RandomWOW/src/AssemblyGeneratorX86.cpp

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/*
Copyright (c) 2018 tevador
This file is part of RandomX.
RandomX is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
RandomX is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with RandomX. If not, see<http://www.gnu.org/licenses/>.
*/
//#define TRACE
#include "AssemblyGeneratorX86.hpp"
#include "Pcg32.hpp"
#include "common.hpp"
#include "instructions.hpp"
namespace RandomX {
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static const char* regR[8] = { "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15" };
static const char* regR32[8] = { "r8d", "r9d", "r10d", "r11d", "r12d", "r13d", "r14d", "r15d" };
static const char* regF[8] = { "xmm8", "xmm9", "xmm2", "xmm3", "xmm4", "xmm5", "xmm6", "xmm7" };
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static const char* regMx = "rdi";
static const char* regIc = "ebp";
static const char* regStackBeginAddr = "rbx";
static const char* regScratchpadAddr = "rsi";
void AssemblyGeneratorX86::generateProgram(const void* seed) {
asmCode.str(std::string()); //clear
Pcg32 gen(seed);
for (unsigned i = 0; i < sizeof(RegisterFile) / sizeof(Pcg32::result_type); ++i) {
gen();
}
Instruction instr;
for (unsigned i = 0; i < ProgramLength; ++i) {
for (unsigned j = 0; j < sizeof(instr) / sizeof(Pcg32::result_type); ++j) {
*(((uint32_t*)&instr) + j) = gen();
}
generateCode(instr, i);
asmCode << std::endl;
}
if(ProgramLength > 0)
asmCode << "\tjmp rx_i_0" << std::endl;
}
void AssemblyGeneratorX86::generateCode(Instruction& instr, int i) {
asmCode << "rx_i_" << i << ": ;" << instr.getName() << std::endl;
asmCode << "\tdec " << regIc << std::endl;
asmCode << "\tjz rx_finish" << std::endl;
auto generator = engine[instr.opcode];
(this->*generator)(instr, i);
}
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void AssemblyGeneratorX86::genar(Instruction& instr, int i) {
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asmCode << "\txor " << regR[instr.rega % RegistersCount] << ", 0" << std::hex << instr.addra << "h" << std::dec << std::endl;
asmCode << "\tmov ecx, " << regR32[instr.rega % RegistersCount] << std::endl;
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asmCode << "\ttest " << regIc << ", 63" << std::endl;
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asmCode << "\tjnz short rx_body_" << i << std::endl;
switch (instr.loca & 3)
{
case 0:
case 1:
case 2:
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asmCode << "\tcall rx_read_l1" << std::endl;
asmCode << "rx_body_" << i << ":" << std::endl;
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asmCode << "\txor " << regMx << ", rcx" << std::endl;
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asmCode << "\tand ecx, " << (ScratchpadL1 - 1) << std::endl;
break;
default: //3
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asmCode << "\tcall rx_read_l2" << std::endl;
asmCode << "rx_body_" << i << ":" << std::endl;
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asmCode << "\txor " << regMx << ", rcx" << std::endl;
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asmCode << "\tand ecx, " << (ScratchpadL2 - 1) << std::endl;
break;
}
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asmCode << "\tmov rax, qword ptr [" << regScratchpadAddr << "+rcx*8]" << std::endl;
}
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void AssemblyGeneratorX86::genaf(Instruction& instr, int i) {
asmCode << "\txor " << regR[instr.rega % RegistersCount] << ", 0" << std::hex << instr.addra << "h" << std::dec << std::endl;
asmCode << "\tmov ecx, " << regR32[instr.rega % RegistersCount] << std::endl;
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asmCode << "\ttest " << regIc << ", 63" << std::endl;
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asmCode << "\tjnz short rx_body_" << i << std::endl;
switch (instr.loca & 3)
{
case 0:
case 1:
case 2:
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asmCode << "\tcall rx_read_l1" << std::endl;
asmCode << "rx_body_" << i << ":" << std::endl;
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asmCode << "\txor " << regMx << ", rcx" << std::endl;
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asmCode << "\tand ecx, " << (ScratchpadL1 - 1) << std::endl;
break;
default: //3
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asmCode << "\tcall rx_read_l2" << std::endl;
asmCode << "rx_body_" << i << ":" << std::endl;
