch) { #ifdef MAC return (ch == ':'); #elif ATARI || _MSC_VER return (ch == '\\'); #elif defined(__MINGW32__) return (ch == '\\' || ch == '/'); #else return (ch == '/'); #endif } void InitSysPath(void) { strncpy(FileNameBuf, SHARE_DIR, YAP_FILENAME_MAX); #ifdef MAC strncat(FileNameBuf,":", YAP_FILENAME_MAX); #elif ATARI || _MSC_VER || defined(__MINGW32__) strncat(FileNameBuf,"\\", YAP_FILENAME_MAX); #else strncat(FileNameBuf,"/", YAP_FILENAME_MAX); #endif strncat(FileNameBuf, "Yap", YAP_FILENAME_MAX); PutValue(LookupAtom("system_library_directory"), MkAtomTerm(LookupAtom(FileNameBuf))); } static Int p_dir_sp (void) { #ifdef MAC Term t = MkIntTerm(':'); #elif ATARI || _MSC_VER || defined(__MINGW32__) Term t = MkIntTerm('\\'); #else Term t = MkIntTerm('/'); #endif return(unify_constant(ARG1,t)); } int page_size; static void InitPageSize(void) { #ifdef _WIN32 SYSTEM_INFO si; GetSystemInfo(&si); page_size = si.dwPageSize; #elif HAVE_UNISTD_H #ifdef __FreeBSD__ page_size = getpagesize(); #elif defined(_AIX) page_size = sysconf(_SC_PAGE_SIZE); #elif !defined(_SC_PAGESIZE) page_size = getpagesize(); #else page_size = sysconf(_SC_PAGESIZE); #endif #else bla bla #endif } #ifdef SIMICS #ifdef HAVE_GETRUSAGE #undef HAVE_GETRUSAGE #endif #ifdef HAVE_TIMES #undef HAVE_TIMES #endif #endif /* SIMICS */ #ifdef _WIN32 #if HAVE_GETRUSAGE #undef HAVE_GETRUSAGE #endif #endif #if HAVE_GETRUSAGE #if HAVE_SYS_TIMES_H #include #endif #if HAVE_SYS_RESOURCE_H #include #endif /* since the point YAP was started */ static struct timeval StartOfTimes; /* since last call to runtime */ static struct timeval last_time; /* store user time in this variable */ static void InitTime (void) { struct rusage rusage; getrusage(RUSAGE_SELF, &rusage); last_time.tv_sec = StartOfTimes.tv_sec = rusage.ru_utime.tv_sec; last_time.tv_usec = StartOfTimes.tv_usec = rusage.ru_utime.tv_usec; } Int cputime (void) { struct rusage rusage; getrusage(RUSAGE_SELF, &rusage); return((rusage.ru_utime.tv_sec - StartOfTimes.tv_sec)) * 1000 + ((rusage.ru_utime.tv_usec - StartOfTimes.tv_usec) / 1000); } void cputime_interval(Int *now,Int *interval) { struct rusage rusage; getrusage(RUSAGE_SELF, &rusage); *now = (rusage.ru_utime.tv_sec - StartOfTimes.tv_sec) * 1000 + (rusage.ru_utime.tv_usec - StartOfTimes.tv_usec) / 1000; *interval = (rusage.ru_utime.tv_sec - last_time.tv_sec) * 1000 + (rusage.ru_utime.tv_usec - last_time.tv_usec) / 1000; last_time.tv_usec = rusage.ru_utime.tv_usec; last_time.tv_sec = rusage.ru_utime.tv_sec; } #elif defined(_WIN32) #ifdef __GNUC__ /* This is stolen from the Linux kernel. The problem is that mingw32 does not seem to have acces to div */ #ifndef do_div #define do_div(n,base) ({ \ unsigned long __upper, __low, __high, __mod; \ asm("":"=a" (__low), "=d" (__high):"A" (n)); \ __upper = __high; \ if (__high) { \ __upper = __high % (base); \ __high = __high / (base); \ } \ asm("divl %2":"=a" (__low), "=d" (__mod):"rm" (base), "0" (__low), "1" (__upper)); \ asm("":"=A" (n):"a" (__low),"d" (__high)); \ __mod; \ }) #endif #endif #include static FILETIME StartOfTimes, last_time; /* store user time in this variable */ static void InitTime (void) { HANDLE hProcess = GetCurrentProcess(); FILETIME CreationTime, ExitTime, KernelTime, UserTime; if (!GetProcessTimes(hProcess, &CreationTime, &ExitTime, &KernelTime, &UserTime)) WinError("could not query cputime"); last_time.dwLowDateTime = UserTime.dwLowDateTime; last_time.dwHighDateTime = UserTime.dwHighDateTime; StartOfTimes.dwLowDateTime = UserTime.dwLowDateTime; StartOfTimes.dwHighDateTime = UserTime.dwHighDateTime; } Int cputime (void) { HANDLE hProcess = GetCurrentProcess(); FILETIME CreationTime, ExitTime, KernelTime, UserTime; if (!GetProcessTimes(hProcess, &CreationTime, &ExitTime, &KernelTime, &UserTime)) WinError("could not query cputime"); #ifdef __GNUC__ { unsigned long long int t = *(unsigned long long int *)&UserTime - *(unsigned long long int *)&StartOfTimes; return((Int)do_div(t,10000)); #endif #ifdef _MSC_VER LONG_INTEGER t = *(LONG_INTEGER *)&UserTime - *(LONG_INTEGER *)&StartOfTimes; return((Int)(t/10000)); #endif } } void cputime_interval(Int *now,Int *interval) { HANDLE hProcess = GetCurrentProcess(); FILETIME CreationTime, ExitTime, KernelTime, UserTime; if (!GetProcessTimes(hProcess, &CreationTime, &ExitTime, &KernelTime, &UserTime)) WinError("could not query cputime"); { #ifdef __GNUC__ unsigned long long int t1 = *(unsigned long long int *)&UserTime - *(unsigned long long int *)&StartOfTimes; unsigned long long int t2 = *(unsigned long long int *)&UserTime - *(unsigned long long int *)&last_time; *now = (Int)do_div(t1,10000); *interval = (Int)do_div(t2,10000); #endif #ifdef _MSC_VER LONG_INTEGER t1 = *(LONG_INTEGER *)&UserTime - *(LONG_INTEGER *)&StartOfTimes; LONG_INTEGER t2 = *(LONG_INTEGER *)&UserTime - *(LONG_INTEGER *)&last_time; *now = (Int)(t1/10000); *interval = (Int)(t2/10000); #endif last_time.dwLowDateTime = UserTime.dwLowDateTime; last_time.dwHighDateTime = UserTime.dwHighDateTime; } } #elif HAVE_TIMES #if defined(_WIN32) #include #define TicksPerSec CLOCKS_PER_SEC #else #if HAVE_SYS_TIMES_H #include #endif #endif #if defined(__sun__) && (defined(__svr4__) || defined(__SVR4)) #if HAVE_LIMITS_H #include #endif #define TicksPerSec CLK_TCK #endif #if defined(__alpha) || defined(__FreeBSD__) || defined(__linux__) #if HAVE_TIME_H #include #endif #define TicksPerSec sysconf(_SC_CLK_TCK) #endif #if !TMS_IN_SYS_TIME #if HAVE_SYS_TIMES_H #include #endif #endif static clock_t StartOfTimes, last_time; /* store user time in this variable */ static void InitTime (void) { struct tms t; times (&t); last_time = StartOfTimes = t.tms_utime; } Int cputime (void) { struct tms t; times(&t); return((t.tms_utime - StartOfTimes)*1000 / TicksPerSec); } void cputime_interval(Int *now,Int *interval) { struct tms t; times (&t); *now = ((t.tms_utime - StartOfTimes)*1000) / TicksPerSec; *interval = (t.tms_utime - last_time) * 1000 / TicksPerSec; last_time = t.tms_utime; } #else /* HAVE_TIMES */ #ifdef SIMICS #include /* since the point YAP was started */ static struct timeval StartOfTimes; /* since last call to runtime */ static struct timeval last_time; /* store user time in this variable */ static void InitTime (void) { struct timeval tp; gettimeofday(&tp,NULL); last_time.tv_sec = StartOfTimes.tv_sec = tp.tv_sec; last_time.tv_usec = StartOfTimes.tv_usec = tp.tv_usec; } Int cputime (void) { struct timeval tp; gettimeofday(&tp,NULL); if (StartOfTimes.tv_usec > tp.tv_usec) return((tp.tv_sec - StartOfTimes.tv_sec - 1) * 1000 + (StartOfTimes.tv_usec - tp.tv_usec) /1000); else return((tp.tv_sec - StartOfTimes.tv_sec)) * 1000 + ((tp.tv_usec - StartOfTimes.tv_usec) / 1000); } void cputime_interval(Int *now,Int *interval) { struct timeval tp; gettimeofday(&tp,NULL); *now = (tp.tv_sec - StartOfTimes.tv_sec) * 1000 + (tp.tv_usec - StartOfTimes.tv_usec) / 1000; *interval = (tp.tv_sec - last_time.tv_sec) * 1000 + (tp.tv_usec - last_time.tv_usec) / 1000; last_time.tv_usec = tp.tv_usec; last_time.tv_sec = tp.tv_sec; } #endif /* SIMICS */ #ifdef COMMENTED_OUT /* This code is not working properly. I left it here to help future ports */ #ifdef MPW #include #include #define TicksPerSec 60.0 static double real_cputime () { return (((double) TickCount ()) / TicksPerSec); } #endif /* MPW */ #ifdef LATTICE #include "osbind.h" static long *ptime; gettime () { *ptime = *(long *) 0x462; } static double real_cputime () { long thetime; ptime = &thetime; xbios (38, gettime); return (((double) thetime) / (Getrez () == 2 ? 70 : 60)); } #endif /* LATTICE */ #ifdef M_WILLIAMS #include #include static long *ptime; static long readtime () { return (*((long *) 0x4ba)); } static double real_cputime () { long time; time = Supexec (readtime); return (time / 200.0); } #endif /* M_WILLIAMS */ #ifdef LIGHT #undef FALSE #undef TRUE #include #define TicksPerSec 60.0 static double real_cputime () { return (((double) TickCount ()) / TicksPerSec); } #endif /* LIGHT */ #endif /* COMMENTED_OUT */ #endif /* HAVE_GETRUSAGE */ #if HAVE_GETHRTIME /* since the point YAP was started */ static hrtime_t StartOfWTimes; /* since last call to walltime */ #define LastWtime (*(hrtime_t *)ALIGN_YAPTYPE(LastWtimePtr,hrtime_t)) static void InitWTime (void) { StartOfWTimes = gethrtime(); } static void InitLastWtime(void) { /* ask for twice the space in order to guarantee alignment */ LastWtimePtr = (void *)AllocCodeSpace(2*sizeof(hrtime_t)); LastWtime = StartOfWTimes; } Int walltime (void) { hrtime_t tp = gethrtime(); /* return time in milliseconds */ return((Int)((tp-StartOfWTimes)/((hrtime_t)1000000))); } void walltime_interval(Int *now,Int *interval) { hrtime_t tp = gethrtime(); /* return time in milliseconds */ *now = (Int)((tp-StartOfWTimes)/((hrtime_t)1000000)); *interval = (Int)((tp-LastWtime)/((hrtime_t)1000000)); LastWtime = tp; } #elif HAVE_GETTIMEOFDAY /* since the point YAP was started */ static struct timeval StartOfWTimes; /* since last call to walltime */ #define LastWtime (*(struct timeval *)LastWtimePtr) /* store user time in this variable */ static void InitWTime (void) { gettimeofday(&StartOfWTimes,NULL); } static void InitLastWtime(void) { LastWtimePtr = (void *)AllocCodeSpace(sizeof(struct timeval)); LastWtime.tv_usec = StartOfWTimes.tv_usec; LastWtime.tv_sec = StartOfWTimes.tv_sec; } Int walltime (void) { struct timeval tp; gettimeofday(&tp,NULL); if (StartOfWTimes.tv_usec > tp.tv_usec) return((tp.tv_sec - StartOfWTimes.tv_sec - 1) * 1000 + (StartOfWTimes.tv_usec - tp.tv_usec) /1000); else return((tp.tv_sec - StartOfWTimes.tv_sec)) * 1000 + ((tp.tv_usec - LastWtime.tv_usec) / 1000); } void walltime_interval(Int *now,Int *interval) { struct timeval tp; gettimeofday(&tp,NULL); *now = (tp.tv_sec - StartOfWTimes.tv_sec) * 1000 + (tp.tv_usec - StartOfWTimes.tv_usec) / 1000; *interval = (tp.tv_sec - LastWtime.tv_sec) * 1000 + (tp.tv_usec - LastWtime.tv_usec) / 1000; LastWtime.tv_usec = tp.tv_usec; LastWtime.tv_sec = tp.tv_sec; } #elif defined(_WIN32) #include #include /* since the point YAP was started */ static struct _timeb StartOfWTimes; /* since last call to walltime */ #define LastWtime (*(struct timeb *)LastWtimePtr) /* store user time in this variable */ static void InitWTime (void) { _ftime(&StartOfWTimes); } static void InitLastWtime(void) { LastWtimePtr = (void *)AllocCodeSpace(sizeof(struct timeb)); LastWtime.time = StartOfWTimes.time; LastWtime.millitm = StartOfWTimes.millitm; } Int walltime (void) { struct _timeb tp; _ftime(&tp); if (StartOfWTimes.millitm > tp.millitm) return((tp.time - StartOfWTimes.time - 1) * 1000 + (StartOfWTimes.millitm - tp.millitm)); else return((tp.time - StartOfWTimes.time)) * 1000 + ((tp.millitm - LastWtime.millitm) / 1000); } void walltime_interval(Int *now,Int *interval) { struct _timeb tp; _ftime(&tp); *now = (tp.time - StartOfWTimes.time) * 1000 + (tp.millitm - StartOfWTimes.millitm); *interval = (tp.time - LastWtime.time) * 1000 + (tp.millitm - LastWtime.millitm) ; LastWtime.millitm = tp.millitm; LastWtime.time = tp.time; } #elif HAVE_TIMES static clock_t StartOfWTimes; #define LastWtime (*(clock_t *)LastWtimePtr) /* store user time in this variable */ static void InitWTime (void) { StartOfWTimes = times(NULL); } static void InitLastWtime(void) { LastWtimePtr = (void *)AllocCodeSpace(sizeof(clock_t)); LastWtime = StartOfWTimes; } Int walltime (void) { clock_t t; t = times(NULL); return ((t - StartOfWTimes)*1000 / TicksPerSec)); } void walltime_interval(Int *now,Int *interval) { clock_t t; t = times(NULL); *now = ((t - StartOfWTimes)*1000) / TicksPerSec; *interval = (t - LastWtime) * 1000 / TicksPerSec; } #endif /* HAVE_TIMES */ #if HAVE_TIME_H #include #endif unsigned int current_seed; static void InitRandom (void) { current_seed = (unsigned int) time (NULL); #if HAVE_RANDOM srandom (current_seed); #elif HAVE_RAND srand (current_seed); #endif } STD_PROTO (extern int rand, (void)); double yap_random (void) { #if HAVE_RANDOM /* extern long random (); */ return (((double) random ()) / 0x7fffffffL /* 2**31-1 */); #elif HAVE_RAND return (((double) (rand ()) / RAND_MAX)); #else Error(SYSTEM_ERROR, TermNil, "random not available in this configuration"); return (0.0); #endif } static Int p_srandom (void) { register Term t0 = Deref (ARG1); if (IsVarTerm (t0)) { return(unify(ARG1,MkIntegerTerm((Int)current_seed))); } if(!IsNumTerm (t0)) return (FALSE); if (IsIntTerm (t0)) current_seed = (unsigned int) IntOfTerm (t0); else if (IsFloatTerm (t0)) current_seed = (unsigned int) FloatOfTerm (t0); else current_seed = (unsigned int) LongIntOfTerm (t0); #if HAVE_RANDOM srandom(current_seed); #elif HAVE_RAND srand(current_seed); #endif return (TRUE); } #if HAVE_SIGNAL #include #ifdef MPW #define signal sigset #endif #ifdef MSH #define SIGFPE SIGDIV #endif STATIC_PROTO (void InitSignals, (void)); #if (defined(__svr4__) || defined(__SVR4)) #if HAVE_SIGINFO_H #include #endif #if HAVE_SYS_UCONTEXT_H #include #endif STATIC_PROTO (void HandleSIGSEGV, (int, siginfo_t *, ucontext_t *)); STATIC_PROTO (void HandleMatherr, (int, siginfo_t *, ucontext_t *)); STATIC_PROTO (void my_signal_info, (int, void (*)(int, siginfo_t *, ucontext_t *))); STATIC_PROTO (void my_signal, (int, void (*)(int, siginfo_t *, ucontext_t *))); /* This routine believes there is a continuous space starting from the HeapBase and ending on TrailTop */ static void HandleSIGSEGV(int sig, siginfo_t *sip, ucontext_t *uap) { if (sip->si_code != SI_NOINFO && sip->si_code == SEGV_MAPERR && (void *)(sip->si_addr) > (void *)(HeapBase) && (void *)(sip->si_addr) < (void *)(TrailTop+64 * 1024L) ) { growtrail(64 * 1024L); } else { Error(INTERNAL_ERROR, TermNil, "likely bug in YAP, segmentation violation at %p", sip->si_addr); } } static void HandleMatherr(int sig, siginfo_t *sip, ucontext_t *uap) { yap_error_number error_no; /* reset the registers so that we don't have trash in abstract machine */ switch(sip->si_code) { case FPE_INTDIV: error_no = EVALUATION_ERROR_ZERO_DIVISOR; break; case FPE_INTOVF: error_no = EVALUATION_ERROR_INT_OVERFLOW; break; case FPE_FLTDIV: error_no = EVALUATION_ERROR_ZERO_DIVISOR; break; case FPE_FLTOVF: error_no = EVALUATION_ERROR_FLOAT_OVERFLOW; break; case FPE_FLTUND: error_no = EVALUATION_ERROR_FLOAT_UNDERFLOW; break; case FPE_FLTRES: case FPE_FLTINV: case FPE_FLTSUB: default: error_no = EVALUATION_ERROR_UNDEFINED; } YAP_matherror = error_no; siglongjmp(RestartEnv, 2); } static void my_signal_info(int sig, void (*handler)(int, siginfo_t *, ucontext_t *)) { struct sigaction sigact; sigact.sa_handler = handler; sigemptyset(&sigact.sa_mask); sigact.sa_flags = SA_SIGINFO; sigaction(sig,&sigact,NULL); } static void my_signal(int sig, void (*handler)(int, siginfo_t *, ucontext_t *)) { struct sigaction sigact; sigact.sa_handler=handler; sigemptyset(&sigact.sa_mask); sigact.sa_flags = 0; sigaction(sig,&sigact,NULL); } #else STATIC_PROTO (RETSIGTYPE HandleMatherr, (int)); STATIC_PROTO (RETSIGTYPE HandleSIGSEGV, (int)); STATIC_PROTO (void my_signal_info, (int, void (*)(int))); STATIC_PROTO (void my_signal, (int, void (*)(int))); /******** Handling floating point errors *******************/ /* old code, used to work with matherror(), deprecated now: char err_msg[256]; switch (x->type) { case DOMAIN: case SING: Error(EVALUATION_ERROR_UNDEFINED, TermNil, "%s", x->name); return(0); case OVERFLOW: Error(EVALUATION_ERROR_FLOAT_OVERFLOW, TermNil, "%s", x->name); return(0); case UNDERFLOW: Error(EVALUATION_ERROR_FLOAT_UNDERFLOW, TermNil, "%s", x->name); return(0); case PLOSS: case TLOSS: Error(EVALUATION_ERROR_UNDEFINED, TermNil, "%s(%g) = %g", x->name, x->arg1, x->retval); return(0); default: Error(EVALUATION_ERROR_UNDEFINED, TermNil, NULL); return(0); } */ #if HAVE_FENV_H #include #endif #ifdef __linux__ /* fetestexcept does not seem to work in linux :-( :-( */ #undef HAVE_FETESTEXCEPT #endif static RETSIGTYPE HandleMatherr(int sig) { #if HAVE_FETESTEXCEPT /* This should work in Linux, but it doesn't seem to. */ int raised = fetestexcept(FE_ALL_EXCEPT); feclearexcept(FE_ALL_EXCEPT); if (raised & FE_OVERFLOW) { YAP_matherror = EVALUATION_ERROR_FLOAT_OVERFLOW; } else if (raised & (FE_INVALID|FE_INEXACT)) { YAP_matherror = EVALUATION_ERROR_UNDEFINED; } else if (raised & FE_DIVBYZERO) { YAP_matherror = EVALUATION_ERROR_ZERO_DIVISOR; } else if (raised & FE_UNDERFLOW) { YAP_matherror = EVALUATION_ERROR_FLOAT_UNDERFLOW; } else { YAP_matherror = EVALUATION_ERROR_UNDEFINED; } else #endif YAP_matherror = EVALUATION_ERROR_UNDEFINED; /* something very bad happened on the way to the forum */ my_signal (SIGFPE, HandleMatherr); /* do a longjmp because Linux is an idiot, and it makes our life easier anyway, but not an abort!! */ siglongjmp(RestartEnv, 2); } static void SearchForTrailFault(void) { /* If the TRAIL is very close to the top of mmaped allocked space, then we can try increasing the TR space and restarting the instruction. In the worst case, the system will crash again */ #ifdef DEBUG /* fprintf(stderr,"Catching a sigsegv at %p with %p\n", TR, TrailTop); */ #endif #ifndef FIXED_STACKS if ((TR > (tr_fr_ptr)TrailTop-1024 && TR < (tr_fr_ptr)TrailTop+(64*1024))|| DBTrailOverflow()) { if (!growtrail(64 * 1024L)) { Error(SYSTEM_ERROR, TermNil, "YAP failed to reserve %ld bytes in growtrail", 64*1024L); } /* just in case, make sure the OS keeps the signal handler. */ /* my_signal_info(SIGSEGV, HandleSIGSEGV); */ } else #endif /* FIXED_STACKS */ Error(FATAL_ERROR, TermNil, "likely bug in YAP, segmentation violation"); } static RETSIGTYPE HandleSIGSEGV(int sig) { SearchForTrailFault(); } #ifdef HAVE_SIGACTION static void my_signal_info(int sig, void (*handler)(int)) { struct sigaction sigact; sigact.sa_handler = handler; sigemptyset(&sigact.sa_mask); sigaction(sig,&sigact,NULL); } static void my_signal(int sig, void (*handler)(int)) { struct sigaction sigact; sigact.sa_handler=handler; sigemptyset(&sigact.sa_mask); sigaction(sig,&sigact,NULL); } #else static void my_signal(int sig, void (*handler)(int)) { signal(sig, handler); } static void my_signal_info(sig, handler) int sig; void (*handler)(int); { if(signal(sig, handler) == SIG_ERR) exit(1); } #endif /* __linux__ */ #endif static int InteractSIGINT(char ch) { switch (ch) { case 'a': /* abort computation */ /* we can't do a direct abort, so ask the system to do it for us */ p_creep(); PrologMode |= AbortMode; return(-1); case 'c': /* continue */ return(1); case 'd': /* enter debug mode */ PutValue (LookupAtom ("debug"), MkIntTerm (1)); return(1); case 'e': /* exit */ exit_yap(0, ""); return(-1); case 't': /* start tracing */ PutValue (LookupAtom ("debug"), MkIntTerm (1)); PutValue (LookupAtom ("spy_sl"), MkIntTerm (0)); PutValue (FullLookupAtom ("$trace"), MkIntTerm (1)); yap_flags[SPY_CREEP_FLAG] = 1; p_creep (); return(1); #ifdef LOW_LEVEL_TRACER case 'T': toggle_low_level_trace(); return(1); #endif case 's': /* show some statistics */ #if SHORT_INTS==0 YP_fprintf(YP_stderr, "aux. stack: %d ", Unsigned (AuxTop) - Unsigned (LCL0 + 1)); if (Unsigned (AuxSp) <= Unsigned (LCL0)) YP_fprintf(YP_stderr, "( 0 bytes used)\n"); else YP_fprintf(YP_stderr, "( %d bytes used)\n", Unsigned (AuxSp) - Unsigned (LCL0 + 1)); YP_fprintf(YP_stderr, "heap space: %d ", Unsigned (AuxTop) - Unsigned (HeapBase)); YP_fprintf(YP_stderr, "( %d bytes used for heap", Unsigned (HeapUsed)); YP_fprintf(YP_stderr, " and %d bytes used for trail)\n", Unsigned (TR) - Unsigned (TrailBase)); YP_fprintf(YP_stderr, "stack space: %d ", Unsigned (LCL0) - Unsigned (H0)); YP_fprintf(YP_stderr, "( %d bytes used for local", Unsigned (LCL0) - Unsigned (ASP)); YP_fprintf(YP_stderr, " and %d bytes used for global)\n", Unsigned (H) - Unsigned (H0)); #else YP_fprintf(YP_stderr, "aux. stack: %ld ", Unsigned (AuxTop) - Unsigned (LCL0 + 1)); if (Unsigned (AuxSp) <= Unsigned (LCL0)) YP_fprintf(YP_stderr, "( 0 bytes used)\n"); else YP_fprintf(YP_stderr, "( %ld bytes used)\n", Unsigned (AuxSp) - Unsigned (LCL0 + 1)); YP_fprintf(YP_stderr, "heap space: %ld ", Unsigned (AuxTop) - Unsigned (HeapBase)); YP_fprintf(YP_stderr, "( %ld bytes used for heap", Unsigned (HeapUsed)); YP_fprintf(YP_stderr, " and %ld bytes used for trail)\n", Unsigned (TR) - Unsigned (TrailBase)); YP_fprintf(YP_stderr, "stack space: %ld ", Unsigned (LCL0) - Unsigned (H0)); YP_fprintf(YP_stderr, "( %ld bytes used for local", Unsigned (LCL0) - Unsigned (ASP)); YP_fprintf(YP_stderr, " and %ld bytes used for global)\n", Unsigned (H) - Unsigned (H0)); #endif #if SHORT_INTS YP_fprintf(YP_stderr, "Runtime: %lds.