fpu_explode.c revision 1.2.26.1
1 1.2.26.1 thorpej /* $NetBSD: fpu_explode.c,v 1.2.26.1 1999/06/21 00:50:28 thorpej Exp $ */ 2 1.1 briggs 3 1.1 briggs /* 4 1.1 briggs * Copyright (c) 1992, 1993 5 1.1 briggs * The Regents of the University of California. All rights reserved. 6 1.1 briggs * 7 1.1 briggs * This software was developed by the Computer Systems Engineering group 8 1.1 briggs * at Lawrence Berkeley Laboratory under DARPA contract BG 91-66 and 9 1.1 briggs * contributed to Berkeley. 10 1.1 briggs * 11 1.1 briggs * All advertising materials mentioning features or use of this software 12 1.1 briggs * must display the following acknowledgement: 13 1.1 briggs * This product includes software developed by the University of 14 1.1 briggs * California, Lawrence Berkeley Laboratory. 15 1.1 briggs * 16 1.1 briggs * Redistribution and use in source and binary forms, with or without 17 1.1 briggs * modification, are permitted provided that the following conditions 18 1.1 briggs * are met: 19 1.1 briggs * 1. Redistributions of source code must retain the above copyright 20 1.1 briggs * notice, this list of conditions and the following disclaimer. 21 1.1 briggs * 2. Redistributions in binary form must reproduce the above copyright 22 1.1 briggs * notice, this list of conditions and the following disclaimer in the 23 1.1 briggs * documentation and/or other materials provided with the distribution. 24 1.1 briggs * 3. All advertising materials mentioning features or use of this software 25 1.1 briggs * must display the following acknowledgement: 26 1.1 briggs * This product includes software developed by the University of 27 1.1 briggs * California, Berkeley and its contributors. 28 1.1 briggs * 4. Neither the name of the University nor the names of its contributors 29 1.1 briggs * may be used to endorse or promote products derived from this software 30 1.1 briggs * without specific prior written permission. 31 1.1 briggs * 32 1.1 briggs * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 33 1.1 briggs * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 34 1.1 briggs * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 35 1.1 briggs * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 36 1.1 briggs * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 37 1.1 briggs * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 38 1.1 briggs * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 39 1.1 briggs * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 40 1.1 briggs * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 41 1.1 briggs * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 42 1.1 briggs * SUCH DAMAGE. 43 1.1 briggs * 44 1.1 briggs * @(#)fpu_explode.c 8.1 (Berkeley) 6/11/93 45 1.1 briggs */ 46 1.1 briggs 47 1.1 briggs /* 48 1.1 briggs * FPU subroutines: `explode' the machine's `packed binary' format numbers 49 1.1 briggs * into our internal format. 