mirror of
https://github.com/xmrig/xmrig.git
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Merge pull request #1220 from SChernykh/evo
Refactored JIT compiler for x86, small RandomX speedup
This commit is contained in:
commit
91498ec690
2 changed files with 123 additions and 118 deletions
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@ -268,8 +268,6 @@ namespace randomx {
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}
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void JitCompilerX86::generateProgramPrologue(Program& prog, ProgramConfiguration& pcfg) {
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memset(registerUsage, -1, sizeof(registerUsage));
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codePos = ((uint8_t*)randomx_program_prologue_first_load) - ((uint8_t*)randomx_program_prologue);
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code[codePos + 2] = 0xc0 + pcfg.readReg0;
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code[codePos + 5] = 0xc0 + pcfg.readReg1;
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@ -280,13 +278,21 @@ namespace randomx {
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memcpy(code + codePos - 48, &pcfg.eMask, sizeof(pcfg.eMask));
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memcpy(code + codePos, codeLoopLoad, loopLoadSize);
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codePos += loopLoadSize;
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for (unsigned i = 0; i < prog.getSize(); ++i) {
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Instruction& instr = prog(i);
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instr.src %= RegistersCount;
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instr.dst %= RegistersCount;
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instructionOffsets[i] = codePos;
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(this->*(engine[instr.opcode]))(instr, i);
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//mark all registers as used
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uint64_t* r = (uint64_t*)registerUsage;
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uint64_t k = codePos;
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k |= k << 32;
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for (unsigned j = 0; j < RegistersCount / 2; ++j) {
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r[j] = k;
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}
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for (int i = 0, n = static_cast<int>(RandomX_CurrentConfig.ProgramSize); i < n; ++i) {
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Instruction instr = prog(i);
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*((uint64_t*)&instr) &= (uint64_t(-1) - (0xFFFF << 8)) | ((RegistersCount - 1) << 8) | ((RegistersCount - 1) << 16);
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(this->*(engine[instr.opcode]))(instr);
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}
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emit(REX_MOV_RR, code, codePos);
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emitByte(0xc0 + pcfg.readReg2, code, codePos);
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emit(REX_XOR_EAX, code, codePos);
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@ -402,7 +408,7 @@ namespace randomx {
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}
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}
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void JitCompilerX86::genAddressReg(Instruction& instr, uint8_t* code, int& codePos, bool rax) {
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void JitCompilerX86::genAddressReg(const Instruction& instr, uint8_t* code, int& codePos, bool rax) {
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emit(LEA_32, code, codePos);
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emitByte(0x80 + instr.src + (rax ? 0 : 8), code, codePos);
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if (instr.src == RegisterNeedsSib) {
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@ -416,7 +422,7 @@ namespace randomx {
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emit32(instr.getModMem() ? ScratchpadL1Mask : ScratchpadL2Mask, code, codePos);
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}
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void JitCompilerX86::genAddressRegDst(Instruction& instr, uint8_t* code, int& codePos) {
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void JitCompilerX86::genAddressRegDst(const Instruction& instr, uint8_t* code, int& codePos) {
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emit(LEA_32, code, codePos);
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emitByte(0x80 + instr.dst, code, codePos);
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if (instr.dst == RegisterNeedsSib) {
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@ -432,7 +438,7 @@ namespace randomx {
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}
