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yap-6.3/library/yap2swi/yap2swi.c

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/* yap2swi.c */
/*
* Project: jpl for Yap Prolog
* Author: Steve Moyle and Vitor Santos Costa
* Email: steve.moyle@comlab.ox.ac.uk
* Date: 21 January 2002
* Copyright (c) 2002 Steve Moyle. All rights reserved.
*/
//=== includes ===============================================================
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include <yap2swi.h>
#define BUF_SIZE 256
#define TMP_BUF_SIZE 2*BUF_SIZE
char buffers[TMP_BUF_SIZE+BUF_SIZE*4];
static int buf_index = 0;
static char *
alloc_ring_buf(void)
{
int ret = buf_index;
buf_index++;
if (buf_index == 4)
buf_index = 0;
return buffers+(TMP_BUF_SIZE+ret*BUF_SIZE);
}
/* SWI: void PL_agc_hook(void)
YAP: NO EQUIVALENT */
/* dummy function for now (until Vitor comes through!)*/
X_API PL_agc_hook_t
PL_agc_hook(PL_agc_hook_t entry)
{
return entry;
}
/* SWI: char* PL_atom_chars(atom_t atom)
YAP: char* AtomName(Atom) */
X_API char* PL_atom_chars(atom_t a) /* SAM check type */
{
return YapAtomName(a);
}
/* SWI: term_t PL_copy_term_ref(term_t from)
YAP: NO EQUIVALENT */
/* SAM TO DO */
X_API term_t PL_copy_term_ref(term_t from)
{
return YapInitSlot(YapGetFromSlot(from));
}
X_API term_t PL_new_term_ref(void)
{
term_t to = YapNewSlots(1);
return to;
}
X_API term_t PL_new_term_refs(int n)
{
term_t to = YapNewSlots(n);
return to;
}
X_API void PL_reset_term_refs(term_t after)
{
term_t new = YapNewSlots(1);
YapRecoverSlots(after-new);
}
/* begin PL_get_* functions =============================*/
/* SWI: int PL_get_arg(int index, term_t t, term_t a)
YAP: Term ArgOfTerm(int argno, Term t)*/
X_API int PL_get_arg(int index, term_t ts, term_t a)
{
Term t = YapGetFromSlot(ts);
if ( !IsApplTerm(t) ) {
if (IsPairTerm(t)) {
if (index == 1){
YapPutInSlot(a,HeadOfTerm(t));
return 1;
} else if (index == 2) {
YapPutInSlot(a,TailOfTerm(t));
return 1;
}
}
return 0;
}
YapPutInSlot(a,ArgOfTerm(index, t));
return 1;
}
/* SWI: int PL_get_atom(term_t t, Atom *a)
YAP: Atom AtomOfTerm(Term) */
X_API int PL_get_atom(term_t ts, atom_t *a)
{
Term t = YapGetFromSlot(ts);
if ( !IsAtomTerm(t))
return 0;
*a = YapAtomOfTerm(t);
return 1;
}
/* SWI: int PL_get_atom_chars(term_t t, char **s)
YAP: char* AtomName(Atom) */
X_API int PL_get_atom_chars(term_t ts, char **a) /* SAM check type */
{
Term t = YapGetFromSlot(ts);
if (!IsAtomTerm(t))
return 0;
*a = YapAtomName(YapAtomOfTerm(t));
return 1;
}
/*
int PL_get_chars(term_t +t, char **s, unsigned flags) Convert the
argument term t to a 0-terminated C-string. flags is a bitwise
disjunction from two groups of constants. The first specifies which
term-types should converted and the second how the argument is
stored. Below is a specification of these constants. BUF_RING
implies, if the data is not static (as from an atom), the data is
copied to the next buffer from a ring of four (4) buffers. This is a
convenient way of converting multiple arguments passed to a foreign
predicate to C-strings. If BUF_MALLOC is used, the data must be
freed using free() when not needed any longer.
