#define XBYAK_DONT_READ_LIST #include #include #include "xbyak/xbyak.h" #define NUM_OF_ARRAY(x) (sizeof(x) / sizeof(x[0])) using namespace Xbyak; #ifdef _MSC_VER #pragma warning(disable : 4996) // scanf #define snprintf _snprintf_s #endif #include "avx_type.hpp" /* reg = cx/ecx/rcx insert 0x67 if prefix is true */ void put_jREGz(const char *reg, bool prefix) { printf("void j%sz(std::string label) { %sopJmp(label, T_SHORT, 0xe3, 0, 0); }\n", reg, prefix ? "db(0x67); " : ""); printf("void j%sz(const Label& label) { %sopJmp(label, T_SHORT, 0xe3, 0, 0); }\n", reg, prefix ? "db(0x67); " : ""); } struct GenericTbl { const char *name; uint8_t code1; uint8_t code2; uint8_t code3; uint8_t code4; }; void putGeneric(const GenericTbl *p, size_t n) { for (size_t i = 0; i < n; i++) { printf("void %s() { db(0x%02X); ", p->name, p->code1); if (p->code2) printf("db(0x%02X); ", p->code2); if (p->code3) printf("db(0x%02X); ", p->code3); if (p->code4) printf("db(0x%02X); ", p->code4); printf("}\n"); p++; } } void putX_X_XM(bool omitOnly) { // (x, x, x/m[, imm]) or (y, y, y/m[, imm]) { const struct Tbl { uint8_t code; const char *name; uint64_t type; bool hasIMM; bool enableOmit; int mode; // 1 : sse, 2 : avx, 3 : sse + avx } tbl[] = { { 0x0D, "blendpd", T_0F3A | T_66 | T_W0 | T_YMM, true, true, 3 }, { 0x0C, "blendps", T_0F3A | T_66 | T_W0 | T_YMM, true, true, 3 }, { 0x41, "dppd", T_0F3A | T_66 | T_W0, true, true, 3 }, { 0x40, "dpps", T_0F3A | T_66 | T_W0 | T_YMM, true, true, 3 }, { 0x42, "mpsadbw", T_0F3A | T_66 | T_W0 | T_YMM, true, true, 3 }, { 0x0E, "pblendw", T_0F3A | T_66 | T_W0 | T_YMM, true, true, 3 }, { 0x02, "pblendd", T_0F3A | T_66 | T_W0 | T_YMM, true, true, 2 }, { 0x0B, "roundsd", T_0F3A | T_66 | T_W0, true, true, 3 }, { 0x0A, "roundss", T_0F3A | T_66 | T_W0, true, true, 3 }, { 0x44, "pclmulqdq", T_0F3A | T_66 | T_W0 | T_YMM | T_EVEX, true, true, 3 }, { 0x0C, "permilps", T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW0 | T_B32, false, false, 2 }, { 0x0D, "permilpd", T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW1 | T_B64, false, false, 2 }, { 0x47, "psllvd", T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW0 | T_B32, false, false, 2 }, { 0x47, "psllvq", T_0F38 | T_66 | T_W1 | T_YMM | T_EVEX | T_EW1 | T_B64, false, false, 2 }, { 0x46, "psravd", T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW0 | T_B32, false, false, 2 }, { 0x45, "psrlvd", T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW0 | T_B32, false, false, 2 }, { 0x45, "psrlvq", T_0F38 | T_66 | T_W1 | T_YMM | T_EVEX | T_EW1 | T_B64, false, false, 2 }, { 0xC2, "cmppd", T_0F | T_66 | T_YMM, true, true, 2 }, { 0xC2, "cmpps", T_0F | T_YMM, true, true, 2 }, { 0xC2, "cmpsd", T_0F | T_F2, true, true, 2 }, { 0xC2, "cmpss", T_0F | T_F3, true, true, 2 }, { 0x5A, "cvtsd2ss", T_0F | T_F2 | T_EVEX | T_EW1 | T_N8 | T_ER_X, false, true, 2 }, { 0x5A, "cvtss2sd", T_0F | T_F3 | T_EVEX | T_EW0 | T_N4 | T_SAE_X, false, true, 2 }, { 0x21, "insertps", T_0F3A | T_66 | T_W0 | T_EVEX | T_EW0 | T_N4, true, true, 2 }, { 0x63, "packsswb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x6B, "packssdw", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 2 }, { 0x67, "packuswb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x2B, "packusdw", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 3 }, { 0xFC, "paddb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xFD, "paddw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xFE, "paddd", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 2 }, { 0xD4, "paddq", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 2 }, { 0xEC, "paddsb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xED, "paddsw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xDC, "paddusb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xDD, "paddusw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x0F, "palignr", T_0F3A | T_66 | T_YMM | T_EVEX, true, true, 2 }, { 0xDB, "pand", T_0F | T_66 | T_YMM, false, true, 2 }, { 0xDF, "pandn", T_0F | T_66 | T_YMM, false, true, 2 }, { 0xE0, "pavgb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xE3, "pavgw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x74, "pcmpeqb", T_0F | T_66 | T_YMM, false, true, 2 }, { 0x75, "pcmpeqw", T_0F | T_66 | T_YMM, false, true, 2 }, { 0x76, "pcmpeqd", T_0F | T_66 | T_YMM, false, true, 2 }, { 0x29, "pcmpeqq", T_0F38 | T_66 | T_YMM, false, true, 3 }, { 0x64, "pcmpgtb", T_0F | T_66 | T_YMM, false, true, 2 }, { 0x65, "pcmpgtw", T_0F | T_66 | T_YMM, false, true, 2 }, { 0x66, "pcmpgtd", T_0F | T_66 | T_YMM, false, true, 2 }, { 