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}
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void JitCompilerX86::genAddressImm(Instruction& instr, uint8_t* code, int& codePos) {
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void JitCompilerX86::genAddressImm(const Instruction& instr, uint8_t* code, int& codePos) {
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emit32(instr.getImm32() & ScratchpadL3Mask, code, codePos);
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}
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@ -447,17 +453,18 @@ namespace randomx {
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0x3c8d4f,
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};
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void JitCompilerX86::h_IADD_RS(Instruction& instr, int i) {
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void JitCompilerX86::h_IADD_RS(const Instruction& instr) {
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int pos = codePos;
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uint8_t* const p = code + pos;
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registerUsage[instr.dst] = i;
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const uint32_t sib = (instr.getModShift() << 6) | (instr.src << 3) | instr.dst;
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*(uint32_t*)(p) = template_IADD_RS[instr.dst] | (sib << 24);
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*(uint32_t*)(p + 4) = instr.getImm32();
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codePos = pos + ((instr.dst == RegisterNeedsDisplacement) ? 8 : 4);
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pos += ((instr.dst == RegisterNeedsDisplacement) ? 8 : 4);
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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static const uint32_t template_IADD_M[8] = {
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@ -471,11 +478,10 @@ namespace randomx {
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0x063c034c,
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};
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void JitCompilerX86::h_IADD_M(Instruction& instr, int i) {
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void JitCompilerX86::h_IADD_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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genAddressReg(instr, p, pos);
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emit32(template_IADD_M[instr.dst], p, pos);
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@ -486,6 +492,7 @@ namespace randomx {
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genAddressImm(instr, p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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@ -493,11 +500,10 @@ namespace randomx {
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emitByte((scale << 6) | (index << 3) | base, code, codePos);
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}
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void JitCompilerX86::h_ISUB_R(Instruction& instr, int i) {
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void JitCompilerX86::h_ISUB_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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emit(REX_SUB_RR, p, pos);
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emitByte(0xc0 + 8 * instr.dst + instr.src, p, pos);
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@ -508,14 +514,14 @@ namespace randomx {
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emit32(instr.getImm32(), p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_ISUB_M(Instruction& instr, int i) {
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void JitCompilerX86::h_ISUB_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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genAddressReg(instr, p, pos);
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emit(REX_SUB_RM, p, pos);
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@ -528,14 +534,14 @@ namespace randomx {
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genAddressImm(instr, p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IMUL_R(Instruction& instr, int i) {
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void JitCompilerX86::h_IMUL_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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emit(REX_IMUL_RR, p, pos);
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emitByte(0xc0 + 8 * instr.dst + instr.src, p, pos);
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@ -546,14 +552,14 @@ namespace randomx {
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emit32(instr.getImm32(), p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IMUL_M(Instruction& instr, int i) {
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void JitCompilerX86::h_IMUL_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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genAddressReg(instr, p, pos);
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emit(REX_IMUL_RM, p, pos);