CVT_ATOM Convert if term is an atom
CVT_STRING Convert if term is a string
CVT_LIST Convert if term is a list of integers between 1 and 255
CVT_INTEGER Convert if term is an integer (using %d)
CVT_FLOAT Convert if term is a float (using %f)
CVT_NUMBER Convert if term is a integer or float
CVT_ATOMIC Convert if term is atomic
CVT_VARIABLE Convert variable to print-name
CVT_ALL Convert if term is any of the above, except for variables
BUF_DISCARDABLE Data must copied immediately
BUF_RING Data is stored in a ring of buffers
BUF_MALLOC Data is copied to a new buffer returned by malloc(3)
*/
static int CvtToStringTerm(Term t, char *buf, char *buf_max)
{
*buf++ = '\"';
while (IsPairTerm(t)) {
Term hd = YapHeadOfTerm(t);
Int i;
if (!IsIntTerm(hd))
return 0;
i = IntOfTerm(hd);
if (i <= 0 || i >= 255)
return 0;
if (!IsIntTerm(hd))
return 0;
*buf++ = i;
if (buf == buf_max)
return 0;
t = TailOfTerm(t);
}
if (t != MkAtomTerm(LookupAtom("[]")))
return 0;
if (buf+1 == buf_max)
return 0;
buf[0] = '\"';
buf[1] = '\0';
return 1;
}
char *bf, *bf_lim;
static void
buf_writer(int c)
{
if (bf == bf_lim) {
return;
}
*bf++ = c;
}
#if !HAVE_SNPRINTF
#define snprintf(X,Y,Z,A) sprintf(X,Z,A)
#endif
X_API int PL_get_chars(term_t l, char **sp, unsigned flags)
{
Term t = YapGetFromSlot(l);
char *tmp;
if (!(flags & BUF_RING)) {
tmp = alloc_ring_buf();
} else {
tmp = buffers;
}
*sp = tmp;
if (YapIsAtomTerm(t)) {
if (!(flags & (CVT_ATOM|CVT_ATOMIC|CVT_ALL)))
return 0;
*sp = YapAtomName(YapAtomOfTerm(t));
return 1;
} else if (YapIsIntTerm(t)) {
if (!(flags & (CVT_INTEGER|CVT_NUMBER|CVT_ATOMIC|CVT_ALL)))
return 0;
snprintf(tmp,BUF_SIZE,"%ld",IntOfTerm(t));
} else if (YapIsFloatTerm(t)) {
if (!(flags & (CVT_FLOAT|CVT_ATOMIC|CVT_NUMBER|CVT_ALL)))
return 0;
snprintf(tmp,BUF_SIZE,"%f",FloatOfTerm(t));
} else if (flags & CVT_STRING) {
if (CvtToStringTerm(t,tmp,tmp+BUF_SIZE) == 0)
return 0;
} else {
bf = tmp;
bf_lim = tmp+(BUF_SIZE-1);
YapWrite(t,buf_writer,0);
if (bf == bf_lim)
return 0;
*bf = '\0';
}
if (flags & BUF_MALLOC) {
char *nbf = malloc(strlen(tmp));
if (nbf == NULL)
return 0;
strncpy(nbf,tmp,BUF_SIZE);
*sp = nbf;
}
return 1;
}
/* SWI: int PL_get_functor(term_t t, functor_t *f)
YAP: Functor FunctorOfTerm(Term) */
X_API int PL_get_functor(term_t ts, functor_t *f)
{
Term t = YapGetFromSlot(ts);
if ( IsAtomTerm(t)) {
*f = t;
} else {
*f = (functor_t)FunctorOfTerm(t);
}
return 1;
}
/* SWI: int PL_get_float(term_t t, double *f)
YAP: flt FloatOfTerm(Term) */
X_API int PL_get_float(term_t ts, double *f) /* SAM type check*/
{
Term t = YapGetFromSlot(ts);
if ( !IsFloatTerm(t))
return 0;
*f = FloatOfTerm(t);
return 1;
}
X_API int PL_get_head(term_t ts, term_t h)
{
Term t = YapGetFromSlot(ts);
if (!IsPairTerm(t) ) {
return 0;
}
YapPutInSlot(h,HeadOfTerm(t));
return 1;
}
