fpu_fscale.c revision 1.9.8.2
1 1.9.8.2 he /* $NetBSD: fpu_fscale.c,v 1.9.8.2 2000/02/06 17:12:32 he Exp $ */ 2 1.1 briggs 3 1.1 briggs /* 4 1.1 briggs * Copyright (c) 1995 Ken Nakata 5 1.1 briggs * All rights reserved. 6 1.1 briggs * 7 1.1 briggs * Redistribution and use in source and binary forms, with or without 8 1.1 briggs * modification, are permitted provided that the following conditions 9 1.1 briggs * are met: 10 1.1 briggs * 1. Redistributions of source code must retain the above copyright 11 1.1 briggs * notice, this list of conditions and the following disclaimer. 12 1.1 briggs * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 briggs * notice, this list of conditions and the following disclaimer in the 14 1.1 briggs * documentation and/or other materials provided with the distribution. 15 1.1 briggs * 3. The name of the author may not be used to endorse or promote products 16 1.1 briggs * derived from this software without specific prior written permission. 17 1.1 briggs * 4. All advertising materials mentioning features or use of this software 18 1.1 briggs * must display the following acknowledgement: 19 1.1 briggs * This product includes software developed by Gordon Ross 20 1.1 briggs * 21 1.1 briggs * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 22 1.1 briggs * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 23 1.1 briggs * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 24 1.1 briggs * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 25 1.1 briggs * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 26 1.1 briggs * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 27 1.1 briggs * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 28 1.1 briggs * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 29 1.1 briggs * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 30 1.1 briggs * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 31 1.1 briggs */ 32 1.1 briggs 33 1.1 briggs /* 34 1.1 briggs * FSCALE - separated from the other type0 arithmetic instructions 35 1.1 briggs * for performance reason; maybe unnecessary, but FSCALE assumes 36 1.1 briggs * the source operand be an integer. It performs type conversion 37 1.1 briggs * only if the source operand is *not* an integer. 38 1.1 briggs */ 39 1.1 briggs 40 1.1 briggs #include <sys/types.h> 41 1.1 briggs #include <sys/signal.h> 42 1.3 briggs #include <sys/systm.h> 43 1.1 briggs #include <machine/frame.h> 44 1.1 briggs 45 1.1 briggs #include "fpu_emulate.h" 46 1.1 briggs 47 1.1 briggs int 48 1.1 briggs fpu_emul_fscale(fe, insn) 49 1.1 briggs struct fpemu *fe; 50 1.1 briggs struct instruction *insn; 51 1.1 briggs { 52 