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@ -566,14 +572,14 @@ namespace randomx {
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genAddressImm(instr, p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IMULH_R(Instruction& instr, int i) {
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void JitCompilerX86::h_IMULH_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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emit(REX_MOV_RR64, p, pos);
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emitByte(0xc0 + instr.dst, p, pos);
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emit(REX_MUL_R, p, pos);
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@ -581,14 +587,14 @@ namespace randomx {
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emit(REX_MOV_R64R, p, pos);
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emitByte(0xc2 + 8 * instr.dst, p, pos);
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IMULH_M(Instruction& instr, int i) {
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void JitCompilerX86::h_IMULH_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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genAddressReg(instr, p, pos, false);
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emit(REX_MOV_RR64, p, pos);
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@ -605,14 +611,14 @@ namespace randomx {
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emit(REX_MOV_R64R, p, pos);
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emitByte(0xc2 + 8 * instr.dst, p, pos);
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_ISMULH_R(Instruction& instr, int i) {
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void JitCompilerX86::h_ISMULH_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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emit(REX_MOV_RR64, p, pos);
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emitByte(0xc0 + instr.dst, p, pos);
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emit(REX_MUL_R, p, pos);
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@ -620,14 +626,14 @@ namespace randomx {
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emit(REX_MOV_R64R, p, pos);
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emitByte(0xc2 + 8 * instr.dst, p, pos);
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_ISMULH_M(Instruction& instr, int i) {
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void JitCompilerX86::h_ISMULH_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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genAddressReg(instr, p, pos, false);
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emit(REX_MOV_RR64, p, pos);
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@ -644,41 +650,41 @@ namespace randomx {
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emit(REX_MOV_R64R, p, pos);
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emitByte(0xc2 + 8 * instr.dst, p, pos);
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IMUL_RCP(Instruction& instr, int i) {
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void JitCompilerX86::h_IMUL_RCP(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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uint64_t divisor = instr.getImm32();
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if (!isZeroOrPowerOf2(divisor)) {
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registerUsage[instr.dst] = i;
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emit(MOV_RAX_I, p, pos);
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emit64(randomx_reciprocal_fast(divisor), p, pos);
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emit(REX_IMUL_RM, p, pos);
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emitByte(0xc0 + 8 * instr.dst, p, pos);
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registerUsage[instr.dst] = pos;
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}
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codePos = pos;
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}
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void JitCompilerX86::h_INEG_R(Instruction& instr, int i) {
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void JitCompilerX86::h_INEG_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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emit(REX_NEG, p, pos);
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emitByte(0xd8 + instr.dst, p, pos);
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IXOR_R(Instruction& instr, int i) {
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void JitCompilerX86::h_IXOR_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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emit(REX_XOR_RR, p, pos);
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emitByte(0xc0 + 8 * instr.dst + instr.src, p, pos);
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@ -689,14 +695,14 @@ namespace randomx {