/* SWI: int PL_get_integer(term_t t, int *i)
YAP: Int IntOfTerm(Term) */
X_API int PL_get_integer(term_t ts, int *i)
{
Term t = YapGetFromSlot(ts);
if (!IsIntTerm(t) )
return 0;
*i = IntOfTerm(t);
return 1;
}
X_API int PL_get_long(term_t ts, long *i)
{
Term t = YapGetFromSlot(ts);
if (!IsIntTerm(t) ) {
if (IsFloatTerm(t)) {
double dbl = YapFloatOfTerm(t);
if (dbl - (long)dbl == 0.0) {
*i = (long)dbl;
return 1;
}
}
return 0;
}
*i = IntOfTerm(t);
return 1;
}
X_API int PL_get_list(term_t ts, term_t h, term_t tl)
{
Term t = YapGetFromSlot(ts);
if (!IsPairTerm(t) ) {
return 0;
}
YapPutInSlot(h,HeadOfTerm(t));
YapPutInSlot(tl,TailOfTerm(t));
return 1;
}
X_API int PL_get_list_chars(term_t l, char **sp, unsigned flags)
{
if (flags & (CVT_ATOM|CVT_STRING|CVT_INTEGER|CVT_FLOAT|CVT_NUMBER|CVT_ATOMIC|CVT_VARIABLE|CVT_ALL))
return 0;
return PL_get_chars(l, sp, CVT_LIST|flags);
}
/* SWI: int PL_get_module(term_t t, module_t *m) */
X_API int PL_get_module(term_t ts, module_t *m)
{
Term t = YapGetFromSlot(ts);
if (!YapIsAtomTerm(t) )
return 0;
*m = YapLookupModule(t);
return 1;
}
/* SWI: int PL_get_atom(term_t t, Atom *a)
YAP: Atom AtomOfTerm(Term) */
X_API int PL_get_name_arity(term_t ts, atom_t *name, int *arity)
{
Term t = YapGetFromSlot(ts);
if (YapIsAtomTerm(t)) {
*name = YapAtomOfTerm(t);
*arity = 0;
return 1;
}
if (YapIsApplTerm(t)) {
Functor f = YapFunctorOfTerm(t);
*name = YapNameOfFunctor(f);
*arity = YapArityOfFunctor(f);
return 1;
}
if (YapIsPairTerm(t)) {
*name = YapLookupAtom(".");
*arity = 2;
return 1;
}
return 0;
}
/* SWI: int PL_get_atom(term_t t, Atom *a)
YAP: Atom AtomOfTerm(Term) */
X_API int PL_get_nil(term_t ts)
{
Term t = YapGetFromSlot(ts);
return ( t == YapMkAtomTerm(YapLookupAtom("[]")));
}
/* SWI: int PL_get_pointer(term_t t, int *i)
YAP: NO EQUIVALENT */
/* SAM TO DO */
X_API int PL_get_pointer(term_t ts, void **i)
{
Term t = YapGetFromSlot(ts);
if (!IsIntTerm(t) )
return 0;
*i = (void *)YapIntOfTerm(t);
return 1;
}
/* SWI: int PL_get_atom_chars(term_t t, char **s)
YAP: char* AtomName(Atom) */
X_API int PL_get_string(term_t ts, char **sp, int *lenp) /* SAM check type */
{
Term t = YapGetFromSlot(ts);
char *to;
int len;
if (!IsPairTerm(t))
return 0;
if (!YapStringToBuffer(t, buffers, TMP_BUF_SIZE))
return(FALSE);
len = strlen(buffers);
to = (char *)YapNewSlots((len/sizeof(Term))+1);
strncpy(to, buffers, TMP_BUF_SIZE);
*sp = to;
return 1;
}
X_API int PL_get_tail(term_t ts, term_t tl)
{
Term t = YapGetFromSlot(ts);
if (!IsPairTerm(t) ) {
return 0;
}
YapPutInSlot(tl,TailOfTerm(t));
return 1;
}
/* end PL_get_* functions =============================*/
/* begin PL_new_* functions =============================*/
/* SWI: atom_t PL_new_atom(const char *)
YAP: Atom LookupAtom(char *) */
/* SAM should the following be used instead?
