1# Copyright (c) 2008 The Regents of The University of Michigan 2# All rights reserved. 3# 4# Redistribution and use in source and binary forms, with or without 5# modification, are permitted provided that the following conditions are 6# met: redistributions of source code must retain the above copyright 7# notice, this list of conditions and the following disclaimer; 8# redistributions in binary form must reproduce the above copyright 9# notice, this list of conditions and the following disclaimer in the 10# documentation and/or other materials provided with the distribution; 11# neither the name of the copyright holders nor the names of its 12# contributors may be used to endorse or promote products derived from 13# this software without specific prior written permission. 14# 15# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 16# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 17# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 18# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 19# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 20# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 21# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 25# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26# 27# Authors: Gabe Black 28 29# Copyright (c) 2007-2008 The Hewlett-Packard Development Company 30# All rights reserved. 31# 32# Redistribution and use of this software in source and binary forms, 33# with or without modification, are permitted provided that the 34# following conditions are met: 35# 36# The software must be used only for Non-Commercial Use which means any 37# use which is NOT directed to receiving any direct monetary 38# compensation for, or commercial advantage from such use. Illustrative 39# examples of non-commercial use are academic research, personal study, 40# teaching, education and corporate research & development. 41# Illustrative examples of commercial use are distributing products for 42# commercial advantage and providing services using the software for 43# commercial advantage. 44# 45# If you wish to use this software or functionality therein that may be 46# covered by patents for commercial use, please contact: 47# Director of Intellectual Property Licensing 48# Office of Strategy and Technology 49# Hewlett-Packard Company 50# 1501 Page Mill Road 51# Palo Alto, California 94304 52# 53# Redistributions of source code must retain the above copyright notice, 54# this list of conditions and the following disclaimer. Redistributions 55# in binary form must reproduce the above copyright notice, this list of 56# conditions and the following disclaimer in the documentation and/or 57# other materials provided with the distribution. Neither the name of 58# the COPYRIGHT HOLDER(s), HEWLETT-PACKARD COMPANY, nor the names of its 59# contributors may be used to endorse or promote products derived from 60# this software without specific prior written permission. No right of 61# sublicense is granted herewith. Derivatives of the software and 62# output created using the software may be prepared, but only for 63# Non-Commercial Uses. Derivatives of the software may be shared with 64# others provided: (i) the others agree to abide by the list of 65# conditions herein which includes the Non-Commercial Use restrictions; 66# and (ii) such Derivatives of the software include the above copyright 67# notice to acknowledge the contribution from this software where 68# applicable, this list of conditions and the disclaimer below. 69# 70# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 71# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 72# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 73# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 74# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 75# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 76# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 77# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 78# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 79# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 80# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 81# 82# Authors: Gabe Black 83 84microcode = ''' 85def macroop BSR_R_R { 86 # Determine if the input was zero, and also move it to a temp reg. 87 movi t1, t1, t0, dataSize=8 88 and t1, regm, regm, flags=(ZF,)