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emit32(instr.getImm32(), p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IXOR_M(Instruction& instr, int i) {
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void JitCompilerX86::h_IXOR_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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genAddressReg(instr, p, pos);
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emit(REX_XOR_RM, p, pos);
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@ -709,14 +715,14 @@ namespace randomx {
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genAddressImm(instr, p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IROR_R(Instruction& instr, int i) {
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void JitCompilerX86::h_IROR_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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emit(REX_MOV_RR, p, pos);
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emitByte(0xc8 + instr.src, p, pos);
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@ -729,14 +735,14 @@ namespace randomx {
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emitByte(instr.getImm32() & 63, p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_IROL_R(Instruction& instr, int i) {
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void JitCompilerX86::h_IROL_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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registerUsage[instr.dst] = i;
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if (instr.src != instr.dst) {
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emit(REX_MOV_RR, p, pos);
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emitByte(0xc8 + instr.src, p, pos);
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@ -749,24 +755,25 @@ namespace randomx {
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emitByte(instr.getImm32() & 63, p, pos);
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}
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registerUsage[instr.dst] = pos;
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codePos = pos;
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}
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void JitCompilerX86::h_ISWAP_R(Instruction& instr, int i) {
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void JitCompilerX86::h_ISWAP_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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if (instr.src != instr.dst) {
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registerUsage[instr.dst] = i;
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registerUsage[instr.src] = i;
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emit(REX_XCHG, p, pos);
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emitByte(0xc0 + instr.src + 8 * instr.dst, p, pos);
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registerUsage[instr.dst] = pos;
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registerUsage[instr.src] = pos;
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}
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codePos = pos;
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}
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void JitCompilerX86::h_FSWAP_R(Instruction& instr, int i) {
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void JitCompilerX86::h_FSWAP_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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@ -777,105 +784,105 @@ namespace randomx {
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codePos = pos;
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}
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void JitCompilerX86::h_FADD_R(Instruction& instr, int i) {
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void JitCompilerX86::h_FADD_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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instr.dst %= RegisterCountFlt;
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instr.src %= RegisterCountFlt;
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const uint32_t dst = instr.dst % RegisterCountFlt;
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const uint32_t src = instr.src % RegisterCountFlt;
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emit(REX_ADDPD, p, pos);
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emitByte(0xc0 + instr.src + 8 * instr.dst, p, pos);
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emitByte(0xc0 + src + 8 * dst, p, pos);
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codePos = pos;
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}
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void JitCompilerX86::h_FADD_M(Instruction& instr, int i) {
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void JitCompilerX86::h_FADD_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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instr.dst %= RegisterCountFlt;
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const uint32_t dst = instr.dst % RegisterCountFlt;