Atom FullLookupAtom(char *)
*/
X_API atom_t PL_new_atom(const char *c)
{
return YapLookupAtom((char *)c);
}
X_API functor_t PL_new_functor(atom_t name, int arity)
{
functor_t f;
if (arity == 0) {
f = (functor_t)YapMkAtomTerm(name);
} else {
f = (functor_t)YapMkFunctor(name,arity);
}
return f;
}
X_API atom_t PL_functor_name(functor_t f)
{
if (IsAtomTerm(f)) {
return AtomOfTerm(f);
} else {
return YapNameOfFunctor((Functor)f);
}
}
X_API int PL_functor_arity(functor_t f)
{
if (IsAtomTerm(f)) {
return 0;
} else {
return YapArityOfFunctor((Functor)f);
}
}
/* end PL_new_* functions =============================*/
/* begin PL_put_* functions =============================*/
X_API void PL_cons_functor(term_t d, functor_t f,...)
{
va_list ap;
int arity, i;
Term *tmp = (CELL *)buffers;
if (IsAtomTerm((Term)f)) {
YapPutInSlot(d, (Term)f);
return;
}
arity = ArityOfFunctor((Functor)f);
if (arity > TMP_BUF_SIZE/sizeof(CELL)) {
fprintf(stderr,"PL_cons_functor: arity too large (%d)\n", arity);
return;
}
va_start (ap, f);
for (i = 0; i < arity; i++) {
tmp[i] = YapGetFromSlot(va_arg(ap, term_t));
}
va_end (ap);
if (arity == 2 && (Functor)f == YapMkFunctor(YapLookupAtom("."),2))
YapPutInSlot(d,YapMkPairTerm(tmp[0],tmp[1]));
else
YapPutInSlot(d,YapMkApplTerm((Functor)f,arity,tmp));
}
X_API void PL_cons_functor_v(term_t d, functor_t f,term_t a0)
{
int arity;
if (IsAtomTerm(f)) {
YapPutInSlot(d,(Term)f);
return;
}
arity = ArityOfFunctor((Functor)f);
if (arity == 2 && (Functor)f == YapMkFunctor(YapLookupAtom("."),2))
YapPutInSlot(d,YapMkPairTerm(YapGetFromSlot(a0),YapGetFromSlot(a0+1)));
else
YapPutInSlot(d,YapMkApplTerm((Functor)f,arity,YapAddressFromSlot(a0)));
}
X_API void PL_cons_list(term_t d, term_t h, term_t t)
{
YapPutInSlot(d,YapMkPairTerm(YapGetFromSlot(h),YapGetFromSlot(t)));
}
X_API void PL_put_atom(term_t t, atom_t a)
{
YapPutInSlot(t,YapMkAtomTerm(a));
}
X_API void PL_put_atom_chars(term_t t, const char *s)
{
YapPutInSlot(t,YapMkAtomTerm(YapLookupAtom((char *)s)));
}
X_API void PL_put_float(term_t t, double fl)
{
YapPutInSlot(t,YapMkFloatTerm(fl));
}
X_API void PL_put_functor(term_t t, functor_t f)
{
Int arity;
if (IsAtomTerm(f)) {
YapPutInSlot(t,f);
} else {
arity = YapArityOfFunctor((Functor)f);
if (arity == 2 && (Functor)f == YapMkFunctor(YapLookupAtom("."),2))
YapPutInSlot(t,YapMkNewPairTerm());
else
YapPutInSlot(t,MkNewApplTerm((Functor)f,arity));
}
}
X_API void PL_put_integer(term_t t, long n)
{
YapPutInSlot(t,YapMkIntTerm(n));
}
X_API void PL_put_list(term_t t)
{
YapPutInSlot(t,YapMkNewPairTerm());
}
X_API void PL_put_nil(term_t t)
{
YapPutInSlot(t,MkAtomTerm(LookupAtom("[]")));
}
/* SWI: void PL_put_pointer(term_t -t, void *ptr)
YAP: NO EQUIVALENT */
/* SAM TO DO */