0x37, "pcmpgtq", T_0F38 | T_66 | T_YMM, false, true, 3 }, { 0x01, "phaddw", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0x02, "phaddd", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0x03, "phaddsw", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0x05, "phsubw", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0x06, "phsubd", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0x07, "phsubsw", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0xF5, "pmaddwd", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x04, "pmaddubsw", T_0F38 | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x3C, "pmaxsb", T_0F38 | T_66 | T_YMM | T_EVEX, false, true, 3 }, { 0xEE, "pmaxsw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x3D, "pmaxsd", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 3 }, { 0xDE, "pmaxub", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x3E, "pmaxuw", T_0F38 | T_66 | T_YMM | T_EVEX, false, true, 3 }, { 0x3F, "pmaxud", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 3 }, { 0x38, "pminsb", T_0F38 | T_66 | T_YMM | T_EVEX, false, true, 3 }, { 0xEA, "pminsw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x39, "pminsd", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 3 }, { 0xDA, "pminub", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x3A, "pminuw", T_0F38 | T_66 | T_YMM | T_EVEX, false, true, 3 }, { 0x3B, "pminud", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 3 }, { 0xE4, "pmulhuw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x0B, "pmulhrsw", T_0F38 | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xE5, "pmulhw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xD5, "pmullw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x40, "pmulld", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 3 }, { 0xF4, "pmuludq", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 2 }, { 0x28, "pmuldq", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 3 }, { 0xEB, "por", T_0F | T_66 | T_YMM, false, true, 2 }, { 0xF6, "psadbw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x00, "pshufb", T_0F38 | T_66 | T_YMM | T_EVEX, false, false, 2 }, { 0x08, "psignb", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0x09, "psignw", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0x0A, "psignd", T_0F38 | T_66 | T_YMM, false, true, 2 }, { 0xF1, "psllw", T_0F | T_66 | T_YMM | T_EVEX | T_N16, false, true, 2 }, { 0xF2, "pslld", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_N16, false, true, 2 }, { 0xF3, "psllq", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_N16, false, true, 2 }, { 0xE1, "psraw", T_0F | T_66 | T_YMM | T_EVEX | T_N16, false, true, 2 }, { 0xE2, "psrad", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_N16, false, true, 2 }, { 0xD1, "psrlw", T_0F | T_66 | T_YMM | T_EVEX | T_N16, false, true, 2 }, { 0xD2, "psrld", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_N16, false, true, 2 }, { 0xD3, "psrlq", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_N16, false, true, 2 }, { 0xF8, "psubb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xF9, "psubw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xFA, "psubd", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 2 }, { 0xFB, "psubq", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 2 }, { 0xE8, "psubsb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xE9, "psubsw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xD8, "psubusb", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0xD9, "psubusw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x68, "punpckhbw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x69, "punpckhwd", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x6A, "punpckhdq", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 2 }, { 0x6D, "punpckhqdq", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 2 }, { 0x60, "punpcklbw", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x61, "punpcklwd", T_0F | T_66 | T_YMM | T_EVEX, false, true, 2 }, { 0x62, "punpckldq", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 2 }, { 0x6C, "punpcklqdq", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 2 }, { 0xEF, "pxor", T_0F | T_66 | T_YMM, false, true, 2 }, { 0x53, "rcpss", T_0F | T_F3, false, true, 2 }, { 0x52, "rsqrtss", T_0F | T_F3, false, true, 2 }, { 0xC6, "shufpd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, true, true, 2 }, { 0xC6, "shufps", T_0F | T_YMM | T_EVEX | T_EW0 | T_B32, true, true, 2 }, { 0x51, "sqrtsd", T_0F | T_F2 | T_EVEX | T_EW1 | T_ER_X | T_N8, false, true, 2 }, { 0x51, "sqrtss", T_0F | T_F3 | T_EVEX | T_EW0 | T_ER_X | T_N4, false, true, 2 }, { 0x15, "unpckhpd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 2 }, { 0x15, "unpckhps", T_0F | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 2 }, { 0x14, "unpcklpd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, false, true, 2 }, { 0x14, "unpcklps", T_0F | T_YMM | T_EVEX | T_EW0 | T_B32, false, true, 2 }, { 0xCF, "gf2p8affineinvqb", T_66 | T_0F3A | T_W1 | T_EVEX | T_YMM | T_EW1 | T_SAE_Z | T_B64, true, false, 3 }, { 0xCE, "gf2p8affineqb", T_66 | T_0F3A | T_W1 | T_EVEX | T_YMM | T_EW1 | T_SAE_Z | T_B64, true, false, 3 }, { 0xCF, "gf2p8mulb", T_66 | T_0F38 | T_W0 | T_EVEX | T_YMM | T_EW0 | T_SAE_Z, false, false, 3 }, { 0xDA, "sm3msg1", T_0F38 | T_W0 | T_EVEX | T_EW0, false, false, 2 }, { 0xDA, "sm3msg2", T_66 | T_0F38 | T_W0 | T_EVEX | T_EW0, false, false, 2 }, { 0xDE, "sm3rnds2", T_66 | T_0F3A | T_W0 | T_EVEX | T_EW0, true, false, 2 }, { 0xDA, "sm4key4", T_F3 | T_0F38 | T_W0 | T_EVEX | T_EW0, false, false, 2 }, { 0xDA, "sm4rnds4", T_F2 | T_0F38 | T_W0 | T_EVEX | T_EW0, false, false, 2 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); if (omitOnly) { if (p->enableOmit) { printf("void v%s(const Xmm& x, const Operand& op%s) { v%s(x, x, op%s); }\n", p->name, p->hasIMM ? ", uint8_t imm" : "", p->name, p->hasIMM ? ", imm" : ""); } } else { if (p->mode & 1) { if (p->hasIMM) { printf("void %s(const Xmm& xmm, const Operand& op, int imm) { opSSE(xmm, op, T_66 | T_0F3A, 0x%02X, isXMM_XMMorMEM, static_cast(imm)); }\n", p->name, p->code); } else { printf("void %s(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, T_66 | T_0F38, 0x%02X, isXMM_XMMorMEM); }\n", p->name, p->code); } } if (p->mode & 2) { printf("void v%s(const Xmm& x1, const Xmm& x2, const Operand& op%s) { opAVX_X_X_XM(x1, x2, op, %s, 0x%02X%s); }\n" , p->name, p->hasIMM ? ", uint8_t imm" : "", s.c_str(), p->code, p->hasIMM ? ", imm" : ""); } } } } } void putMemOp(const char *name, const char *type, uint8_t ext, uint8_t code, int bit, int fwait = false) { printf("void %s(const Address& addr) { %sopMR(addr, Reg%d(%d), %s, 0x%02X); }\n", name, fwait ? "db(0x9B); " : "", bit, ext, type, code); } void putLoadSeg(const char *name, uint64_t type, uint8_t code) { printf("void %s(const Reg& reg, const Address& addr) { opLoadSeg(addr, reg, %s, 0x%02X); }\n", name, type ? "T_0F" : "T_NONE", code); } void put() { { char buf[16]; unsigned int v = VERSION; if (v & 0xF) { snprintf(buf, sizeof(buf), "%d.%02X.%x", v >> 12, (v >> 4) & 0xFF, v & 0xF); } else { snprintf(buf, sizeof(buf), "%d.%02X", v >> 12, (v >> 4) & 0xFF); } printf("const char *getVersionString() const { return \"%s\"; }\n", buf); } const int B = 1 << 0; const int W = 1 << 1; const int D = 1 << 2; const int Q = 1 << 3; { const struct Tbl { uint8_t code; const char *name; } tbl[] = { // MMX { 0x6B, "packssdw" }, { 0x63, "packsswb" }, { 0x67, "packuswb" }, { 0xDB, "pand" }, { 0xDF, "pandn" }, { 0xF5, "pmaddwd" }, { 0xE4, "pmulhuw" }, { 0xE5, "pmulhw" }, { 0xD5, "pmullw" }, { 0xEB, "por" }, { 0x68, "punpckhbw" }, { 0x69, "punpckhwd" }, { 0x6A, "punpckhdq" }, { 0x60, "punpcklbw" }, { 0x61, "punpcklwd" }, { 0x62, "punpckldq" }, { 0xEF, "pxor" }, // MMX2 { 0xE0, "pavgb" }, { 0xE3, "pavgw" }, { 0xEE, "pmaxsw" }, { 0xDE, "pmaxub" }, { 0xEA, "pminsw" }, { 0xDA, "pminub" }, { 0xF6, "psadbw" }, // { 0xD4, "paddq" }, { 0xF4, "pmuludq" }, { 0xFB, "psubq" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Mmx& mmx, const Operand& op) { opMMX(mmx, op, 0x%02X); }\n" , p->name, p->code); } } { const struct Tbl { uint8_t code; int mode; const char *name; } tbl[] = { { 0xFC, B|W|D, "padd" }, { 0xEC, B|W , "padds" }, { 0xDC, B|W , "paddus" }, { 0x74, B|W|D, "pcmpeq" }, { 0x64, B|W|D, "pcmpgt" }, { 0xF0, W|D|Q, "psll" }, { 0xE0, W|D , "psra" }, { 0xD0, W|D|Q, "psrl" }, { 0xF8, B|W|D, "psub" }, { 0xE8, B|W , "psubs" }, { 0xD8, B|W , "psubus" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; static const char modTbl[][4] = { "b", "w", "d", "q" }; for (int j = 0; j < 4; j++) { // B(0), W(1), D(2), Q(3) if (!(p->mode & (1 << j))) continue; printf("void %s%s(const Mmx& mmx, const Operand& op) { opMMX(mmx, op, 0x%02X); }\n" , p->name, modTbl[j] , p->code | j ); } } } { const struct Tbl { uint8_t code; int ext; int mode; const char *name; } tbl[] = { { 0x70, 6, W|D|Q, "psll" }, { 0x70, 4, W|D , "psra" }, { 0x70, 2, W|D|Q, "psrl" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; static const char modTbl[][4] = { "b", "w", "d", "q" }; for (int j = 0; j < 4; j++) { // B(0), W(1), D(2), Q(3) if (!