--- /dev/null
+// -*- mode:c++ -*-
+
+// Copyright (c) 2010 ARM Limited
+// All rights reserved
+//
+// The license below extends only to copyright in the software and shall
+// not be construed as granting a license to any other intellectual
+// property including but not limited to intellectual property relating
+// to a hardware implementation of the functionality of the software
+// licensed hereunder. You may use the software subject to the license
+// terms below provided that you ensure that this notice is replicated
+// unmodified and in its entirety in all distributions of the software,
+// modified or unmodified, in source code or in binary form.
+//
+// Redistribution and use in source and binary forms, with or without
+// modification, are permitted provided that the following conditions are
+// met: redistributions of source code must retain the above copyright
+// notice, this list of conditions and the following disclaimer;
+// redistributions in binary form must reproduce the above copyright
+// notice, this list of conditions and the following disclaimer in the
+// documentation and/or other materials provided with the distribution;
+// neither the name of the copyright holders nor the names of its
+// contributors may be used to endorse or promote products derived from
+// this software without specific prior written permission.
+//
+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+//
+// Authors: Gabe Black
+
+let {{
+
+ header_output = ""
+ decoder_output = ""
+ exec_output = ""
+
+ calcQCode = '''
+ cprintf("canOverflow: %%d\\n", Reg0 < resTemp);
+ replaceBits(CondCodes, 27, Reg0 < resTemp);
+ '''
+
+ calcCcCode = '''
+ uint16_t _iz, _in;
+ _in = (resTemp >> %(negBit)d) & 1;
+ _iz = ((%(zType)s)resTemp == 0);
+
+ CondCodes = _in << 31 | _iz << 30 | (CondCodes & 0x3FFFFFFF);
+
+ DPRINTF(Arm, "(in, iz) = (%%d, %%d)\\n", _in, _iz);
+ '''
+
+ def buildMultInst(mnem, doCc, unCc, regs, code, flagType):
+ global header_output, decoder_output, exec_output
+ cCode = carryCode[flagType]
+ vCode = overflowCode[flagType]
+ zType = "uint32_t"
+ negBit = 31
+ if flagType == "llbit":
+ zType = "uint64_t"
+ negBit = 63
+ if flagType == "overflow":
+ ccCode = calcQCode
+ else:
+ ccCode = calcCcCode % {
+ "negBit": negBit,
+ "zType": zType
+ }
+
+ if not regs in (3, 4):
+ raise Exception, "Multiplication instructions with %d " + \
+ "registers are not implemented"
+
+ if regs == 3:
+ base = 'Mult3'
+ else:
+ base = 'Mult4'
+
+ Name = "New" + mnem.capitalize()
+
+ if unCc:
+ iop = InstObjParams(mnem, Name, base,
+ {"code" : code,
+ "predicate_test": predicateTest})
+ if doCc:
+ iopCc = InstObjParams(mnem + "s", Name + "Cc", base,
+ {"code" : code + ccCode,
+ "predicate_test": predicateTest})
+
+ if regs == 3:
+ declare = Mult3Declare
+ constructor = Mult3Constructor
+ else:
+ declare = Mult4Declare
+ constructor = Mult4Constructor
+
+ if unCc:
+ header_output += declare.subst(iop)
+ decoder_output += constructor.subst(iop)
+ exec_output += PredOpExecute.subst(iop)
+ if doCc:
+ header_output += declare.subst(iopCc)
+ decoder_output += constructor.subst(iopCc)
+ exec_output += PredOpExecute.subst(iopCc)
+
+ def buildMult3Inst(mnem, code, flagType = "logic"):
+ buildMultInst(mnem, True, True, 3, code, flagType)
+
+ def buildMult3InstCc(mnem, code, flagType = "logic"):