X_API void PL_put_pointer(term_t t, void *ptr)
{
Term tptr = MkIntTerm((Int)ptr);
YapPutInSlot(t,tptr);
}
X_API void PL_put_string_chars(term_t t, const char *s)
{
YapPutInSlot(t,YapBufferToString((char *)s));
}
X_API void PL_put_term(term_t d, term_t s)
{
YapPutInSlot(d,YapGetFromSlot(s));
}
X_API void PL_put_variable(term_t t)
{
YapPutInSlot(t,MkVarTerm());
}
/* end PL_put_* functions =============================*/
/* SWI: int PL_raise_exception(term_t exception)
YAP: NO EQUIVALENT */
/* SAM TO DO */
X_API int PL_raise_exception(term_t exception)
{
YapThrow(YapGetFromSlot(exception));
return 0;
}
/* begin PL_unify_* functions =============================*/
X_API int PL_unify(term_t t1, term_t t2)
{
return unify(YapGetFromSlot(t1),YapGetFromSlot(t2));
}
/* SWI: int PL_unify_atom(term_t ?t, atom *at)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_atom(term_t t, atom_t at)
{
Term cterm = MkAtomTerm(at);
return unify(YapGetFromSlot(t),cterm);
}
/* SWI: int PL_unify_atom_chars(term_t ?t, const char *chars)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_atom_chars(term_t t, const char *s)
{
Atom catom = YapLookupAtom((char *)s);
Term cterm = MkAtomTerm(catom);
return unify(YapGetFromSlot(t),cterm);
}
/* SWI: int PL_unify_float(term_t ?t, double f)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_float(term_t t, double f)
{
Term fterm = MkFloatTerm(f);
return unify(YapGetFromSlot(t),fterm);
}
/* SWI: int PL_unify_integer(term_t ?t, long n)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_integer(term_t t, long n)
{
Term iterm = MkIntTerm(n);
return unify(YapGetFromSlot(t),iterm);
}
/* SWI: int PL_unify_list(term_t ?t, term_t +h, term_t -t)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_list(term_t t, term_t h, term_t tail)
{
Term pairterm = MkPairTerm(YapGetFromSlot(h),YapGetFromSlot(tail));
return unify(YapGetFromSlot(t), pairterm);
}
/* SWI: int PL_unify_list(term_t ?t, term_t +h, term_t -t)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_list_chars(term_t t, const char *chars)
{
Term chterm = YapBufferToString((char *)chars);
return unify(YapGetFromSlot(t), chterm);
}
/* SWI: int PL_unify_nil(term_t ?l)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_nil(term_t l)
{
Term nilterm = MkAtomTerm(YapLookupAtom("[]"));
return unify(YapGetFromSlot(l), nilterm);
}
/* SWI: int PL_unify_pointer(term_t ?t, void *ptr)
YAP: NO EQUIVALENT */
/* SAM TO DO */
X_API int PL_unify_pointer(term_t t, void *ptr)
{
Term ptrterm = MkIntTerm((Int)ptr);
return unify(YapGetFromSlot(t), ptrterm);
}
/* SWI: int PL_unify_list(term_t ?t, term_t +h, term_t -t)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_string_chars(term_t t, const char *chars)
{
Term chterm = YapBufferToString((char *)chars);
