libc/gdtoa/strtopdd.c

1.2  christos /* $NetBSD: strtopdd.c,v 1.2 2008/03/21 23:13:48 christos Exp $ */
1.1    kleink
1.1    kleink /****************************************************************
1.1    kleink
1.1    kleink The author of this software is David M. Gay.
1.1    kleink
1.1    kleink Copyright (C) 1998, 2000 by Lucent Technologies
1.1    kleink All Rights Reserved
1.1    kleink
1.1    kleink Permission to use, copy, modify, and distribute this software and
1.1    kleink its documentation for any purpose and without fee is hereby
1.1    kleink granted, provided that the above copyright notice appear in all
1.1    kleink copies and that both that the copyright notice and this
1.1    kleink permission notice and warranty disclaimer appear in supporting
1.1    kleink documentation, and that the name of Lucent or any of its entities
1.1    kleink not be used in advertising or publicity pertaining to
1.1    kleink distribution of the software without specific, written prior
1.1    kleink permission.
1.1    kleink
1.1    kleink LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
1.1    kleink INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS.
1.1    kleink IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY
1.1    kleink SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
1.1    kleink WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER
1.1    kleink IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
1.1    kleink ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
1.1    kleink THIS SOFTWARE.
1.1    kleink
1.1    kleink ****************************************************************/
1.1    kleink
1.1    kleink /* Please send bug reports to David M. Gay (dmg at acm dot org,
1.1    kleink  * with " at " changed at "@" and " dot " changed to ".").	*/
1.1    kleink
1.1    kleink #include "gdtoaimp.h"
1.1    kleink
1.1    kleink  int
1.1    kleink #ifdef KR_headers
1.1    kleink strtopdd(s, sp, dd) CONST char *s; char **sp; double *dd;
1.1    kleink #else
1.1    kleink strtopdd(CONST char *s, char **sp, double *dd)
1.1    kleink #endif
1.1    kleink {
1.1    kleink #ifdef Sudden_Underflow
1.1    kleink 	static FPI fpi = { 106, 1-1023, 2046-1023-106+1, 1, 1 };
1.1    kleink #else
1.1    kleink 	static FPI fpi = { 106, 1-1023-53+1, 2046-1023-106+1, 1, 0 };
1.1    kleink #endif
1.1    kleink 	ULong bits[4];
1.1    kleink 	Long exp;
1.1    kleink 	int i, j, rv;
1.1    kleink 	typedef union {
1.1    kleink 		double d[2];
1.1    kleink 		ULong L[4];
1.1    kleink 		} U;
1.1    kleink 	U *u;
1.1    kleink
1.1    kleink 	rv = strtodg(s, sp, &fpi, &exp, bits);
1.2  christos 	if (rv == STRTOG_NoMemory)
1.2  christos 		return rv;
1.1    kleink 	u = (U*)dd;
1.1    kleink 	switch(rv & STRTOG_Retmask) {
1.1    kleink 	  case STRTOG_NoNumber:
1.1    kleink 	  case STRTOG_Zero:
1.1    kleink 		u->d[0] = u->d[1] = 0.;
1.1    kleink 		break;
1.1    kleink
1.1    kleink 	  case STRTOG_Normal:
1.1    kleink 		u->L[_1] = (bits[1] >> 21 | bits[2] << 11) & 0xffffffffL;
1.1    kleink 		u->L[_0] = bits[2] >> 21 | bits[3] << 11 & 0xfffff
1.1    kleink 			  | exp + 0x3ff + 105 << 20;
1.1    kleink 		exp += 0x3ff + 52;
1.1    kleink 		if (bits[1] &= 0x1fffff) {
1.1    kleink 			i = hi0bits(bits[1]) - 11;
1.1    kleink 			if (i >= exp) {
1.1    kleink 				i = exp - 1;
1.1    kleink 				exp = 0;
1.1    kleink 				}
1.1    kleink 			else
1.1    kleink 				exp -= i;
1.1    kleink 			if (i > 0) {
1.1    kleink 				bits[1] = bits[1] << i | bits[0] >> 32-i;
1.1    kleink 				bits[0] = bits[0] << i & 0xffffffffL;