1.1 briggs struct frame *frame; 53 1.1 briggs u_int *fpregs; 54 1.1 briggs int word1, sig; 55 1.1 briggs int regnum, format; 56 1.1 briggs int scale, sign, exp; 57 1.1 briggs u_int m0, m1; 58 1.1 briggs u_int buf[3], fpsr; 59 1.1 briggs int flags; 60 1.1 briggs char regname; 61 1.1 briggs 62 1.4 leo scale = sig = 0; 63 1.1 briggs frame = fe->fe_frame; 64 1.1 briggs fpregs = &(fe->fe_fpframe->fpf_regs[0]); 65 1.1 briggs /* clear all exceptions and conditions */ 66 1.1 briggs fpsr = fe->fe_fpsr & ~FPSR_EXCP & ~FPSR_CCB; 67 1.9.8.2 he if (fpu_debug_level & DL_FSCALE) { 68 1.9.8.2 he printf(" fpu_emul_fscale: FPSR = %08x, FPCR = %08x\n", fpsr, fe->fe_fpcr); 69 1.9.8.2 he } 70 1.1 briggs 71 1.1 briggs word1 = insn->is_word1; 72 1.1 briggs format = (word1 >> 10) & 7; 73 1.1 briggs regnum = (word1 >> 7) & 7; 74 1.1 briggs 75 1.1 briggs fe->fe_fpcr &= FPCR_ROUND; 76 1.1 briggs fe->fe_fpcr |= FPCR_ZERO; 77 1.1 briggs 78 1.1 briggs /* get the source operand */ 79 1.1 briggs if ((word1 & 0x4000) == 0) { 80 1.9.8.2 he if (fpu_debug_level & DL_FSCALE) { 81 1.9.8.2 he printf(" fpu_emul_fscale: FP%d op FP%d => FP%d\n", 82 1.9.8.2 he format, regnum, regnum); 83 1.9.8.2 he } 84 1.1 briggs /* the operand is an FP reg */ 85 1.9.8.2 he if (fpu_debug_level & DL_FSCALE) { 86 1.9.8.2 he printf(" fpu_emul_scale: src opr FP%d=%08x%08x%08x\n", 87 1.9.8.2 he format, fpregs[format*3], fpregs[format*3+1], 88 1.9.8.2 he fpregs[format*3+2]); 89 1.9.8.2 he } 90 1.1 briggs fpu_explode(fe, &fe->fe_f2, FTYPE_EXT, &fpregs[format * 3]); 91 1.1 briggs fpu_implode(fe, &fe->fe_f2, FTYPE_LNG, buf); 92 1.7 is scale = buf[0]; 93 1.1 briggs } else { 94 1.1 briggs /* the operand is in memory */ 95 1.1 briggs if (format == FTYPE_DBL) { 96 1.1 briggs insn->is_datasize = 8; 97 1.1 briggs } else if (format == FTYPE_SNG || format == FTYPE_LNG) { 98 1.1 briggs insn->is_datasize = 4; 99 1.1 briggs } else if (format == FTYPE_WRD) { 100 1.1 briggs insn->is_datasize = 2; 101 1.1 briggs } else if (format == FTYPE_BYT) { 102 1.1 briggs insn->is_datasize = 1; 103 1.1 briggs } else if (format == FTYPE_EXT) { 104 1.1 briggs insn->is_datasize = 12; 105 1.1 briggs } else { 106 1.1 briggs /* invalid or unsupported operand format */ 107 1.1 briggs sig = SIGFPE; 108 1.1 briggs return sig; 109 1.1 briggs } 110 1.1 briggs 111 1.1 briggs /* Get effective address. (modreg=opcode&077) */ 112 1.9.8.2 he sig = fpu_decode_ea(frame, insn, &insn->is_ea0, insn->is_opcode); 113 1.1 briggs if (sig) { 114 1.9.8.2 he if (fpu_debug_level & DL_FSCALE) { 115 1.9.8.2 he printf(" fpu_emul_fscale: error in decode_ea\n"); 116 1.9.8.2 he } 117 1.1 briggs return sig; 118 1.1 briggs } 119 1.1 briggs 120 1.9.8.2 he if (fpu_debug_level & DL_FSCALE) { 121 1.9.8.2 he printf(" fpu_emul_fscale: addr mode = "); 122 1.9.8.2 he flags = insn->is_ea0.ea_flags; 123 1.9.8.2 he regname = (insn->is_ea0.ea_regnum & 8) ? 