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gem5 / amd / gem5 / 76e7aec54256696dfdc9567c7ea325fb07c48ef1 / . / ext / fputils / fp80.c
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/*
* Copyright (c) 2013, Andreas Sandberg
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the following
* disclaimer in the documentation and/or other materials provided
* with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
* COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <fputils/fp80.h>
#include <fputils/fp64.h>
#include "fpbits.h"
#include <assert.h>
#include <stdint.h>
#include <stdio.h>
const fp80_t fp80_pinf = BUILD_FP80(0, 0, FP80_EXP_SPECIAL);
const fp80_t fp80_ninf = BUILD_FP80(1, 0, FP80_EXP_SPECIAL);
const fp80_t fp80_qnan = BUILD_FP80(0, FP80_FRAC_QNAN, FP80_EXP_SPECIAL);
const fp80_t fp80_qnani = BUILD_FP80(1, FP80_FRAC_QNANI, FP80_EXP_SPECIAL);
const fp80_t fp80_snan = BUILD_FP80(0, FP80_FRAC_SNAN, FP80_EXP_SPECIAL);
const fp80_t fp80_nan = BUILD_FP80(0, FP80_FRAC_QNAN, FP80_EXP_SPECIAL);
int
fp80_sgn(fp80_t fp80)
{
return (fp80.repr.se & FP80_SIGN_BIT) ? -1 : 1;
}
int
fp80_isspecial(fp80_t fp80)
{
const int exp = FP80_EXP(fp80);
return exp == FP80_EXP_SPECIAL;
}
int
fp80_isinf(fp80_t fp80)
{
const uint64_t frac = FP80_FRAC(fp80);
return fp80_isspecial(fp80) && frac == 0 ? fp80_sgn(fp80) : 0;
}
int
fp80_isqnan(fp80_t fp80)
{
const uint64_t frac = FP80_FRAC(fp80);
return fp80_isspecial(fp80) && (frac & FP80_QNAN_BIT);
}
int
fp80_isqnani(fp80_t fp80)
{
const uint64_t frac_low = fp80.repr.fi & (FP80_FRAC_MASK >> 1);
return fp80_isqnan(fp80) && (fp80.repr.se & FP80_SIGN_BIT) && !frac_low;
}
int
fp80_issnan(fp80_t fp80)
{
const uint64_t frac = FP80_FRAC(fp80);
return fp80_isspecial(fp80) && !(frac & FP80_QNAN_BIT) && frac;
}
int
fp80_isfinite(fp80_t fp80)
{
return !fp80_isnan(fp80) && !fp80_isinf(fp80);
}
int
fp80_isnan(fp80_t fp80)
{
return fp80_issnan(fp80) || fp80_isqnan(fp80) ? fp80_sgn(fp80) : 0;
}
int
fp80_iszero(fp80_t fp80)
{
return fp80.repr.fi == 0 && FP80_EXP(fp80) == 0 ? fp80_sgn(fp80) : 0;
}
int
fp80_isnormal(fp80_t fp80)
{
return FP80_EXP(fp80) != 0 && !fp80_isspecial(fp80) ?
fp80_sgn(fp80) : 0;
}
int
fp80_issubnormal(fp80_t fp80)
{
return FP80_FRAC(fp80) && FP80_EXP(fp80) == 0 ? fp80_sgn(fp80) : 0;
}
int
fp80_classify(fp80_t fp80)
{
if (fp80_issubnormal(fp80)) {
return FP_SUBNORMAL;
} else if (fp80_iszero(fp80)) {
return FP_ZERO;
} else if (fp80_isinf(fp80)) {
return FP_INFINITE;
} else if (fp80_isnan(fp80)) {
return FP_NAN;
} else {
assert(fp80_isfinite(fp80));
return FP_NORMAL;
}
}
double
fp80_cvtd(fp80_t fp80)
{
return fp80_cvtfp64(fp80).value;
}
fp64_t
fp80_cvtfp64(fp80_t fp80)
{
const int sign = fp80.repr.se & FP80_SIGN_BIT;
if (!fp80_isspecial(fp80)) {
const uint64_t frac = fp80.repr.fi;
const int unb_exp = FP80_EXP(fp80) - FP80_EXP_BIAS;
const int fp64_exp = unb_exp + FP64_EXP_BIAS;
const uint64_t fp64_frac = frac >> (FP80_FRAC_BITS - FP64_FRAC_BITS);
if (fp64_exp > 0 && fp64_exp < FP64_EXP_SPECIAL) {
/* These numbers fall in the range of what we can express
* as normals */
return build_fp64(sign, fp64_frac, fp64_exp);
} else if (fp64_exp <= 0) {
uint64_t fp64_denormal_frac = fp64_frac >> (-fp64_exp);
/* Generate a denormal or zero */
return build_fp64(sign, fp64_denormal_frac, 0);
} else {
/* Infinity */
return build_fp64(sign, 0, FP64_EXP_SPECIAL);
}
} else {
if (fp80_isinf(fp80)) {
return build_fp64(sign, 0, FP64_EXP_SPECIAL);
} else if (fp80_issnan(fp80)) {
return fp80_sgn(fp80) > 0 ? fp64_snan : fp64_nsnan;
} else if (fp80_isqnani(fp80)) {
return fp64_qnani;
} else {
assert(fp80_isqnan(fp80));
return fp80_sgn(fp80) > 0 ? fp64_qnan : fp64_nqnan;
}
}
}
fp80_t
fp80_cvfd(double value)
{
const fp64_t fp64 = { .value = value };
return fp80_cvffp64(fp64);
}
fp80_t
fp80_cvffp64(fp64_t fp64)
{
const uint64_t frac = FP64_FRAC(fp64);
const unsigned exp = FP64_EXP(fp64);
const int unb_exp = exp - FP64_EXP_BIAS;
const uint64_t fp80_frac = frac << (FP80_FRAC_BITS - FP64_FRAC_BITS);
if (exp != 0) {
// Normal, inf, nan
const unsigned fp80_exp = exp == FP64_EXP_SPECIAL ?
FP80_EXP_SPECIAL : (unb_exp + FP80_EXP_BIAS);
const fp80_t fp80 = BUILD_FP80(fp64.bits & FP64_SIGN_BIT,
fp80_frac, fp80_exp);
return fp80;
} else if (exp == 0 && frac == 0) {
// Zero
const fp80_t fp80 = BUILD_FP80(fp64.bits & FP64_SIGN_BIT, 0, 0);
return fp80;
} else {
// Denormal
uint64_t fp80_fi = fp80_frac;
int shift_amt = 0;
while (!(fp80_fi & FP80_INT_BIT)) {
fp80_fi <<= 1;
++shift_amt;
}
const unsigned fp80_exp = (unb_exp - shift_amt) + FP80_EXP_BIAS;
const fp80_t fp80 = BUILD_FP80(fp64.bits & FP64_SIGN_BIT,
fp80_fi, fp80_exp);
return fp80;
}
}
void
fp80_debug_dump(FILE *fout, fp80_t fp80)
{
fprintf(fout, "sgn: %i, int: %i, frac: 0x%llx, exp: 0x%x (%i)\n",
fp80_sgn(fp80), !!(fp80.repr.fi & FP80_INT_BIT), FP80_FRAC(fp80),
FP80_EXP(fp80), FP80_EXP(fp80) - FP80_EXP_BIAS);
}