WebSVN – HelenOS-historic – Blame – /uspace/trunk/softfloat/generic/mul.c

Rev	Author	Line No.	Line
731	cejka	1	/*
		2	* Copyright (C) 2005 Josef Cejka
		3	* All rights reserved.
		4	*
		5	* Redistribution and use in source and binary forms, with or without
		6	* modification, are permitted provided that the following conditions
		7	* are met:
		8	*
		9	* - Redistributions of source code must retain the above copyright
		10	* notice, this list of conditions and the following disclaimer.
		11	* - Redistributions in binary form must reproduce the above copyright
		12	* notice, this list of conditions and the following disclaimer in the
		13	* documentation and/or other materials provided with the distribution.
		14	* - The name of the author may not be used to endorse or promote products
		15	* derived from this software without specific prior written permission.
		16	*
		17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
		18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
		19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
		20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
		21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
		22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
		26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		27	*/
		28
1657	cejka	29	/** @addtogroup softfloat
		30	* @{
		31	*/
		32	/** @file
		33	*/
		34
731	cejka	35	#include<sftypes.h>
		36	#include<mul.h>
		37	#include<comparison.h>
829	cejka	38	#include<common.h>
731	cejka	39
		40	/** Multiply two 32 bit float numbers
		41	*
		42	*/
		43	float32 mulFloat32(float32 a, float32 b)
		44	{
		45	float32 result;
1031	cejka	46	uint64_t frac1, frac2;
		47	int32_t exp;
731	cejka	48
		49	result.parts.sign = a.parts.sign ^ b.parts.sign;
		50
737	cejka	51	if (isFloat32NaN(a) \|\| isFloat32NaN(b) ) {
731	cejka	52	/* TODO: fix SigNaNs */
		53	if (isFloat32SigNaN(a)) {
804	cejka	54	result.parts.fraction = a.parts.fraction;
731	cejka	55	result.parts.exp = a.parts.exp;
		56	return result;
		57	};
		58	if (isFloat32SigNaN(b)) { /* TODO: fix SigNaN */
804	cejka	59	result.parts.fraction = b.parts.fraction;
731	cejka	60	result.parts.exp = b.parts.exp;
		61	return result;
		62	};
		63	/* set NaN as result */
737	cejka	64	result.binary = FLOAT32_NAN;
731	cejka	65	return result;
		66	};
		67
		68	if (isFloat32Infinity(a)) {
		69	if (isFloat32Zero(b)) {
		70	/* FIXME: zero * infinity */
737	cejka	71	result.binary = FLOAT32_NAN;
731	cejka	72	return result;
		73	}
804	cejka	74	result.parts.fraction = a.parts.fraction;
731	cejka	75	result.parts.exp = a.parts.exp;
		76	return result;
		77	}
		78
		79	if (isFloat32Infinity(b)) {
		80	if (isFloat32Zero(a)) {
		81	/* FIXME: zero * infinity */
737	cejka	82	result.binary = FLOAT32_NAN;
731	cejka	83	return result;
		84	}
804	cejka	85	result.parts.fraction = b.parts.fraction;
731	cejka	86	result.parts.exp = b.parts.exp;
		87	return result;
		88	}
		89
		90	/* exp is signed so we can easy detect underflow */
