data.isa revision 7185:13467caed8e1
1// -*- mode:c++ -*- 2 3// Copyright (c) 2010 ARM Limited 4// All rights reserved 5// 6// The license below extends only to copyright in the software and shall 7// not be construed as granting a license to any other intellectual 8// property including but not limited to intellectual property relating 9// to a hardware implementation of the functionality of the software 10// licensed hereunder. You may use the software subject to the license 11// terms below provided that you ensure that this notice is replicated 12// unmodified and in its entirety in all distributions of the software, 13// modified or unmodified, in source code or in binary form. 14// 15// Redistribution and use in source and binary forms, with or without 16// modification, are permitted provided that the following conditions are 17// met: redistributions of source code must retain the above copyright 18// notice, this list of conditions and the following disclaimer; 19// redistributions in binary form must reproduce the above copyright 20// notice, this list of conditions and the following disclaimer in the 21// documentation and/or other materials provided with the distribution; 22// neither the name of the copyright holders nor the names of its 23// contributors may be used to endorse or promote products derived from 24// this software without specific prior written permission. 25// 26// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 27// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 28// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 29// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 30// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 31// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 32// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 33// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 34// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 35// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 36// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 37// 38// Authors: Gabe Black 39 40let {{ 41 42 header_output = "" 43 decoder_output = "" 44 exec_output = "" 45 46 calcQCode = ''' 47 cprintf("canOverflow: %%d\\n", Dest < resTemp); 48 replaceBits(CondCodes, 27, Dest < resTemp); 49 ''' 50 51 calcCcCode = ''' 52 uint16_t _ic, _iv, _iz, _in; 53 _in = (resTemp >> %(negBit)d) & 1; 54 _iz = (resTemp == 0); 55 _iv = %(ivValue)s & 1; 56 _ic = %(icValue)s & 1; 57 58 CondCodes = _in << 31 | _iz << 30 | _ic << 29 | _iv << 28 | 59 (CondCodes & 0x0FFFFFFF); 60 61 DPRINTF(Arm, "(in, iz, ic, iv) = (%%d, %%d, %%d, %%d)\\n", 62 _in, _iz, _ic, _iv); 63 ''' 64 65 # Dict of code to set the carry flag. (imm, reg, reg-reg) 66 oldC = 'CondCodes<29:>' 67 oldV = 'CondCodes<28:>' 68 carryCode = { 69 "none": (oldC, oldC, oldC), 70 "llbit": (oldC, oldC, oldC), 71 "overflow": ('0', '0', '0'), 72 "add": ('findCarry(32, resTemp, Op1, secondOp)', 73 'findCarry(32, resTemp, Op1, secondOp)', 74 'findCarry(32, resTemp, Op1, secondOp)'), 75 "sub": ('findCarry(32, resTemp, Op1, ~secondOp)', 76 'findCarry(32, resTemp, Op1, ~secondOp)', 77 'findCarry(32, resTemp, Op1, ~secondOp)'), 78 "rsb": ('findCarry(32, resTemp, secondOp, ~Op1)', 79 'findCarry(32, resTemp, secondOp, ~Op1)', 80 'findCarry(32, resTemp, secondOp, ~Op1)'), 81 "logic": ('(rotC ? bits(secondOp, 31) : %s)' % oldC, 82 'shift_carry_imm(Op2, shiftAmt, shiftType, %s)' % oldC, 83 'shift_carry_rs(Op2, Shift<7:0>, shiftType, %s)' % oldC) 84 } 85 # Dict of code to set the overflow flag. 86 overflowCode = { 87 "none": oldV, 88 "llbit": oldV, 89 "overflow": '0', 90 "add": 'findOverflow(32, resTemp, Op1, secondOp)', 91 "sub": 'findOverflow(32, resTemp, Op1, ~secondOp)', 92 "rsb": 'findOverflow(32, resTemp, secondOp, ~Op1)', 93 "logic": oldV 94 } 95 96 secondOpRe = re.compile("secondOp") 97 immOp2 = "imm" 98 regOp2 = "shift_rm_imm(Op2, shiftAmt, shiftType, CondCodes<29:>)" 99 regRegOp2 = "shift_rm_rs(Op2, Shift<7:0>, shiftType, CondCodes<29:>)" 100 101 def buildImmDataInst(mnem, code, flagType = "logic"): 102 global header_output, decoder_output, exec_output 103 cCode = carryCode[flagType] 104 vCode = overflowCode[flagType] 105 negBit = 31 106 if flagType == "llbit": 107 negBit = 63 108 if flagType == "overflow": 109 immCcCode = calcQCode 110 else: 111 immCcCode = calcCcCode % { 112 "icValue": secondOpRe.sub(immOp2, cCode[0]), 113 "ivValue": secondOpRe.sub(immOp2, vCode), 114 "negBit": negBit 115 } 116 immCode = secondOpRe.sub(immOp2, code) 