return unify(YapGetFromSlot(t), chterm);
}
typedef struct {
int type;
union {
functor_t f;
term_t t;
atom_t a;
long l;
double dbl;
char *s;
void *p;
} arg;
} arg_types;
static Term
get_term(arg_types **buf)
{
arg_types *ptr = *buf;
int type = ptr->type;
Term t;
switch (type) {
/* now build the error string */
case PL_VARIABLE:
t = YapMkVarTerm();
break;
case PL_ATOM:
t = YapMkAtomTerm(ptr->arg.a);
break;
case PL_INTEGER:
t = YapMkIntTerm(ptr->arg.l);
break;
case PL_FLOAT:
t = YapMkFloatTerm(ptr->arg.dbl);
break;
case PL_POINTER:
t = YapMkIntTerm((Int)(ptr->arg.p));
break;
case PL_STRING:
t = YapBufferToString(ptr->arg.s);
break;
case PL_TERM:
t = YapGetFromSlot(ptr->arg.t);
break;
case PL_CHARS:
t = MkAtomTerm(YapLookupAtom(ptr->arg.s));
break;
case PL_FUNCTOR:
{
functor_t f = ptr->arg.f;
Int arity, i;
term_t loc;
if (IsAtomTerm((Term)f)) {
t = (Term)f;
break;
}
arity = YapArityOfFunctor((Functor)f);
loc = YapNewSlots(arity);
ptr++;
for (i= 0; i < arity; i++) {
YapPutInSlot(loc+i,get_term(&ptr));
}
t = MkApplTerm((Functor)f,arity,YapAddressFromSlot(loc));
}
break;
case PL_LIST:
{
term_t loc;
loc = YapNewSlots(2);
YapPutInSlot(loc,get_term(&ptr));
YapPutInSlot(loc+1,get_term(&ptr));
t = MkPairTerm(YapGetFromSlot(loc),YapGetFromSlot(loc+1));
}
break;
default:
fprintf(stderr, "PL_FUNCTOR not implemented yet\n");
exit(1);
}
ptr++;
return t;
}
/* SWI: int PL_unify_term(term_t ?t1, term_t ?t2)
YAP Int unify(Term* a, Term* b) */
X_API int PL_unify_term(term_t l,...)
{
va_list ap;
int type;
int nels = 1;
arg_types *ptr = (arg_types *)buffers;
va_start (ap, l);
while (nels > 0) {
type = va_arg(ap, int);
nels --;
ptr->type = type;
switch(type) {
case PL_VARIABLE:
break;
case PL_ATOM:
ptr->arg.a = va_arg(ap, atom_t);
break;
case PL_INTEGER:
ptr->arg.l = va_arg(ap, long);
break;
case PL_FLOAT:
ptr->arg.dbl = va_arg(ap, double);
break;
case PL_STRING:
ptr->arg.s = va_arg(ap, char *);
break;
case PL_TERM:
ptr->arg.t = va_arg(ap, term_t);
break;
case PL_POINTER:
ptr->arg.p = va_arg(ap, void *);
break;
case PL_CHARS:
ptr->arg.s = va_arg(ap, char *);
break;
case PL_FUNCTOR:
{
functor_t f = va_arg(ap, functor_t);
ptr->arg.f = f;
if (!IsAtomTerm((Term)f)) {
nels += YapArityOfFunctor((Functor)f);
}
}
break;
case PL_LIST:
nels += 2;
break;
default:
fprintf(stderr, "%d not supported\n", type);
exit(1);
}
ptr++;
}
va_end (ap);
ptr = (arg_types *)buffers;
return unify(YapGetFromSlot(l),get_term(&ptr));
}
/* end PL_unify_* functions =============================*/
/* SWI: void PL_unregister_atom(atom_t atom)
YAP: NO EQUIVALENT */
/* SAM TO DO */
X_API void PL_unregister_atom(atom_t atom)
{
}
X_API int PL_term_type(term_t t)
{
/* Yap does not support strings as different objects */
Term v = YapGetFromSlot(t);
