// Copyright (c) 2007 The Hewlett-Packard Development Company // Copyright (c) 2012-13 Mark D. Hill and David A. Wood // Copyright (c) 2015 Advanced Micro Devices, Inc. // // 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 // Nilay Vaish // Steve Reinhardt format WarnUnimpl { 0x1B: decode OPCODE_OP_BOTTOM3 { 0x0: decode MODRM_REG { 0x0: decode MODRM_MOD { 0x3: Inst::FADD1(Eq); // 32-bit memory operand default: Inst::FADD1(Md); } 0x1: decode MODRM_MOD { 0x3: Inst::FMUL1(Eq); default: Inst::FMUL1(Md); } 0x2: fcom(); 0x3: fcomp(); 0x4: decode MODRM_MOD { 0x3: Inst::FSUB1(Eq); default: Inst::FSUB1(Md); } 0x5: fsubr(); 0x6: decode MODRM_MOD { 0x3: Inst::FDIV1(Eq); default: Inst::FDIV1(Md); } 0x7: fdivr(); } 0x1: decode MODRM_REG { 0x0: decode MODRM_MOD { 0x3: Inst::FLD(Eq); // 32-bit load default: Inst::FLD(Md); } 0x1: decode MODRM_MOD { 0x3: Inst::FXCH(Eq); default: Inst::UD2(); } 0x2: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x0: fnop(); default: Inst::UD2(); } default: Inst::FST(Ed); } 0x3: decode MODRM_MOD { 0x3: Inst::UD2(); default: Inst::FSTP(Ed); } 0x4: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x0: Inst::FCHS(); 0x1: Inst::FABS(); 0x4: ftst(); 0x5: fxam(); default: Inst::UD2(); } default: Inst::FLDENV(M); } 0x5: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x0: Inst::FLD1(); 0x1: Inst::FLDL2T(); 0x2: Inst::FLDL2E(); 0x3: Inst::FLDPI(); 0x4: Inst::FLDLG2(); 0x5: Inst::FLDLN2(); 0x6: Inst::FLDZ(); } default: Inst::FLDCW(Mw); } 0x6: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x0: f2xm1(); 0x1: Inst::FYL2X(); 0x2: Inst::FPTAN(); 0x3: fpatan(); 0x4: fxtract(); 0x5: Inst::FPREM1(); 0x6: fdecstp(); 0x7: fincstp(); } default: Inst::FNSTENV(M); } 0x7: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x0: Inst::FPREM(); 0x1: fyl2xp1(); 0x2: fsqrt(); 0x3: Inst::FSINCOS(); 0x4: frndint(); 0x5: fscale(); 0x6: Inst::FSIN(); 0x7: Inst::FCOS(); } default: Inst::FNSTCW(Mw); } } //0x2: esc2(); 0x2: decode MODRM_REG { 0x0: decode MODRM_MOD { 0x3: fcmovb(); default: fiadd(); } 0x1: decode MODRM_MOD { 0x3: fcmove(); default: fimul(); } 0x2: decode MODRM_MOD { 0x3: fcmovbe(); default: ficom(); } 0x3: decode MODRM_MOD { 0x3: fcmovu(); default: ficomp(); } 0x4: decode MODRM_MOD { 0x3: Inst::UD2(); default: fisub(); } 0x5: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x1: fucompp(); default: Inst::UD2(); } default: fisubr(); } 0x6: decode MODRM_MOD { 0x3: Inst::UD2(); default: fidiv(); } 0x7: decode MODRM_MOD { 0x3: Inst::UD2(); default: fidivr(); } } //0x3: esc3(); 0x3: decode MODRM_REG { 0x0: decode MODRM_MOD { 0x3: fcmovnb(); default: Inst::FILD(Md); // 32-bit int } 0x1: decode MODRM_MOD { 0x3: fcmovne(); default: fisttp(); } 0x2: decode MODRM_MOD { 0x3: fcmovnbe(); default: fist(); } 0x3: decode MODRM_MOD { 0x3: fcmovnu(); default: fistp(); } 0x4: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x2: fnclex(); 0x3: fninit(); default: Inst::UD2(); } default: Inst::UD2(); } 0x5: decode MODRM_MOD { // 'R' insists on having