50 1.1 briggs */ 51 1.1 briggs 52 1.1 briggs #include <sys/types.h> 53 1.2 briggs #include <sys/systm.h> 54 1.1 briggs 55 1.1 briggs #include "ieee.h" 56 1.1 briggs #include <machine/reg.h> 57 1.1 briggs 58 1.1 briggs #include "fpu_arith.h" 59 1.1 briggs #include "fpu_emulate.h" 60 1.1 briggs 61 1.1 briggs 62 1.1 briggs /* Conversion to internal format -- note asymmetry. */ 63 1.1 briggs static int fpu_itof __P((struct fpn *fp, u_int i)); 64 1.1 briggs static int fpu_stof __P((struct fpn *fp, u_int i)); 65 1.1 briggs static int fpu_dtof __P((struct fpn *fp, u_int i, u_int j)); 66 1.1 briggs static int fpu_xtof __P((struct fpn *fp, u_int i, u_int j, u_int k)); 67 1.1 briggs 68 1.1 briggs /* 69 1.1 briggs * N.B.: in all of the following, we assume the FP format is 70 1.1 briggs * 71 1.1 briggs * --------------------------- 72 1.1 briggs * | s | exponent | fraction | 73 1.1 briggs * --------------------------- 74 1.1 briggs * 75 1.1 briggs * (which represents -1**s * 1.fraction * 2**exponent), so that the 76 1.1 briggs * sign bit is way at the top (bit 31), the exponent is next, and 77 1.1 briggs * then the remaining bits mark the fraction. A zero exponent means 78 1.1 briggs * zero or denormalized (0.fraction rather than 1.fraction), and the 79 1.1 briggs * maximum possible exponent, 2bias+1, signals inf (fraction==0) or NaN. 80 1.1 briggs * 81 1.1 briggs * Since the sign bit is always the topmost bit---this holds even for 82 1.1 briggs * integers---we set that outside all the *tof functions. Each function 83 1.1 briggs * returns the class code for the new number (but note that we use 84 1.1 briggs * FPC_QNAN for all NaNs; fpu_explode will fix this if appropriate). 85 1.1 briggs */ 86 1.1 briggs 87 1.1 briggs /* 88 1.1 briggs * int -> fpn. 89 1.1 briggs */ 90 1.1 briggs static int 91 1.1 briggs fpu_itof(fp, i) 92 1.1 briggs register struct fpn *fp; 93 1.1 briggs register u_int i; 94 1.1 briggs { 95 1.1 briggs 96 1.1 briggs if (i == 0) 97 1.1 briggs return (FPC_ZERO); 98 1.1 briggs /* 99 1.1 briggs * The value FP_1 represents 2^FP_LG, so set the exponent 100 1.1 briggs * there and let normalization fix it up. Convert negative 101 1.1 briggs * numbers to sign-and-magnitude. Note that this relies on 102 1.1 briggs * fpu_norm()'s handling of `supernormals'; see fpu_subr.c. 103 1.1 briggs */ 104 1.1 briggs fp->fp_exp = FP_LG; 105 1.1 briggs fp->fp_mant[0] = (int)i < 0 ? -i : i; 106 1.1 briggs fp->fp_mant[1] = 0; 107 1.1 briggs fp->fp_mant[2] = 0; 108 1.1 briggs fpu_norm(fp); 109 1.1 briggs return (FPC_NUM); 110 1.1 briggs } 111 1.1 briggs 112 1.1 briggs #define mask(nbits) ((1 << (nbits)) - 1) 113 1.1 briggs 114 1.1 briggs /* 115 1.1 briggs * All external floating formats convert to internal in the same manner, 116 1.1 briggs * as defined here. Note that only normals get an implied 1.0 inserted. 