\n", runtime ()); YP_fprintf(YP_stderr, "Cputime: %lds.\n", cputime ()); YP_fprintf(YP_stderr, "Walltime: %lds.\n", walltime ()); #else YP_fprintf(YP_stderr, "Runtime: %ds.\n", runtime ()); YP_fprintf(YP_stderr, "Cputime: %ds.\n", cputime ()); YP_fprintf(YP_stderr, "Walltime: %ds.\n", walltime ()); #endif return(1); case EOF: return(0); break; case 'h': case '?': default: /* show an helpful message */ YP_fprintf(YP_stderr, "Please press one of:\n"); YP_fprintf(YP_stderr, " a for abort\n c for continue\n d for debug\n"); YP_fprintf(YP_stderr, " e for exit\n s for statistics\n t for trace\n"); return(0); } } /* This function talks to the user about a signal. We assume we are in the context of the main Prolog thread (trivial in Unix, but hard in WIN32) */ int ProcessSIGINT(void) { int ch, out; extern int newline; do { #if HAVE_LIBREADLINE if (_line != (char *) NULL) { ch = _line[0]; free(_line); _line = NULL; } else { _line = readline ("Action (h for help): "); if (_line == (char *)NULL || _line == (char *)EOF) { ch = EOF; continue; } else { ch = _line[0]; free(_line); _line = NULL; } } #else /* ask for a new line */ fprintf(stderr, "Action (h for help): "); ch = getc(stdin); /* first process up to end of line */ while ((fgetc(stdin)) != '\n'); #endif } while (!(out = InteractSIGINT(ch))); newline = TRUE; return(out); } /* This function is called from the signal handler to process signals. We assume we are within the context of the signal handler, whatever that might be */ static RETSIGTYPE #if (defined(__svr4__) || defined(__SVR4)) HandleSIGINT (int sig, siginfo_t *x, ucontext_t *y) #else HandleSIGINT (int sig) #endif { my_signal(SIGINT, HandleSIGINT); #if HAVE_ISATTY if (!isatty(0)) { InteractSIGINT('e'); } #endif if (in_getc || (PrologMode & CritMode)) { PrologMode |= InterruptMode; #if HAVE_LIBREADLINE if (in_getc) { fprintf(stderr, "Action (h for help): "); #if HAVE_RL_SET_PROMPT rl_set_prompt("Action (h for help): "); #endif } #endif return; } #ifdef HAVE_SETBUF /* make sure we are not waiting for the end of line */ YP_setbuf (stdin, NULL); #endif if (snoozing) { snoozing = FALSE; return; } ProcessSIGINT(); } #if !defined(_WIN32) /* this routine is called if the system activated the alarm */ static RETSIGTYPE #if (defined(__svr4__) || defined(__SVR4)) HandleALRM (int s, siginfo_t *x, ucontext_t *y) #else HandleALRM(int s) #endif { my_signal (SIGALRM, HandleALRM); /* force the system to creep */ p_creep (); /* now, say what is going on */ PutValue(AtomAlarm, MkAtomTerm(AtomTrue)); } #endif /* * This function is called after a normal interrupt had been caught It allows * 6 possibilities : abort, continue, trace, debug, help, exit */ #if !defined(LIGHT) && !_MSC_VER && !defined(__MINGW32__) && !defined(LIGHT) static RETSIGTYPE #if (defined(__svr4__) || defined(__SVR4)) ReceiveSignal (int s, siginfo_t *x, ucontext_t *y) #else ReceiveSignal (int s) #endif { switch (s) { #ifndef MPW case SIGFPE: my_signal (SIGFPE, HandleMatherr); Error (SYSTEM_ERROR, TermNil, "floating point exception ]"); break; #endif #if !defined(LIGHT) && !defined(_WIN32) /* These signals are not handled by WIN32 and not the Macintosh */ case SIGQUIT: case SIGKILL: exit_yap (SIGKILL, "\n\n\n[ Quit signal received ]\n\n"); #endif default: YP_fprintf(YP_stderr, "\n[ Unexpected signal ]\n"); exit (FALSE); } } #endif #if (_MSC_VER || defined(__MINGW32__)) static BOOL WINAPI MSCHandleSignal(DWORD dwCtrlType) { switch(dwCtrlType) { case CTRL_C_EVENT: case CTRL_BREAK_EVENT: p_creep(); PrologMode |= InterruptMode; return(TRUE); default: return(FALSE); } } #endif /* SIGINT can cause problems, if caught before full initialization */ static void InitSignals (void) { #if !defined(LIGHT) && !