a size qualifier, so I picked 'q', // but I don't think it has any effect 0x3: Inst::FUCOMI(Rq); // 80-bit load default: Inst::FLD80(M); } 0x6: decode MODRM_MOD { 0x3: fcomi(); default: Inst::UD2(); } 0x7: decode MODRM_MOD { 0x3: Inst::UD2(); default: Inst::FST80P(M); } } //0x4: esc4(); 0x4: decode MODRM_REG { 0x0: decode MODRM_MOD { 0x3: Inst::FADD2(Eq); default: Inst::FADD2(Mq); } 0x1: decode MODRM_MOD { 0x3: Inst::FMUL2(Eq); default: Inst::FMUL2(Mq); } 0x2: decode MODRM_MOD { 0x3: Inst::UD2(); default: fcom(); } 0x3: decode MODRM_MOD { 0x3: Inst::UD2(); default: fcomp(); } 0x4: decode MODRM_MOD { 0x3: fsubr(); default: Inst::FSUB2(Mq); } 0x5: decode MODRM_MOD { 0x3: Inst::FSUB2(Eq); default: fsubr(); } 0x6: decode MODRM_MOD { 0x3: fdivr(); default: Inst::FDIV2(Mq); } 0x7: decode MODRM_MOD { 0x3: Inst::FDIV2(Eq); default: fdivr(); } } //0x5: esc5(); 0x5: decode MODRM_REG { 0x0: decode MODRM_MOD { 0x3: ffree(); // 64-bit load default: Inst::FLD(Mq); } 0x1: decode MODRM_MOD { 0x3: Inst::UD2(); default: fisttp(); } 0x2: decode MODRM_MOD { 0x3: Inst::FST(Eq); default: Inst::FST(Mq); } 0x3: decode MODRM_MOD { 0x3: Inst::FSTP(Eq); default: Inst::FSTP(Mq); } 0x4: decode MODRM_MOD { 0x3: fucom(); default: frstor(); } 0x5: decode MODRM_MOD { 0x3: fucomp(); default: Inst::UD2(); } 0x6: decode MODRM_MOD { 0x3: Inst::UD2(); default: fnsave(); } 0x7: decode MODRM_MOD { 0x3: Inst::UD2(); default: Inst::FNSTSW(Mw); } } //0x6: esc6(); 0x6: decode MODRM_REG { 0x0: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x1: Inst::FADDP(); default: Inst::FADDP(Eq); } default: fiadd(); } 0x1: decode MODRM_MOD { 0x3: Inst::FMULP(Eq); default: fimul(); } 0x2: decode MODRM_MOD { 0x3: Inst::UD2(); default: ficom(); } 0x3: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x1: fcompp(); default: Inst::UD2(); } default: ficomp(); } 0x4: decode MODRM_MOD { 0x3: fsubrp(); default: fisub(); } 0x5: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x1: Inst::FSUBP(); default: Inst::FSUBP(Eq); } default: fisubr(); } 0x6: decode MODRM_MOD { 0x3: fdivrp(); default: fidiv(); } 0x7: decode MODRM_MOD { 0x3: Inst::FDIVP(Eq); default: fidivr(); } } //0x7: esc7(); 0x7: decode MODRM_REG { 0x0: decode MODRM_MOD { // The ffreep instruction isn't entirely real. It should work // the same as ffree but then also pop the register stack. 0x3: ffreep(); default: Inst::FILD(Mw); // 16-bit int } 0x1: decode MODRM_MOD { 0x3: Inst::UD2(); default: fisttp(); } 0x2: decode MODRM_MOD { 0x3: Inst::UD2(); default: fist(); } 0x3: decode MODRM_MOD { 0x3: Inst::UD2(); default: fistp(); } 0x4: decode MODRM_MOD { 0x3: decode MODRM_RM { 0x0: Inst::FNSTSW(rAw); default: Inst::UD2(); } default: fbld(); } 0x5: decode MODRM_MOD { // 'R' insists on having a size qualifier, so I picked 'q', // but I don't think it has any effect 0x3: Inst::FUCOMIP(Rq); default: Inst::FILD(Mq); // 64-bit int } 0x6: decode MODRM_MOD { 0x3: fcomip(); default: fbstp(); } 0x7: decode MODRM_MOD { 0x3: Inst::UD2(); default: fistp(); } } } }