+ buildMultInst(mnem, True, False, 3, code, flagType)
+
+ def buildMult3InstUnCc(mnem, code, flagType = "logic"):
+ buildMultInst(mnem, False, True, 3, code, flagType)
+
+ def buildMult4Inst(mnem, code, flagType = "logic"):
+ buildMultInst(mnem, True, True, 4, code, flagType)
+
+ def buildMult4InstCc(mnem, code, flagType = "logic"):
+ buildMultInst(mnem, True, False, 4, code, flagType)
+
+ def buildMult4InstUnCc(mnem, code, flagType = "logic"):
+ buildMultInst(mnem, False, True, 4, code, flagType)
+
+ buildMult4Inst ("mla", "Reg0 = resTemp = Reg1 * Reg2 + Reg3;")
+ buildMult4InstUnCc("mls", "Reg0 = resTemp = Reg3 - Reg1 * Reg2;")
+ buildMult3Inst ("mul", "Reg0 = resTemp = Reg1 * Reg2;")
+ buildMult4InstCc ("smlabb", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 15, 0)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4InstCc ("smlabt", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 31, 16)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4InstCc ("smlatb", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 15, 0)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4InstCc ("smlatt", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 31, 16)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4InstCc ("smlad", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 31, 16)) +
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 15, 0)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4InstCc ("smladx", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 15, 0)) +
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 31, 16)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4Inst ("smlal", '''resTemp = sext<32>(Reg2) * sext<32>(Reg3) +
+ (int64_t)((Reg1.ud << 32) | Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''', "llbit")
+ buildMult4InstUnCc("smlalbb", '''resTemp = sext<16>(bits(Reg2, 15, 0)) *
+ sext<16>(bits(Reg3, 15, 0)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstUnCc("smlalbt", '''resTemp = sext<16>(bits(Reg2, 15, 0)) *
+ sext<16>(bits(Reg3, 31, 16)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstUnCc("smlaltb", '''resTemp = sext<16>(bits(Reg2, 31, 16)) *
+ sext<16>(bits(Reg3, 15, 0)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstUnCc("smlaltt", '''resTemp = sext<16>(bits(Reg2, 31, 16)) *
+ sext<16>(bits(Reg3, 31, 16)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstUnCc("smlald", '''resTemp =
+ sext<16>(bits(Reg2, 31, 16)) *
+ sext<16>(bits(Reg3, 31, 16)) +
+ sext<16>(bits(Reg2, 15, 0)) *
+ sext<16>(bits(Reg3, 15, 0)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstUnCc("smlaldx", '''resTemp =
+ sext<16>(bits(Reg2, 31, 16)) *
+ sext<16>(bits(Reg3, 15, 0)) +
+ sext<16>(bits(Reg2, 15, 0)) *
+ sext<16>(bits(Reg3, 31, 16)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstCc ("smlawb", '''Reg0 = resTemp =
+ (Reg1.sw *
+ sext<16>(bits(Reg2, 15, 0)) +
+ (Reg3.sw << 16)) >> 16;
+ ''', "overflow")
+ buildMult4InstCc ("smlawt", '''Reg0 = resTemp =
+ (Reg1.sw *
+ sext<16>(bits(Reg2, 31, 16)) +
+ (Reg3.sw << 16)) >> 16;
+ ''', "overflow")
+ buildMult4InstCc ("smlsd", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 15, 0)) -
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 31, 16)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4InstCc ("smlsdx", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 31, 16)) -