if (IsVarTerm(v)) {
return PL_VARIABLE;
} else if (IsAtomTerm(v)) {
return PL_ATOM;
} else if (IsIntTerm(v)) {
return PL_INTEGER;
} else if (IsFloatTerm(v)) {
return PL_FLOAT;
} else {
return PL_TERM;
}
}
X_API int PL_is_atom(term_t t)
{
return IsAtomTerm(YapGetFromSlot(t));
}
X_API int PL_is_atomic(term_t ts)
{
Term t = YapGetFromSlot(ts);
return !IsVarTerm(t) || !IsApplTerm(t) || !IsPairTerm(t);
}
X_API int PL_is_compound(term_t ts)
{
Term t = YapGetFromSlot(ts);
return (IsApplTerm(t) || IsPairTerm(t));
}
X_API int PL_is_functor(term_t ts, functor_t f)
{
Term t = YapGetFromSlot(ts);
if (IsApplTerm(t)) {
return FunctorOfTerm(t) == (Functor)f;
} else if (IsPairTerm(t)) {
return FunctorOfTerm(t) == YapMkFunctor(YapLookupAtom("."),2);
} else
return 0;
}
X_API int PL_is_float(term_t ts)
{
Term t = YapGetFromSlot(ts);
return IsFloatTerm(t);
}
X_API int PL_is_integer(term_t ts)
{
Term t = YapGetFromSlot(ts);
return IsIntTerm(t);
}
X_API int PL_is_list(term_t ts)
{
Term t = YapGetFromSlot(ts);
if (IsPairTerm(t)) {
return 1;
} else if (IsAtomTerm(t)) {
return t == MkAtomTerm(YapLookupAtom("[]"));
} else
return 0;
}
X_API int PL_is_number(term_t ts)
{
Term t = YapGetFromSlot(ts);
return IsIntTerm(t) || IsFloatTerm(t);
}
X_API int PL_is_string(term_t ts)
{
Term t = YapGetFromSlot(ts);
while (IsPairTerm(t)) {
Term hd = YapHeadOfTerm(t);
Int i;
if (!IsIntTerm(hd))
return 0;
i = IntOfTerm(hd);
if (i <= 0 || i >= 255)
return 0;
if (!IsIntTerm(hd))
return 0;
t = TailOfTerm(t);
}
if (t != MkAtomTerm(LookupAtom("[]")))
return 0;
return FALSE;
}
X_API int PL_is_variable(term_t ts)
{
Term t = YapGetFromSlot(ts);
return IsVarTerm(t);
}
X_API void PL_halt(int e)
{
YapHalt(e);
}
X_API fid_t
PL_open_foreign_frame(void)
{
return 0;
}
X_API void
PL_close_foreign_frame(fid_t f)
{
}
X_API void
PL_discard_foreign_frame(fid_t f)
{
fprintf(stderr,"WARNING: PL_discard_foreign_frame not fully implemented!!");
/* Missing: undo Trail!! */
}
X_API term_t
PL_exception(qid_t q)
{
Term t;
if (YapGoalHasException(&t)) {
term_t to = YapNewSlots(1);
YapPutInSlot(to,t);
return to;
} else {
return 0L;
}
}
X_API int
PL_initialise(int myargc, char **myargv, char **myenviron)
{
yap_init_args init_args;
init_args.Argv = myargv;
init_args.Argc = myargc;
init_args.SavedState = "startup";
init_args.HeapSize = 0;
init_args.StackSize = 0;
init_args.TrailSize = 0;
init_args.YapLibDir = NULL;
init_args.YapPrologBootFile = NULL;
init_args.HaltAfterConsult = FALSE;
init_args.FastBoot = FALSE;
init_args.NumberWorkers = 1;
init_args.SchedulerLoop = 10;
init_args.DelayedReleaseLoad = 3;
return YapInit(&init_args);
}
X_API predicate_t PL_pred(functor_t f, module_t m)
{
if (IsAtomTerm(f)) {
return YapPredicate(AtomOfTerm(f),0,m);
} else {
