sparc64/softfloat/qp.c

1.10  martin /* $NetBSD: qp.c,v 1.10 2013/02/15 09:24:05 martin Exp $ */
 1.4  petrov
 1.4  petrov /*-
 1.4  petrov  * Copyright (c) 2002, 2003 The NetBSD Foundation, Inc.
 1.4  petrov  * All rights reserved.
 1.4  petrov  *
 1.4  petrov  * Redistribution and use in source and binary forms, with or without
 1.4  petrov  * modification, are permitted provided that the following conditions
 1.4  petrov  * are met:
 1.4  petrov  * 1. Redistributions of source code must retain the above copyright
 1.4  petrov  *    notice, this list of conditions and the following disclaimer.
 1.4  petrov  * 2. Redistributions in binary form must reproduce the above copyright
 1.4  petrov  *    notice, this list of conditions and the following disclaimer in the
 1.4  petrov  *    documentation and/or other materials provided with the distribution.
 1.4  petrov  *
 1.4  petrov  * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS
 1.4  petrov  * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
 1.4  petrov  * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 1.4  petrov  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS
 1.4  petrov  * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 1.4  petrov  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 1.4  petrov  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 1.4  petrov  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 1.4  petrov  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 1.4  petrov  * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 1.4  petrov  * POSSIBILITY OF SUCH DAMAGE.
 1.4  petrov  */
 1.1     jmc
 1.1     jmc #include <sys/cdefs.h>
 1.1     jmc #include <memory.h>
 1.1     jmc
 1.1     jmc #include "milieu.h"
 1.1     jmc #include "softfloat.h"
 1.1     jmc
 1.1     jmc
 1.1     jmc void _Qp_add(float128 *c, float128 *a, float128 *b);
 1.4  petrov int  _Qp_cmp(float128 *a, float128 *b);
 1.4  petrov int  _Qp_cmpe(float128 *a, float128 *b);
 1.4  petrov void _Qp_div(float128 *c, float128 *a, float128 *b);
 1.4  petrov void _Qp_dtoq(float128 *c, double a);
 1.4  petrov int  _Qp_feq(float128 *a, float128 *b);
 1.4  petrov int  _Qp_fge(float128 *a, float128 *b);
 1.4  petrov int  _Qp_fgt(float128 *a, float128 *b);
 1.4  petrov int  _Qp_fle(float128 *a, float128 *b);
 1.4  petrov int  _Qp_flt(float128 *a, float128 *b);
 1.4  petrov int  _Qp_fne(float128 *a, float128 *b);
 1.4  petrov void _Qp_itoq(float128 *c, int a);
 1.4  petrov void _Qp_mul(float128 *c, float128 *a, float128 *b);
 1.4  petrov void _Qp_neg(float128 *c, float128 *a);
 1.4  petrov double _Qp_qtod(float128 *a);
 1.4  petrov int _Qp_qtoi(float128 *a);
 1.4  petrov float _Qp_qtos(float128 *a);
 1.4  petrov unsigned int _Qp_qtoui(float128 *a);
 1.4  petrov unsigned long _Qp_qtoux(float128 *a);
 1.4  petrov long _Qp_qtox(float128 *a);
 1.4  petrov void _Qp_sqrt(float128 *c, float128 *a);
 1.4  petrov void _Qp_stoq(float128 *c, float a);
 1.4  petrov void _Qp_sub(float128 *c, float128 *a, float128 *b);
 1.4  petrov void _Qp_uitoq(float128 *c, unsigned int a);
 1.4  petrov void _Qp_uxtoq(float128 *c, unsigned long a);
 1.4  petrov void _Qp_xtoq(float128 *c, long a);
 1.4  petrov
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_add(float128 *c, float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	 *c =  float128_add(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_cmp(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc
 1.1     jmc 	if (float128_eq(*a, *b))
 1.1     jmc 		return 0;
 1.1     jmc
 1.1     jmc 	if (float128_le(*a, *b))
 1.1     jmc 		return 1;
 1.1     jmc
 1.1     jmc 	return 2;
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.1     jmc /*
 1.1     jmc  * XXX
 1.1     jmc  */
 1.4  petrov int
 1.4  petrov _Qp_cmpe(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	return _Qp_cmp(a, b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_div(float128 *c, float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	*c = float128_div(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_dtoq(float128 *c, double a)
 1.1     jmc {
 1.2     jmc 	float64 _b;
