/************************************************************************* * * * 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: Yap.h.m4 * * mods: * * comments: main header file for YAP * * version: $Id: Yap.h,v 1.21 2007-02-26 10:41:40 vsc Exp $ * *************************************************************************/ #include "config.h" /* #define RATIONAL_TREES 1 #define DEPTH_LIMIT 1 #define COROUTINING 1 #define ANALYST 1 */ #define MULTI_ASSIGNMENT_VARIABLES 1 #if defined(YAPOR) #error Do not explicitly define YAPOR #endif /* YAPOR */ #if (defined(ENV_COPY) && (defined(ACOW) || defined(SBA))) || (defined(ACOW) && defined(SBA)) #error Do not define multiple or-parallel models #endif /* (ENV_COPY && (ACOW || SBA)) || (ACOW && SBA) */ #if defined(ENV_COPY) || defined(ACOW) || defined(SBA) #define YAPOR 1 #endif /* ENV_COPY || ACOW || SBA */ #if defined(TABLING) && (defined(ACOW) || defined(SBA)) #error Currently TABLING only works with ENV_COPY #endif /* TABLING && (ACOW || SBA) */ #ifdef YAPOR #define FIXED_STACKS 1 #endif /* YAPOR */ #if defined(YAPOR) || defined(TABLING) #undef TRAILING_REQUIRES_BRANCH #endif /* YAPOR || TABLING */ #if ANALYST #ifdef USE_THREADED_CODE #undef USE_THREADED_CODE #endif #endif #ifdef COROUTINING #ifndef TERM_EXTENSIONS #define TERM_EXTENSIONS 1 #endif #endif #if SUPPORT_THREADS || SUPPORT_CONDOR #define USE_SYSTEM_MALLOC 1 #endif #if defined(TABLING) || defined(SBA) #define FROZEN_STACKS 1 #endif /* TABLING || SBA */ #ifdef _MSC_VER /* Microsoft's Visual C++ Compiler */ /* adjust a config.h from mingw32 to work with vc++ */ #ifdef HAVE_GCC #undef HAVE_GCC #endif #ifdef USE_THREADED_CODE #undef USE_THREADED_CODE #endif #define inline __inline #define YAP_VERSION "Yap-5.1.2" #define BIN_DIR "c:\\Yap\\bin" #define LIB_DIR "c:\\Yap\\lib\\Yap" #define SHARE_DIR "c:\\Yap\\share\\Yap" #ifdef HOST_ALIAS #undef HOST_ALIAS #endif #define HOST_ALIAS "i386-pc-win32" #ifdef HAVE_IEEEFP_H #undef HAVE_IEEEFP_H #endif #ifdef HAVE_UNISTD_H #undef HAVE_UNISTD_H #endif #ifdef HAVE_SYS_TIME_H #undef HAVE_SYS_TIME_H #endif #endif #ifdef __MINGW32__ #ifndef _WIN32 #define _WIN32 1 #endif #endif #if HAVE_GCC #define MIN_ARRAY 0 #define DUMMY_FILLER_FOR_ABS_TYPE #else #define MIN_ARRAY 1 #define DUMMY_FILLER_FOR_ABS_TYPE int dummy; #endif #ifndef ADTDEFS_C #define EXTERN static #else #define EXTERN #endif /* truth-values */ #define TRUE 1 #define FALSE 0 /* null pointer */ #define NIL 0 /* Basic types */ /* defines integer types Int and UInt (unsigned) with the same size as a ptr ** and integer types Short and UShort with half the size of a ptr */ #ifdef THREADS #if USE_PTHREAD_LOCKING #define _XOPEN_SOURCE 600 #endif #include #endif #if SIZEOF_INT_P==4 #if SIZEOF_INT==4 /* */ typedef int Int; /* */ typedef unsigned int UInt; #elif SIZEOF_LONG_INT==4 /* */ typedef long int Int; /* */ typedef unsigned long int UInt; #else # error Yap require integer types of the same size as a pointer #endif #if SIZEOF_SHORT_INT==2 /* */ typedef