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Fixed IMUL_RCP if divisor is a power of 2
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@ -519,7 +519,7 @@ This instructions adds the values of two registers (modulo 2<sup>64</sup>). The
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These instructions output the high 64 bits of the whole 128-bit multiplication result. The result differs for signed and unsigned multiplication (IMULH is unsigned, ISMULH is signed). The variants with a register source operand perform a squaring operation if `dst` equals `src`.
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These instructions output the high 64 bits of the whole 128-bit multiplication result. The result differs for signed and unsigned multiplication (IMULH is unsigned, ISMULH is signed). The variants with a register source operand perform a squaring operation if `dst` equals `src`.
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#### 5.2.6 IMUL_RCP
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#### 5.2.6 IMUL_RCP
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This instruction multiplies the destination register by a reciprocal of `imm32` (the immediate value is zero-extended and treated as unsigned). The reciprocal is calculated as <code>rcp = 2<sup>x</sup> / imm32</code> by choosing the largest integer `x` such that <code>rcp < 2<sup>64</sup></code>. If `imm32` equals 0, IMUL_RCP is a no-op.
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If `imm32` equals 0 or is a power of 2, IMUL_RCP is a no-op. In other cases, the instruction multiplies the destination register by a reciprocal of `imm32` (the immediate value is zero-extended and treated as unsigned). The reciprocal is calculated as <code>rcp = 2<sup>x</sup> / imm32</code> by choosing the largest integer `x` such that <code>rcp < 2<sup>64</sup></code>.
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#### 5.2.7 INEG_R
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#### 5.2.7 INEG_R
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Performs two's complement negation of the destination register.
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Performs two's complement negation of the destination register.
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@ -607,7 +607,7 @@ This instruction performs a conditional jump in the Program Buffer. It uses an i
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A register is considered as modified by an instruction in the following cases:
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A register is considered as modified by an instruction in the following cases:
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* It is the destination register of an integer instruction except IMUL_RCP and ISWAP_R.
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* It is the destination register of an integer instruction except IMUL_RCP and ISWAP_R.
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* It is the destination register of IMUL_RCP and `imm32` is not zero.
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* It is the destination register of IMUL_RCP and `imm32` is not zero or a power of 2.
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* It is the source or the destination register of ISWAP_R and the destination and source registers are distinct.
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* It is the source or the destination register of ISWAP_R and the destination and source registers are distinct.
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* The CBRANCH instruction is considered to modify all integer registers.
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* The CBRANCH instruction is considered to modify all integer registers.
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@ -428,9 +428,10 @@ namespace randomx {
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}
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}
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void AssemblyGeneratorX86::h_IMUL_RCP(Instruction& instr, int i) {
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void AssemblyGeneratorX86::h_IMUL_RCP(Instruction& instr, int i) {
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if (instr.getImm32() != 0) {
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uint64_t divisor = instr.getImm32();
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if (!isPowerOf2(divisor)) {
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registerUsage[instr.dst].lastUsed = i;
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registerUsage[instr.dst].lastUsed = i;
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asmCode << "\tmov rax, " << randomx_reciprocal(instr.getImm32()) << std::endl;
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asmCode << "\tmov rax, " << randomx_reciprocal(divisor) << std::endl;
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asmCode << "\timul " << regR[instr.dst] << ", rax" << std::endl;
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asmCode << "\timul " << regR[instr.dst] << ", rax" << std::endl;
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traceint(instr);
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traceint(instr);
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}
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}
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@ -126,6 +126,10 @@ namespace randomx {
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return minIndex;
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return minIndex;
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}
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}
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inline bool isPowerOf2(uint64_t x) {
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return (x & (x - 1)) == 0;
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}
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constexpr int mantissaSize = 52;
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constexpr int mantissaSize = 52;
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constexpr int exponentSize = 11;
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constexpr int exponentSize = 11;
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constexpr uint64_t mantissaMask = (1ULL << mantissaSize) - 1;
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constexpr uint64_t mantissaMask = (1ULL << mantissaSize) - 1;
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@ -266,8 +266,6 @@ namespace randomx {
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SuperscalarProgram& prog = programs[j];
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SuperscalarProgram& prog = programs[j];
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for (unsigned i = 0; i < prog.getSize(); ++i) {
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for (unsigned i = 0; i < prog.getSize(); ++i) {
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Instruction& instr = prog(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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generateSuperscalarCode(instr, reciprocalCache);
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generateSuperscalarCode(instr, reciprocalCache);
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}
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}
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emit(codeShhLoad, codeSshLoadSize);
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emit(codeShhLoad, codeSshLoadSize);
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@ -614,10 +612,11 @@ namespace randomx {
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}
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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(Instruction& instr, int i) {
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if (instr.getImm32() != 0) {
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uint64_t divisor = instr.getImm32();
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if (!isPowerOf2(divisor)) {
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registerUsage[instr.dst].lastUsed = i;
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registerUsage[instr.dst].lastUsed = i;
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emit(MOV_RAX_I);
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emit(MOV_RAX_I);
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emit64(randomx_reciprocal(instr.getImm32()));
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emit64(randomx_reciprocal(divisor));
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emit(REX_IMUL_RM);
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emit(REX_IMUL_RM);
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emitByte(0xc0 + 8 * instr.dst);
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emitByte(0xc0 + 8 * instr.dst);
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}
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}
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@ -435,8 +435,8 @@ namespace randomx {
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} break;
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} break;
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CASE_REP(IMUL_RCP) {
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CASE_REP(IMUL_RCP) {
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uint32_t divisor = instr.getImm32();
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uint64_t divisor = instr.getImm32();
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if (divisor != 0) {
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if (!isPowerOf2(divisor)) {
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auto dst = instr.dst % RegistersCount;
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auto dst = instr.dst % RegistersCount;
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ibc.type = InstructionType::IMUL_R;
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ibc.type = InstructionType::IMUL_R;
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ibc.idst = &r[dst];
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ibc.idst = &r[dst];
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