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yap-6.3/H/pl-yap.h
2013-11-05 17:59:19 +00:00

235 lines
6.4 KiB
C

#ifndef PL_YAP_H
#define PL_YAP_H
#ifdef __YAP_PROLOG__
/* depends on tag schema, but 4 should always do */
#define LMASK_BITS 4 /* total # mask bits */
#if HAVE_CTYPE_H
#include <ctype.h>
#endif
#if HAVE_SYS_STAT_H
#include <sys/stat.h>
#endif
#define SIZE_VOIDP SIZEOF_INT_P
#if SIZEOF_LONG_INT==4
#define INT64_FORMAT "%lld"
#else
#define INT64_FORMAT "%ld"
#endif
#define INTBITSIZE (sizeof(int)*8)
typedef module_t Module;
typedef YAP_Term *Word; /* Anonymous 4 byte object */
typedef YAP_Term (*Func)(term_t); /* foreign functions */
extern const char *Yap_GetCurrentPredName(void);
extern YAP_Int Yap_GetCurrentPredArity(void);
extern int Yap_read_term(term_t t, IOSTREAM *st, term_t *exc, term_t vs);
extern term_t Yap_fetch_module_for_format(term_t args, YAP_Term *modp);
extern IOENC Yap_DefaultEncoding(void);
extern void Yap_SetDefaultEncoding(IOENC);
extern void Yap_setCurrentSourceLocation(IOSTREAM **s);
extern void *Yap_GetStreamHandle(Atom at);
extern atom_t codeToAtom(int chrcode);
#define valTermRef(t) ((Word)YAP_AddressFromSlot(t))
#include "pl-codelist.h"
//move this to SWI
#define GP_CREATE 2 /* create (in this module) */
#ifndef HAVE_MBSCOLL
COMMON(int) mbscoll(const char *s1, const char *s2);
#endif
#ifndef HAVE_MBSCASECOLL
COMMON(int) mbscasecoll(const char *s1, const char *s2);
#endif
COMMON(atom_t) TemporaryFile(const char *id, int *fdp);
COMMON(char *) Getenv(const char *, char *buf, size_t buflen);
/*** memory allocation stuff: SWI wraps around malloc */
#define stopItimer()
COMMON(word) pl_print(term_t term);
COMMON(word) pl_write(term_t term);
COMMON(word) pl_write_canonical(term_t term);
COMMON(word) pl_write_term(term_t term, term_t options);
COMMON(word) pl_writeq(term_t term);
static inline int
get_procedure(term_t descr, predicate_t *proc, term_t he, int f) {
YAP_Term t = YAP_GetFromSlot(descr);
if (YAP_IsVarTerm(t)) return 0;
if (YAP_IsAtomTerm(t))
*proc = YAP_Predicate(YAP_AtomOfTerm(t),0,YAP_CurrentModule());
else if (YAP_IsApplTerm(t)) {
YAP_Functor f = YAP_FunctorOfTerm(t);
*proc = YAP_Predicate(YAP_NameOfFunctor(f),YAP_ArityOfFunctor(f),YAP_CurrentModule());
}
return 1;
}
COMMON(intptr_t) lengthList(term_t list, int errors);
COMMON(int) promoteToFloatNumber(Number n);
COMMON(char *) PrologPath(const char *ospath, char *plpath, size_t len);
COMMON(char *) ExpandOneFile(const char *spec, char *file);
COMMON(char *) AbsoluteFile(const char *spec, char *path);
COMMON(char *) BaseName(const char *f);
COMMON(bool) ChDir(const char *path);
COMMON(char *) OsPath(const char *plpath, char *ospath);
COMMON(bool) ChDir(const char *path);
COMMON(int) DeleteTemporaryFile(atom_t name);
COMMON(int) IsAbsolutePath(const char *spec);
COMMON(bool) sysError(const char *fm, ...);
/* TBD */
extern word globalString(size_t size, char *s);
extern word globalWString(size_t size, wchar_t *s);
#define allocHeap(n) allocHeap__LD(n PASS_LD)
#define valHandle(r) valHandle__LD(r PASS_LD)
YAP_Int YAP_PLArityOfSWIFunctor(functor_t f);
YAP_Atom YAP_AtomFromSWIAtom(atom_t at);
atom_t YAP_SWIAtomFromAtom(YAP_Atom at);
PL_blob_t* YAP_find_blob_type(YAP_Atom at);