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genAddressReg(instr, p, pos);
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emit(REX_CVTDQ2PD_XMM12, p, pos);
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emit(REX_ADDPD, p, pos);
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emitByte(0xc4 + 8 * instr.dst, p, pos);
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emitByte(0xc4 + 8 * dst, p, pos);
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codePos = pos;
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}
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void JitCompilerX86::h_FSUB_R(Instruction& instr, int i) {
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void JitCompilerX86::h_FSUB_R(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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instr.dst %= RegisterCountFlt;
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instr.src %= RegisterCountFlt;
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const uint32_t dst = instr.dst % RegisterCountFlt;
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const uint32_t src = instr.src % RegisterCountFlt;
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emit(REX_SUBPD, p, pos);
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emitByte(0xc0 + instr.src + 8 * instr.dst, p, pos);
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emitByte(0xc0 + src + 8 * dst, p, pos);
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codePos = pos;
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}
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void JitCompilerX86::h_FSUB_M(Instruction& instr, int i) {
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void JitCompilerX86::h_FSUB_M(const Instruction& instr) {
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uint8_t* const p = code;
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int pos = codePos;
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instr.dst %= RegisterCountFlt;
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const uint32_t dst = instr.dst % RegisterCountFlt;
|
||||
genAddressReg(instr, p, pos);
|
||||
emit(REX_CVTDQ2PD_XMM12, p, pos);
|
||||
emit(REX_SUBPD, p, pos);
|
||||
emitByte(0xc4 + 8 * instr.dst, p, pos);
|
||||
emitByte(0xc4 + 8 * dst, p, pos);
|
||||
|
||||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_FSCAL_R(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_FSCAL_R(const Instruction& instr) {
|
||||
uint8_t* const p = code;
|
||||
int pos = codePos;
|
||||
|
||||
instr.dst %= RegisterCountFlt;
|
||||
const uint32_t dst = instr.dst % RegisterCountFlt;
|
||||
emit(REX_XORPS, p, pos);
|
||||
emitByte(0xc7 + 8 * instr.dst, p, pos);
|
||||
emitByte(0xc7 + 8 * dst, p, pos);
|
||||
|
||||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_FMUL_R(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_FMUL_R(const Instruction& instr) {
|
||||
uint8_t* const p = code;
|
||||
int pos = codePos;
|
||||
|
||||
instr.dst %= RegisterCountFlt;
|
||||
instr.src %= RegisterCountFlt;
|
||||
const uint32_t dst = instr.dst % RegisterCountFlt;
|
||||
const uint32_t src = instr.src % RegisterCountFlt;
|
||||
emit(REX_MULPD, p, pos);
|
||||
emitByte(0xe0 + instr.src + 8 * instr.dst, p, pos);
|
||||
emitByte(0xe0 + src + 8 * dst, p, pos);
|
||||
|
||||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_FDIV_M(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_FDIV_M(const Instruction& instr) {
|
||||
uint8_t* const p = code;
|
||||
int pos = codePos;
|
||||
|
||||
instr.dst %= RegisterCountFlt;
|
||||
const uint32_t dst = instr.dst % RegisterCountFlt;
|
||||
genAddressReg(instr, p, pos);
|
||||
emit(REX_CVTDQ2PD_XMM12, p, pos);
|
||||
emit(REX_ANDPS_XMM12, p, pos);
|
||||
emit(REX_DIVPD, p, pos);
|
||||
emitByte(0xe4 + 8 * instr.dst, p, pos);
|
||||
emitByte(0xe4 + 8 * dst, p, pos);
|
||||
|
||||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_FSQRT_R(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_FSQRT_R(const Instruction& instr) {
|
||||
uint8_t* const p = code;
|
||||
int pos = codePos;
|
||||
|
||||
instr.dst %= RegisterCountFlt;
|
||||
const uint32_t dst = instr.dst % RegisterCountFlt;
|
||||
emit(SQRTPD, p, pos);
|
||||
emitByte(0xe4 + 9 * instr.dst, p, pos);
|
||||
emitByte(0xe4 + 9 * dst, p, pos);
|
||||
|
||||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_CFROUND(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_CFROUND(const Instruction& instr) {
|
||||
uint8_t* const p = code;
|
||||
int pos = codePos;
|
||||
|
||||
|
@ -891,12 +898,11 @@ namespace randomx {
|
|||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_CBRANCH(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_CBRANCH(const Instruction& instr) {
|
||||
uint8_t* const p = code;
|
||||
int pos = codePos;
|
||||
|
||||
int reg = instr.dst;
|
||||
int target = registerUsage[reg] + 1;
|
||||
emit(REX_ADD_I, p, pos);
|
||||
emitByte(0xc0 + reg, p, pos);
|
||||
int shift = instr.getModCond() + RandomX_CurrentConfig.JumpOffset;
|
||||
|
@ -908,10 +914,10 @@ namespace randomx {
|
|||
emitByte(0xc0 + reg, p, pos);