_MSC_VER && !defined(__MINGW32__) && !defined(LIGHT) my_signal (SIGQUIT, ReceiveSignal); my_signal (SIGKILL, ReceiveSignal); my_signal(SIGALRM, HandleALRM); #endif #if _MSC_VER || defined(__MINGW32__) signal (SIGINT, SIG_IGN); SetConsoleCtrlHandler(MSCHandleSignal,TRUE); #else my_signal (SIGINT, HandleSIGINT); #endif #ifndef MPW my_signal (SIGFPE, HandleMatherr); #endif #if HAVE_SIGSEGV my_signal_info (SIGSEGV, HandleSIGSEGV); #endif #ifdef ACOW signal(SIGCHLD, SIG_IGN); /* avoid ghosts */ #endif } #endif /* HAVE_SIGNAL */ char * pfgets (char *s, int n, FILE *stream) { char *res; do res = YP_fgets (s, n, stream); while (res == NULL && errno == EINTR); return (res); } /* TrueFileName -> Finds the true name of a file */ #ifdef __MINGW32__ #include #endif int volume_header(char *file) { #if _MSC_VER || defined(__MINGW32__) char *ch = file; int c; while ((c = ch[0]) != '\0') { if (isalnum(c)) ch++; else return(c == ':'); } #endif return(FALSE); } int TrueFileName (char *source, char *result, int in_lib) { register int ch; register char *res0 = result, *work; char ares1[YAP_FILENAME_MAX], *res1 = ares1; char *var_name; result[0] = '\0'; #if defined(__MINGW32__) || _MSC_VER /* step 0: replace / by \ */ { char *p = source, ch = p[0]; while (ch != '\0') { if (ch == '/') p[0] = '\\'; p++; ch = p[0]; } } #endif /* step 1: eating home information */ if (source[0] == '~') { if (dir_separator(source[1]) || source[1] == '\0') { char *s; source++; #if defined(_WIN32) s = getenv("HOMEDRIVE"); if (s != NULL) strncpy (result, getenv ("HOMEDRIVE"), YAP_FILENAME_MAX); s = getenv("HOMEPATH"); if (s != NULL) strncpy (result, s, YAP_FILENAME_MAX); #else s = getenv ("HOME"); if (s != NULL) strncpy (result, s, YAP_FILENAME_MAX); #endif } #if HAVE_GETPWNAM else { struct passwd *user_passwd; source++; while (!dir_separator((*res0 = *source)) && *res0 != '\0') res0++, source++; *res0++ = '\0'; if ((user_passwd = getpwnam (result)) == NULL) { return(FALSE); } strncpy (result, user_passwd->pw_dir, YAP_FILENAME_MAX); } #endif strncat (result, source, YAP_FILENAME_MAX); } else strncpy (result, source, YAP_FILENAME_MAX); /* step 2: handling environment variables in file names */ strncpy (ares1, result, YAP_FILENAME_MAX); res0 = result; while ((ch = *res1++)!=0) { if (ch == '\\' && !dir_separator('\\')) { ch = *res1++; if (ch == '\0') { *res0 = '\0'; break; } else *res0++ = ch; } if (ch != '$') *res0++ = ch; else { char env_var[256], *sptr = env_var; while (((ch = *res1)!=0) && is_valid_env_char (ch)) { res1++; *sptr++ = ch; } *sptr = '\0'; if ((var_name = (char *) getenv (env_var)) == NULL) { return(FALSE); } else while ((*res0 = *var_name++)!=0) res0++; } } *res0 = '\0'; /* step 3: get the full file name */ if (!dir_separator(result[0]) && !volume_header(result)) { #if __simplescalar__ /* does not implement getcwd */ char *yap_pwd = getenv("PWD"); strncpy(ares1,yap_pwd,YAP_FILENAME_MAX); #elif HAVE_GETCWD if (getcwd (ares1, YAP_FILENAME_MAX) == NULL) return (FALSE); #else if (getwd (ares1) == NULL) return (FALSE); #endif #if _MSC_VER || defined(__MINGW32__) strncat (ares1, "\\", YAP_FILENAME_MAX); #else strncat (ares1, "/", YAP_FILENAME_MAX); #endif strncat (ares1, result, YAP_FILENAME_MAX); if (in_lib) { int tmpf; if ((tmpf = open(ares1, O_RDONLY)) < 0) { /* not in current directory, let us try the library */ if (Yap_LibDir != NULL) { strncpy(FileNameBuf, Yap_LibDir, YAP_FILENAME_MAX); #if HAVE_GETENV } else { char *yap_env = getenv("YAPLIBDIR"); if (yap_env != NULL) { strncpy(ares1, yap_env, YAP_FILENAME_MAX); #endif } else { strncpy(ares1, LIB_DIR, YAP_FILENAME_MAX); } #if HAVE_GETENV } #endif #if _MSC_VER || defined(__MINGW32__) strncat(ares1,"\\", YAP_FILENAME_MAX); #else strncat(ares1,"/", YAP_FILENAME_MAX); #endif strncat(ares1,result, YAP_FILENAME_MAX); if ((tmpf = open(ares1, O_RDONLY)) >= 0) { close(tmpf); strncpy (result, ares1, YAP_FILENAME_MAX); } } else { strncpy (result, ares1, YAP_FILENAME_MAX); close(tmpf); } } else { strncpy (result, ares1, YAP_FILENAME_MAX); } } /* step 4: simplifying the file name */ work = result; while (*work != '\0') { char *new_work, *next_work; if (*work++ != '.') continue; if (*work != '.') { if (!dir_separator(*work) || !dir_separator(work[-2])) continue; next_work = work + 1; new_work = --work; } else { if (!dir_separator(work[1]) || !dir_separator(work[-2])) continue; next_work = work + 2; work -= 2; if (work == result) return (FALSE); while (!dir_separator(*--work) && work != result); if (work == result && !dir_separator(work[0])) return (FALSE); new_work = ++work; } while ((*new_work++ = *next_work++)!=0); } return (TRUE); } static Int p_getcwd(void) { Term t; #if __simplescalar__ /* does not implement getcwd */ char *yap_pwd = getenv("PWD"); strncpy(FileNameBuf,yap_pwd,YAP_FILENAME_MAX); #elif HAVE_GETCWD if (getcwd (FileNameBuf, YAP_FILENAME_MAX) == NULL) return (FALSE); #else if (getwd (FileNameBuf) == NULL) return (FALSE); #endif t = StringToList(FileNameBuf); return(unify(ARG1,t)); } /* Executes $SHELL under Prolog */ static Int p_sh (void) { /* sh */ #ifdef HAVE_SYSTEM register char *shell; shell = (char *) getenv ("SHELL"); if (shell == NULL) shell = "/bin/sh"; /* CloseStreams(TRUE); */ if (system (shell) < 0) { #if HAVE_STRERROR Error(SYSTEM_ERROR, TermNil, "sh: %s", strerror(errno)); #else Error(SYSTEM_ERROR, TermNil, "sh"); #endif return (FALSE); } return (TRUE); #else #ifdef MSH register char *shell; shell = "msh -i"; /* CloseStreams(); */ system (shell); return (TRUE); #else Error(SYSTEM_ERROR,TermNil,"sh not available in this configuration"); return(FALSE); #endif /* MSH */ #endif } static Int