'a' : 'd'; 124 1.9.8.2 he 125 1.9.8.2 he if (flags & EA_DIRECT) { 126 1.9.8.2 he printf("%c%d\n", regname, insn->is_ea0.ea_regnum & 7); 127 1.9.8.2 he } else if (insn->is_ea0.ea_flags & EA_PREDECR) { 128 1.9.8.2 he printf("%c%d@-\n", regname, insn->is_ea0.ea_regnum & 7); 129 1.9.8.2 he } else if (insn->is_ea0.ea_flags & EA_POSTINCR) { 130 1.9.8.2 he printf("%c%d@+\n", regname, insn->is_ea0.ea_regnum & 7); 131 1.9.8.2 he } else if (insn->is_ea0.ea_flags & EA_OFFSET) { 132 1.9.8.2 he printf("%c%d@(%d)\n", regname, insn->is_ea0.ea_regnum & 7, 133 1.9.8.2 he insn->is_ea0.ea_offset); 134 1.9.8.2 he } else if (insn->is_ea0.ea_flags & EA_INDEXED) { 135 1.9.8.2 he printf("%c%d@(...)\n", regname, insn->is_ea0.ea_regnum & 7); 136 1.9.8.2 he } else if (insn->is_ea0.ea_flags & EA_ABS) { 137 1.9.8.2 he printf("0x%08x\n", insn->is_ea0.ea_absaddr); 138 1.9.8.2 he } else if (insn->is_ea0.ea_flags & EA_PC_REL) { 139 1.9.8.2 he printf("pc@(%d)\n", insn->is_ea0.ea_offset); 140 1.9.8.2 he } else if (flags & EA_IMMED) { 141 1.9.8.2 he printf("#0x%08x%08x%08x\n", 142 1.9.8.2 he insn->is_ea0.ea_immed[0], insn->is_ea0.ea_immed[1], 143 1.9.8.2 he insn->is_ea0.ea_immed[2]); 144 1.9.8.2 he } else { 145 1.9.8.2 he printf("%c%d@\n", regname, insn->is_ea0.ea_regnum & 7); 146 1.9.8.2 he } 147 1.1 briggs } 148 1.9.8.2 he fpu_load_ea(frame, insn, &insn->is_ea0, (char*)buf); 149 1.1 briggs 150 1.9.8.2 he if (fpu_debug_level & DL_FSCALE) { 151 1.9.8.2 he printf(" fpu_emul_fscale: src = %08x%08x%08x, siz = %d\n", 152 1.9.8.2 he buf[0], buf[1], buf[2], insn->is_datasize); 153 1.9.8.2 he } 154 1.1 briggs if (format == FTYPE_LNG) { 155 1.1 briggs /* nothing */ 156 1.7 is scale = buf[0]; 157 1.1 briggs } else if (format == FTYPE_WRD) { 158 1.1 briggs /* sign-extend */ 159 1.1 briggs scale = buf[0] & 0xffff; 160 1.1 briggs if (scale & 0x8000) { 161 1.1 briggs scale |= 0xffff0000; 162 1.1 briggs } 163 1.1 briggs } else if (format == FTYPE_BYT) { 164 1.1 briggs /* sign-extend */ 165 1.1 briggs scale = buf[0] & 0xff; 166 1.1 briggs if (scale & 0x80) { 167 1.1 briggs scale |= 0xffffff00; 168 1.1 briggs } 169 1.1 briggs } else if (format == FTYPE_DBL || format == FTYPE_SNG || 170 1.1 briggs format == FTYPE_EXT) { 171 1.1 briggs fpu_explode(fe, &fe->fe_f2, format, buf); 172 1.1 briggs fpu_implode(fe, &fe->fe_f2, FTYPE_LNG, buf); 173 1.7 is scale = buf[0]; 174 1.1 briggs } 175 1.1 briggs /* make it look like we've got an FP oprand */ 176 1.1 briggs fe->fe_f2.fp_class = (buf[0] == 0) ? FPC_ZERO : FPC_NUM; 177 1.1 briggs } 178 1.1 briggs 179 1.1 briggs /* assume there's no exception */ 180 1.1 briggs sig = 0; 181 1.1 briggs 182 1.1 briggs /* it's barbaric but we're going to operate directly on 183 1.1 briggs * the dst operand's bit pattern */ 184 1.1 briggs sign = fpregs[regnum * 3] & 0x80000000; 185 1.1 briggs exp = (fpregs[regnum * 3] & 0x7fff0000) >> 16; 186 1.1 briggs m0 = fpregs[regnum * 3 + 1]; 187 1.1 briggs m1 = fpregs[regnum * 3 + 2]; 188 1.1 briggs 189 1.1 briggs switch (fe->fe_f2.fp_class) { 190 1.1 briggs case FPC_SNAN: 191 1.1 briggs fpsr |= FPSR_SNAN; 192 1.1 briggs case FPC_QNAN: 193 1.1 briggs /* dst = NaN */ 194 1.1 briggs exp = 0x7fff; 195 1.1 briggs m0 = m1 = 0xffffffff; 196 1.1 briggs break; 197 1.1 briggs case FPC_ZERO: 198 1.1 briggs case FPC_NUM: 199 1.1 briggs if ((0 < exp && exp < 0x7fff) || 200 1.1 briggs (exp == 0 && (m0 | m1) != 0)) { 201 1.1 briggs /* normal or denormal */ 202 1.1 briggs exp += scale; 203 1.1 briggs if (exp < 0) { 204 1.1 briggs /* underflow */ 205 1.1 briggs u_int grs; /* guard, round and sticky */ 206 1.1 briggs 207 1.1 briggs exp = 0; 208 1.1 briggs grs = m1 << (32 + exp); 209 1.1 briggs m1 = m0 << (32 + exp) | m1 >> -exp; 210 1.1 briggs m0 >>= -exp; 211 1.1 briggs if (grs != 0) { 212 1.1 briggs fpsr |= FPSR_INEX2; 213 1.1 briggs 214 1.1 briggs switch (fe->fe_fpcr & 0x30) { 215 1.1 briggs case FPCR_MINF: 216 1.1 briggs if (sign != 0) { 217 1.1 briggs if (++m1 == 0 && 218 1.1 briggs ++m0 == 0) { 219 1.1 briggs m0 = 0x80000000; 220 1.1 briggs exp++; 221 1.1 briggs } 222 1.1 briggs } 223 1.1 briggs break; 224 1.1 briggs case FPCR_NEAR: 225 1.1 briggs if (grs == 0x80000000) { 226 1.1 briggs /* tie */ 227 1.1 briggs if ((m1 & 1) && 228 1.1 briggs ++m1 == 0 && 229 1.1 briggs ++m0 == 0) { 230 1.1 briggs m0 = 0x80000000; 231 1.1 briggs exp++; 232 1.1 briggs } 233 1.1 briggs } else if (grs & 0x80000000) { 234 1.1 briggs if (++m1 == 0 && 235 1.1 briggs ++m0 == 0) { 236 1.1 briggs m0 = 0x80000000; 237 1.1 briggs exp++; 238 1.1 briggs } 239 1.1 briggs } 240 1.1 briggs break; 241 1.1 briggs case FPCR_PINF: 242 1.1 briggs if (sign == 0) { 243 1.1 briggs if (++m1 == 0 && 244 1.1 briggs ++m0 == 0) { 245 1.1 briggs m0 = 0x80000000; 246 1.1 briggs exp++; 247 1.1 briggs } 248 1.1 briggs } 249 1.1 briggs break; 250 1.1 briggs case FPCR_ZERO: 251 1.1 briggs break; 252 1.1 briggs } 253 1.1 briggs } 254 1.1 briggs if (exp == 0 && (m0 & 0x80000000) == 0) { 255 1.1 briggs fpsr |= FPSR_UNFL; 256 1.1 briggs if ((m0 | m1) == 0) { 257 1.1 briggs fpsr |= FPSR_ZERO; 258 1.1 briggs } 259 1.1 briggs } 260 1.1 briggs } else if (exp >= 0x7fff) { 261 1.1 briggs /* overflow --> result = Inf */ 262 1.1 briggs /* but first, try to normalize in case it's an unnormalized */ 263 1.1 briggs while ((m0 & 0x80000000) == 0) { 264 1.1 briggs exp--; 265 1.1 briggs m0 = (m0 << 1) | (m1 >> 31); 266 1.1 briggs m1 = m1 << 1; 267 1.1 briggs } 268 1.1 briggs /* if it's still too large, then return Inf */ 269 1.1 briggs if (exp >= 0x7fff) { 270 1.1 briggs exp = 0x7fff; 271 1.1 briggs m0 = m1 = 0; 272 1.1 briggs fpsr |= FPSR_OVFL | FPSR_INF; 273 1.1 briggs } 274 1.1 briggs } else if ((m0 & 0x80000000) == 0) { 275 1.1 briggs /* 276 1.1 briggs * it's a denormal; we try to normalize but 277 1.1 briggs * result may and may not be a normal. 278 1.1 briggs */ 279 1.1 briggs while (exp > 0 && (m0 & 0x80000000) == 0) { 280 1.1 briggs exp--; 281 1.1 briggs m0 = (m0 << 1) | (m1 >> 31); 282 1.1 briggs m1 = m1 << 1; 283 1.1 briggs } 284 1.1 briggs if ((m0 & 0x80000000) == 0) { 285 1.1 briggs fpsr |= FPSR_UNFL; 286 1.1 briggs } 287 1.1 briggs } /* exp in range and mantissa normalized */ 288 1.1 briggs } else if (exp == 0 && m0 == 0 && m1 == 0) { 289 1.1 briggs /* dst is Zero */ 290 1.1 briggs fpsr |= FPSR_ZERO; 291 1.1 briggs } /* else we know exp == 0x7fff */ 292 1.1 briggs else if ((m0 | m1) == 0) { 293 1.1 briggs fpsr |= FPSR_INF; 294 1.1 briggs } else if ((m0 & 0x40000000) == 0) { 295 1.1 briggs /* a signaling NaN */ 296 1.1 briggs fpsr |= FPSR_NAN | FPSR_SNAN; 297 1.1 briggs } else { 298 1.1 briggs /* a quiet NaN */ 299 1.1 briggs fpsr |= FPSR_NAN; 300 1.1 briggs } 301 1.1 briggs break; 302 1.1 briggs case FPC_INF: 303 1.1 briggs /* dst = NaN */ 304 1.1 briggs exp = 0x7fff; 305 1.1 briggs m0 = m1 = 0xffffffff; 306 1.1 briggs fpsr |= FPSR_OPERR | FPSR_NAN; 307 1.1 briggs break; 308 1.1 briggs default: 309 1.1 briggs #ifdef DEBUG 310 1.9.8.2 he panic(" fpu_emul_fscale: invalid fp class"); 311 1.1 briggs #endif 312 1.1 briggs break; 313 1.1 briggs } 314 1.1 briggs 315 1.1 briggs /* store the result */ 316 1.1 briggs fpregs[regnum * 3] = sign | (exp << 16); 317 1.1 briggs fpregs[regnum * 3 + 1] = m0; 318 1.1 briggs fpregs[regnum * 3 + 2] = m1; 319 1.1 briggs 320 1.1 briggs if (sign) { 321 1.1 briggs fpsr |= FPSR_NEG; 322 1.1 briggs } 323 1.1 briggs 324 1.1 briggs /* update fpsr according to the result of operation */ 325 1.1 briggs fe->fe_fpframe->fpf_fpsr = fe->fe_fpsr = fpsr; 326 1.1 briggs 327 1.9.8.2 he if (fpu_debug_level & DL_FSCALE) { 328 1.9.8.2 he printf(" fpu_emul_fscale: FPSR = %08x, FPCR = %08x\n", 329 1.9.8.2 he fe->fe_fpsr, fe->fe_fpcr); 330 1.9.8.2 he } 331 1.1 briggs 332 1.1 briggs return (fpsr & fe->fe_fpcr & FPSR_EXCP) ? SIGFPE : sig; 333 1.1 briggs } 334
Indexes created Tue Oct 28 07:09:57 GMT 2025