		91	exp = a.parts.exp + b.parts.exp;
		92	exp -= FLOAT32_BIAS;
		93
737	cejka	94	if (exp >= FLOAT32_MAX_EXPONENT) {
731	cejka	95	/* FIXME: overflow */
		96	/* set infinity as result */
737	cejka	97	result.binary = FLOAT32_INF;
		98	result.parts.sign = a.parts.sign ^ b.parts.sign;
731	cejka	99	return result;
		100	};
		101
		102	if (exp < 0) {
		103	/* FIXME: underflow */
		104	/* return signed zero */
804	cejka	105	result.parts.fraction = 0x0;
731	cejka	106	result.parts.exp = 0x0;
		107	return result;
		108	};
		109
804	cejka	110	frac1 = a.parts.fraction;
737	cejka	111	if (a.parts.exp > 0) {
804	cejka	112	frac1 \|= FLOAT32_HIDDEN_BIT_MASK;
731	cejka	113	} else {
		114	++exp;
		115	};
		116
804	cejka	117	frac2 = b.parts.fraction;
737	cejka	118
		119	if (b.parts.exp > 0) {
804	cejka	120	frac2 \|= FLOAT32_HIDDEN_BIT_MASK;
731	cejka	121	} else {
		122	++exp;
		123	};
		124
804	cejka	125	frac1 <<= 1; /* one bit space for rounding */
731	cejka	126
804	cejka	127	frac1 = frac1 * frac2;
731	cejka	128	/* round and return */
		129
804	cejka	130	while ((exp < FLOAT32_MAX_EXPONENT) && (frac1 >= ( 1 << (FLOAT32_FRACTION_SIZE + 2)))) {
		131	/* 23 bits of fraction + one more for hidden bit (all shifted 1 bit left)*/
731	cejka	132	++exp;
804	cejka	133	frac1 >>= 1;
731	cejka	134	};
		135
		136	/* rounding */
804	cejka	137	/* ++frac1; FIXME: not works - without it is ok */
		138	frac1 >>= 1; /* shift off rounding space */
731	cejka	139
804	cejka	140	if ((exp < FLOAT32_MAX_EXPONENT) && (frac1 >= (1 << (FLOAT32_FRACTION_SIZE + 1)))) {
731	cejka	141	++exp;
804	cejka	142	frac1 >>= 1;
731	cejka	143	};
		144
737	cejka	145	if (exp >= FLOAT32_MAX_EXPONENT ) {
731	cejka	146	/* TODO: fix overflow */
		147	/* return infinity*/
737	cejka	148	result.parts.exp = FLOAT32_MAX_EXPONENT;
804	cejka	149	result.parts.fraction = 0x0;
731	cejka	150	return result;
		151	}
		152
804	cejka	153	exp -= FLOAT32_FRACTION_SIZE;
731	cejka	154
804	cejka	155	if (exp <= FLOAT32_FRACTION_SIZE) {
731	cejka	156	/* denormalized number */
804	cejka	157	frac1 >>= 1; /* denormalize */
		158	while ((frac1 > 0) && (exp < 0)) {
		159	frac1 >>= 1;
731	cejka	160	++exp;
		161	};
804	cejka	162	if (frac1 == 0) {
731	cejka	163	/* FIXME : underflow */
		164	result.parts.exp = 0;
804	cejka	165	result.parts.fraction = 0;
731	cejka	166	return result;
		167	};
		168	};
		169	result.parts.exp = exp;
804	cejka	170	result.parts.fraction = frac1 & ( (1 << FLOAT32_FRACTION_SIZE) - 1);
731	cejka	171
		172	return result;
		173
		174	}
		175
737	cejka	176	/** Multiply two 64 bit float numbers
		177	*
		178	*/
		179	float64 mulFloat64(float64 a, float64 b)
		180	{
		181	float64 result;
1031	cejka	182	uint64_t frac1, frac2;
		183	int32_t exp;
731	cejka	184
737	cejka	185	result.parts.sign = a.parts.sign ^ b.parts.sign;
		186
		187	if (isFloat64NaN(a) \|\| isFloat64NaN(b) ) {
		188	/* TODO: fix SigNaNs */
		189	if (isFloat64SigNaN(a)) {
804	cejka	190	result.parts.fraction = a.parts.fraction;
737	cejka	191	result.parts.exp = a.parts.exp;