|
||||
emit32(RandomX_CurrentConfig.ConditionMask_Calculated << shift, p, pos);
|
||||
emit(JZ, p, pos);
|
||||
emit32(instructionOffsets[target] - (pos + 4), p, pos);
|
||||
emit32(registerUsage[reg] - (pos + 4), p, pos);
|
||||
//mark all registers as used
|
||||
uint64_t* r = (uint64_t*) registerUsage;
|
||||
uint64_t k = i;
|
||||
uint64_t k = pos;
|
||||
k |= k << 32;
|
||||
for (unsigned j = 0; j < RegistersCount / 2; ++j) {
|
||||
r[j] = k;
|
||||
|
@ -920,7 +926,7 @@ namespace randomx {
|
|||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_ISTORE(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_ISTORE(const Instruction& instr) {
|
||||
uint8_t* const p = code;
|
||||
int pos = codePos;
|
||||
|
||||
|
@ -932,7 +938,7 @@ namespace randomx {
|
|||
codePos = pos;
|
||||
}
|
||||
|
||||
void JitCompilerX86::h_NOP(Instruction& instr, int i) {
|
||||
void JitCompilerX86::h_NOP(const Instruction& instr) {
|
||||
emit(NOP1, code, codePos);
|
||||
}
|
||||
|
||||
|
|
|
@ -41,7 +41,7 @@ namespace randomx {
|
|||
class JitCompilerX86;
|
||||
class Instruction;
|
||||
|
||||
typedef void(JitCompilerX86::*InstructionGeneratorX86)(Instruction&, int);
|
||||
typedef void(JitCompilerX86::*InstructionGeneratorX86)(const Instruction&);
|
||||
|
||||
constexpr uint32_t CodeSize = 64 * 1024;
|
||||
|
||||
|
@ -66,16 +66,15 @@ namespace randomx {
|
|||
size_t getCodeSize();
|
||||
|
||||
static InstructionGeneratorX86 engine[256];
|
||||
int32_t instructionOffsets[512];
|
||||
int registerUsage[RegistersCount];
|
||||
uint8_t* code;
|
||||
int32_t codePos;
|
||||
|
||||
void generateProgramPrologue(Program&, ProgramConfiguration&);
|
||||
void generateProgramEpilogue(Program&, ProgramConfiguration&);
|
||||
static void genAddressReg(Instruction&, uint8_t* code, int& codePos, bool rax = true);
|
||||
static void genAddressRegDst(Instruction&, uint8_t* code, int& codePos);
|
||||
static void genAddressImm(Instruction&, uint8_t* code, int& codePos);
|
||||
static void genAddressReg(const Instruction&, uint8_t* code, int& codePos, bool rax = true);
|
||||
static void genAddressRegDst(const Instruction&, uint8_t* code, int& codePos);
|
||||
static void genAddressImm(const Instruction&, uint8_t* code, int& codePos);
|
||||
static void genSIB(int scale, int index, int base, uint8_t* code, int& codePos);
|
||||
|
||||
void generateSuperscalarCode(Instruction &, std::vector<uint64_t> &);
|
||||
|
@ -105,36 +104,36 @@ namespace randomx {
|
|||
codePos += count;
|
||||
}
|
||||
|
||||
void h_IADD_RS(Instruction&, int);
|
||||
void h_IADD_M(Instruction&, int);
|
||||
void h_ISUB_R(Instruction&, int);
|
||||
void h_ISUB_M(Instruction&, int);
|
||||
void h_IMUL_R(Instruction&, int);
|
||||
void h_IMUL_M(Instruction&, int);
|
||||
void h_IMULH_R(Instruction&, int);
|
||||
void h_IMULH_M(Instruction&, int);
|
||||
void h_ISMULH_R(Instruction&, int);
|
||||
void h_ISMULH_M(Instruction&, int);
|
||||
void h_IMUL_RCP(Instruction&, int);
|
||||
void h_INEG_R(Instruction&, int);
|
||||
void h_IXOR_R(Instruction&, int);
|
||||
void h_IXOR_M(Instruction&, int);
|
||||
void h_IROR_R(Instruction&, int);
|
||||
void h_IROL_R(Instruction&, int);
|
||||
void h_ISWAP_R(Instruction&, int);
|
||||
void h_FSWAP_R(Instruction&, int);
|
||||
void h_FADD_R(Instruction&, int);
|
||||
void h_FADD_M(Instruction&, int);
|
||||
void h_FSUB_R(Instruction&, int);
|
||||
void h_FSUB_M(Instruction&, int);
|
||||
void h_FSCAL_R(Instruction&, int);
|
||||
void h_FMUL_R(Instruction&, int);
|
||||
void h_FDIV_M(Instruction&, int);
|
||||
void h_FSQRT_R(Instruction&, int);
|
||||
void h_CBRANCH(Instruction&, int);
|
||||
void h_CFROUND(Instruction&, int);
|
||||
void h_ISTORE(Instruction&, int);
|
||||
void h_NOP(Instruction&, int);
|
||||
void h_IADD_RS(const Instruction&);
|
||||
void h_IADD_M(const Instruction&);
|
||||
void h_ISUB_R(const Instruction&);
|
||||
void h_ISUB_M(const Instruction&);
|
||||
void h_IMUL_R(const Instruction&);
|
||||
void h_IMUL_M(const Instruction&);
|
||||
void h_IMULH_R(const Instruction&);
|
||||
void h_IMULH_M(const Instruction&);
|
||||
void h_ISMULH_R(const Instruction&);
|
||||
void h_ISMULH_M(const Instruction&);
|
||||
void h_IMUL_RCP(const Instruction&);
|
||||
void h_INEG_R(const Instruction&);
|
||||
void h_IXOR_R(const Instruction&);
|
||||
void h_IXOR_M(const Instruction&);
|
||||
void h_IROR_R(const Instruction&);
|
||||
void h_IROL_R(const Instruction&);
|
||||
void h_ISWAP_R(const Instruction&);
|
||||
void h_FSWAP_R(const Instruction&);
|
||||
void h_FADD_R(const Instruction&);
|
||||
void h_FADD_M(const Instruction&);
|
||||
void h_FSUB_R(const Instruction&);
|
||||
void h_FSUB_M(const Instruction&);
|
||||
void h_FSCAL_R(const Instruction&);
|
||||
void h_FMUL_R(const Instruction&);
|
||||
void h_FDIV_M(const Instruction&);
|
||||
void h_FSQRT_R(const Instruction&);
|
||||
void h_CBRANCH(const Instruction&);
|
||||
void h_CFROUND(const Instruction&);
|
||||
void h_ISTORE(const Instruction&);
|
||||
void h_NOP(const Instruction&);
|
||||
};
|
||||
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue