RAO_INT supports APX

This commit is contained in:
MITSUNARI Shigeo 2024-01-03 17:10:32 +09:00
parent 26840492c3
commit a7b02ac80d
4 changed files with 47 additions and 14 deletions

View file

@ -860,14 +860,14 @@ void put()
const char *prefix;
} tbl[] = {
{ "aadd", "" },
{ "aand", " | T_66" },
{ "aor", " | T_F2" },
{ "axor", " | T_F3" },
{ "aand", "|T_66" },
{ "aor", "|T_F2" },
{ "axor", "|T_F3" },
};
for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) {
const Tbl *p = &tbl[i];
printf("void %s(const Address& addr, const Reg32e &reg) { ", p->name);
printf("opMR(addr, reg, T_0F38%s, 0x0FC); }\n", p->prefix);
printf("opMR(addr, reg, T_0F38%s, 0x0FC, T_APX%s); }\n", p->prefix, p->prefix);
}
}

View file

@ -1936,3 +1936,29 @@ CYBOZU_TEST_AUTO(0x0f_rex2)
CYBOZU_TEST_EQUAL_ARRAY(c.getCode(), tbl, n);
}
CYBOZU_TEST_AUTO(rao_int)
{
struct Code : Xbyak::CodeGenerator {
Code()
{
aadd(ptr [r16+r31*1], r17d);
aadd(ptr [r16+r31*1], r17);
aand(ptr [r16+r31*1], r17d);
aand(ptr [r16+r31*1], r17);
aor(ptr [r16+r31*1], r17d);
aor(ptr [r16+r31*1], r17);
axor(ptr [r16+r31*1], r17d);
axor(ptr [r16+r31*1], r17);
}
} c;
const uint8_t tbl[] = {
0x62, 0xac, 0x78, 0x08, 0xfc, 0x0c, 0x38, 0x62, 0xac, 0xf8, 0x08, 0xfc, 0x0c, 0x38, 0x62, 0xac,
0x79, 0x08, 0xfc, 0x0c, 0x38, 0x62, 0xac, 0xf9, 0x08, 0xfc, 0x0c, 0x38, 0x62, 0xac, 0x7b, 0x08,
0xfc, 0x0c, 0x38, 0x62, 0xac, 0xfb, 0x08, 0xfc, 0x0c, 0x38, 0x62, 0xac, 0x7a, 0x08, 0xfc, 0x0c,
0x38, 0x62, 0xac, 0xfa, 0x08, 0xfc, 0x0c, 0x38,
};
const size_t n = sizeof(tbl);
CYBOZU_TEST_EQUAL(c.getSize(), n);
CYBOZU_TEST_EQUAL_ARRAY(c.getCode(), tbl, n);
}

View file

@ -727,6 +727,7 @@ public:
bool operator==(const Operand& rhs) const;
bool operator!=(const Operand& rhs) const { return !operator==(rhs); }
const Address& getAddress() const;
Address getAddress(int immSize) const;
const Reg& getReg() const;
};
@ -1345,6 +1346,12 @@ inline const Address& Operand::getAddress() const
assert(isMEM());
return static_cast<const Address&>(*this);
}
inline Address Operand::getAddress(int immSize) const
{
Address addr = getAddress();
addr.immSize = immSize;
return addr;
}
inline bool Operand::operator==(const Operand& rhs) const
{
@ -2049,13 +2056,13 @@ private:
writeCode(type, reg1, code, rex2);
setModRM(3, reg1.getIdx(), reg2.getIdx());
}
void opMR(Address addr, const Reg& r, uint64_t type, int code, int immSize = 0, uint64_t type2 = 0, uint8_t code2 = 0)
void opMR(const Address& addr, const Reg& r, uint64_t type, int code, uint64_t type2 = 0, int code2 = NONE)
{
if (type2 && opROO(Reg(), r, addr, type2, code2)) return;
if (code2 == NONE) code2 = code;
if (type2 && opROO(Reg(), addr, r, type2, code2)) return;
if (addr.is64bitDisp()) XBYAK_THROW(ERR_CANT_USE_64BIT_DISP)
bool rex2 = rex(addr, r, type);
writeCode(type, r, code, rex2);
addr.immSize = immSize;
opAddr(addr, r.getIdx());
}
void opLoadSeg(const Address& addr, const Reg& reg, uint64_t type, int code)
@ -2227,7 +2234,7 @@ private:
const Reg r(ext, Operand::REG, opBit);
if ((type & T_APX) && op.hasRex2NFZU() && opROO(d ? *d : Reg(0, Operand::REG, opBit), op, r, type, code)) return;
if (op.isMEM()) {
opMR(op.getAddress(), r, type, code, immSize);
opMR(op.getAddress(immSize), r, type, code);
} else if (op.isREG(bit)) {
opRR(r, op.getReg().changeBit(opBit), type, code);
} else {
@ -2253,7 +2260,7 @@ private:
void opRO(const Reg& r, const Operand& op, uint64_t type, int code, bool condR = true, int immSize = 0)
{
if (op.isMEM()) {
opMR(op.getAddress(), r, type, code, immSize);
opMR(op.getAddress(immSize), r, type, code);
} else if (condR) {
opRR(r, op.getReg(), type, code);
} else {
@ -2955,7 +2962,7 @@ public:
if (!inner::IsInInt32(imm)) XBYAK_THROW(ERR_IMM_IS_TOO_BIG)
immSize = 4;
}
opMR(op.getAddress(), Reg(0, Operand::REG, op.getBit()), 0, 0xC6, immSize);
opMR(op.getAddress(immSize), Reg(0, Operand::REG, op.getBit()), 0, 0xC6);
db(static_cast<uint32_t>(imm), immSize);
} else {
XBYAK_THROW(ERR_BAD_COMBINATION)

View file

@ -1,6 +1,6 @@
const char *getVersionString() const { return "7.04"; }
void aadd(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38, 0x0FC); }
void aand(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38 | T_66, 0x0FC); }
void aadd(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38, 0x0FC, T_APX); }
void aand(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38|T_66, 0x0FC, T_APX|T_66); }
void adc(const Operand& op, uint32_t imm) { opOI(op, imm, 0x10, 2); }
void adc(const Operand& op1, const Operand& op2) { opRO_MR(op1, op2, 0x10); }
void adc(const Reg& d, const Operand& op, uint32_t imm) { opROI(d, op, imm, T_NONE, 2); }
@ -34,8 +34,8 @@ void andnpd(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, T_0F | T_66, 0x5
void andnps(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, T_0F, 0x55, isXMM_XMMorMEM); }
void andpd(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, T_0F | T_66, 0x54, isXMM_XMMorMEM); }
void andps(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, T_0F, 0x54, isXMM_XMMorMEM); }
void aor(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38 | T_F2, 0x0FC); }
void axor(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38 | T_F3, 0x0FC); }
void aor(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38|T_F2, 0x0FC, T_APX|T_F2); }
void axor(const Address& addr, const Reg32e &reg) { opMR(addr, reg, T_0F38|T_F3, 0x0FC, T_APX|T_F3); }
void bextr(const Reg32e& r1, const Operand& op, const Reg32e& r2) { opRRO(r1, r2, op, T_APX|T_0F38|T_NF, 0xf7); }
void blendpd(const Xmm& xmm, const Operand& op, int imm) { opSSE(xmm, op, T_66 | T_0F3A, 0x0D, isXMM_XMMorMEM, static_cast<uint8_t>(imm)); }
void blendps(const Xmm& xmm, const Operand& op, int imm) { opSSE(xmm, op, T_66 | T_0F3A, 0x0C, isXMM_XMMorMEM, static_cast<uint8_t>(imm)); }