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 15, 0)) +
+ Reg3.sw;
+ ''', "overflow")
+ buildMult4InstUnCc("smlsld", '''resTemp =
+ sext<16>(bits(Reg2, 15, 0)) *
+ sext<16>(bits(Reg3, 15, 0)) -
+ sext<16>(bits(Reg2, 31, 16)) *
+ sext<16>(bits(Reg3, 31, 16)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstUnCc("smlsldx", '''resTemp =
+ sext<16>(bits(Reg2, 15, 0)) *
+ sext<16>(bits(Reg3, 31, 16)) -
+ sext<16>(bits(Reg2, 31, 16)) *
+ sext<16>(bits(Reg3, 15, 0)) +
+ (int64_t)((Reg1.ud << 32) |
+ Reg0.ud);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4InstUnCc("smmla", '''Reg0 = resTemp =
+ ((int64_t)(Reg3.ud << 32) +
+ Reg1.sw * Reg2.sw) >> 32;
+ ''')
+ buildMult4InstUnCc("smmlar", '''Reg0 = resTemp =
+ ((int64_t)(Reg3.ud << 32) +
+ Reg1.sw * Reg2.sw +
+ ULL(0x80000000)) >> 32;
+ ''')
+ buildMult4InstUnCc("smmls", '''Reg0 = resTemp =
+ ((int64_t)(Reg3.ud << 32) -
+ Reg1.sw * Reg2.sw) >> 32;
+ ''')
+ buildMult4InstUnCc("smmlsr", '''Reg0 = resTemp =
+ ((int64_t)(Reg3.ud << 32) -
+ Reg1.sw * Reg2.sw +
+ ULL(0x80000000)) >> 32;
+ ''')
+ buildMult3InstUnCc("smmul", '''Reg0 = resTemp =
+ ((int64_t)Reg1 *
+ (int64_t)Reg2) >> 32;
+ ''')
+ buildMult3InstUnCc("smmulr", '''Reg0 = resTemp =
+ ((int64_t)Reg1 *
+ (int64_t)Reg2 +
+ ULL(0x80000000)) >> 32;
+ ''')
+ buildMult3InstCc ("smuad", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 15, 0)) +
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 31, 16));
+ ''', "overflow")
+ buildMult3InstCc ("smuadx", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 31, 16)) +
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 15, 0));
+ ''', "overflow")
+ buildMult3InstUnCc("smulbb", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 15, 0));
+ ''')
+ buildMult3InstUnCc("smulbt", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 15, 0));
+ ''')
+ buildMult3InstUnCc("smultb", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 31, 16));
+ ''')
+ buildMult3InstUnCc("smultt", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 31, 16));
+ ''')
+ buildMult4Inst ("smull", '''resTemp = Reg2.sw * Reg3.sw;
+ Reg0 = (int32_t)resTemp;
+ Reg1 = (int32_t)(resTemp >> 32);
+ ''', "llbit")
+ buildMult3InstUnCc("smulwb", '''Reg0 = resTemp =
+ (Reg1.sw *
+ sext<16>(bits(Reg2, 15, 0))) >> 16;
+ ''')
+ buildMult3InstUnCc("smulwt", '''Reg0 = resTemp =
+ (Reg1.sw *
+ sext<16>(bits(Reg2, 31, 16))) >> 16;
+ ''')
+ buildMult3InstUnCc("smusd", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 15, 0)) -
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 31, 16));
+ ''')
+ buildMult3InstUnCc("smusdx", '''Reg0 = resTemp =
+ sext<16>(bits(Reg1, 15, 0)) *
+ sext<16>(bits(Reg2, 31, 16)) -
+ sext<16>(bits(Reg1, 31, 16)) *
+ sext<16>(bits(Reg2, 15, 0));
+ ''')
+ buildMult4InstUnCc("umaal", '''resTemp = Reg2.ud * Reg3.ud +
+ Reg0.ud + Reg1.ud;
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''')
+ buildMult4Inst ("umlal", '''resTemp = Reg2.ud * Reg3.ud + Reg0.ud +
+ (Reg1.ud << 32);
+ Reg0.ud = (uint32_t)resTemp;
+ Reg1.ud = (uint32_t)(resTemp >> 32);
+ ''', "llbit")
+ buildMult4Inst ("umull", '''resTemp = Reg2.ud * Reg3.ud;
+ Reg0 = (uint32_t)resTemp;
+ Reg1 = (uint32_t)(resTemp >> 32);
+ ''', "llbit")
+}};
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