p_shell (void) { /* '$shell'(+SystCommand) */ #if _MSC_VER || defined(__MINGW32__) return(0); #else #if HAVE_SYSTEM char *shell; char *command = AllocTmpSpaceFromGlobal(); register int bourne = FALSE; Term t1 = Deref (ARG1); if (!GetName (command, t1)) { Error(SYSTEM_ERROR,t1,"invalid argument to shell/1"); return(FALSE); } shell = (char *) getenv ("SHELL"); if (!strcmp (shell, "/bin/sh")) bourne = TRUE; if (shell == NIL) bourne = TRUE; /* CloseStreams(TRUE); */ if (bourne) return (system (command) == 0); else { int status = -1; int child = fork (); if (child == 0) { /* let the children go */ execl (shell, shell, "-c", command, NIL); exit (TRUE); } { /* put the father on wait */ int result = child < 0 || /* vsc:I am not sure this is used, Stevens say wait returns an integer. #if NO_UNION_WAIT */ wait ((&status)) != child || /* #else wait ((union wait *) (&status)) != child || #endif */ status == 0; return (result); } } #else /* HAVE_SYSTEM */ #ifdef MSH register char *shell; shell = "msh -i"; /* CloseStreams(); */ system (shell); return (TRUE); #else Error (SYSTEM_ERROR,TermNil,"shell not available in this configuration"); return(FALSE); #endif #endif /* HAVE_SYSTEM */ #endif /* _MSC_VER */ } static Int p_system (void) { /* '$system'(+SystCommand) */ #ifdef HAVE_SYSTEM char *command = AllocTmpSpaceFromGlobal(); Term t1 = Deref (ARG1); if (!GetName (command, t1)) { Error(SYSTEM_ERROR,t1,"argument to system/1 is not valid"); return(FALSE); } /* CloseStreams(TRUE); */ #if _MSC_VER _flushall(); #endif return (system (command) == 0); #else #ifdef MSH register char *shell; shell = "msh -i"; /* CloseStreams(); */ system (shell); return (TRUE); #else Error(SYSTEM_ERROR,TermNil,"sh not available in this machine"); return(FALSE); #endif #endif /* HAVE_SYSTEM */ } /* Rename a file */ static Int p_mv (void) { /* rename(+OldName,+NewName) */ #if HAVE_LINK int r; char oldname[YAP_FILENAME_MAX], newname[YAP_FILENAME_MAX]; Term t1 = Deref (ARG1); Term t2 = Deref (ARG2); if (!GetName (FileNameBuf, t1)) { Error(SYSTEM_ERROR,t1,"first argument to rename/2 is not valid"); return(FALSE); } TrueFileName (FileNameBuf, oldname, FALSE); if (!GetName (FileNameBuf, t2)) { Error(SYSTEM_ERROR,t2,"second argument to rename/2 is not valid"); return(FALSE); } TrueFileName (FileNameBuf, newname, FALSE); if ((r = link (oldname, newname)) == 0 && (r = unlink (oldname)) != 0) unlink (newname); if (r != 0) { Error(SYSTEM_ERROR,t2,"operating system error in rename/2"); return(FALSE); } return (TRUE); #else Error(SYSTEM_ERROR,TermNil,"rename/2 not available in this machine"); return (FALSE); #endif } /* Change the working directory */ static Int p_cd (void) { /* cd(+NewD) */ #if HAVE_CHDIR Term t1 = Deref (ARG1); if (t1 == TermNil) return(TRUE); if (!GetName (FileNameBuf, t1)) { Error(SYSTEM_ERROR,t1,"argument to cd/1 is not valid"); return(FALSE); } TrueFileName (FileNameBuf, FileNameBuf2, FALSE); #if __simplescalar__ strncpy(FileNameBuf,"PWD=",YAP_FILENAME_MAX); strncat(FileNameBuf,FileNameBuf2,YAP_FILENAME_MAX); putenv(FileNameBuf); #endif return (!chdir (FileNameBuf2)); #else #ifdef MACYAP Term t1 = Deref (ARG1); if (!GetName (FileNameBuf, t1)) { Error(SYSTEM_ERROR,t1,"argument to cd/1 is not valid"); return(FALSE); } TrueFileName (FileNameBuf, FileNameBuf2, FALSE); return (!chdir (FileNameBuf2)); #else Error(SYSTEM_ERROR,TermNil,"cd/1 not available in this machine"); return(FALSE); #endif #endif } #ifdef MAC void SetTextFile (name) char *name; { #ifdef MACC SetFileType (name, 'TEXT'); SetFileSignature (name, 'EDIT'); #else FInfo f; FInfo *p = &f; GetFInfo (name, 0, p); p->fdType = 'TEXT'; #ifdef MPW if (mpwshell) p->fdCreator = 'MPS\0'; #endif #ifndef LIGHT else p->fdCreator = 'EDIT'; #endif SetFInfo (name, 0, p); #endif } #endif /* return YAP's environment */ static Int p_getenv(void) { #if HAVE_GETENV Term t1 = Deref(ARG1), to; char *s, *so; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, "first arg of getenv/2"); return(FALSE); } else if (!IsAtomTerm(t1)) { Error(TYPE_ERROR_ATOM, t1, "first arg of getenv/2"); return(FALSE); } else s = RepAtom(AtomOfTerm(t1))->StrOfAE; if ((so = getenv(s)) == NULL) return(FALSE); to = MkAtomTerm(LookupAtom(so)); return(unify_constant(ARG2,to)); #else Error(SYSTEM_ERROR, TermNil, "getenv not available in this configuration"); return (FALSE); #endif } /* set a variable in YAP's environment */ static Int p_putenv(void) { #if HAVE_PUTENV Term t1 = Deref(ARG1), t2 = Deref(ARG2); char *s, *s2, *p0, *p; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, "first arg to putenv/2"); return(FALSE); } else if (!IsAtomTerm(t1)) { Error(TYPE_ERROR_ATOM, t1, "first arg to putenv/2"); return(FALSE); } else s = RepAtom(AtomOfTerm(t1))->StrOfAE; if (IsVarTerm(t2)) { Error(INSTANTIATION_ERROR, t1, "second arg to putenv/2"); return(FALSE); } else if (!IsAtomTerm(t2)) { Error(TYPE_ERROR_ATOM, t2, "second arg to putenv/2"); return(FALSE); } else s2 = RepAtom(AtomOfTerm(t2))->StrOfAE; p0 = p = AllocAtomSpace(strlen(s)+strlen(s2)+3); while ((*p++ = *s++) != '\0'); p[-1] = '='; while ((*p++ = *s2++) != '\0'); if (putenv(p0) == 0) return(TRUE); #if HAVE_STRERROR Error(SYSTEM_ERROR, TermNil, "putenv: %s", strerror(errno)); #else Error(SYSTEM_ERROR, TermNil, "putenv"); #endif return (FALSE); #else Error(SYSTEM_ERROR, TermNil, "putenv not available in this configuration"); return (FALSE); #endif } /* set a variable in YAP's environment */ static Int p_file_age(void) { #if HAVE_LSTAT struct stat buf; char *file_name = RepAtom(AtomOfTerm(Deref(ARG1)))->StrOfAE; if (lstat(file_name, &buf) == -1) { /* file does not exist, but was opened? Return -1 */ return(unify(ARG2, MkIntTerm(-1))); } return(unify(ARG2, MkIntegerTerm(buf.st_mtime))); #elif defined(__MINGW32__) || _MSC_VER /* for some weird reason _stat did not work with mingw32 */ struct _stat buf; char *file_name = RepAtom(AtomOfTerm(Deref(ARG1)))->StrOfAE; if (_stat(file_name, &buf) != 0) { /* return an error number */ return(unify(ARG2, MkIntTerm(-1))); } return(unify(ARG2, MkIntegerTerm(buf.st_mtime))); #else return(unify(ARG2, MkIntTerm(0))); #endif } /* wrapper for alarm system call */ #if defined(_WIN32) static VOID CALLBACK HandleTimer(LPVOID v, DWORD d1, DWORD d2) { /* force the system to creep */ p_creep (); /* now, say what is going on */ PutValue(AtomAlarm, MkAtomTerm(AtomTrue)); } #endif static Int p_alarm(void) { Term t = Deref(ARG1); if (IsVarTerm(t)) { Error(INSTANTIATION_ERROR, t, "alarm/2"); return(FALSE); } if (!IsIntegerTerm(t)) { Error(TYPE_ERROR_INTEGER, t, "alarm/2"); return(FALSE); } #if _MSC_VER || defined(__MINGW32__) { Term tout; HANDLE htimer = CreateWaitableTimer(NULL,FALSE,NULL); LARGE_INTEGER due_time; __int64 timeout = -IntegerOfTerm(t); due_time.QuadPart = timeout; if (SetWaitableTimer(htimer, &due_time,0,HandleTimer,NULL,TRUE) == 0) { Error(SYSTEM_ERROR, TermNil, "alarm not available in this configuration"); return(FALSE); } tout = MkIntegerTerm(0); return(unify(ARG2,tout)); } #elif HAVE_ALARM { Int left; Term tout; left = alarm(IntegerOfTerm(t)); tout = MkIntegerTerm(left); return(unify(ARG2,tout)); } #else Error(SYSTEM_ERROR, TermNil, "alarm not available in this configuration"); return(FALSE); #endif } #if HAVE_FPU_CONTROL_H #include #endif /* by default Linux with glibc is IEEE compliant anyway..., but we will pretend it is not. */ void set_fpu_exceptions(int flag) { if (flag) { #if defined(__hpux) fpsetmask(FP_X_INV|FP_X_DZ|FP_X_OFL|FP_X_UFL); #endif #if HAVE_FPU_CONTROL_H && i386 && FIX_CONFIGURE /* I shall ignore denormalization and precision errors */ int v = _FPU_IEEE & ~(_FPU_MASK_IM|_FPU_MASK_ZM|_FPU_MASK_OM|_FPU_MASK_UM); _FPU_SETCW(v); #endif #if HAVE_FETESTEXCEPT feclearexcept(FE_ALL_EXCEPT); #endif } else { /* do IEEE arithmetic in the way the big boys do */ #if defined(__hpux) fpsetmask(FP_X_CLEAR); #endif #if HAVE_FPU_CONTROL_H && i386 && FIX_CONFIGURE /* this will probably not work in older releases of Linux */ int v = _FPU_IEEE; _FPU_SETCW(v); #endif } } /* * This is responsable for the initialization of all machine dependant * predicates */ void InitSysbits (void) { InitPageSize(); InitTime (); InitWTime (); InitRandom (); /* let the caller control signals as it sees fit */ InitSignals (); } void ReInitWallTime (void) { InitWTime(); if (heap_regs->last_wtime != NULL) FreeCodeSpace(heap_regs->last_wtime); InitLastWtime(); } void InitSysPreds(void) { /* can only do after heap is initialised */ InitLastWtime(); InitCPred ("srandom", 1, p_srandom, SafePredFlag); InitCPred ("sh", 0, p_sh, SafePredFlag|SyncPredFlag); InitCPred ("$shell", 1, p_shell, SafePredFlag|SyncPredFlag); InitCPred ("$system", 1, p_system, SafePredFlag|SyncPredFlag); InitCPred ("$rename", 2, p_mv, SafePredFlag|SyncPredFlag); InitCPred ("$cd", 1, p_cd, SafePredFlag|SyncPredFlag); InitCPred ("$getcwd", 1, p_getcwd, SafePredFlag|SyncPredFlag); InitCPred ("$dir_separator", 1, p_dir_sp, SafePredFlag); InitCPred ("$alarm", 2, p_alarm, SafePredFlag|SyncPredFlag); InitCPred ("$getenv", 2, p_getenv, SafePredFlag); InitCPred ("$putenv", 2, p_putenv, SafePredFlag|SyncPredFlag); InitCPred ("$file_age", 2, p_file_age, SafePredFlag|SyncPredFlag); } #ifdef VAX /* avoid longjmp botch */ int vax_absmi_fp; typedef struct { int eh; int flgs; int ap; int fp; int pc; int dummy1; int dummy2; int dummy3; int oldfp; int dummy4; int dummy5; int dummy6; int oldpc; } *VaxFramePtr; VaxFixFrame (dummy) { int maxframes = 100; VaxFramePtr fp = (VaxFramePtr) (((int *) &dummy) - 6); while (--maxframes) { fp = (VaxFramePtr) fp->fp; if (fp->flgs == 0) { if (fp->oldfp >= ®S[6] && fp->oldfp < ®S[REG_SIZE]) fp->oldfp = vax_absmi_fp; return; } } } #endif #ifdef _WIN32 int WINAPI STD_PROTO(win_yap, (HANDLE, DWORD, LPVOID)); int WINAPI win_yap(HANDLE hinst, DWORD reason, LPVOID reserved) { switch (reason) { case DLL_PROCESS_ATTACH: break; case DLL_PROCESS_DETACH: break; case DLL_THREAD_ATTACH: break; case DLL_THREAD_DETACH: break; } return 1; } #endif