Functor tf = (Functor)f;
return YapPredicate(YapNameOfFunctor(tf),YapArityOfFunctor(tf),m);
}
}
X_API predicate_t PL_predicate(const char *name, int arity, const char *m)
{
int mod;
if (m == NULL)
mod = YapCurrentModule();
else
mod = YapLookupModule(MkAtomTerm(LookupAtom((char *)m)));
return YapPredicate(YapLookupAtom((char *)name),
arity,
mod);
}
X_API void PL_predicate_info(predicate_t p,atom_t *name, int *arity, module_t *m)
{
YapPredicateInfo(p, name, (Int *)arity, (Int *)m);
}
typedef struct open_query_struct {
int open;
int state;
Term g;
} open_query;
open_query execution;
X_API qid_t PL_open_query(module_t ctx, int flags, predicate_t p, term_t t0)
{
atom_t name;
Int arity;
Int m;
Term t[2];
/* ignore flags and module for now */
if (execution.open != 0) {
YapError("only one query at a time allowed\n");
}
execution.open=1;
execution.state=0;
YapPredicateInfo(p, &name, &arity, &m);
t[0] = YapModuleName(m);
if (arity == 0) {
t[1] = YapMkAtomTerm(name);
} else {
Functor f = YapMkFunctor(name, arity);
t[1] = YapMkApplTerm(f,arity,YapAddressFromSlot(t0));
}
execution.g = MkApplTerm(YapMkFunctor(YapLookupAtom(":"),2),2,t);
return &execution;
}
X_API int PL_next_solution(qid_t qi)
{
int result;
if (qi->open != 1) return 0;
if (qi->state == 0) {
result = YapRunGoal(qi->g);
} else {
result = YapRestartGoal();
}
qi->state = 1;
if (result == 0) {
qi->open = 0;
}
return result;
}
X_API void PL_cut_query(qid_t qi)
{
YapPruneGoal();
qi->open = 0;
}
X_API void PL_close_query(qid_t qi)
{
/* need to implement backtracking here */
if (qi->open != 1)
return;
YapPruneGoal();
YapRestartGoal();
qi->open = 0;
}
X_API int PL_call_predicate(module_t ctx, int flags, predicate_t p, term_t t0)
{
qid_t qi = PL_open_query(ctx, flags, p, t0);
int ret = PL_next_solution(qi);
PL_cut_query(qi);
return ret;
}
X_API int PL_call(term_t tp, module_t m)
{
Term t[2], g;
t[0] = YapModuleName(m);
t[1] = YapGetFromSlot(tp);
g = MkApplTerm(YapMkFunctor(YapLookupAtom(":"),2),2,t);
return YapRunGoal(g);
}
X_API void PL_register_extensions(PL_extension *ptr)
{
/* ignore flags for now */
while(ptr->predicate_name != NULL) {
YapUserCPredicateWithArgs(ptr->predicate_name,ptr->function,ptr->arity,YapCurrentModule());
ptr++;
}
}
/* note: fprintf may be called from anywhere, so please don't try
to be smart and allocate stack from somewhere else */
X_API int Sprintf(char *format,...)
{
va_list ap;
char buf[512];
va_start(ap,format);
#ifdef HAVE_VSNPRINTF
vsnprintf(buf,512,format,ap);
#else
vsprintf(buf,format,ap);
#endif
va_end(ap);
fputs(buf, stderr);
return 1;
}
#ifdef _WIN32
#include <windows.h>
int WINAPI PROTO(win_yap2swi, (HANDLE, DWORD, LPVOID));
int WINAPI win_yap2swi(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