/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: cmppreds.c * * Last rev: * * mods: * * comments: comparing two prolog terms * * * *************************************************************************/ #ifdef SCCS static char SccsId[] = "%W% %G%"; #endif #include "Yap.h" #include "Yatom.h" #include "Heap.h" #include "eval.h" #if HAVE_STRING_H #include #endif STATIC_PROTO(Int compare, (Term, Term)); STATIC_PROTO(Int p_compare, (void)); STATIC_PROTO(Int p_acomp, (void)); STATIC_PROTO(Int a_eq, (Term,Term)); STATIC_PROTO(Int p_eq, (void)); STATIC_PROTO(Int a_dif, (Term,Term)); STATIC_PROTO(Int p_dif, (void)); STATIC_PROTO(Int a_gt, (Term, Term)); STATIC_PROTO(Int p_gt, (void)); STATIC_PROTO(Int a_ge, (Term,Term)); STATIC_PROTO(Int p_ge, (void)); STATIC_PROTO(Int a_lt, (Term,Term)); STATIC_PROTO(Int p_lt, (void)); STATIC_PROTO(Int a_le, (Term,Term)); STATIC_PROTO(Int p_le, (void)); STATIC_PROTO(Int p_noteq, (void)); STATIC_PROTO(Int p_gen_lt, (void)); STATIC_PROTO(Int p_gen_le, (void)); STATIC_PROTO(Int p_gen_gt, (void)); STATIC_PROTO(Int p_gen_ge, (void)); #define rfloat(X) ( X > 0.0 ? 1 : ( X == 0.0 ? 0 : -1)) static int compare_complex(register CELL *pt0, register CELL *pt0_end, register CELL *pt1) { register CELL **to_visit = (CELL **)H; register int out = 0; loop: while (pt0 < pt0_end) { register CELL d0, d1; ++ pt0; ++ pt1; d0 = Derefa(pt0); d1 = Derefa(pt1); if (IsVarTerm(d0)) { if (IsVarTerm(d1)) { out = Signed(d0) - Signed(d1); if (out) goto done; } else { out = 1; goto done; } } else if (IsVarTerm(d1)) { out = -1; goto done; } else { if (d0 == d1) continue; else if (IsAtomTerm(d0)) { if (IsAtomTerm(d1)) out = strcmp( RepAtom(AtomOfTerm(d0))->StrOfAE, RepAtom(AtomOfTerm(d1))->StrOfAE ); else if (IsPrimitiveTerm(d1)) out = 1; else out = -1; /* I know out must be != 0 */ goto done; } else if (IsIntTerm(d0)) { if (IsIntTerm(d1)) out = IntOfTerm(d0) - IntOfTerm(d1); else if (IsFloatTerm(d1)) { out = rfloat(IntOfTerm(d0) - FloatOfTerm(d1)); if (out == 0) out = 1; } else if (IsLongIntTerm(d1)) { out = IntOfTerm(d0) - LongIntOfTerm(d1); #ifdef USE_GMP } else if (IsBigIntTerm(d1)) { out = -mpz_cmp_si(BigIntOfTerm(d1), IntOfTerm(d0)); #endif } else if (IsRefTerm(d1)) out = 1 ; else out = -1; if (out != 0) goto done; } else if (IsFloatTerm(d0)) { if (IsFloatTerm(d1)) out = rfloat(FloatOfTerm(d0) - FloatOfTerm(d1)); else if (IsIntTerm(d1)) { out = rfloat(FloatOfTerm(d0) - IntOfTerm(d1)); if (out == 0) out = -1; } else if (IsLongIntTerm(d1)) { out = rfloat(FloatOfTerm(d0) - LongIntOfTerm(d1)); if (out == 0) out = -1; #ifdef USE_GMP } else if (IsBigIntTerm(d1)) { Float outf = FloatOfTerm(d0) - mpz_get_d(BigIntOfTerm(d1)); if (outf <= 0.0) out = -1; else out = 1; #endif } else if (IsRefTerm(d1)) out = 1; else out = -1; if (out != 0) goto done; } else if (IsLongIntTerm(d0)) { if (IsIntTerm(d1)) out = LongIntOfTerm(d0) - IntOfTerm(d1); else if (IsFloatTerm(d1)) { out = rfloat(LongIntOfTerm(d0) - FloatOfTerm(d1)); if (out == 0) out = 1; } else if (IsLongIntTerm(d1)) out = LongIntOfTerm(d0) - LongIntOfTerm(d1); #ifdef USE_GMP else if (IsBigIntTerm(d1)) out = -mpz_cmp_si(BigIntOfTerm(d1), LongIntOfTerm(d0)); #endif else if (IsRefTerm(d1)) out = 1 ; else out = -1; if (out != 0) goto done; } #ifdef USE_GMP else if (IsBigIntTerm(d0)) { if (IsIntTerm(d1)) out = mpz_cmp_si(BigIntOfTerm(d0), IntOfTerm(d1)); else if (IsFloatTerm(d1)) { Float fout = mpz_get_d(BigIntOfTerm(d0)) - FloatOfTerm(d1); if (fout >= 0.0) out = 1; else out = -1; } else if (IsLongIntTerm(d1)) out = mpz_cmp_si(BigIntOfTerm(d0), LongIntOfTerm(d1)); else if (IsBigIntTerm(d1)) out = mpz_cmp(BigIntOfTerm(d0), BigIntOfTerm(d1)); else if (IsRefTerm(d1)) out = 1 ; else out = -1; if (out != 0) goto done; } #endif else if (IsPairTerm(d0)) { if (!IsPairTerm(d1)) { if (IsApplTerm(d1)) { Functor f = FunctorOfTerm(d1); if (IsExtensionFunctor(f)) out = 1; else if (!(out = 2-ArityOfFunctor(f))) out = strcmp(".",RepAtom(NameOfFunctor(f))->StrOfAE); } else out = 1; goto done; } #ifdef RATIONAL_TREES to_visit[0] = pt0; to_visit[1] = pt0_end; to_visit[2] = pt1; to_visit[3] = (CELL *)*pt0; to_visit += 4; *pt0 = d1; #else /* store the terms to visit */ if (pt0 < pt0_end) { to_visit[0] = pt0; to_visit[1] = pt0_end; to_visit[2] = pt1; to_visit += 3; } #endif pt0 = RepPair(d0) - 1; pt0_end = RepPair(d0) + 1; pt1 = RepPair(d1) - 1; continue; } else if (IsRefTerm(d0)) { if (IsRefTerm(d1)) out = Unsigned(RefOfTerm(d1)) - Unsigned(RefOfTerm(d0)); else out = -1; goto done; } else if (IsApplTerm(d0)) { register Functor f; register CELL *ap2, *ap3; if (!IsApplTerm(d1)) { out = 1 ; goto done; } else { /* store the terms to visit */ Functor f2; ap2 = RepAppl(d0); ap3 = RepAppl(d1); f = (Functor)(*ap2); if (IsExtensionFunctor(f)) { out = 1; goto done; } f2 = (Functor)(*ap3); if (IsExtensionFunctor(f2)) { out = -1; goto done; } /* compare functors */ if (f != (Functor)*ap3) { if (!(out = ArityOfFunctor(f)-ArityOfFunctor(f2))) out = strcmp(RepAtom(NameOfFunctor(f))->StrOfAE, RepAtom(NameOfFunctor(f2))->StrOfAE); goto done; } #ifdef RATIONAL_TREES to_visit[0] = pt0; to_visit[1] = pt0_end; to_visit[2] = pt1; to_visit[3] = (CELL *)*pt0; to_visit += 4; *pt0 = d1; #else /* store the terms to visit */ if (pt0 < pt0_end) { to_visit[0] = pt0; to_visit[1] = pt0_end; to_visit[2] = pt1; to_visit += 3; } #endif d0 = ArityOfFunctor(f); pt0 = ap2; pt0_end = ap2 + d0; pt1 = ap3; continue; } } } } /* Do we still have compound terms to visit */ if (to_visit > (CELL **)H) { #ifdef RATIONAL_TREES to_visit -= 4; pt0 = to_visit[0]; pt0_end = to_visit[1]; pt1 = to_visit[2]; *pt0 = (CELL)to_visit[3]; #else to_visit -= 3; pt0 = to_visit[0]; pt0_end = to_visit[1]; pt1 = to_visit[2]; #endif goto loop; } done: /* failure */ #ifdef RATIONAL_TREES while (to_visit > (CELL **)H) { to_visit -= 4; pt0 = to_visit[0]; pt0_end = to_visit[1]; pt1 = to_visit[2]; *pt0 = (CELL)to_visit[3]; } #endif return(out); } inline static Int compare(register Term t1,register Term t2) /* compare terms t1 and t2 */ { Int r; t1 = Deref(t1); t2 = Deref(t2); if (t1 == t2) return (0); if (IsVarTerm(t1)) { if (IsVarTerm(t2)) return (Signed(t1) - Signed(t2)); return (-1); } else if (IsVarTerm(t2)) return (1); if (IsAtomTerm(t1)) { if (IsAtomTerm(t2)) return (strcmp( RepAtom(AtomOfTerm(t1))->StrOfAE, RepAtom(AtomOfTerm(t2))->StrOfAE )); if (IsPrimitiveTerm(t2)) return (1); return (-1); } if (IsIntTerm(t1)) { if (IsIntTerm(t2)) return (IntOfTerm(t1) - IntOfTerm(t2)); if (IsFloatTerm(t2)) { int out = rfloat(IntOfTerm(t1) - FloatOfTerm(t2)); if (out == 0) return(1); else return(out); } if (IsLongIntTerm(t2)) return(IntOfTerm(t1) - LongIntOfTerm(t2)); #ifdef USE_GMP if (IsBigIntTerm(t2)) return(-mpz_cmp_si(BigIntOfTerm(t2),IntOfTerm(t1))); #endif if (IsRefTerm(t2)) return (1); return (-1); } if (IsFloatTerm(t1)) { if (IsFloatTerm(t2)) return(rfloat(FloatOfTerm(t1) - FloatOfTerm(t2))); else if (IsIntTerm(t2)) { int out = rfloat(FloatOfTerm(t1) - IntOfTerm(t2)); if (out == 0) return(-1); else return(out); } else if (IsLongIntTerm(t2)) { int out = rfloat(FloatOfTerm(t1) - LongIntOfTerm(t2)); if (out == 0) return(-1); else return(out); #ifdef USE_GMP } else if (IsBigIntTerm(t2)) { Float out = FloatOfTerm(t2) - mpz_get_d(BigIntOfTerm(t1)); if (out <= 0.0) return (-1); return(1); #endif } else if (IsRefTerm(t2)) return (1); return (-1); } if (IsLongIntTerm(t1)) { if (IsIntTerm(t2)) return (LongIntOfTerm(t1) - IntOfTerm(t2)); if (IsFloatTerm(t2)) { int out = rfloat(LongIntOfTerm(t1) - FloatOfTerm(t2)); if (out == 0) return(1); else return(out); } if (IsLongIntTerm(t2)) return (LongIntOfTerm(t1) - LongIntOfTerm(t2)); #ifdef USE_GMP if (IsBigIntTerm(t2)) return(-mpz_cmp_si(BigIntOfTerm(t2), LongIntOfTerm(t1))); #endif if (IsRefTerm(t2)) return (1); return (-1); } #ifdef USE_GMP if (IsBigIntTerm(t1)) { if (IsIntTerm(t2)) return(mpz_cmp_si(BigIntOfTerm(t1), IntOfTerm(t2))); if (IsFloatTerm(t2)) { Float out = mpz_get_d(BigIntOfTerm(t1)) - FloatOfTerm(t2); if (out >= 0.0) return(1); else return(-1); } if (IsLongIntTerm(t2)) return(mpz_cmp_si(BigIntOfTerm(t1), LongIntOfTerm(t2))); if (IsBigIntTerm(t2)) return(mpz_cmp(BigIntOfTerm(t1), BigIntOfTerm(t2))); if (IsRefTerm(t2)) return(1); return(-1); } #endif if (IsPairTerm(t1)) { if (IsApplTerm(t2)) { Functor f = FunctorOfTerm(t2); if (IsExtensionFunctor(f)) return(1); else { int out; if (!