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| static InstructionDefinition | amoswapw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amoswapw",(uint32_t) 0x800202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOSWAPW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";if((rd % 32ULL) !=0LL) { cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = (etiss_int32)(((etiss_int32)(mem_val_0)));\n";} cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = (etiss_int32)(*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL]);\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOSWAPW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amoswapw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amoaddw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amoaddw",(uint32_t) 0x00202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOADDW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_int32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = res1;\n";} cp.code()+="etiss_uint32 res2 = res1 + *((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOADDW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amoaddw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amoxorw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amoxorw",(uint32_t) 0x2000202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOXORW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_int32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = res1;\n";} cp.code()+="etiss_uint32 res2 = res1 ^ *((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOXORW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amoxorw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amoandw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amoandw",(uint32_t) 0x6000202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOANDW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_int32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = res1;\n";} cp.code()+="etiss_uint32 res2 = res1 & *((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOANDW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amoandw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amoorw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amoorw",(uint32_t) 0x4000202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOORW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_int32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = res1;\n";} cp.code()+="etiss_uint32 res2 = res1 | *((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOORW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amoorw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amominw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amominw",(uint32_t) 0x8000202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOMINW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_int32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = res1;\n";} cp.code()+="etiss_uint32 res2 = (res1 > (etiss_int32)(*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL])) ? (*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL]) : (res1);\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOMINW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amominw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amomaxw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amomaxw",(uint32_t) 0xa000202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOMAXW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_int32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = res1;\n";} cp.code()+="etiss_uint32 res2 = (res1 < (etiss_int32)(*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL])) ? (*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL]) : (res1);\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOMAXW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amomaxw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amominuw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amominuw",(uint32_t) 0xc000202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOMINUW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_uint32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = (etiss_int32)(res1);\n";} cp.code()+="etiss_uint32 res2 = (res1 > (etiss_uint32)(*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL])) ? (*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL]) : (res1);\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOMINUW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amominuw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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| static InstructionDefinition | amomaxuw_rd_rs1_rs2_rl_aq (ISA32_RV32IMACFD, "amomaxuw",(uint32_t) 0xe000202f,(uint32_t) 0xf800707f, [](BitArray &ba, etiss::CodeSet &cs, InstructionContext &ic) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;{ CodePart &cp=cs.append(CodePart::INITIALREQUIRED);cp.code()=std::string("//AMOMAXUW\n");{ cp.code()+="{ // block\n";cp.code()+="cpu->nextPc = "+std::to_string(ic.current_address_+4)+"ULL;\n";cp.code()+="} // block\n";} { cp.code()+="{ // block\n";cp.code()+="etiss_uint32 offs = *((RV32IMACFD*)cpu)->X["+std::to_string(rs1 % 32ULL)+"ULL];\n";cp.code()+="etiss_uint32 mem_val_0;\n";cp.code()+="cpu->exception |= (*(system->dread))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_0, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="etiss_uint32 res1 = mem_val_0;\n";if((rd % 32ULL) !=0LL) { cp.code()+="*((RV32IMACFD*)cpu)->X["+std::to_string(rd % 32ULL)+"ULL] = (etiss_int32)(res1);\n";} cp.code()+="etiss_uint32 res2 = (res1 < (etiss_uint32)(*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL])) ? (*((RV32IMACFD*)cpu)->X["+std::to_string(rs2 % 32ULL)+"ULL]) : (res1);\n";cp.code()+="etiss_uint32 mem_val_1;\n";cp.code()+="mem_val_1 = res2;\n";cp.code()+="cpu->exception |= (*(system->dwrite))(system->handle, cpu, offs, (etiss_uint8*)&mem_val_1, 4);\n";cp.code()+="if (cpu->exception) { // conditional\n";{ cp.code()+="{ // procedure\n";cp.code()+="RV32IMACFD_translate_exc_code(cpu, system, plugin_pointers, cpu->exception);\n";cp.code()+="goto instr_exit_"+std::to_string(ic.current_address_)+";\n";cp.code()+="} // procedure\n";} cp.code()+="} // conditional\n";cp.code()+="} // block\n";} cp.code()+="instr_exit_"+std::to_string(ic.current_address_)+":\n";cp.code()+="cpu->instructionPointer = cpu->nextPc;\n";cp.getAffectedRegisters().add("instructionPointer", 32);} { CodePart &cp=cs.append(CodePart::APPENDEDRETURNINGREQUIRED);cp.code()=std::string("//AMOMAXUW\n");cp.code()+="if (cpu->return_pending || cpu->exception) return cpu->exception;\n";} return true;}, 0, [](BitArray &ba, Instruction &instr) { etiss_uint8 rd=0;static BitArrayRange R_rd_0(11, 7);rd+=R_rd_0.read(ba)<< 0;etiss_uint8 rs1=0;static BitArrayRange R_rs1_0(19, 15);rs1+=R_rs1_0.read(ba)<< 0;etiss_uint8 rs2=0;static BitArrayRange R_rs2_0(24, 20);rs2+=R_rs2_0.read(ba)<< 0;etiss_uint8 rl=0;static BitArrayRange R_rl_0(25, 25);rl+=R_rl_0.read(ba)<< 0;etiss_uint8 aq=0;static BitArrayRange R_aq_0(26, 26);aq+=R_aq_0.read(ba)<< 0;std::stringstream ss;ss<< "amomaxuw"<< " # "<< ba<<(" [rd="+std::to_string(rd)+" | rs1="+std::to_string(rs1)+" | rs2="+std::to_string(rs2)+" | rl="+std::to_string(rl)+" | aq="+std::to_string(aq)+"]");return ss.str();}) |
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