117 immIop = InstObjParams(mnem, mnem.capitalize() + "Imm", "DataImmOp", 118 {"code" : immCode, 119 "predicate_test": predicateTest}) 120 immIopCc = InstObjParams(mnem + "s", mnem.capitalize() + "ImmCc", 121 "DataImmOp", 122 {"code" : immCode + immCcCode, 123 "predicate_test": predicateTest}) 124 header_output += DataImmDeclare.subst(immIop) + \ 125 DataImmDeclare.subst(immIopCc) 126 decoder_output += DataImmConstructor.subst(immIop) + \ 127 DataImmConstructor.subst(immIopCc) 128 exec_output += PredOpExecute.subst(immIop) + \ 129 PredOpExecute.subst(immIopCc) 130 131 def buildRegDataInst(mnem, code, flagType = "logic"): 132 global header_output, decoder_output, exec_output 133 cCode = carryCode[flagType] 134 vCode = overflowCode[flagType] 135 negBit = 31 136 if flagType == "llbit": 137 negBit = 63 138 if flagType == "overflow": 139 regCcCode = calcQCode 140 else: 141 regCcCode = calcCcCode % { 142 "icValue": secondOpRe.sub(regOp2, cCode[1]), 143 "ivValue": secondOpRe.sub(regOp2, vCode), 144 "negBit": negBit 145 } 146 regCode = secondOpRe.sub(regOp2, code) 147 regIop = InstObjParams(mnem, mnem.capitalize() + "Reg", "DataRegOp", 148 {"code" : regCode, 149 "predicate_test": predicateTest}) 150 regIopCc = InstObjParams(mnem + "s", mnem.capitalize() + "RegCc", 151 "DataRegOp", 152 {"code" : regCode + regCcCode, 153 "predicate_test": predicateTest}) 154 header_output += DataRegDeclare.subst(regIop) + \ 155 DataRegDeclare.subst(regIopCc) 156 decoder_output += DataRegConstructor.subst(regIop) + \ 157 DataRegConstructor.subst(regIopCc) 158 exec_output += PredOpExecute.subst(regIop) + \ 159 PredOpExecute.subst(regIopCc) 160 161 def buildRegRegDataInst(mnem, code, flagType = "logic"): 162 global header_output, decoder_output, exec_output 163 cCode = carryCode[flagType] 164 vCode = overflowCode[flagType] 165 negBit = 31 166 if flagType == "llbit": 167 negBit = 63 168 if flagType == "overflow": 169 regRegCcCode = calcQCode 170 else: 171 regRegCcCode = calcCcCode % { 172 "icValue": secondOpRe.sub(regRegOp2, cCode[2]), 173 "ivValue": secondOpRe.sub(regRegOp2, vCode), 174 "negBit": negBit 175 } 176 regRegCode = secondOpRe.sub(regRegOp2, code) 177 regRegIop = InstObjParams(mnem, mnem.capitalize() + "RegReg", 178 "DataRegRegOp", 179 {"code" : regRegCode, 180 "predicate_test": predicateTest}) 181 regRegIopCc = InstObjParams(mnem + "s", 182 mnem.capitalize() + "RegRegCc", 183 "DataRegRegOp", 184 {"code" : regRegCode + regRegCcCode, 185 "predicate_test": predicateTest}) 186 header_output += DataRegRegDeclare.subst(regRegIop) + \ 187 DataRegRegDeclare.subst(regRegIopCc) 188 decoder_output += DataRegRegConstructor.subst(regRegIop) + \ 189 DataRegRegConstructor.subst(regRegIopCc) 190 exec_output += PredOpExecute.subst(regRegIop) + \ 191 PredOpExecute.subst(regRegIopCc) 192 193 def buildDataInst(mnem, code, flagType = "logic"): 194 buildImmDataInst(mnem, code, flagType) 195 buildRegDataInst(mnem, code, flagType) 196 buildRegRegDataInst(mnem, code, flagType) 197 198 buildDataInst("and", "AIWDest = resTemp = Op1 & secondOp;") 199 buildDataInst("eor", "AIWDest = resTemp = Op1 ^ secondOp;") 200 buildDataInst("sub", "AIWDest = resTemp = Op1 - secondOp;", "sub") 201 buildDataInst("rsb", "AIWDest = resTemp = secondOp - Op1;", "rsb") 202 buildDataInst("add", "AIWDest = resTemp = Op1 + secondOp;", "add") 203 buildImmDataInst("adr", ''' 204 AIWDest = resTemp = (readPC(xc) & ~0x3) + 205 (op1 ? secondOp : -secondOp); 206 ''') 207 buildDataInst("adc", "AIWDest = resTemp = Op1 + secondOp + %s;" % oldC, 208 "add") 209 buildDataInst("sbc", "AIWDest = resTemp = Op1 - secondOp - !%s;" % oldC, 210 "sub") 211 buildDataInst("rsc", "AIWDest = resTemp = secondOp - Op1 - !%s;" % oldC, 212 "rsb") 213 buildDataInst("tst", "resTemp = Op1 & secondOp;") 214 buildDataInst("teq", "resTemp = Op1 ^ secondOp;") 215 buildDataInst("cmp", "resTemp = Op1 - secondOp;", "sub") 216 buildDataInst("cmn", "resTemp = Op1 + secondOp;", "add") 217 buildDataInst("orr", "AIWDest = resTemp = Op1 | secondOp;") 218 buildDataInst("orn", "Dest = resTemp = Op1 | ~secondOp;") 219 buildImmDataInst("mov", "AIWDest = resTemp = secondOp;") 220 buildRegDataInst("mov", "AIWDest = resTemp = secondOp;") 221 buildRegRegDataInst("mov", "Dest = resTemp = secondOp;") 222 buildDataInst("bic", "AIWDest = resTemp = Op1 & ~secondOp;") 223 buildDataInst("mvn", "AIWDest = resTemp = ~secondOp;") 224 buildDataInst("movt", 225 "Dest = resTemp = insertBits(Op1, 31, 16, secondOp);") 226}}; 227