(p->mode & (1 << j))) continue; printf("void %s%s(const Mmx& mmx, int imm8) { opMMX_IMM(mmx, imm8, 0x%02X, %d); }\n" , p->name, modTbl[j] , p->code | j , p->ext ); } } printf("void pslldq(const Xmm& xmm, int imm8) { opMMX_IMM(xmm, imm8, 0x%02X, %d); }\n", 0x73, 7); printf("void psrldq(const Xmm& xmm, int imm8) { opMMX_IMM(xmm, imm8, 0x%02X, %d); }\n", 0x73, 3); } { const struct Tbl { const char *pref; const char *name; } tbl[] = { { "T_NONE", "pshufw" }, { "T_F2", "pshuflw" }, { "T_F3", "pshufhw" }, { "T_66", "pshufd" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Mmx& mmx, const Operand& op, uint8_t imm8) { opMMX(mmx, op, 0x70, T_0F, %s, imm8); }\n", p->name, p->pref); } } { const struct MmxTbl6 { uint8_t code; // for (reg, reg/[mem]) uint8_t code2; // for ([mem], reg) const char *pref; const char *name; } mmxTbl6[] = { { 0x6F, 0x7F, "T_66", "movdqa" }, { 0x6F, 0x7F, "T_F3", "movdqu" }, // SSE2 { 0x28, 0x29, "T_NONE", "movaps" }, { 0x10, 0x11, "T_F3", "movss" }, { 0x10, 0x11, "T_NONE", "movups" }, { 0x28, 0x29, "T_66", "movapd" }, { 0x10, 0x11, "T_F2", "movsd" }, { 0x10, 0x11, "T_66", "movupd" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(mmxTbl6); i++) { const MmxTbl6 *p = &mmxTbl6[i]; printf("void %s(const Xmm& xmm, const Operand& op) { opMMX(xmm, op, 0x%02X, T_0F, %s); }\n", p->name, p->code, p->pref); printf("void %s(const Address& addr, const Xmm& xmm) { opMR(addr, xmm, T_0F|%s, 0x%02X); }\n", p->name, p->pref, p->code2); } } { enum { PS = 1 << 0, SS = 1 << 1, PD = 1 << 2, SD = 1 << 3 }; const struct { const char *type; const char *name; } sufTbl[] = { { "T_0F", "ps" }, { "T_0F | T_F3", "ss" }, { "T_0F | T_66", "pd" }, { "T_0F | T_F2", "sd" }, }; const struct Tbl { uint8_t code; int mode; const char *name; bool hasImm; } tbl[] = { { 0x58, PS|SS|PD|SD, "add" }, { 0x55, PS|PD , "andn" }, { 0x54, PS|PD , "and" }, { 0xC2, PS|SS|PD|SD, "cmp", true }, { 0x5E, PS|SS|PD|SD, "div" }, { 0x5F, PS|SS|PD|SD, "max" }, { 0x5D, PS|SS|PD|SD, "min" }, { 0x59, PS|SS|PD|SD, "mul" }, { 0x56, PS|PD , "or" }, { 0x53, PS|SS , "rcp" }, { 0x52, PS|SS , "rsqrt" }, { 0xC6, PS|PD , "shuf", true }, { 0x51, PS|SS|PD|SD, "sqrt" }, { 0x5C, PS|SS|PD|SD, "sub" }, { 0x15, PS|PD , "unpckh" }, { 0x14, PS|PD , "unpckl" }, { 0x57, PS|PD , "xor" }, // }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; for (size_t j = 0; j < NUM_OF_ARRAY(sufTbl); j++) { if (!(p->mode & (1 << j))) continue; if (p->hasImm) { // don't change uint8_t to int because NO is not in byte printf("void %s%s(const Xmm& xmm, const Operand& op, uint8_t imm8) { opSSE(xmm, op, %s, 0x%02X, isXMM_XMMorMEM, imm8); }\n", p->name, sufTbl[j].name, sufTbl[j].type, p->code); } else { printf("void %s%s(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, %s, 0x%02X, isXMM_XMMorMEM); }\n", p->name, sufTbl[j].name, sufTbl[j].type, p->code); } } } } { // (XMM, XMM) const struct Tbl { uint64_t type; uint8_t code; const char *name; } tbl[] = { { T_66 | T_0F, 0xF7, "maskmovdqu" }, { T_0F, 0x12, "movhlps" }, { T_0F, 0x16, "movlhps" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); printf("void %s(const Xmm& reg1, const Xmm& reg2) { opRR(reg1, reg2, %s, 0x%02X); }\n", p->name, s.c_str(), p->code); } } { // (XMM, XMM|MEM) const struct Tbl { uint8_t code; uint64_t type; const char *name; } tbl[] = { { 0x6D, T_66, "punpckhqdq" }, { 0x6C, T_66, "punpcklqdq" }, { 0x2F, T_NONE, "comiss" }, { 0x2E, T_NONE, "ucomiss" }, { 0x2F, T_66, "comisd" }, { 0x2E, T_66, "ucomisd" }, { 0x5A, T_66, "cvtpd2ps" }, { 0x5A, T_NONE, "cvtps2pd" }, { 0x5A, T_F2, "cvtsd2ss" }, { 0x5A, T_F3, "cvtss2sd" }, { 0xE6, T_F2, "cvtpd2dq" }, { 0xE6, T_66, "cvttpd2dq" }, { 0xE6, T_F3, "cvtdq2pd" }, { 0x5B, T_66, "cvtps2dq" }, { 0x5B, T_F3, "cvttps2dq" }, { 0x5B, T_NONE, "cvtdq2ps" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type | T_0F); printf("void %s(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, %s, 0x%02X, isXMM_XMMorMEM); }\n", p->name, s.c_str(), p->code); } } { // special type const struct Tbl { uint8_t code; uint64_t type; const char *name; const char *cond; } tbl[] = { { 0x2A, T_NONE , "cvtpi2ps", "isXMM_MMXorMEM" }, { 0x2D, T_NONE , "cvtps2pi", "isMMX_XMMorMEM" }, { 0x2A, T_F3, "cvtsi2ss", "isXMM_REG32orMEM" }, { 0x2D, T_F3, "cvtss2si", "isREG32_XMMorMEM" }, { 0x2C, T_NONE , "cvttps2pi", "isMMX_XMMorMEM" }, { 0x2C, T_F3, "cvttss2si", "isREG32_XMMorMEM" }, { 0x2A, T_66, "cvtpi2pd", "isXMM_MMXorMEM" }, { 0x2D, T_66, "cvtpd2pi", "isMMX_XMMorMEM" }, { 0x2A, T_F2, "cvtsi2sd", "isXMM_REG32orMEM" }, { 0x2D, T_F2, "cvtsd2si", "isREG32_XMMorMEM" }, { 0x2C, T_66, "cvttpd2pi", "isMMX_XMMorMEM" }, { 0x2C, T_F2, "cvttsd2si", "isREG32_XMMorMEM" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type | T_0F); printf("void %s(const Reg& reg, const Operand& op) { opSSE(reg, op, %s, 0x%02X, %s); }\n", p->name, s.c_str(), p->code, p->cond); } } { // prefetch const struct Tbl { int ext; const char *name; int code; } tbl[] = { { 1, "t0", 0x18}, { 2, "t1", 0x18}, { 3, "t2", 0x18}, { 0, "nta", 0x18}, { 2, "wt1", 0x0D}, { 1, "w", 0x0D}, { 7, "it0", 0x18}, { 6, "it1", 0x18}, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void prefetch%s(const Address& addr) { opMR(addr, Reg32(%d), T_0F, 0x%02X); }\n", p->name, p->ext, p->code); } } { const struct Tbl { uint8_t code; const char *name; uint64_t type; } tbl[] = { { 0x16, "movhps", T_0F }, { 0x12, "movlps", T_0F }, { 0x16, "movhpd", T_0F | T_66 }, { 0x12, "movlpd", T_0F | T_66 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); printf("void %s(const Operand& op1, const Operand& op2) { opMovXMM(op1, op2, %s, 0x%02X); }\n", p->name, s.c_str(), p->code); } } { // cmov const struct Tbl { uint8_t ext; const char *name; } tbl[] = { { 0, "o" }, { 1, "no" }, { 2, "b" }, { 2, "c" }, { 2, "nae" }, { 3, "nb" }, { 3, "ae" }, { 3, "nc" }, { 4, "e" }, { 4, "z" }, { 5, "ne" }, { 5, "nz" }, { 6, "be" }, { 6, "na" }, { 7, "nbe" }, { 7, "a" }, { 8, "s" }, { 9, "ns" }, { 10, "p" }, { 10, "pe" }, { 11, "np" }, { 11, "po" }, { 12, "l" }, { 12, "nge" }, { 13, "nl" }, { 13, "ge" }, { 14, "le" }, { 14, "ng" }, { 15, "nle" }, { 15, "g" }, }; const char *msg = "//-V524"; // disable warning of PVS-Studio for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void cmov%s(const Reg& reg, const Operand& op) { opRO(reg, op, T_0F, 0x40 | %d, op.isREG(16|i32e)); }%s\n", p->name, p->ext, msg); printf("void cmov%s(const Reg& d, const Reg& reg, const Operand& op) { opROO(d, op, reg, T_APX|T_ND1, 0x40 | %d); }%s\n", p->name, p->ext, msg); printf("void j%s(std::string label, LabelType type = T_AUTO) { opJmp(label, type, 0x%02X, 0x%02X, 0x%02X); }%s\n", p->name, p->ext | 0x70, p->ext | 0x80, 0x0F, msg); printf("void j%s(const Label& label, LabelType type = T_AUTO) { opJmp(label, type, 0x%02X, 0x%02X, 0x%02X); }%s\n", p->name, p->ext | 0x70, p->ext | 0x80, 0x0F, msg); printf("void j%s(const char *label, LabelType type = T_AUTO) { j%s(std::string(label), type); }%s\n", p->name, p->name, msg); printf("void j%s(const void *addr) { opJmpAbs(addr, T_NEAR, 0x%02X, 0x%02X, 0x%02X); }%s\n", p->name, p->ext | 0x70, p->ext | 0x80, 0x0F, msg); printf("void set%s(const Operand& op) { opSetCC(op, %d); }%s\n", p->name, p->ext, msg); // ccmpscc // true if SCC = 0b1010, false if SCC = 0b1011 (see APX Architecture Specification p.266) const char *s = p->ext == 10 ? "t" : p->ext == 11 ? "f" : p->name; printf("void ccmp%s(const Operand& op1, const Operand& op2, int dfv = 0) { opCcmp(op1, op2, dfv, 0x38, %d); }\n", s, p->ext); printf("void ccmp%s(const Operand& op, int imm, int dfv = 0) { opCcmpi(op, imm, dfv, %d); }\n", s, p->ext); printf("void ctest%s(const Operand& op, const Reg& r, int dfv = 0) { opCcmp(op, r, dfv, 0x84, %d); }\n", s, p->ext); printf("void ctest%s(const Operand& op, int imm, int dfv = 0) { opTesti(op, imm, dfv, %d); }\n", s, p->ext); } } { // cfcmov const struct Tbl { uint8_t code; const char *suf; } tbl[] = { {0x40, "o"}, {0x41, "no"}, {0x42, "b"}, {0x43, "nb"}, {0x44, "z"}, {0x45, "nz"}, {0x46, "be"}, {0x47, "nbe"}, {0x48, "s"}, {0x49, "ns"}, {0x4A, "p"}, {0x4B, "np"}, {0x4C, "l"}, {0x4D, "nl"}, {0x4E, "le"}, {0x4F, "nle"}, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void cfcmov%s(const Operand& op1, const Operand& op2) { opCfcmov(Reg(), op1, op2, 0x%02X); }\n", p->suf, p->code); printf("void cfcmov%s(const Reg& d, const Reg& r, const Operand& op) { opCfcmov(d|T_nf, op, r, 0x%02X); }\n", p->suf, p->code); } } { const struct Tbl { const char *name; uint8_t code; } tbl[] = { { "loop", 0xE2 }, { "loope", 0xE1 }, { "loopne", 0xE0 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(std::string label) { opJmp(label, T_SHORT, 0x%02X, 0, 0); }\n", p->name, p->code); printf("void %s(const Label& label) { opJmp(label, T_SHORT, 0x%02X, 0, 0); }\n", p->name, p->code); printf("void %s(const char *label) { %s(std::string(label)); }\n", p->name, p->name); } } //////////////////////////////////////////////////////////////// { const GenericTbl tbl[] = { { "bnd", 0xf2 }, /* 0xf2 prefix for MPX */ { "cbw", 0x66, 0x98 }, { "cdq", 0x99 }, { "clc", 0xF8 }, { "cld", 0xFC }, { "cli", 0xFA }, { "cmc", 0xF5 }, { "cpuid", 0x0F, 0xA2 }, { "cwd", 0x66, 0x99 }, { "cwde", 0x98 }, { "cmpsb", 0xA6 }, { "cmpsw", 0x66, 0xA7 }, { "cmpsd", 0xA7 }, { "endbr32", 0xF3, 0x0F, 0x1E, 0xFB }, { "endbr64", 0xF3, 0x0F, 0x1E, 0xFA }, { "hlt", 0xF4 }, { "int3", 0xCC }, { "scasb", 0xAE }, { "scasw", 0x66, 0xAF }, { "scasd", 0xAF }, { "movsb", 0xA4 }, { "leave", 0xC9 }, { "lodsb", 0xAC }, { "lodsw", 0x66, 0xAD }, { "lodsd", 0xAD }, { "movsw", 0x66, 0xA5 }, { "movsd", 0xA5 }, { "outsb", 0x6E }, { "outsw", 0x66, 0x6F }, { "outsd", 0x6F }, { "stosb", 0xAA }, { "stosw", 0x66, 0xAB }, { "stosd", 0xAB }, { "rep", 0xF3 }, { "repe", 0xF3 }, { "repz", 0xF3 }, { "repne", 0xF2 }, { "repnz", 0xF2 }, { "lahf", 0x9F }, { "lock", 0xF0 }, { "sahf", 0x9E }, { "serialize", 0x0F, 0x01, 0xE8 }, { "stc", 0xF9 }, { "std", 0xFD }, { "sti", 0xFB }, { "sysenter", 0x0F, 0x34 }, { "sysexit", 0x0F, 0x35 }, { "emms", 0x0F, 0x77 }, { "pause", 0xF3, 0x90 }, { "sfence", 0x0F, 0xAE, 0xF8 }, { "lfence", 0x0F, 0xAE, 0xE8 }, { "mfence", 0x0F, 0xAE, 0xF0 }, { "monitor", 0x0F, 0x01, 0xC8 }, { "mwait", 0x0F, 0x01, 0xC9 }, { "rdmsr", 0x0F, 0x32 }, { "rdpmc", 0x0F, 0x33 }, { "rdtsc", 0x0F, 0x31 }, { "rdtscp", 0x0F, 0x01, 0xF9 }, { "ud2", 0x0F, 0x0B }, { "wait", 0x9B }, { "fwait", 0x9B }, { "wbinvd", 0x0F, 0x09 }, { "wrmsr", 0x0F, 0x30 }, { "xlatb", 0xD7 }, { "xend", 0x0f, 0x01, 0xd5 }, { "popf", 0x9D }, { "pushf", 0x9C }, { "stac", 0x0F, 0x01, 0xCB }, { "vzeroall", 0xC5, 0xFC, 0x77 }, { "vzeroupper", 0xC5, 0xF8, 0x77 }, { "xgetbv", 0x0F, 0x01, 0xD0 }, // FPU { "f2xm1", 0xD9, 0xF0 }, { "fabs", 0xD9, 0xE1 }, { "faddp", 0xDE, 0xC1 }, { "fchs", 0xD9, 0xE0 }, { "fclex", 0x9B, 0xDB, 0xE2 }, { "fnclex", 0xDB, 0xE2 }, { "fcom", 0xD8, 0xD1 }, { "fcomp", 0xD8, 0xD9 }, { "fcompp", 0xDE, 0xD9 }, { "fcos", 0xD9, 0xFF }, { "fdecstp", 0xD9, 0xF6 }, { "fdivp", 0xDE, 0xF9 }, { "fdivrp", 0xDE, 0xF1 }, { "fincstp", 0xD9, 0xF7 }, { "finit", 0x9B, 0xDB, 0xE3 }, { "fninit", 0xDB, 0xE3 }, { "fld1", 0xD9, 0xE8 }, { "fldl2t", 0xD9, 0xE9 }, { "fldl2e", 0xD9, 0xEA }, { "fldpi", 0xD9, 0xEB }, { "fldlg2", 0xD9, 0xEC }, { "fldln2", 0xD9, 0xED }, { "fldz", 0xD9, 0xEE }, { "fmulp", 0xDE, 0xC9 }, { "fnop", 0xD9, 0xD0 }, { "fpatan", 0xD9, 0xF3 }, { "fprem", 0xD9, 0xF8 }, { "fprem1", 0xD9, 0xF5 }, { "fptan", 0xD9, 0xF2 }, { "frndint", 0xD9, 0xFC }, { "fscale", 0xD9, 0xFD }, { "fsin", 0xD9, 0xFE }, { "fsincos", 0xD9, 0xFB }, { "fsqrt", 0xD9, 0xFA }, { "fsubp", 0xDE, 0xE9 }, { "fsubrp", 0xDE, 0xE1 }, { "ftst", 0xD9, 0xE4 }, { "fucom", 0xDD, 0xE1 }, { "fucomp", 0xDD, 0xE9 }, { "fucompp", 0xDA, 0xE9 }, { "fxam", 0xD9, 0xE5 }, { "fxch", 0xD9, 0xC9 }, { "fxtract", 0xD9, 0xF4 }, { "fyl2x", 0xD9, 0xF1 }, { "fyl2xp1", 0xD9, 0xF9 }, // AMD Zen { "monitorx", 0x0F, 0x01, 0xFA }, { "mwaitx", 0x0F, 0x01, 0xFB }, { "clzero", 0x0F, 0x01, 0xFC }, }; putGeneric(tbl, NUM_OF_ARRAY(tbl)); puts("void enter(uint16_t x, uint8_t y) { db(0xC8); dw(x); db(y); }"); puts("void int_(uint8_t x) { db(0xCD); db(x); }"); putLoadSeg("lss", T_0F, 0xB2); putLoadSeg("lfs", T_0F, 0xB4); putLoadSeg("lgs", T_0F, 0xB5); } { const struct Tbl { uint8_t code; // (reg, reg) uint8_t ext; // (reg, imm) const char *name; bool support3op; uint64_t type; } tbl[] = { { 0x10, 2, "adc", true, T_NONE }, { 0x00, 0, "add", true, T_NF | T_CODE1_IF1 }, { 0x20, 4, "and_", true, T_NF | T_CODE1_IF1 }, { 0x38, 7, "cmp", false, T_NONE }, { 0x08, 1, "or_", true, T_NF | T_CODE1_IF1 }, { 0x18, 3, "sbb", true, T_NONE }, { 0x28, 5, "sub", true, T_NF | T_CODE1_IF1 }, { 0x30, 6, "xor_", true, T_NF | T_CODE1_IF1 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Operand& op1, const Operand& op2) { opRO_MR(op1, op2, 0x%02X); }\n", p->name, p->code); printf("void %s(const Operand& op, uint32_t imm) { opOI(op, imm, 0x%02X, %d); }\n", p->name, p->code, p->ext); if (!p->support3op) continue; std::string s = type2String(p->type); printf("void %s(const Reg& d, const Operand& op1, const Operand& op2) { opROO(d, op1, op2, %s, 0x%02X); }\n", p->name, s.c_str(), p->code); printf("void %s(const Reg& d, const Operand& op, uint32_t imm) { opROI(d, op, imm, %s, %d); }\n", p->name, s.c_str(), p->ext); } } { const struct Tbl { const char *name; const char *prefix; } tbl[] = { { "aadd", "" }, { "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 ®) { opMR(addr, reg, T_0F38%s, 0x0FC, T_APX%s); }\n", p->name, p->prefix, p->prefix); } } { const struct Tbl { uint8_t ext; const char *name; } tbl[] = { { 1, "dec" }, { 0, "inc" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Operand& op) { opIncDec(Reg(), op, %d); }\n", p->name, p->ext); printf("void %s(const Reg& d, const Operand& op) { opIncDec(d, op, %d); }\n", p->name, p->ext); } } { const struct Tbl { uint8_t code; uint8_t ext; const char *name; } tbl[] = { { 0xa3, 4, "bt" }, { 0xab, 5, "bts" }, { 0xb3, 6, "btr" }, { 0xbb, 7, "btc" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Operand& op, const Reg& reg) { opRO(reg, op, T_0F, 0x%02X, op.isREG(16|i32e) && op.getBit() == reg.getBit()); }\n", p->name, p->code); printf("void %s(const Operand& op, uint8_t imm) { opRext(op, 16|i32e, %d, T_0F, 0xba, false, 1); db(imm); }\n", p->name, p->ext); } } { const struct Tbl { uint8_t code; uint8_t ext; const char *name; bool NF; int n; // # of op } tbl[] = { { 0xF6, 6, "div", true, 1 }, { 0xF6, 7, "idiv", true, 1 }, { 0xF6, 5, "imul", true ,3 }, { 0xF6, 4, "mul", true, 1 }, { 0xF6, 3, "neg", true, 2 }, { 0xF6, 2, "not_", false, 2 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; const std::string name = p->name; uint64_t type = T_APX|T_CODE1_IF1; if (p->NF) type |= T_NF; std::string s = type2String(type); printf("void %s(const Operand& op) { opRext(op, 0, %d, %s, 0x%02X); }\n", p->name, p->ext, s.c_str(), p->code); if (p->n == 2) { type = T_APX|T_ND1|T_CODE1_IF1; if (p->NF) type |= T_NF; s = type2String(type); printf("void %s(const Reg& d, const Operand& op) { opROO(d, op, Reg(%d, Operand::REG, d.getBit()), %s, 0xF6); }\n", p->name, p->ext, s.c_str()); } } printf("void imul(const Reg& reg, const Operand& op) { if (opROO(Reg(), op, reg, T_APX|T_NF, 0xAF)) return; opRO(reg, op, T_0F, 0xAF, reg.getKind() == op.getKind()); }\n"); } { const struct Tbl { const char *name; uint8_t ext; // |8 means supporting NF=1 } tbl[] = { { "rcl", 2|0 }, { "rcr", 3|0 }, { "rol", 0|8 }, { "ror", 1|8 }, { "sar", 7|8 }, { "shl", 4|8 }, { "shr", 5|8 }, { "sal", 4|8 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Operand& op, int imm) { opShift(op, imm, %d); }\n", p->name, p->ext); printf("void %s(const Operand& op, const Reg8& _cl) { opShift(op, _cl, %d); }\n", p->name, p->ext); printf("void %s(const Reg& d, const Operand& op, int imm) { opShift(op, imm, %d, &d); }\n", p->name, p->ext); printf("void %s(const Reg& d, const Operand& op, const Reg8& _cl) { opShift(op, _cl, %d, &d); }\n", p->name, p->ext); } } { const struct Tbl { const char *name; uint8_t code; uint8_t code2; } tbl[] = { { "shld", 0xA4, 0x24 }, { "shrd", 0xAC, 0x2C }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Operand& op, const Reg& reg, uint8_t imm) { opShxd(Reg(), op, reg, imm, 0x%02X, 0x%02X); }\n", p->name, p->code, p->code2); printf("void %s(const Operand& op, const Reg& reg, const Reg8& _cl) { opShxd(Reg(), op, reg, 0, 0x%02X, 0x%02X, &_cl); }\n", p->name, p->code, p->code2); printf("void %s(const Reg& d, const Operand& op, const Reg& reg, uint8_t imm) { opShxd(d, op, reg, imm, 0x%02X, 0x%02X); }\n", p->name, p->code, p->code2); printf("void %s(const Reg& d, const Operand& op, const Reg& reg, const Reg8& _cl) { opShxd(d, op, reg, 0, 0x%02X, 0x%02X, &_cl); }\n", p->name, p->code, p->code2); } } { const struct Tbl { const char *name; uint8_t code; } tbl[] = { { "bsf", 0xBC }, { "bsr", 0xBD }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Reg®, const Operand& op) { opRO(reg, op, T_0F, 0x%02X, op.isREG(16|i32e)); }\n", p->name, p->code); } } { const struct Tbl { const char *name; uint8_t code; uint8_t code2; } tbl[] = { { "popcnt", 0xB8, 0 }, { "tzcnt", 0xBC, 0xF4 }, { "lzcnt", 0xBD, 0xF5 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; if (p->code2) { printf("void %s(const Reg®, const Operand& op) { if (opROO(Reg(), op, reg, T_APX|T_NF, 0x%02X)) return; opCnt(reg, op, 0x%02X); }\n", p->name, p->code2, p->code); } else { printf("void %s(const Reg®, const Operand& op) { opCnt(reg, op, 0x%02X); }\n", p->name, p->code); } } } // SSSE3 { const struct Tbl { uint8_t code; const char *name; } tbl[] = { { 0x00, "pshufb" }, { 0x01, "phaddw" }, { 0x02, "phaddd" }, { 0x03, "phaddsw" }, { 0x04, "pmaddubsw" }, { 0x05, "phsubw" }, { 0x06, "phsubd" }, { 0x07, "phsubsw" }, { 0x08, "psignb" }, { 0x09, "psignw" }, { 0x0a, "psignd" }, { 0x0b, "pmulhrsw" }, { 0x1c, "pabsb" }, { 0x1d, "pabsw" }, { 0x1e, "pabsd" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Mmx& mmx, const Operand& op) { opMMX(mmx, op, 0x%02X, T_0F38, T_66); }\n", p->name, p->code); } printf("void palignr(const Mmx& mmx, const Operand& op, int imm) { opMMX(mmx, op, 0x0F, T_0F3A, T_66, static_cast(imm)); }\n"); } { const struct Tbl { const char *name; uint8_t code; } tbl[] = { { "pclmullqlqdq", 0 }, { "pclmulhqlqdq", 1 }, { "pclmullqhqdq", 0x10 }, { "pclmulhqhqdq", 0x11 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Xmm& xmm, const Operand& op) { pclmulqdq(xmm, op, 0x%02X); }\n", p->name, p->code); printf("void