 1.4  petrov
 1.2     jmc 	memcpy (&_b, &a, sizeof(float64));
 1.3     jmc 	*c = float64_to_float128(_b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_feq(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	return float128_eq(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_fge(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	return float128_le(*b, *a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_fgt(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	return float128_lt(*b, *a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_fle(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	return float128_le(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_flt(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	return float128_lt(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_fne(float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	return !float128_eq(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_itoq(float128 *c, int a)
 1.1     jmc {
 1.1     jmc 	*c = int32_to_float128(a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_mul(float128 *c, float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	*c = float128_mul(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.1     jmc /*
 1.4  petrov  * XXX need corresponding softfloat function
 1.1     jmc  */
 1.8  martin static float128 __sf128_zero = {0x4034000000000000, 0x00000000};
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_neg(float128 *c, float128 *a)
 1.1     jmc {
 1.8  martin 	*c = float128_sub(__sf128_zero, *a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov double
 1.4  petrov _Qp_qtod(float128 *a)
 1.1     jmc {
 1.1     jmc 	float64 _c;
 1.1     jmc 	double c;
 1.1     jmc
 1.1     jmc 	_c = float128_to_float64(*a);
 1.1     jmc
 1.1     jmc 	memcpy(&c, &_c, sizeof(double));
 1.1     jmc
 1.1     jmc 	return c;
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov int
 1.4  petrov _Qp_qtoi(float128 *a)
 1.1     jmc {
1.10  martin 	return float128_to_int32_round_to_zero(*a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov float
 1.4  petrov  _Qp_qtos(float128 *a)
 1.1     jmc {
 1.1     jmc 	float c;
 1.1     jmc 	float32 _c;
 1.1     jmc
 1.1     jmc 	_c = float128_to_float32(*a);
 1.1     jmc
 1.1     jmc 	memcpy(&c, &_c, sizeof(_c));
 1.1     jmc
 1.1     jmc 	return c;
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov unsigned int
 1.4  petrov _Qp_qtoui(float128 *a)
 1.1     jmc {
1.10  martin 	return (unsigned int)float128_to_int64_round_to_zero(*a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov unsigned long
 1.4  petrov _Qp_qtoux(float128 *a)
 1.1     jmc {
 1.6  martin 	return (unsigned long)float128_to_uint64_round_to_zero(*a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov long
 1.4  petrov _Qp_qtox(float128 *a)
 1.1     jmc {
 1.6  martin 	return (long)float128_to_int64_round_to_zero(*a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_sqrt(float128 *c, float128 *a)
 1.1     jmc {
 1.1     jmc 	*c = float128_sqrt(*a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_stoq(float128 *c, float a)
 1.1     jmc {
 1.1     jmc 	float32 _a;
 1.1     jmc
 1.1     jmc 	memcpy(&_a, &a, sizeof(a));
 1.1     jmc
 1.1     jmc 	*c = float32_to_float128(_a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_sub(float128 *c, float128 *a, float128 *b)
 1.1     jmc {
 1.1     jmc 	*c = float128_sub(*a, *b);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_uitoq(float128 *c, unsigned int a)
 1.1     jmc {
 1.4  petrov 	*c = int64_to_float128(a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_uxtoq(float128 *c, unsigned long a)
 1.4  petrov {
 1.1     jmc
 1.4  petrov 	if (a & 0x8000000000000000ULL) {
 1.4  petrov 		a = (a >> 1) | (a & 1);
 1.9  martin 		*c = int64_to_float128((long long)a);
 1.4  petrov 		*c = float128_add(*c, *c);
 1.4  petrov 	} else
 1.9  martin 		*c = int64_to_float128((long long)a);
 1.1     jmc }
 1.1     jmc
 1.1     jmc
 1.4  petrov void
 1.4  petrov _Qp_xtoq(float128 *c, long a)
 1.1     jmc {
 1.9  martin 	*c = int64_to_float128((long long)a);
 1.1     jmc }