short int Short; /* */ typedef unsigned short int UShort; #else # error Yap requires integer types half the size of a pointer #endif #elif SIZEOF_INT_P==8 # if SIZEOF_INT==8 /* */ typedef int Int; /* */ typedef unsigned int UInt; #elif SIZEOF_LONG_INT==8 /* */ typedef long int Int; /* */ typedef unsigned long int UInt; # elif SIZEOF_LONG_LONG_INT==8 /* */ typedef long long int Int; /* */ typedef unsigned long long int UInt; # else # error Yap requires integer types of the same size as a pointer # endif # if SIZEOF_SHORT_INT==4 /* */ typedef short int Short; /* */ typedef unsigned short int UShort; # elif SIZEOF_INT==4 /* */ typedef int Short; /* */ typedef unsigned int UShort; # else # error Yap requires integer types half the size of a pointer # endif #else # error Yap requires pointers of size 4 or 8 #endif /* */ typedef double Float; #if SIZEOF_INT #elif USE_PTHREAD_LOCKING #ifndef _XOPEN_SOURCE #define _XOPEN_SOURCE 600 #endif typedef pthread_mutex_t lockvar; typedef pthread_rwlock_t rwlock_t; #include #elif defined(i386) typedef volatile int lockvar; #include #elif defined(sparc) || defined(__sparc) typedef volatile int lockvar; #include #elif defined(mips) typedef volatile int lockvar; #include #elif defined(__alpha) typedef volatile int lockvar; #include #else #ifndef _XOPEN_SOURCE #define _XOPEN_SOURCE 600 #endif typedef pthread_mutex_t lockvar; typedef pthread_rwlock_t rwlock_t; #include #endif /********************** use an auxiliary function for ranges ************/ #ifdef __GNUC__ #define IN_BETWEEN(MIN,X,MAX) (Unsigned((Int)(X)-(Int)(MIN)) <= \ Unsigned((Int)(MAX)-(Int)(MIN)) ) #define OUTSIDE(MIN,X,MAX) (Unsigned((Int)(X)-(Int)(MIN)) > \ Unsigned((Int)(MAX)-(Int)(MIN)) ) #else #define IN_BETWEEN(MIN,X,MAX) ((void *)(X) >= (void *)(MIN) && (void *)(X) <= (void *)(MAX)) #define OUTSIDE(MIN,X,MAX) ((void *)(X) < (void *)(MIN) || (void *)(X) > (void *)(MAX)) #endif /* ************************* Atoms *************************************/ #include "Atoms.h" /* ************************* Coroutining **********************************/ #ifdef COROUTINING /* Support for co-routining */ #include "corout.h" #endif /********* abstract machine registers **********************************/ #include "amidefs.h" #include "Regs.h" #if defined(YAPOR) ||defined(THREADS) #ifdef mips #include #endif #ifdef __alpha #include #endif #endif /************ variables concerned with Error Handling *************/ #include #if defined(SIMICS) || !HAVE_SIGSETJMP #define sigjmp_buf jmp_buf #define sigsetjmp(Env, Arg) setjmp(Env) #define siglongjmp(Env, Arg) longjmp(Env, Arg) #endif /* Support for arrays */ #include "arrays.h" /************ variables concerned with Error Handling *************/ /* Types of Errors */ typedef enum { YAP_NO_ERROR, FATAL_ERROR, INTERNAL_ERROR, INTERNAL_COMPILER_ERROR, PURE_ABORT, CALL_COUNTER_UNDERFLOW, /* ISO_ERRORS */ CONSISTENCY_ERROR, DOMAIN_ERROR_ARRAY_OVERFLOW, DOMAIN_ERROR_ARRAY_TYPE, DOMAIN_ERROR_IO_MODE, DOMAIN_ERROR_MUTABLE, DOMAIN_ERROR_NON_EMPTY_LIST, DOMAIN_ERROR_NOT_LESS_THAN_ZERO, DOMAIN_ERROR_NOT_NL, DOMAIN_ERROR_NOT_ZERO, DOMAIN_ERROR_OUT_OF_RANGE, DOMAIN_ERROR_OPERATOR_PRIORITY, DOMAIN_ERROR_OPERATOR_SPECIFIER, DOMAIN_ERROR_RADIX, DOMAIN_ERROR_SHIFT_COUNT_OVERFLOW, DOMAIN_ERROR_SOURCE_SINK, DOMAIN_ERROR_STREAM, DOMAIN_ERROR_STREAM_OR_ALIAS, DOMAIN_ERROR_STREAM_POSITION, DOMAIN_ERROR_TIMEOUT_SPEC, DOMAIN_ERROR_SYNTAX_ERROR_HANDLER, EVALUATION_ERROR_FLOAT_OVERFLOW, EVALUATION_ERROR_FLOAT_UNDERFLOW, EVALUATION_ERROR_INT_OVERFLOW, EVALUATION_ERROR_UNDEFINED, EVALUATION_ERROR_UNDERFLOW, EVALUATION_ERROR_ZERO_DIVISOR, EXISTENCE_ERROR_ARRAY, EXISTENCE_ERROR_SOURCE_SINK, EXISTENCE_ERROR_STREAM, INSTANTIATION_ERROR, INTERRUPT_ERROR, OPERATING_SYSTEM_ERROR, OUT_OF_HEAP_ERROR, OUT_OF_STACK_ERROR, OUT_OF_TRAIL_ERROR, OUT_OF_ATTVARS_ERROR, OUT_OF_AUXSPACE_ERROR, PERMISSION_ERROR_ACCESS_PRIVATE_PROCEDURE, PERMISSION_ERROR_NEW_ALIAS_FOR_STREAM, PERMISSION_ERROR_CREATE_ARRAY, PERMISSION_ERROR_CREATE_OPERATOR, PERMISSION_ERROR_INPUT_BINARY_STREAM, PERMISSION_ERROR_INPUT_PAST_END_OF_STREAM, PERMISSION_ERROR_INPUT_STREAM, PERMISSION_ERROR_INPUT_TEXT_STREAM, PERMISSION_ERROR_MODIFY_STATIC_PROCEDURE, PERMISSION_ERROR_OPEN_SOURCE_SINK, PERMISSION_ERROR_OUTPUT_BINARY_STREAM, PERMISSION_ERROR_OUTPUT_STREAM, PERMISSION_ERROR_OUTPUT_TEXT_STREAM, PERMISSION_ERROR_RESIZE_ARRAY, PERMISSION_ERROR_REPOSITION_STREAM, PRED_ENTRY_COUNTER_UNDERFLOW, REPRESENTATION_ERROR_CHARACTER, REPRESENTATION_ERROR_CHARACTER_CODE, REPRESENTATION_ERROR_MAX_ARITY, RETRY_COUNTER_UNDERFLOW, SYNTAX_ERROR, SYSTEM_ERROR, TYPE_ERROR_ARRAY, TYPE_ERROR_ATOM, TYPE_ERROR_ATOMIC, TYPE_ERROR_BYTE, TYPE_ERROR_CALLABLE, TYPE_ERROR_CHAR, TYPE_ERROR_CHARACTER, TYPE_ERROR_COMPOUND, TYPE_ERROR_DBREF, TYPE_ERROR_DBTERM, TYPE_ERROR_EVALUABLE, TYPE_ERROR_FLOAT, TYPE_ERROR_INTEGER, TYPE_ERROR_KEY, TYPE_ERROR_LIST, TYPE_ERROR_NUMBER, TYPE_ERROR_PREDICATE_INDICATOR, TYPE_ERROR_PTR, TYPE_ERROR_UBYTE, TYPE_ERROR_UCHAR, TYPE_ERROR_VARIABLE, UNKNOWN_ERROR } yap_error_number; typedef enum { YAP_INT_BOUNDED_FLAG = 0, MAX_ARITY_FLAG = 1, INTEGER_ROUNDING_FLAG = 2, YAP_MAX_INTEGER_FLAG = 3, YAP_MIN_INTEGER_FLAG = 4, CHAR_CONVERSION_FLAG = 5, YAP_DOUBLE_QUOTES_FLAG = 6, YAP_TO_CHARS_FLAG = 7, LANGUAGE_MODE_FLAG = 8, STRICT_ISO_FLAG = 9, SOURCE_MODE_FLAG = 11, CHARACTER_ESCAPE_FLAG = 12, WRITE_QUOTED_STRING_FLAG = 13, ALLOW_ASSERTING_STATIC_FLAG = 14, HALT_AFTER_CONSULT_FLAG = 15, FAST_BOOT_FLAG = 16, STACK_DUMP_ON_ERROR_FLAG = 17, GENERATE_DEBUG_INFO_FLAG = 18, INDEXING_MODE_FLAG = 19, TABLING_MODE_FLAG = 20, /* let this be the last one */ LAST_FLAG = 21 } yap_flags; #define STRING_AS_CHARS 0 #define STRING_AS_ATOM 2 #define QUINTUS_TO_CHARS 0 #define ISO_TO_CHARS 1 #define CPROLOG_CHARACTER_ESCAPES 0 #define ISO_CHARACTER_ESCAPES 1 #define SICSTUS_CHARACTER_ESCAPES 2 typedef enum { INDEX_MODE_OFF = 0, INDEX_MODE_SINGLE = 1, INDEX_MODE_COMPACT = 2, INDEX_MODE_MULTI = 3, INDEX_MODE_MAX = 4 } index_mode_options; typedef enum { YAP_CREEP_SIGNAL = 0x1, /* received a creep */ YAP_WAKEUP_SIGNAL = 0x2, /* goals to wake up */ YAP_ALARM_SIGNAL = 0x4, /* received an alarm */ YAP_HUP_SIGNAL = 0x8, /* received SIGHUP */ YAP_USR1_SIGNAL = 0x10, /* received SIGUSR1 */ YAP_USR2_SIGNAL = 0x20, /* received SIGUSR2 */ YAP_INT_SIGNAL = 0x40, /* received SIGINT (unused for now) */ YAP_ITI_SIGNAL = 0x80, /* received inter thread signal */ YAP_TROVF_SIGNAL = 0x100, /* received trail overflow */ YAP_CDOVF_SIGNAL = 0x200, /* received code overflow */ YAP_STOVF_SIGNAL = 0x400, /* received stack overflow */ YAP_TRACE_SIGNAL = 0x800, /* received start trace */ YAP_DEBUG_SIGNAL = 0x1000, /* received start debug */ YAP_BREAK_SIGNAL = 0x2000, /* received break signal */ YAP_STACK_DUMP_SIGNAL = 0x4000, /* received stack dump signal */ YAP_STATISTICS_SIGNAL = 0x8000, /* received statistics */ YAP_DELAY_CREEP_SIGNAL = 0x10000, /* received a creep but should not do it */ YAP_AGC_SIGNAL = 0x20000 /* call atom garbage collector asap */ } yap_signals; #define NUMBER_OF_YAP_FLAGS LAST_FLAG /************************ prototypes **********************************/ #include "Yapproto.h" /************************ OPTYap configuration ************************/ /* These must be included before unification handlers */ #if defined(YAPOR) || defined(TABLING) #include "opt.config.h" #endif /* YAPOR || TABLING */ /***********************************************************************/ /* absrectype Term = Int + Float + Atom + Pair + Appl + Ref + Var with AbsAppl(t) : *CELL -> Term and RepAppl(t) : Term -> *CELL and AbsPair(t) : *CELL -> Term and RepPair(t) : Term -> *CELL and IsIntTerm(t) = ... and IsAtomTerm(t) = ... and IsVarTerm(t) = ... and IsPairTerm(t) = ... and IsApplTerm(t) = ... and IsFloatTerm(t) = ... and IsRefTerm(t) = ... and IsNonVarTerm(t) = ! IsVar(t) and IsNumterm(t) = IsIntTerm(t) || IsFloatTerm(t) and IsAtomicTerm(t) = IsNumTerm(t) || IsAtomTerm(t) and IsPrimitiveTerm(t) = IsAtomicTerm(t) || IsRefTerm(t) and MkIntTerm(n) = ... and MkFloatTerm(f) = ... and MkAtomTerm(a) = ... and MkVarTerm(r) = ... and MkApplTerm(f,n,args) = ... and MkPairTerm(hd,tl) = ... and MkRefTerm(R) = ... and PtrOfTerm(t) : Term -> CELL * = ... and IntOfTerm(t) : Term -> int = ... and FloatOfTerm(t) : Term -> flt = ... and AtomOfTerm(t) : Term -> Atom = ... and VarOfTerm(t) : Term -> *Term = .... and HeadOfTerm(t) : Term -> Term = ... and TailOfTerm(t) : Term -> Term = ... and FunctorOfTerm(t) : Term -> Functor = ... and ArgOfTerm(i,t) : Term -> Term= ... and RefOfTerm(t) : Term -> DBRef = ... */ /* YAP can use several different tag schemes, according to the kind of machine we are experimenting with. */ #if LONG_ADDRESSES && defined(OLD_TAG_SCHEME) #include "Tags_32bits.h" #endif /* LONG_ADDRESSES && defined(OLD_TAG_SCHEME) */ /* AIX will by default place mmaped segments at 0x30000000. This is incompatible with the high tag scheme. Linux-ELF also does not like if you place things in the lower addresses (power to the libc people). */ #if (defined(_AIX) || defined(_WIN32) || defined(__APPLE__) || defined(sparc) || defined(__sparc) || defined(mips) || defined(__FreeBSD__) || defined(_POWER) || defined(__POWERPC__) || defined(__linux__) || defined(IN_SECOND_QUADRANT) || defined(__CYGWIN__)) #define USE_LOW32_TAGS 1 #endif #if LONG_ADDRESSES && SIZEOF_INT_P==4 && !defined(OLD_TAG_SCHEME) && !defined(USE_LOW32_TAGS) #include "Tags_32Ops.h" #endif /* LONG_ADDRESSES && !defined(OLD_TAG_SCHEME) && !defined(USE_LOW32_TAGS) */ #if LONG_ADDRESSES && SIZEOF_INT_P==4 && !defined(OLD_TAG_SCHEME) && defined(USE_LOW32_TAGS) #include "Tags_32LowTag.h" #endif /* LONG_ADDRESSES && !defined(OLD_TAG_SCHEME) */ #if LONG_ADDRESSES && SIZEOF_INT_P==8 && !defined(OLD_TAG_SCHEME) #include "Tags_64bits.h" #endif /* LONG_ADDRESSES && SIZEOF_INT_P==8 && !defined(OLD_TAG_SCHEME) */ #if !LONG_ADDRESSES #include "Tags_24bits.h" #endif /* !LONG_ADDRESSES */ #ifdef TAG_LOW_BITS_32 #if !GC_NO_TAGS #define MBIT 0x80000000 #define RBIT 0x40000000 #if IN_SECOND_QUADRANT #define INVERT_RBIT 1 /* RBIT is 1 by default */ #endif #endif /* !GC_NO_TAGS */ #else #if !GC_NO_TAGS #if defined(SBA) && defined(__linux__) #define MBIT /* 0x20000000 */ MKTAG(0x1,0) /* mark bit */ #else #define RBIT /* 0x20000000 */ MKTAG(0x1,0) /* relocation chain bit */ #define MBIT /* 0x40000000 */ MKTAG(0x2,0) /* mark bit */ #endif #endif /* !GC_NO_TAGS */ #endif #define TermSize sizeof(Term) /************* variables related to memory allocation *******************/ /* must be before TermExt.h */ extern ADDR Yap_HeapBase; /* This is ok for Linux, should be ok for everyone */ #define YAP_FILENAME_MAX 1024 #define MAX_ERROR_MSG_SIZE YAP_FILENAME_MAX #ifdef THREADS typedef struct thread_globs { ADDR local_base; ADDR global_base; ADDR trail_base; ADDR trail_top; char *error_message; Term error_term; Term error_type; UInt error_size; char error_say[MAX_ERROR_MSG_SIZE]; jmp_buf io_botch; sigjmp_buf restart_env; struct TOKEN *tokptr; struct TOKEN *toktide; struct VARSTRUCT *var_table; struct VARSTRUCT *anon_var_table; int eot_before_eof; char file_name_buf[YAP_FILENAME_MAX]; char file_name_buf2[YAP_FILENAME_MAX]; } tglobs; extern struct thread_globs Yap_thread_gl[MAX_WORKERS]; #define Yap_LocalBase Yap_thread_gl[worker_id].local_base #define Yap_GlobalBase Yap_thread_gl[worker_id].global_base #define Yap_TrailBase Yap_thread_gl[worker_id].trail_base #define Yap_TrailTop Yap_thread_gl[worker_id].trail_top #define Yap_ErrorMessage Yap_thread_gl[worker_id].error_message #define Yap_Error_Term Yap_thread_gl[worker_id].error_term #define Yap_Error_TYPE Yap_thread_gl[worker_id].error_type #define Yap_Error_Size Yap_thread_gl[worker_id].error_size #define Yap_ErrorSay Yap_thread_gl[worker_id].error_say #define Yap_RestartEnv Yap_thread_gl[worker_id].restart_env #else extern ADDR Yap_HeapBase, Yap_LocalBase, Yap_GlobalBase, Yap_TrailBase, Yap_TrailTop; extern sigjmp_buf Yap_RestartEnv; /* used to restart after an abort */ extern char *Yap_ErrorMessage; /* used to