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asmCode << "\txor " << regMx << ", rcx" << std::endl;
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asmCode << "\tand ecx, " << (ScratchpadL2 - 1) << std::endl;
break;
}
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asmCode << "\tcvtdq2pd xmm0, qword ptr [" << regScratchpadAddr << "+rcx*8]" << std::endl;
}
void AssemblyGeneratorX86::genbr0(Instruction& instr, const char* instrx86) {
switch (instr.locb & 7)
{
case 0:
case 1:
case 2:
case 3:
asmCode << "\tmov rcx, " << regR[instr.regb % RegistersCount] << std::endl;
asmCode << "\t" << instrx86 << " rax, cl" << std::endl;
return;
default:
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asmCode << "\t" << instrx86 << " rax, " << (instr.imm8 & 63) << std::endl;;
return;
}
}
void AssemblyGeneratorX86::genbr1(Instruction& instr) {
switch (instr.locb & 7)
{
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
asmCode << regR[instr.regb % RegistersCount] << std::endl;
return;
default:
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asmCode << instr.imm32 << std::endl;;
return;
}
}
void AssemblyGeneratorX86::genbr132(Instruction& instr) {
switch (instr.locb & 7)
{
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
asmCode << regR32[instr.regb % RegistersCount] << std::endl;
return;
default:
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asmCode << instr.imm32 << std::endl;;
return;
}
}
void AssemblyGeneratorX86::genbf(Instruction& instr, const char* instrx86) {
asmCode << "\t" << instrx86 << " xmm0, " << regF[instr.regb % RegistersCount] << std::endl;
}
void AssemblyGeneratorX86::gencr(Instruction& instr) {
switch (instr.locc & 7)
{
case 0:
asmCode << "\tmov rcx, rax" << std::endl;
asmCode << "\tmov eax, " << regR32[instr.regc % RegistersCount] << std::endl;
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asmCode << "\txor eax, 0" << std::hex << instr.addrc << "h" << std::dec << std::endl;
asmCode << "\tand eax, " << (ScratchpadL2 - 1) << std::endl;
asmCode << "\tmov qword ptr [" << regScratchpadAddr << " + rax * 8], rcx" << std::endl;
if (trace) {
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asmCode << "\tmov qword ptr [" << regScratchpadAddr << " + " << regIc << " * 8 + 262136], rcx" << std::endl;
}
return;
case 1:
case 2:
case 3:
asmCode << "\tmov rcx, rax" << std::endl;
asmCode << "\tmov eax, " << regR32[instr.regc % RegistersCount] << std::endl;
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asmCode << "\txor eax, 0" << std::hex << instr.addrc << "h" << std::dec << std::endl;
asmCode << "\tand eax, " << (ScratchpadL1 - 1) << std::endl;
asmCode << "\tmov qword ptr [" << regScratchpadAddr << " + rax * 8], rcx" << std::endl;
if (trace) {
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asmCode << "\tmov qword ptr [" << regScratchpadAddr << " + " << regIc << " * 8 + 262136], rcx" << std::endl;
}
return;
default:
asmCode << "\tmov " << regR[instr.regc % RegistersCount] << ", rax" << std::endl;
if (trace) {
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asmCode << "\tmov qword ptr [" << regScratchpadAddr << " + " << regIc << " * 8 + 262136], rax" << std::endl;
}
return;
}
}
void AssemblyGeneratorX86::gencf(Instruction& instr) {
asmCode << "\tmovaps " << regF[instr.regc % RegistersCount] << ", xmm0" << std::endl;
const char* store = (instr.locc & 8) ? "movhpd" : "movlpd";
switch (instr.locc & 7)
{
case 4:
asmCode << "\tmov eax, " << regR32[instr.regc % RegistersCount] << std::endl;
asmCode << "\txor eax, 0" << std::hex << instr.addrc << "h" << std::dec << std::endl;
asmCode << "\tand eax, " << (ScratchpadL2 - 1) << std::endl;
asmCode << "\t" << store << " qword ptr [" << regScratchpadAddr << " + rax * 8], " << regF[instr.regc % RegistersCount] << std::endl;
break;
case 5:
case 6:
case 7:
asmCode << "\tmov eax, " << regR32[instr.regc % RegistersCount] << std::endl;
asmCode << "\txor eax, 0" << std::hex << instr.addrc << "h" << std::dec << std::endl;
asmCode << "\tand eax, " << (ScratchpadL1 - 1) << std::endl;
asmCode << "\t" << store << " qword ptr [" << regScratchpadAddr << " + rax * 8], " << regF[instr.regc % RegistersCount] << std::endl;
break;
}
if (trace) {
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asmCode << "\t" << store << " qword ptr [" << regScratchpadAddr << " + " << regIc << " * 8 + 262136], " << regF[instr.regc % RegistersCount] << std::endl;
}
}
void AssemblyGeneratorX86::h_ADD_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tadd rax, ";