117 1.1 briggs */ 118 1.1 briggs #define FP_TOF(exp, expbias, allfrac, f0, f1, f2, f3) \ 119 1.1 briggs if (exp == 0) { \ 120 1.1 briggs if (allfrac == 0) \ 121 1.1 briggs return (FPC_ZERO); \ 122 1.1 briggs fp->fp_exp = 1 - expbias; \ 123 1.1 briggs fp->fp_mant[0] = f0; \ 124 1.1 briggs fp->fp_mant[1] = f1; \ 125 1.1 briggs fp->fp_mant[2] = f2; \ 126 1.1 briggs fpu_norm(fp); \ 127 1.1 briggs return (FPC_NUM); \ 128 1.1 briggs } \ 129 1.1 briggs if (exp == (2 * expbias + 1)) { \ 130 1.1 briggs if (allfrac == 0) \ 131 1.1 briggs return (FPC_INF); \ 132 1.1 briggs fp->fp_mant[0] = f0; \ 133 1.1 briggs fp->fp_mant[1] = f1; \ 134 1.1 briggs fp->fp_mant[2] = f2; \ 135 1.1 briggs return (FPC_QNAN); \ 136 1.1 briggs } \ 137 1.1 briggs fp->fp_exp = exp - expbias; \ 138 1.1 briggs fp->fp_mant[0] = FP_1 | f0; \ 139 1.1 briggs fp->fp_mant[1] = f1; \ 140 1.1 briggs fp->fp_mant[2] = f2; \ 141 1.1 briggs return (FPC_NUM) 142 1.1 briggs 143 1.1 briggs /* 144 1.1 briggs * 32-bit single precision -> fpn. 145 1.1 briggs * We assume a single occupies at most (64-FP_LG) bits in the internal 146 1.1 briggs * format: i.e., needs at most fp_mant[0] and fp_mant[1]. 147 1.1 briggs */ 148 1.1 briggs static int 149 1.1 briggs fpu_stof(fp, i) 150 1.1 briggs register struct fpn *fp; 151 1.1 briggs register u_int i; 152 1.1 briggs { 153 1.1 briggs register int exp; 154 1.1 briggs register u_int frac, f0, f1; 155 1.1 briggs #define SNG_SHIFT (SNG_FRACBITS - FP_LG) 156 1.1 briggs 157 1.1 briggs exp = (i >> (32 - 1 - SNG_EXPBITS)) & mask(SNG_EXPBITS); 158 1.1 briggs frac = i & mask(SNG_FRACBITS); 159 1.1 briggs f0 = frac >> SNG_SHIFT; 160 1.1 briggs f1 = frac << (32 - SNG_SHIFT); 161 1.1 briggs FP_TOF(exp, SNG_EXP_BIAS, frac, f0, f1, 0, 0); 162 1.1 briggs } 163 1.1 briggs 164 1.1 briggs /* 165 1.1 briggs * 64-bit double -> fpn. 166 1.1 briggs * We assume this uses at most (96-FP_LG) bits. 167 1.1 briggs */ 168 1.1 briggs static int 169 1.1 briggs fpu_dtof(fp, i, j) 170 1.1 briggs register struct fpn *fp; 171 1.1 briggs register u_int i, j; 172 1.1 briggs { 173 1.1 briggs register int exp; 174 1.1 briggs register u_int frac, f0, f1, f2; 175 1.1 briggs #define DBL_SHIFT (DBL_FRACBITS - 32 - FP_LG) 176 1.1 briggs 177 1.1 briggs exp = (i >> (32 - 1 - DBL_EXPBITS)) & mask(DBL_EXPBITS); 178 1.1 briggs frac = i & mask(DBL_FRACBITS - 32); 179 1.1 briggs f0 = frac >> DBL_SHIFT; 180 1.1 briggs f1 = (frac << (32 - DBL_SHIFT)) | (j >> DBL_SHIFT); 181 1.1 briggs f2 = j << (32 - DBL_SHIFT); 182 1.1 briggs frac |= j; 183 1.1 briggs FP_TOF(exp, DBL_EXP_BIAS, frac, f0, f1, f2, 0); 184 1.1 briggs } 185 1.1 briggs 186 1.1 briggs /* 187 1.1 briggs * 96-bit extended -> fpn. 188 1.1 briggs */ 189 1.1 briggs static int 190 1.1 briggs fpu_xtof(fp, i, j, k) 191 1.1 briggs register struct fpn *fp; 192 1.1 briggs register u_int i, j, k; 193 1.1 briggs { 194 1.1 briggs register int exp; 195 1.1 briggs register u_int frac, f0, f1, f2; 196 1.1 briggs #define EXT_SHIFT (EXT_FRACBITS - 1 - 32 - FP_LG) 197 1.1 briggs 198 1.1 briggs exp = (i >> (32 - 1 - EXT_EXPBITS)) & mask(EXT_EXPBITS); 199 1.1 