pass error messages */ extern Term Yap_Error_Term; /* used to pass error terms */ extern yap_error_number Yap_Error_TYPE; /* used to pass the error */ extern UInt Yap_Error_Size; /* used to pass the error */ /******************* storing error messages ****************************/ extern char Yap_ErrorSay[MAX_ERROR_MSG_SIZE]; #endif #ifdef DEBUG /************** Debugging Support ***************************/ extern int Yap_output_msg; #endif /* applies to unbound variables */ inline EXTERN Term *VarOfTerm (Term t); inline EXTERN Term * VarOfTerm (Term t) { return (Term *) (t); } #if SBA inline EXTERN Term MkVarTerm (void); inline EXTERN Term MkVarTerm () { return (Term) ((*H = 0, H++)); } inline EXTERN int IsUnboundVar (Term *); inline EXTERN int IsUnboundVar (Term * t) { return (int) (*(t) == 0); } #else inline EXTERN Term MkVarTerm (void); inline EXTERN Term MkVarTerm () { return (Term) ((*H = (CELL) H, H++)); } inline EXTERN int IsUnboundVar (Term *); inline EXTERN int IsUnboundVar (Term * t) { return (int) (*(t) == (Term) (t)); } #endif inline EXTERN CELL *PtrOfTerm (Term); inline EXTERN CELL * PtrOfTerm (Term t) { return (CELL *) (*(CELL *) (t)); } inline EXTERN Functor FunctorOfTerm (Term); inline EXTERN Functor FunctorOfTerm (Term t) { return (Functor) (*RepAppl (t)); } #if USE_SYSTEM_MALLOC || USE_DL_MALLOC #if USE_LOW32_TAGS inline EXTERN Term MkAtomTerm (Atom); inline EXTERN Term MkAtomTerm (Atom a) { return (Term) ((AtomTag | (CELL) (a))); } inline EXTERN Atom AtomOfTerm (Term t); inline EXTERN Atom AtomOfTerm (Term t) { return (Atom) ((~AtomTag & (CELL) (t))); } #else inline EXTERN Term MkAtomTerm (Atom); inline EXTERN Term MkAtomTerm (Atom a) { return (Term) (TAGGEDA (AtomTag, (CELL) (a))); } inline EXTERN Atom AtomOfTerm (Term t); inline EXTERN Atom AtomOfTerm (Term t) { return (Atom) (NonTagPart (t)); } #endif #else inline EXTERN Term MkAtomTerm (Atom); inline EXTERN Term MkAtomTerm (Atom a) { return (Term) (TAGGEDA (AtomTag, (CELL) (a) - HEAP_INIT_BASE)); } inline EXTERN Atom AtomOfTerm (Term t); inline EXTERN Atom AtomOfTerm (Term t) { return (Atom) (HEAP_INIT_BASE + NonTagPart (t)); } #endif inline EXTERN int IsAtomTerm (Term); inline EXTERN int IsAtomTerm (Term t) { return (int) (CHKTAG ((t), AtomTag)); } inline EXTERN Term MkIntTerm (Int); inline EXTERN Term MkIntTerm (Int n) { return (Term) (TAGGED (NumberTag, (n))); } /* A constant to subtract or add to a well-known term, we assume no overflow problems are possible */ inline EXTERN Term MkIntConstant (Int); inline EXTERN Term MkIntConstant (Int n) { return (Term) (NONTAGGED (NumberTag, (n))); } inline EXTERN int IsIntTerm (Term); inline EXTERN int IsIntTerm (Term t) { return (int) (CHKTAG ((t), NumberTag)); } EXTERN inline Term STD_PROTO (MkPairTerm, (Term, Term)); EXTERN inline Term MkPairTerm (Term head, Term tail) { register CELL *p = H; H[0] = head; H[1] = tail; H += 2; return (AbsPair (p)); } /* Needed to handle numbers: these two macros are fundamental in the integer/float