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89 bri t0, label("end"), flags=(CZF,)
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89 br label("end"), flags=(CZF,) |
90 91 # Zero out the result register 92 movi reg, reg, 0x0 93 94 # Bit 6 95 srli t3, t1, 32, dataSize=8, flags=(EZF,) 96 ori t4, reg, 0x20 97 mov reg, reg, t4, flags=(nCEZF,) 98 mov t1, t1, t3, flags=(nCEZF,) 99 100 # Bit 5 101 srli t3, t1, 16, dataSize=8, flags=(EZF,) 102 ori t4, reg, 0x10 103 mov reg, reg, t4, flags=(nCEZF,) 104 mov t1, t1, t3, flags=(nCEZF,) 105 106 # Bit 4 107 srli t3, t1, 8, dataSize=8, flags=(EZF,) 108 ori t4, reg, 0x8 109 mov reg, reg, t4, flags=(nCEZF,) 110 mov t1, t1, t3, flags=(nCEZF,) 111 112 # Bit 3 113 srli t3, t1, 4, dataSize=8, flags=(EZF,) 114 ori t4, reg, 0x4 115 mov reg, reg, t4, flags=(nCEZF,) 116 mov t1, t1, t3, flags=(nCEZF,) 117 118 # Bit 2 119 srli t3, t1, 2, dataSize=8, flags=(EZF,) 120 ori t4, reg, 0x2 121 mov reg, reg, t4, flags=(nCEZF,) 122 mov t1, t1, t3, flags=(nCEZF,) 123 124 # Bit 1 125 srli t3, t1, 1, dataSize=8, flags=(EZF,) 126 ori t4, reg, 0x1 127 mov reg, reg, t4, flags=(nCEZF,) 128 129end: 130 fault "NoFault" 131}; 132 133def macroop BSR_R_M { 134 135 movi t1, t1, t0, dataSize=8 136 ld t1, seg, sib, disp 137 138 # Determine if the input was zero, and also move it to a temp reg. 139 and t1, t1, t1, flags=(ZF,)
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140 bri t0, label("end"), flags=(CZF,)
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140 br label("end"), flags=(CZF,) |
141 142 # Zero out the result register 143 movi reg, reg, 0x0 144 145 # Bit 6 146 srli t3, t1, 32, dataSize=8, flags=(EZF,) 147 ori t4, reg, 0x20 148 mov reg, reg, t4, flags=(nCEZF,) 149 mov t1, t1, t3, flags=(nCEZF,) 150 151 # Bit 5 152 srli t3, t1, 16, dataSize=8, flags=(EZF,) 153 ori t4, reg, 0x10 154 mov reg, reg, t4, flags=(nCEZF,) 155 mov t1, t1, t3, flags=(nCEZF,) 156 157 # Bit 4 158 srli t3, t1, 8, dataSize=8, flags=(EZF,) 159 ori t4, reg, 0x8 160 mov reg, reg, t4, flags=(nCEZF,) 161 mov t1, t1, t3, flags=(nCEZF,) 162 163 # Bit 3 164 srli t3, t1, 4, dataSize=8, flags=(EZF,) 165 ori t4, reg, 0x4 166 mov reg, reg, t4, flags=(nCEZF,) 167 mov t1, t1, t3, flags=(nCEZF,) 168 169 # Bit 2 170 srli t3, t1, 2, dataSize=8, flags=(EZF,) 171 ori t4, reg, 0x2 172 mov reg, reg, t4, flags=(nCEZF,) 173 mov t1, t1, t3, flags=(nCEZF,) 174 175 # Bit 1 176 srli t3, t1, 1, dataSize=8, flags=(EZF,) 177 ori t4, reg, 0x1 178 mov reg, reg, t4, flags=(nCEZF,) 179 180end: 181 fault "NoFault" 182}; 183 184def macroop BSR_R_P { 185 186 rdip t7 187 movi t1, t1, t0, dataSize=8 188 ld t1, seg, riprel, disp 189 190 # Determine if the input was zero, and also move it to a temp reg. 191 and t1, t1, t1, flags=(ZF,)
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192 bri t0, label("end"), flags=(CZF,)
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192 br label("end"), flags=(CZF,) |
193 194 # Zero out the result register 195 movi reg, reg, 0x0 196 197 # Bit 6 198 srli t3, t1, 32, dataSize=8, flags=(EZF,) 199 ori t4, reg, 0x20 200 mov reg, reg, t4, flags=(nCEZF,) 201 mov t1, t1, t3, flags=(nCEZF,) 202 203 # Bit 5 204 srli t3, t1, 16, dataSize=8, flags=(EZF,) 205 ori t4, reg, 0x10 206 mov reg, reg, t4, flags=(nCEZF,) 207 mov t1, t1, t3, flags=(nCEZF,) 208 209 # Bit 4 210 srli t3, t1, 8, dataSize=8, flags=(EZF,) 211 ori t4, reg, 0x8 212 mov reg, reg, t4, flags=(nCEZF,) 213 mov t1, t1, t3, flags=(nCEZF,) 214 215 # Bit 3 216 srli t3, t1, 4, dataSize=8, flags=(EZF,) 217 ori t4, reg, 0x4 218 mov reg, reg, t4, flags=(nCEZF,) 219 mov t1, t1, t3, flags=(nCEZF,) 220 221 # Bit 2 222 srli t3, t1, 2, dataSize=8, flags=(EZF,) 223 ori t4, reg, 0x2 224 mov reg, reg, t4, flags=(nCEZF,) 225 mov t1, t1, t3, flags=(nCEZF,) 226 227 # Bit 1 228 srli t3, t1, 1, dataSize=8, flags=(EZF,) 229 ori t4, reg, 0x1 230 mov reg, reg, t4, flags=(nCEZF,) 231 232end: 233 fault "NoFault" 234}; 235 236def macroop BSF_R_R { 237 # Determine if the input was zero, and also move it to a temp reg. 238 mov t1, t1, t0, dataSize=8 239 and t1, regm, regm, flags=(ZF,)