briggs f0 = j >> EXT_SHIFT; 200 1.1 briggs f1 = (j << (32 - EXT_SHIFT)) | (k >> EXT_SHIFT); 201 1.1 briggs f2 = k << (32 - EXT_SHIFT); 202 1.1 briggs frac = j | k; 203 1.1 briggs 204 1.1 briggs /* m68k extended does not imply denormal by exp==0 */ 205 1.1 briggs if (exp == 0) { 206 1.1 briggs if (frac == 0) 207 1.1 briggs return (FPC_ZERO); 208 1.1 briggs fp->fp_exp = - EXT_EXP_BIAS; 209 1.1 briggs fp->fp_mant[0] = f0; 210 1.1 briggs fp->fp_mant[1] = f1; 211 1.1 briggs fp->fp_mant[2] = f2; 212 1.1 briggs fpu_norm(fp); 213 1.1 briggs return (FPC_NUM); 214 1.1 briggs } 215 1.1 briggs if (exp == (2 * EXT_EXP_BIAS + 1)) { 216 1.1 briggs if (frac == 0) 217 1.1 briggs return (FPC_INF); 218 1.1 briggs fp->fp_mant[0] = f0; 219 1.1 briggs fp->fp_mant[1] = f1; 220 1.1 briggs fp->fp_mant[2] = f2; 221 1.1 briggs return (FPC_QNAN); 222 1.1 briggs } 223 1.1 briggs fp->fp_exp = exp - EXT_EXP_BIAS; 224 1.1 briggs fp->fp_mant[0] = FP_1 | f0; 225 1.1 briggs fp->fp_mant[1] = f1; 226 1.1 briggs fp->fp_mant[2] = f2; 227 1.1 briggs return (FPC_NUM); 228 1.1 briggs } 229 1.1 briggs 230 1.1 briggs /* 231 1.1 briggs * Explode the contents of a memory operand. 232 1.1 briggs */ 233 1.1 briggs void 234 1.1 briggs fpu_explode(fe, fp, type, space) 235 1.1 briggs register struct fpemu *fe; 236 1.1 briggs register struct fpn *fp; 237 1.1 briggs int type; 238 1.1 briggs register u_int *space; 239 1.1 briggs { 240 1.1 briggs register u_int s; 241 1.1 briggs 242 1.1 briggs s = space[0]; 243 1.1 briggs fp->fp_sign = s >> 31; 244 1.1 briggs fp->fp_sticky = 0; 245 1.1 briggs switch (type) { 246 1.1 briggs 247 1.1 briggs case FTYPE_BYT: 248 1.1 briggs s >>= 8; 249 1.1 briggs case FTYPE_WRD: 250 1.1 briggs s >>= 16; 251 1.1 briggs case FTYPE_LNG: 252 1.1 briggs s = fpu_itof(fp, s); 253 1.1 briggs break; 254 1.1 briggs 255 1.1 briggs case FTYPE_SNG: 256 1.1 briggs s = fpu_stof(fp, s); 257 1.1 briggs break; 258 1.1 briggs 259 1.1 briggs case FTYPE_DBL: 260 1.1 briggs s = fpu_dtof(fp, s, space[1]); 261 1.1 briggs break; 262 1.1 briggs 263 1.1 briggs case FTYPE_EXT: 264 1.1 briggs s = fpu_xtof(fp, s, space[1], space[2]); 265 1.1 briggs break; 266 1.1 briggs 267 1.1 briggs default: 268 1.1 briggs panic("fpu_explode"); 269 1.1 briggs } 270 1.1 briggs if (s == FPC_QNAN && (fp->fp_mant[0] & FP_QUIETBIT) == 0) { 271 1.1 briggs /* 272 1.1 briggs * Input is a signalling NaN. All operations that return 273 1.1 briggs * an input NaN operand put it through a ``NaN conversion'', 274 1.1 briggs * which basically just means ``turn on the quiet bit''. 275 1.1 briggs * We do this here so that all NaNs internally look quiet 276 1.1 briggs * (we can tell signalling ones by their class). 277 1.1 briggs */ 278 1.1 briggs fp->fp_mant[0] |= FP_QUIETBIT; 279 1.1 briggs fe->fe_fpsr |= FPSR_SNAN; /* assert SNAN exception */ 280 1.1 briggs s = FPC_SNAN; 281 1.1 briggs } 282 1.1 briggs fp->fp_class = s; 283 1.1 briggs } 284
Indexes created Tue Oct 28 09:09:52 GMT 2025