conversions */ #ifdef M_WILLIAMS #define IntInBnd(X) (TRUE) #else #ifdef TAGS_FAST_OPS #define IntInBnd(X) (Unsigned( ( (Int)(X) >> (32-7) ) + 1) <= 1) #else #define IntInBnd(X) ( (X) < MAX_ABS_INT && \ (X) > -MAX_ABS_INT-1L ) #endif #endif #ifdef C_PROLOG #define FlIsInt(X) ( (X) == (Int)(X) && IntInBnd((X)) ) #else #define FlIsInt(X) ( FALSE ) #endif /* There are two types of functors: o Special functors mark special terms on the heap that should be seen as constants. o Standard functors mark normal applications. */ #include "TermExt.h" #define IsAccessFunc(func) ((func) == FunctorAccess) inline EXTERN Term MkIntegerTerm (Int); inline EXTERN Term MkIntegerTerm (Int n) { return (Term) (IntInBnd (n) ? MkIntTerm (n) : MkLongIntTerm (n)); } inline EXTERN int IsIntegerTerm (Term); inline EXTERN int IsIntegerTerm (Term t) { return (int) (IsIntTerm (t) || IsLongIntTerm (t)); } inline EXTERN Int IntegerOfTerm (Term); inline EXTERN Int IntegerOfTerm (Term t) { return (Int) (IsIntTerm (t) ? IntOfTerm (t) : LongIntOfTerm (t)); } /*************** unification routines ***********************************/ #if SBA #include "sbaamiops.h" #else #include "amiops.h" #endif /*************** High level macros to access arguments ******************/ inline EXTERN Term ArgOfTerm (int i, Term t); inline EXTERN Term ArgOfTerm (int i, Term t) { return (Term) (Derefa (RepAppl (t) + (i))); } inline EXTERN Term HeadOfTerm (Term); inline EXTERN Term HeadOfTerm (Term t) { return (Term) (Derefa (RepPair (t))); } inline EXTERN Term TailOfTerm (Term); inline EXTERN Term TailOfTerm (Term t) { return (Term) (Derefa (RepPair (t) + 1)); } inline EXTERN Term ArgOfTermCell (int i, Term t); inline EXTERN Term ArgOfTermCell (int i, Term t) { return (Term) ((CELL) (RepAppl (t) + (i))); } inline EXTERN Term HeadOfTermCell (Term); inline EXTERN Term HeadOfTermCell (Term t) { return (Term) ((CELL) (RepPair (t))); } inline EXTERN Term TailOfTermCell (Term); inline EXTERN Term TailOfTermCell (Term t) { return (Term) ((CELL) (RepPair (t) + 1)); } /*************** variables concerned with atoms table *******************/ #define MaxHash 1001 #define MaxWideHash (MaxHash/10+1) #define FAIL_RESTORE 0 #define DO_EVERYTHING 1 #define DO_ONLY_CODE 2 #ifdef EMACS /******************** using Emacs mode ********************************/ extern int emacs_mode; #endif /********* common instructions codes*************************/ #define MAX_PROMPT 256 #if USE_THREADED_CODE /************ reverse lookup of instructions *****************/ typedef struct opcode_tab_entry { OPCODE opc; op_numbers opnum; } opentry; #endif /********* Prolog may be in several modes *******************************/ typedef enum { BootMode = 0x1, /* if booting or restoring */ UserMode = 0x2, /* Normal mode */ CritMode = 0x4, /* If we are meddling with the heap */ AbortMode = 0x8, /* expecting to abort */ InterruptMode = 0x10, /* under an interrupt */ InErrorMode = 0x20, /* under an interrupt */ ConsoleGetcMode = 0x40, /* blocked