#define QUAD_PRECISION
#include "fp_lib.h"
#if defined(CRT_HAS_128BIT) && defined(CRT_LDBL_128BIT)
enum LE_RESULT {
LE_LESS = -1,
LE_EQUAL = 0,
LE_GREATER = 1,
LE_UNORDERED = 1
};
COMPILER_RT_ABI enum LE_RESULT __letf2(fp_t a, fp_t b) {
const srep_t aInt = toRep(a);
const srep_t bInt = toRep(b);
const rep_t aAbs = aInt & absMask;
const rep_t bAbs = bInt & absMask;
if (aAbs > infRep || bAbs > infRep) return LE_UNORDERED;
if ((aAbs | bAbs) == 0) return LE_EQUAL;
if ((aInt & bInt) >= 0) {
if (aInt < bInt) return LE_LESS;
else if (aInt == bInt) return LE_EQUAL;
else return LE_GREATER;
}
else {
if (aInt > bInt) return LE_LESS;
else if (aInt == bInt) return LE_EQUAL;
else return LE_GREATER;
}
}
enum GE_RESULT {
GE_LESS = -1,
GE_EQUAL = 0,
GE_GREATER = 1,
GE_UNORDERED = -1 };
COMPILER_RT_ABI enum GE_RESULT __getf2(fp_t a, fp_t b) {
const srep_t aInt = toRep(a);
const srep_t bInt = toRep(b);
const rep_t aAbs = aInt & absMask;
const rep_t bAbs = bInt & absMask;
if (aAbs > infRep || bAbs > infRep) return GE_UNORDERED;
if ((aAbs | bAbs) == 0) return GE_EQUAL;
if ((aInt & bInt) >= 0) {
if (aInt < bInt) return GE_LESS;
else if (aInt == bInt) return GE_EQUAL;
else return GE_GREATER;
} else {
if (aInt > bInt) return GE_LESS;
else if (aInt == bInt) return GE_EQUAL;
else return GE_GREATER;
}
}
COMPILER_RT_ABI int __unordtf2(fp_t a, fp_t b) {
const rep_t aAbs = toRep(a) & absMask;
const rep_t bAbs = toRep(b) & absMask;
return aAbs > infRep || bAbs > infRep;
}
COMPILER_RT_ABI enum LE_RESULT __eqtf2(fp_t a, fp_t b) {
return __letf2(a, b);
}
COMPILER_RT_ABI enum LE_RESULT __lttf2(fp_t a, fp_t b) {
return __letf2(a, b);
}
COMPILER_RT_ABI enum LE_RESULT __netf2(fp_t a, fp_t b) {
return __letf2(a, b);
}
COMPILER_RT_ABI enum GE_RESULT __gttf2(fp_t a, fp_t b) {
return __getf2(a, b);
}
#endif