genbr1(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_ADD_32(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tadd eax, ";
genbr132(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_SUB_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tsub rax, ";
genbr1(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_SUB_32(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tsub eax, ";
genbr132(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_MUL_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\timul rax, ";
if ((instr.locb & 7) >= 6) {
asmCode << "rax, ";
}
genbr1(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_MULH_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tmov rcx, ";
genbr1(instr);
asmCode << "\tmul rcx" << std::endl;
asmCode << "\tmov rax, rdx" << std::endl;
gencr(instr);
}
void AssemblyGeneratorX86::h_MUL_32(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tmov ecx, eax" << std::endl;
asmCode << "\tmov eax, ";
genbr132(instr);
asmCode << "\timul rax, rcx" << std::endl;
gencr(instr);
}
void AssemblyGeneratorX86::h_IMUL_32(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tmovsxd rcx, eax" << std::endl;
if ((instr.locb & 7) >= 6) {
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asmCode << "\tmov rax, " << instr.imm32 << std::endl;
}
else {
asmCode << "\tmovsxd rax, " << regR32[instr.regb % RegistersCount] << std::endl;
}
asmCode << "\timul rax, rcx" << std::endl;
gencr(instr);
}
void AssemblyGeneratorX86::h_IMULH_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tmov rcx, ";
genbr1(instr);
asmCode << "\timul rcx" << std::endl;
asmCode << "\tmov rax, rdx" << std::endl;
gencr(instr);
}
void AssemblyGeneratorX86::h_DIV_64(Instruction& instr, int i) {
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genar(instr, i);
if ((instr.locb & 7) >= 6) {
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if (instr.imm32 == 0) {
asmCode << "\tmov ecx, 1" << std::endl;
}
else {
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asmCode << "\tmov ecx, " << instr.imm32 << std::endl;
}
}
else {
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asmCode << "\tmov ecx, 1" << std::endl;
asmCode << "\tmov edx, " << regR32[instr.regb % RegistersCount] << std::endl;
asmCode << "\ttest edx, edx" << std::endl;
asmCode << "\tcmovne ecx, edx" << std::endl;
}
asmCode << "\txor edx, edx" << std::endl;
asmCode << "\tdiv rcx" << std::endl;
gencr(instr);
}
void AssemblyGeneratorX86::h_IDIV_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tmov edx, ";
genbr132(instr);
asmCode << "\tcmp edx, -1" << std::endl;
asmCode << "\tjne short safe_idiv_" << i << std::endl;
asmCode << "\tmov rcx, rax" << std::endl;
asmCode << "\trol rcx, 1" << std::endl;
asmCode << "\tdec rcx" << std::endl;
asmCode << "\tjz short result_idiv_" << i << std::endl;
asmCode << "safe_idiv_" << i << ":" << std::endl;
asmCode << "\tmov ecx, 1" << std::endl;
asmCode << "\ttest edx, edx" << std::endl;
asmCode << "\tcmovne ecx, edx" << std::endl;
asmCode << "\tmovsxd rcx, ecx" << std::endl;
asmCode << "\tcqo" << std::endl;
asmCode << "\tidiv rcx" << std::endl;
asmCode << "result_idiv_" << i << ":" << std::endl;
gencr(instr);
}
void AssemblyGeneratorX86::h_AND_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tand rax, ";
genbr1(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_AND_32(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tand eax, ";
genbr132(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_OR_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tor rax, ";
genbr1(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_OR_32(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tor eax, ";
genbr132(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_XOR_64(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\txor rax, ";
genbr1(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_XOR_32(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\txor eax, ";
genbr132(instr);
gencr(instr);
}
void AssemblyGeneratorX86::h_SHL_64(Instruction& instr, int i) {
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genar(instr, i);
genbr0(instr, "shl");
gencr(instr);
}
void AssemblyGeneratorX86::h_SHR_64(Instruction& instr, int i) {
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genar(instr, i);
genbr0(instr, "shr");
gencr(instr);
}
void AssemblyGeneratorX86::h_SAR_64(Instruction& instr, int i) {
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genar(instr, i);
genbr0(instr, "sar");
gencr(instr);
}
void AssemblyGeneratorX86::h_ROL_64(Instruction& instr, int i) {
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genar(instr, i);
genbr0(instr, "rol");
gencr(instr);
}
void AssemblyGeneratorX86::h_ROR_64(Instruction& instr, int i) {
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genar(instr, i);
genbr0(instr, "ror");
gencr(instr);
}
void AssemblyGeneratorX86::h_FPADD(Instruction& instr, int i) {
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genaf(instr, i);
genbf(instr, "addpd");
gencf(instr);
}
void AssemblyGeneratorX86::h_FPSUB(Instruction& instr, int i) {
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genaf(instr, i);
genbf(instr, "subpd");
gencf(instr);
}
void AssemblyGeneratorX86::h_FPMUL(Instruction& instr, int i) {
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genaf(instr, i);
genbf(instr, "mulpd");
asmCode << "\tmovaps xmm1, xmm0" << std::endl;
asmCode << "\tcmpeqpd xmm1, xmm1" << std::endl;
asmCode << "\tandps xmm0, xmm1" << std::endl;
gencf(instr);
}
void AssemblyGeneratorX86::h_FPDIV(Instruction& instr, int i) {
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genaf(instr, i);
genbf(instr, "divpd");
asmCode << "\tmovaps xmm1, xmm0" << std::endl;
asmCode << "\tcmpeqpd xmm1, xmm1" << std::endl;
asmCode << "\tandps xmm0, xmm1" << std::endl;
gencf(instr);
}
void AssemblyGeneratorX86::h_FPSQRT(Instruction& instr, int i) {
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genaf(instr, i);
asmCode << "\tandps xmm0, xmm10" << std::endl;
asmCode << "\tsqrtpd xmm0, xmm0" << std::endl;
gencf(instr);
}
void AssemblyGeneratorX86::h_FPROUND(Instruction& instr, int i) {
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genar(instr, i);
//asmCode << "\tmov rcx, rax" << std::endl;
asmCode << "\tshl eax, 13" << std::endl;
//asmCode << "\tand rcx, -2048" << std::endl;
asmCode << "\tand eax, 24576" << std::endl;
//asmCode << "\tmovaps " << regF[instr.regc % RegistersCount] << ", xmm0" << std::endl;
asmCode << "\tor eax, 40896" << std::endl;
asmCode << "\tmov dword ptr [rsp - 8], eax" << std::endl;
asmCode << "\tldmxcsr dword ptr [rsp - 8]" << std::endl;
}
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static inline const char* jumpCondition(Instruction& instr, bool invert = false) {
switch ((instr.locb & 7) ^ invert)
{
case 0:
return "jbe";
case 1:
return "ja";
case 2:
return "js";
case 3:
return "jns";
case 4:
return "jo";
case 5:
return "jno";
case 6:
return "jl";
case 7:
return "jge";
}
}
void AssemblyGeneratorX86::h_CALL(Instruction& instr, int i) {
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genar(instr, i);
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asmCode << "\tcmp " << regR32[instr.regb % RegistersCount] << ", " << instr.imm32 << std::endl;
asmCode << "\t" << jumpCondition(instr);
asmCode << " short taken_call_" << i << std::endl;
gencr(instr);
asmCode << "\tjmp rx_i_" << wrapInstr(i + 1) << std::endl;
asmCode << "taken_call_" << i << ":" << std::endl;
if (trace) {
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asmCode << "\tmov qword ptr [" << regScratchpadAddr << " + " << regIc << " * 8 + 262136], rax" << std::endl;
}
asmCode << "\tpush rax" << std::endl;
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asmCode << "\tcall rx_i_" << wrapInstr(i + (instr.imm8 & 127) + 2) << std::endl;
}
void AssemblyGeneratorX86::h_RET(Instruction& instr, int i) {
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genar(instr, i);
asmCode << "\tcmp rsp, " << regStackBeginAddr << std::endl;
asmCode << "\tje short not_taken_ret_" << i << std::endl;
asmCode << "\txor rax, qword ptr [rsp + 8]" << std::endl;
gencr(instr);
asmCode << "\tret 8" << std::endl;
asmCode << "not_taken_ret_" << i << ":" << std::endl;
gencr(instr);
}
#include "instructionWeights.hpp"
#define INST_HANDLE(x) REPN(&AssemblyGeneratorX86::h_##x, WT(x))
InstructionGenerator AssemblyGeneratorX86::engine[256] = {
INST_HANDLE(ADD_64)
INST_HANDLE(ADD_32)
INST_HANDLE(SUB_64)
INST_HANDLE(SUB_32)
INST_HANDLE(MUL_64)
INST_HANDLE(MULH_64)
INST_HANDLE(MUL_32)
INST_HANDLE(IMUL_32)
INST_HANDLE(IMULH_64)
INST_HANDLE(DIV_64)
INST_HANDLE(IDIV_64)
INST_HANDLE(AND_64)
INST_HANDLE(AND_32)
INST_HANDLE(OR_64)
INST_HANDLE(OR_32)
INST_HANDLE(XOR_64)
INST_HANDLE(XOR_32)
INST_HANDLE(SHL_64)
INST_HANDLE(SHR_64)
INST_HANDLE(SAR_64)
INST_HANDLE(ROL_64)
INST_HANDLE(ROR_64)
INST_HANDLE(FPADD)
INST_HANDLE(FPSUB)
INST_HANDLE(FPMUL)
INST_HANDLE(FPDIV)
INST_HANDLE(FPSQRT)
INST_HANDLE(FPROUND)
INST_HANDLE(CALL)
INST_HANDLE(RET)
};
}