reading from console */ ExtendStackMode = 0x80, /* trying to extend stack */ GrowHeapMode = 0x100, /* extending Heap */ GrowStackMode = 0x200, /* extending Stack */ GCMode = 0x400, /* doing Garbage Collecting */ ErrorHandlingMode = 0x800, /* doing error handling */ CCallMode = 0x1000, /* In c Call */ UnifyMode = 0x2000, /* In Unify Code */ UserCCallMode = 0x4000, /* In User C-call Code */ MallocMode = 0x8000, /* Doing malloc, realloc, free */ SystemMode = 0x10000, /* in system mode */ } prolog_exec_mode; extern prolog_exec_mode Yap_PrologMode; extern int Yap_CritLocks; /************** Access to yap initial arguments ***************************/ extern char **Yap_argv; extern int Yap_argc; /******** whether Yap is responsible for signal handling ******************/ extern int Yap_PrologShouldHandleInterrupts; /******************* number of modules ****************************/ #define MaxModules 256 #if YAPOR #define YAPEnterCriticalSection() \ { \ if (worker_id != GLOBAL_LOCKS_who_locked_heap) { \ LOCK(GLOBAL_LOCKS_heap_access); \ GLOBAL_LOCKS_who_locked_heap = worker_id; \ } \ Yap_PrologMode |= CritMode; \ Yap_CritLocks++; \ } #define YAPLeaveCriticalSection() \ { \ Yap_CritLocks--; \ if (!Yap_CritLocks) { \ Yap_PrologMode &= ~CritMode; \ if (Yap_PrologMode & InterruptMode) { \ Yap_PrologMode &= ~InterruptMode; \ Yap_ProcessSIGINT(); \ } \ if (Yap_PrologMode & AbortMode) { \ Yap_PrologMode &= ~AbortMode; \ Yap_Error(PURE_ABORT, 0, ""); \ } \ GLOBAL_LOCKS_who_locked_heap = MAX_WORKERS; \ UNLOCK(GLOBAL_LOCKS_heap_access); \ } \ } #elif THREADS #define YAPEnterCriticalSection() \ { \ /* LOCK(BGL); */ \ Yap_PrologMode |= CritMode; \ } #define YAPLeaveCriticalSection() \ { \ Yap_PrologMode &= ~CritMode; \ if (Yap_PrologMode & InterruptMode) { \ Yap_PrologMode &= ~InterruptMode; \ Yap_ProcessSIGINT(); \ } \ if (Yap_PrologMode & AbortMode) { \ Yap_PrologMode &= ~AbortMode; \ Yap_Error(PURE_ABORT, 0, ""); \ } \ /* UNLOCK(BGL); */ \ } #else #define YAPEnterCriticalSection() \ { \ Yap_PrologMode |= CritMode; \ Yap_CritLocks++; \ } #define YAPLeaveCriticalSection() \ { \ Yap_CritLocks--; \ if (!Yap_CritLocks) { \ Yap_PrologMode &= ~CritMode; \ if (Yap_PrologMode & InterruptMode) { \ Yap_PrologMode &= ~InterruptMode; \ Yap_ProcessSIGINT(); \ } \ if (Yap_PrologMode & AbortMode) { \ Yap_PrologMode &= ~AbortMode; \ Yap_Error(PURE_ABORT, 0, ""); \ } \ } \ } #endif /* YAPOR */ /* when we are calling the InitStaff procedures */ #define AT_BOOT 0 #define AT_RESTORE 1 /********* mutable variables ******************/ /* I assume that the size of this structure is a multiple of the size of CELL!!! */ typedef struct TIMED_MAVAR { CELL value; CELL clock; } timed_var; /********* while debugging you may need some info ***********************/ #if EMACS extern char emacs_tmp[], emacs_tmp2[]; #endif #if defined(YAPOR) || defined(TABLING) #include "opt.structs.h" #include "opt.proto.h" #include "opt.macros.h" #endif /* YAPOR || TABLING */ #if SBA #include "sbaunify.h" #endif