		192	return result;
		193	};
		194	if (isFloat64SigNaN(b)) { /* TODO: fix SigNaN */
804	cejka	195	result.parts.fraction = b.parts.fraction;
737	cejka	196	result.parts.exp = b.parts.exp;
		197	return result;
		198	};
		199	/* set NaN as result */
		200	result.binary = FLOAT64_NAN;
		201	return result;
		202	};
		203
		204	if (isFloat64Infinity(a)) {
		205	if (isFloat64Zero(b)) {
		206	/* FIXME: zero * infinity */
		207	result.binary = FLOAT64_NAN;
		208	return result;
		209	}
804	cejka	210	result.parts.fraction = a.parts.fraction;
737	cejka	211	result.parts.exp = a.parts.exp;
		212	return result;
		213	}
731	cejka	214
737	cejka	215	if (isFloat64Infinity(b)) {
		216	if (isFloat64Zero(a)) {
		217	/* FIXME: zero * infinity */
		218	result.binary = FLOAT64_NAN;
		219	return result;
		220	}
804	cejka	221	result.parts.fraction = b.parts.fraction;
737	cejka	222	result.parts.exp = b.parts.exp;
		223	return result;
		224	}
		225
		226	/* exp is signed so we can easy detect underflow */
829	cejka	227	exp = a.parts.exp + b.parts.exp - FLOAT64_BIAS;
737	cejka	228
804	cejka	229	frac1 = a.parts.fraction;
829	cejka	230
737	cejka	231	if (a.parts.exp > 0) {
804	cejka	232	frac1 \|= FLOAT64_HIDDEN_BIT_MASK;
737	cejka	233	} else {
		234	++exp;
		235	};
		236
804	cejka	237	frac2 = b.parts.fraction;
737	cejka	238
		239	if (b.parts.exp > 0) {
804	cejka	240	frac2 \|= FLOAT64_HIDDEN_BIT_MASK;
737	cejka	241	} else {
		242	++exp;
		243	};
		244
829	cejka	245	frac1 <<= (64 - FLOAT64_FRACTION_SIZE - 1);
		246	frac2 <<= (64 - FLOAT64_FRACTION_SIZE - 2);
737	cejka	247
804	cejka	248	mul64integers(frac1, frac2, &frac1, &frac2);
737	cejka	249
829	cejka	250	frac2 \|= (frac1 != 0);
		251	if (frac2 & (0x1ll << 62)) {
		252	frac2 <<= 1;
		253	exp--;
737	cejka	254	}
		255
829	cejka	256	result = finishFloat64(exp, frac2, result.parts.sign);
		257	return result;
737	cejka	258	}
		259
		260	/** Multiply two 64 bit numbers and return result in two parts
		261	* @param a first operand
		262	* @param b second operand
		263	* @param lo lower part from result
		264	* @param hi higher part of result
		265	*/
1031	cejka	266	void mul64integers(uint64_t a,uint64_t b, uint64_t lo, uint64_t hi)
737	cejka	267	{
1031	cejka	268	uint64_t low, high, middle1, middle2;
		269	uint32_t alow, blow;
829	cejka	270
737	cejka	271	alow = a & 0xFFFFFFFF;
		272	blow = b & 0xFFFFFFFF;
		273
828	cejka	274	a >>= 32;
		275	b >>= 32;
737	cejka	276
1031	cejka	277	low = ((uint64_t)alow) * blow;
737	cejka	278	middle1 = a * blow;
		279	middle2 = alow * b;
		280	high = a * b;
		281
		282	middle1 += middle2;
1031	cejka	283	high += (((uint64_t)(middle1 < middle2)) << 32) + (middle1 >> 32);
804	cejka	284	middle1 <<= 32;
737	cejka	285	low += middle1;
		286	high += (low < middle1);
		287	*lo = low;
		288	*hi = high;
828	cejka	289
737	cejka	290	return;
		291	}
		292
		293
1657	cejka	294
		295	/** @}
		296	*/
		297

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(root)/uspace/trunk/softfloat/generic/mul.c – Rev 1738