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240 bri t0, label("end"), flags=(CZF,)
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240 br label("end"), flags=(CZF,) |
241 242 # Zero out the result register 243 movi reg, reg, 0 244 245 subi t2, t1, 1 246 xor t1, t2, t1 247 248 249 # Bit 6 250 srli t3, t1, 32, dataSize=8, flags=(EZF,) 251 ori t4, reg, 32 252 mov reg, reg, t4, flags=(nCEZF,) 253 mov t1, t1, t3, flags=(nCEZF,) 254 255 # Bit 5 256 srli t3, t1, 16, dataSize=8, flags=(EZF,) 257 ori t4, reg, 16 258 mov reg, reg, t4, flags=(nCEZF,) 259 mov t1, t1, t3, flags=(nCEZF,) 260 261 # Bit 4 262 srli t3, t1, 8, dataSize=8, flags=(EZF,) 263 ori t4, reg, 8 264 mov reg, reg, t4, flags=(nCEZF,) 265 mov t1, t1, t3, flags=(nCEZF,) 266 267 # Bit 3 268 srli t3, t1, 4, dataSize=8, flags=(EZF,) 269 ori t4, reg, 4 270 mov reg, reg, t4, flags=(nCEZF,) 271 mov t1, t1, t3, flags=(nCEZF,) 272 273 # Bit 2 274 srli t3, t1, 2, dataSize=8, flags=(EZF,) 275 ori t4, reg, 2 276 mov reg, reg, t4, flags=(nCEZF,) 277 mov t1, t1, t3, flags=(nCEZF,) 278 279 # Bit 1 280 srli t3, t1, 1, dataSize=8, flags=(EZF,) 281 ori t4, reg, 1 282 mov reg, reg, t4, flags=(nCEZF,) 283 284end: 285 fault "NoFault" 286}; 287 288def macroop BSF_R_M { 289 290 mov t1, t1, t0, dataSize=8 291 ld t1, seg, sib, disp 292 293 # Determine if the input was zero, and also move it to a temp reg. 294 and t1, t1, t1, flags=(ZF,)
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295 bri t0, label("end"), flags=(CZF,)
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295 br label("end"), flags=(CZF,) |
296 297 # Zero out the result register 298 mov reg, reg, t0 299 300 subi t2, t1, 1 301 xor t1, t2, t1 302 303 # Bit 6 304 srli t3, t1, 32, dataSize=8, flags=(EZF,) 305 ori t4, reg, 32 306 mov reg, reg, t4, flags=(nCEZF,) 307 mov t1, t1, t3, flags=(nCEZF,) 308 309 # Bit 5 310 srli t3, t1, 16, dataSize=8, flags=(EZF,) 311 ori t4, reg, 16 312 mov reg, reg, t4, flags=(nCEZF,) 313 mov t1, t1, t3, flags=(nCEZF,) 314 315 # Bit 4 316 srli t3, t1, 8, dataSize=8, flags=(EZF,) 317 ori t4, reg, 8 318 mov reg, reg, t4, flags=(nCEZF,) 319 mov t1, t1, t3, flags=(nCEZF,) 320 321 # Bit 3 322 srli t3, t1, 4, dataSize=8, flags=(EZF,) 323 ori t4, reg, 4 324 mov reg, reg, t4, flags=(nCEZF,) 325 mov t1, t1, t3, flags=(nCEZF,) 326 327 # Bit 2 328 srli t3, t1, 2, dataSize=8, flags=(EZF,) 329 ori t4, reg, 2 330 mov reg, reg, t4, flags=(nCEZF,) 331 mov t1, t1, t3, flags=(nCEZF,) 332 333 # Bit 1 334 srli t3, t1, 1, dataSize=8, flags=(EZF,) 335 ori t4, reg, 1 336 mov reg, reg, t4, flags=(nCEZF,) 337 mov t1, t1, t3, flags=(nCEZF,) 338 339end: 340 fault "NoFault" 341}; 342 343def macroop BSF_R_P { 344 345 rdip t7 346 mov t1, t1, t0, dataSize=8 347 ld t1, seg, riprel, disp 348 349 # Determine if the input was zero, and also move it to a temp reg. 350 and t1, t1, t1, flags=(ZF,)
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351 bri t0, label("end"), flags=(CZF,)
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351 br label("end"), flags=(CZF,) |
352 353 # Zero out the result register 354 mov reg, reg, t0 355 356 subi t2, t1, 1 357 xor t1, t2, t1 358 359 # Bit 6 360 srli t3, t1, 32, dataSize=8, flags=(EZF,) 361 ori t4, reg, 32 362 mov reg, reg, t4, flags=(nCEZF,) 363 mov t1, t1, t3, flags=(nCEZF,) 364 365 # Bit 5 366 srli t3, t1, 16, dataSize=8, flags=(EZF,) 367 ori t4, reg, 16 368 mov reg, reg, t4, flags=(nCEZF,) 369 mov t1, t1, t3, flags=(nCEZF,) 370 371 # Bit 4 372 srli t3, t1, 8, dataSize=8, flags=(EZF,) 373 ori t4, reg, 8 374 mov reg, reg, t4, flags=(nCEZF,) 375 mov t1, t1, t3, flags=(nCEZF,) 376 377 # Bit 3 378 srli t3, t1, 4, dataSize=8, flags=(EZF,) 379 ori t4, reg, 4 380 mov reg, reg, t4, flags=(nCEZF,) 381 mov t1, t1, t3, flags=(nCEZF,) 382 383 # Bit 2 384 srli t3, t1, 2, dataSize=8, flags=(EZF,) 385 ori t4, reg, 2 386 mov reg, reg, t4, flags=(nCEZF,) 387 mov t1, t1, t3, flags=(nCEZF,) 388 389 # Bit 1 390 srli t3, t1, 1, dataSize=8, flags=(EZF,) 391 ori t4, reg, 1 392 mov reg, reg, t4, flags=(nCEZF,) 393 mov t1, t1, t3, flags=(nCEZF,) 394 395end: 396 fault "NoFault" 397}; 398'''
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