1.1    kleink 				}
1.1    kleink 			}
1.1    kleink 		else if (bits[0]) {
1.1    kleink 			i = hi0bits(bits[0]) + 21;
1.1    kleink 			if (i >= exp) {
1.1    kleink 				i = exp - 1;
1.1    kleink 				exp = 0;
1.1    kleink 				}
1.1    kleink 			else
1.1    kleink 				exp -= i;
1.1    kleink 			if (i < 32) {
1.1    kleink 				bits[1] = bits[0] >> 32 - i;
1.1    kleink 				bits[0] = bits[0] << i & 0xffffffffL;
1.1    kleink 				}
1.1    kleink 			else {
1.1    kleink 				bits[1] = bits[0] << i - 32;
1.1    kleink 				bits[0] = 0;
1.1    kleink 				}
1.1    kleink 			}
1.1    kleink 		else {
1.1    kleink 			u->L[2] = u->L[3] = 0;
1.1    kleink 			break;
1.1    kleink 			}
1.1    kleink 		u->L[2+_1] = bits[0];
1.1    kleink 		u->L[2+_0] = bits[1] & 0xfffff | exp << 20;
1.1    kleink 		break;
1.1    kleink
1.1    kleink 	  case STRTOG_Denormal:
1.1    kleink 		if (bits[3])
1.1    kleink 			goto nearly_normal;
1.1    kleink 		if (bits[2])
1.1    kleink 			goto partly_normal;
1.1    kleink 		if (bits[1] & 0xffe00000)
1.1    kleink 			goto hardly_normal;
1.1    kleink 		/* completely denormal */
1.1    kleink 		u->L[2] = u->L[3] = 0;
1.1    kleink 		u->L[_1] = bits[0];
1.1    kleink 		u->L[_0] = bits[1];
1.1    kleink 		break;
1.1    kleink
1.1    kleink 	  nearly_normal:
1.1    kleink 		i = hi0bits(bits[3]) - 11;	/* i >= 12 */
1.1    kleink 		j = 32 - i;
1.1    kleink 		u->L[_0] = (bits[3] << i | bits[2] >> j) & 0xfffff
1.1    kleink 			| 65 - i << 20;
1.1    kleink 		u->L[_1] = (bits[2] << i | bits[1] >> j) & 0xffffffffL;
1.1    kleink 		u->L[2+_0] = bits[1] & (1L << j) - 1;
1.1    kleink 		u->L[2+_1] = bits[0];
1.1    kleink 		break;
1.1    kleink
1.1    kleink 	  partly_normal:
1.1    kleink 		i = hi0bits(bits[2]) - 11;
1.1    kleink 		if (i < 0) {
1.1    kleink 			j = -i;
1.1    kleink 			i += 32;
1.1    kleink 			u->L[_0] = bits[2] >> j & 0xfffff | (33 + j) << 20;
1.1    kleink 			u->L[_1] = (bits[2] << i | bits[1] >> j) & 0xffffffffL;
1.1    kleink 			u->L[2+_0] = bits[1] & (1L << j) - 1;
1.1    kleink 			u->L[2+_1] = bits[0];
1.1    kleink 			break;
1.1    kleink 			}
1.1    kleink 		if (i == 0) {
1.1    kleink 			u->L[_0] = bits[2] & 0xfffff | 33 << 20;
1.1    kleink 			u->L[_1] = bits[1];
1.1    kleink 			u->L[2+_0] = 0;
1.1    kleink 			u->L[2+_1] = bits[0];
1.1    kleink 			break;
1.1    kleink 			}
1.1    kleink 		j = 32 - i;
1.1    kleink 		u->L[_0] = (bits[2] << i | bits[1] >> j) & 0xfffff
1.1    kleink 				| j + 1 << 20;
1.1    kleink 		u->L[_1] = (bits[1] << i | bits[0] >> j) & 0xffffffffL;
1.1    kleink 		u->L[2+_0] = 0;
1.1    kleink 		u->L[2+_1] = bits[0] & (1L << j) - 1;
1.1    kleink 		break;
1.1    kleink
1.1    kleink 	  hardly_normal:
1.1    kleink 		j = 11 - hi0bits(bits[1]);
1.1    kleink 		i = 32 - j;
1.1    kleink 		u->L[_0] = bits[1] >> j & 0xfffff | j + 1 << 20;
1.1    kleink 		u->L[_1] = (bits[1] << i | bits[0] >> j) & 0xffffffffL;
1.1    kleink 		u->L[2+_0] = 0;
1.1    kleink 		u->L[2+_1] = bits[0] & (1L << j) - 1;
1.1    kleink 		break;
1.1    kleink
1.1    kleink 	  case STRTOG_Infinite:
1.1    kleink 		u->L[_0] = u->L[2+_0] = 0x7ff00000;
1.1    kleink 		u->L[_1] = u->L[2+_1] = 0;
1.1    kleink 		break;
1.1    kleink
1.1    kleink 	  case STRTOG_NaN:
1.1    kleink 		u->L[0] = u->L[2] = d_QNAN0;
1.1    kleink 		u->L[1] = u->L[3] = d_QNAN1;
1.1    kleink 	  }
1.1    kleink 	if (rv & STRTOG_Neg) {
1.1    kleink 		u->L[  _0] |= 0x80000000L;
1.1    kleink 		u->L[2+_0] |= 0x80000000L;
1.1    kleink 		}
1.1    kleink 	return rv;
1.1    kleink 	}