void PL_license(const char *license, const char *module);
#define arityFunctor(f) YAP_PLArityOfSWIFunctor(f)
#define stringAtom(w) YAP_AtomName(YAP_AtomFromSWIAtom(w))
#define isInteger(A) (YAP_IsIntTerm((A)) || YAP_IsBigNumTerm((A)))
#define isString(A) Yap_IsStringTerm(A)
#define isAtom(A) YAP_IsAtomTerm((A))
#define isList(A) YAP_IsPairTerm((A))
#define isNil(A) ((A) == YAP_TermNil())
#define isReal(A) YAP_IsFloatTerm((A))
#define isFloat(A) YAP_IsFloatTerm((A))
#define isVar(A) YAP_IsVarTerm((A))
#define valReal(w) YAP_FloatOfTerm((w))
#define valFloat(w) YAP_FloatOfTerm((w))
#ifdef AtomLength /* there is another AtomLength in the system */
#undef AtomLength
#endif
#define AtomLength(w) YAP_AtomNameLength(w)
#define atomValue(atom) YAP_AtomFromSWIAtom(atom)
#define atomFromTerm(term) YAP_SWIAtomFromAtom(YAP_AtomOfTerm(term))
#define atomName(atom) ((char *)YAP_AtomName(atom))
#define nameOfAtom(atom) ((char *)YAP_AtomName(atom))
inline static size_t
atomLength(Atom atom)
{
if (YAP_IsWideAtom(atom))
return wcslen(atom->WStrOfAE)*sizeof(wchar_t);
return(strlen(atom->StrOfAE));
}
#define atomBlobType(at) YAP_find_blob_type(at)
#define argTermP(w,i) ((Word)((YAP_ArgsOfTerm(w)+(i))))
#define deRef(t) while (IsVarTerm(*(t)) && !IsUnboundVar(t)) { t = (CELL *)(*(t)); }
#define canBind(t) FALSE // VSC: to implement
#define MODULE_user YAP_ModuleUser()
#define _PL_predicate(A,B,C,D) PL_predicate(A,B,C)
#define predicateHasClauses(A) (YAP_NumberOfClausesForPredicate((YAP_PredEntryPtr)A) != 0)
#define lookupModule(A) Yap_Module(MkAtomTerm(YAP_AtomFromSWIAtom(A)))
#define charEscapeWriteOption(A) FALSE // VSC: to implement
#define wordToTermRef(A) YAP_InitSlot(*(A))
#define isTaggedInt(A) IsIntegerTerm(A)
#define valInt(A) IntegerOfTerm(A)
#define MODULE_parse ((Module)CurrentModule)
extern term_t Yap_CvtTerm(term_t ts);
#define clearNumber(n)
wchar_t *nameOfWideAtom(atom_t atom);
int isWideAtom(atom_t atom);
inline static int
charCode(Term w)
{ if ( IsAtomTerm(w) )
{
YAP_Atom a = atomValue(w);
if ( YAP_AtomNameLength(a) == 1) {
if (YAP_IsWideAtom(a)) {
return YAP_WideAtomName(a)[0];
}
return YAP_AtomName(a)[0];
}
}
return -1;
}
#define PL_get_atom(t, a) PL_get_atom__LD(t, a PASS_LD)
#define PL_get_atom_ex(t, a) PL_get_atom_ex__LD(t, a PASS_LD)
#define PL_get_text(l, t, f) PL_get_text__LD(l, t, f PASS_LD)
#define PL_is_variable(t) PL_is_variable__LD(t PASS_LD)
#define PL_new_term_ref() PL_new_term_ref__LD(PASS_LD1)
#define PL_put_term(t1, t2) PL_put_term__LD(t1, t2 PASS_LD)
#define PL_unify_atom(t, a) PL_unify_atom__LD(t, a PASS_LD)
#define PL_unify_integer(t, i) PL_unify_integer__LD(t, i PASS_LD)
#endif /* __YAP_PROLOG__ */
#if IN_PL_OS_C
static int
stripostfix(const char *s, const char *e)
{ size_t ls = strlen(s);
size_t le = strlen(e);
if ( ls >= le )
return strcasecmp(&s[ls-le], e) == 0;
return FALSE;
}
#endif
#if HAVE_SIGPROCMASK
#if HAVE_SIGNAL_H
#include <signal.h>
#endif
static inline void
unblockSignal(int sig)
{ sigset_t set;
sigemptyset(&set);
sigaddset(&set, sig);
sigprocmask(SIG_UNBLOCK, &set, NULL);
// DEBUG(1, Sdprintf("Unblocked signal %d\n", sig));
}
#else
static inline void
unblockSignal(int sig)
{
}
#endif
#define suspendTrace(x)
atom_t ATOM_;
#endif /* PL_YAP_H */