(out = 2-ArityOfFunctor(f))) out = strcmp(".",RepAtom(NameOfFunctor(f))->StrOfAE); return(out); } } if (IsPairTerm(t2)) { return(compare_complex(RepPair(t1)-1, RepPair(t1)+1, RepPair(t2)-1)); } else return (1); } if (IsRefTerm(t1)) { if (IsRefTerm(t2)) return (Unsigned(RefOfTerm(t2)) - Unsigned(RefOfTerm(t1))); return (-1); } if (!IsApplTerm(t2)) return (1); /* compound term */ { Functor fun1 = FunctorOfTerm(t1); Functor fun2; fun2 = FunctorOfTerm(t2); if (IsExtensionFunctor(fun2)) return(1); r = ArityOfFunctor(fun1) - ArityOfFunctor(fun2); if (r) return (r); r = strcmp(RepAtom(NameOfFunctor(fun1))->StrOfAE, RepAtom(NameOfFunctor(fun2))->StrOfAE); if (r) return (r); else return(compare_complex(RepAppl(t1), RepAppl(t1)+ArityOfFunctor(fun1), RepAppl(t2))); } } int iequ(register CELL d0, register CELL d1) { return (compare(d0,d1) == 0); } int compare_terms(register CELL d0, register CELL d1) { return (compare(d0,d1)); } static Int p_compare(void) { /* compare(?Op,?T1,?T2) */ Int r = compare(ARG2, ARG3); Atom p; if (r < 0) p = AtomLT; else if (r > 0) p = AtomGT; else p = AtomEQ; return (unify_constant(ARG1, MkAtomTerm(p))); } inline static int int_cmp(Int dif) { if (dif < 0) return(unify_constant(ARG1,MkAtomTerm(AtomLT))); else if (dif > 0) return(unify_constant(ARG1,MkAtomTerm(AtomGT))); else return(unify_constant(ARG1,MkAtomTerm(AtomEQ))); } inline static int flt_cmp(Float dif) { if (dif < 0.0) return(unify_constant(ARG1,MkAtomTerm(AtomLT))); else if (dif > 0.0) return(unify_constant(ARG1,MkAtomTerm(AtomGT))); else return(unify_constant(ARG1,MkAtomTerm(AtomEQ))); } static Int p_acomp(void) { /* $a_compare(?R,+X,+Y) */ register blob_type bt1; Term t1 = Deref(ARG1); Term t2 = Deref(ARG2); union arith_ret v1; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, "=:=/2"); return(FALSE); } if (IsVarTerm(t2)) { Error(INSTANTIATION_ERROR, t2, "=:=/2"); return(FALSE); } if (IsIntegerTerm(t1) && IsIntegerTerm(t2)) { return(int_cmp(IntegerOfTerm(t1)-IntegerOfTerm(t2))); } if (IsFloatTerm(t1) && IsFloatTerm(t2)) { return(flt_cmp(FloatOfTerm(t1)-FloatOfTerm(t2))); } bt1 = Eval(t1, &v1); switch (bt1) { case long_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(int_cmp(v1.Int-v2.Int)); case double_e: return(flt_cmp(v1.Int-v2.dbl)); #ifdef USE_GMP case big_int_e: return(int_cmp(-mpz_cmp_si(v2.big,v1.Int))); #endif default: return(FALSE); } } case double_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(flt_cmp(v1.dbl-v2.Int)); case double_e: return(flt_cmp(v1.dbl-v2.dbl)); #ifdef USE_GMP case big_int_e: return(flt_cmp(v1.dbl-mpz_get_d(v2.big))); #endif default: return(FALSE); } } #ifdef USE_GMP case big_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(int_cmp(mpz_cmp_si(v1.big,v2.Int))); case double_e: return(flt_cmp(mpz_get_d(v1.big)-v2.dbl)); case big_int_e: return(int_cmp(mpz_cmp(v1.big,v2.big))); default: return(FALSE); } } #endif default: return(FALSE); } } static Int a_eq(Term t1, Term t2) { /* A =:= B */ blob_type bt1; union arith_ret v1; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, "=:=/2"); return(FALSE); } if (IsVarTerm(t2)) { Error(INSTANTIATION_ERROR, t2, "=:=/2"); return(FALSE); } if (IsIntegerTerm(t1) && IsIntegerTerm(t2)) return (IntegerOfTerm(t1) == IntegerOfTerm(t2)); if (IsFloatTerm(t1) && IsFloatTerm(t2)) return (FloatOfTerm(t1) == FloatOfTerm(t2)); bt1 = Eval(t1, &v1); switch (bt1) { case long_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.Int == v2.Int); case double_e: return(v1.Int == v2.dbl); #ifdef USE_GMP case big_int_e: return(-mpz_cmp_si(v2.big,v1.Int) == 0); #endif default: return(FALSE); } } case double_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.dbl == v2.Int); case double_e: return(v1.dbl == v2.dbl); #ifdef USE_GMP case big_int_e: return(v1.dbl == mpz_get_d(v2.big)); #endif default: return(FALSE); } } #ifdef USE_GMP case big_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(mpz_cmp_si(v1.big,v2.Int) == 0); case double_e: return(mpz_get_d(v1.big) == v2.dbl); case big_int_e: return(mpz_cmp(v1.big,v2.big) == 0); default: return(FALSE); } } #endif default: return(FALSE); } } static Int p_eq(void) { /* A =:= B */ return(a_eq(Deref(ARG1),Deref(ARG2))); } static Int a_dif(Term t1, Term t2) { /* A =\\= B */ blob_type bt1; union arith_ret v1; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, "=\\=/2"); return(FALSE); } if (IsVarTerm(t2)) { Error(INSTANTIATION_ERROR, t2, "=\\=/2"); return(FALSE); } if (IsIntegerTerm(t1) && IsIntegerTerm(t2)) return (IntegerOfTerm(t1) != IntegerOfTerm(t2)); if (IsFloatTerm(t1) && IsFloatTerm(t2)) return (FloatOfTerm(t1) != FloatOfTerm(t2)); bt1 = Eval(t1, &v1); switch (bt1) { case long_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.Int != v2.Int); case double_e: return(v1.Int != v2.dbl); #ifdef USE_GMP case big_int_e: return(-mpz_cmp_si(v2.big,v1.Int) != 0); #endif default: return(FALSE); } } case double_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.dbl != v2.Int); case double_e: return(v1.dbl != v2.dbl); #ifdef USE_GMP case big_int_e: return(v1.dbl != mpz_get_d(v2.big)); #endif default: return(FALSE); } } #ifdef USE_GMP case big_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(mpz_cmp_si(v1.big,v2.Int) != 0); case double_e: return(mpz_get_d(v1.big) != v2.dbl); case big_int_e: return(mpz_cmp(v1.big,v2.big) != 0); default: return(FALSE); } } #endif default: return(FALSE); } } static Int p_dif(void) { /* A =\\= B */ return(a_dif(Deref(ARG1),Deref(ARG2))); } static Int a_gt(Term t1, Term t2) { /* A > B */ blob_type bt1; union arith_ret v1; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, ">/2"); return(FALSE); } if (IsVarTerm(t2)) { Error(INSTANTIATION_ERROR, t2, ">/2"); return(FALSE); } if (IsIntegerTerm(t1) && IsIntegerTerm(t2)) return (IntegerOfTerm(t1) > IntegerOfTerm(t2)); if (IsFloatTerm(t1) && IsFloatTerm(t2)) return (FloatOfTerm(t1) > FloatOfTerm(t2)); bt1 = Eval(t1, &v1); switch (bt1) { case long_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.Int > v2.Int); case double_e: return(v1.Int > v2.dbl); #ifdef USE_GMP case big_int_e: return(-mpz_cmp_si(v2.big,v1.Int) > 0); #endif default: return(FALSE); } } case double_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.dbl > v2.Int); case double_e: return(v1.dbl > v2.dbl); #ifdef USE_GMP case big_int_e: return(v1.dbl > mpz_get_d(v2.big)); #endif default: return(FALSE); } } #ifdef USE_GMP case big_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(mpz_cmp_si(v1.big,v2.Int) > 0); case double_e: return(mpz_get_d(v1.big) > v2.dbl); case big_int_e: return(mpz_cmp(v1.big,v2.big) > 0); default: return(FALSE); } } #endif default: return(FALSE); } } static Int p_gt(void) { /* A > B */ return(a_gt(Deref(ARG1),Deref(ARG2))); } static Int a_ge(Term t1, Term t2) { /* A >= B */ blob_type bt1; union arith_ret v1; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, ">=/2"); return(FALSE); } if (IsVarTerm(t2)) { Error(INSTANTIATION_ERROR, t1, ">=/2"); return(FALSE); } if (IsIntegerTerm(t1) && IsIntegerTerm(t2)) return (IntegerOfTerm(t1) >= IntegerOfTerm(t2)); if (IsFloatTerm(t1) && IsFloatTerm(t2)) return (FloatOfTerm(t1) >= FloatOfTerm(t2)); bt1 = Eval(t1, &v1); switch (bt1) { case long_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.Int >= v2.Int); case double_e: return(v1.Int >= v2.dbl); #ifdef USE_GMP case big_int_e: return(-mpz_cmp_si(v2.big,v1.Int) >= 0); #endif default: return(FALSE); } } case double_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(v1.dbl >= v2.Int); case double_e: return(v1.dbl >= v2.dbl); #ifdef USE_GMP case big_int_e: return(v1.dbl >= mpz_get_d(v2.big)); #endif default: return(FALSE); } } #ifdef USE_GMP case big_int_e: { union arith_ret v2; blob_type bt2 = Eval(t2, &v2); switch (bt2) { case long_int_e: return(mpz_cmp_si(v1.big,v2.Int) >= 0); case double_e: return(mpz_get_d(v1.big) >= v2.dbl); case big_int_e: return(mpz_cmp(v1.big,v2.big) >= 0); default: return(FALSE); } } #endif default: return(FALSE); } } static Int p_ge(void) { /* A >= B */ return(a_ge(Deref(ARG1),Deref(ARG2))); } static Int a_lt(Term t1, Term t2) { /* A < B */ blob_type bt1; union arith_ret v1; if (IsVarTerm(t1)) { Error(INSTANTIATION_ERROR, t1, " 0); } static Int p_gen_ge(void) { return (compare(ARG1, ARG2) >= 0); } void InitCmpPreds(void) { InitCmpPred("=:=", 2, a_eq, p_eq, SafePredFlag | BinaryTestPredFlag); InitCmpPred("=\\=", 2, a_dif, p_dif, SafePredFlag | BinaryTestPredFlag); InitCmpPred(">", 2, a_gt, p_gt, SafePredFlag | BinaryTestPredFlag); InitCmpPred("=<", 2, a_le, p_le, SafePredFlag | BinaryTestPredFlag); InitCmpPred("<", 2, a_lt, p_lt, SafePredFlag | BinaryTestPredFlag); InitCmpPred(">=", 2, a_ge, p_ge, SafePredFlag | BinaryTestPredFlag); InitCPred("$a_compare", 3, p_acomp, TestPredFlag | SafePredFlag); InitCPred("\\==", 2, p_noteq, TestPredFlag | SafePredFlag); InitCPred("@<", 2, p_gen_lt, TestPredFlag | SafePredFlag); InitCPred("@=<", 2, p_gen_le, TestPredFlag | SafePredFlag); InitCPred("@>", 2, p_gen_gt, TestPredFlag | SafePredFlag); InitCPred("@>=", 2, p_gen_ge, TestPredFlag | SafePredFlag); InitCPred("compare", 3, p_compare, TestPredFlag | SafePredFlag); }