v%s(const Xmm& x1, const Xmm& x2, const Operand& op) { vpclmulqdq(x1, x2, op, 0x%02X); }\n", p->name, p->code); } } { const struct Tbl { const char *type; uint8_t code; uint8_t ext; const char *name; bool fwait; } tbl[] = { { "T_0F", 0xAE, 2, "ldmxcsr", false }, { "T_0F", 0xAE, 3, "stmxcsr", false }, { "T_0F", 0xAE, 7, "clflush", false }, { "T_66 | T_0F", 0xAE, 7, "clflushopt", false}, { "0", 0xDF, 4, "fbld", false }, { "0", 0xDF, 6, "fbstp", false }, { "0", 0xD9, 5, "fldcw", false }, { "0", 0xD9, 4, "fldenv", false }, { "0", 0xDD, 4, "frstor", false }, { "0", 0xDD, 6, "fsave", true }, { "0", 0xDD, 6, "fnsave", false }, { "0", 0xD9, 7, "fstcw", true }, { "0", 0xD9, 7, "fnstcw", false }, { "0", 0xD9, 6, "fstenv", true }, { "0", 0xD9, 6, "fnstenv", false }, { "0", 0xDD, 7, "fstsw", true }, { "0", 0xDD, 7, "fnstsw", false }, { "T_0F", 0xAE, 1, "fxrstor", false }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; putMemOp(p->name, p->type, p->ext, p->code, 32, p->fwait); } puts("void fstsw(const Reg16& r) { if (r.getIdx() != Operand::AX) XBYAK_THROW(ERR_BAD_PARAMETER) db(0x9B); db(0xDF); db(0xE0); }"); puts("void fnstsw(const Reg16& r) { if (r.getIdx() != Operand::AX) XBYAK_THROW(ERR_BAD_PARAMETER) db(0xDF); db(0xE0); }"); } { const struct Tbl { uint8_t code; const char *name; } tbl[] = { { 0x2B, "movntpd" }, { 0xE7, "movntdq" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; // cast xmm register to 16bit register to put 0x66 printf("void %s(const Address& addr, const Xmm& reg) { opMR(addr, Reg16(reg.getIdx()), T_0F, 0x%02X); }\n", p->name, p->code); } } { const struct Tbl { uint8_t code; const char *name; } tbl[] = { { 0xBE, "movsx" }, { 0xB6, "movzx" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Reg& reg, const Operand& op) { opMovxx(reg, op, 0x%02X); }\n", p->name, p->code); } } { const struct Tbl { uint8_t prefix; const char *name; } tbl[] = { { 0x66, "adcx" }, { 0xF3, "adox" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Reg32e& reg, const Operand& op) { if (!reg.isREG(16|i32e) && reg.getBit() == op.getBit()) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) if (opROO(Reg(), op, reg, T_%02X, 0x66)) return; opRO(reg, op, T_%02X | T_0F38, 0xF6); }\n", p->name, p->prefix, p->prefix); printf("void %s(const Reg32e& d, const Reg32e& reg, const Operand& op) { opROO(d, op, reg, T_%02X, 0x66); }\n", p->name, p->prefix); } } { // in/out puts("void in_(const Reg& a, uint8_t v) { opInOut(a, 0xE4, v); }"); puts("void in_(const Reg& a, const Reg& d) { opInOut(a, d, 0xEC); }"); puts("void out_(uint8_t v, const Reg& a) { opInOut(a, 0xE6, v); }"); puts("void out_(const Reg& d, const Reg& a) { opInOut(a, d, 0xEE); }"); } // mpx { puts("void bndcl(const BoundsReg& bnd, const Operand& op) { opRext(op, i32e, bnd.getIdx(), T_F3 | T_0F, 0x1A, !op.isMEM()); }"); puts("void bndcu(const BoundsReg& bnd, const Operand& op) { opRext(op, i32e, bnd.getIdx(), T_F2 | T_0F, 0x1A, !op.isMEM()); }"); puts("void bndcn(const BoundsReg& bnd, const Operand& op) { opRext(op, i32e, bnd.getIdx(), T_F2 | T_0F, 0x1B, !op.isMEM()); }"); puts("void bndldx(const BoundsReg& bnd, const Address& addr) { opMIB(addr, bnd, T_0F, 0x1A); }"); puts("void bndmk(const BoundsReg& bnd, const Address& addr) { opMR(addr, bnd, T_F3 | T_0F, 0x1B); }"); puts("void bndmov(const BoundsReg& bnd, const Operand& op) { opRO(bnd, op, T_66 | T_0F, 0x1A, op.isBNDREG()); }"); puts("void bndmov(const Address& addr, const BoundsReg& bnd) { opMR(addr, bnd, T_66 | T_0F, 0x1B); }"); puts("void bndstx(const Address& addr, const BoundsReg& bnd) { opMIB(addr, bnd, T_0F, 0x1B); }"); } // misc { puts("void lea(const Reg& reg, const Address& addr) { if (!reg.isBit(16 | i32e)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) opMR(addr, reg, 0, 0x8D); }"); puts("void ret(int imm = 0) { if (imm) { db(0xC2); dw(imm); } else { db(0xC3); } }"); puts("void retf(int imm = 0) { if (imm) { db(0xCA); dw(imm); } else { db(0xCB); } }"); puts("void xadd(const Operand& op, const Reg& reg) { opRO(reg, op, T_0F, 0xC0 | (reg.isBit(8) ? 0 : 1), op.getBit() == reg.getBit()); }"); puts("void cmpxchg(const Operand& op, const Reg& reg) { opRO(reg, op, T_0F, 0xB0 | (reg.isBit(8) ? 0 : 1), op.getBit() == reg.getBit()); }"); puts("void movbe(const Reg& reg, const Address& addr) { opMR(addr, reg, T_0F38, 0xF0, T_APX, 0x60); }"); puts("void movbe(const Address& addr, const Reg& reg) { opMR(addr, reg, T_0F38, 0xF1, T_APX, 0x61); }"); puts("void movdiri(const Address& addr, const Reg32e& reg) { opMR(addr, reg, T_0F38, 0xF9, T_APX); }"); puts("void movdir64b(const Reg& reg, const Address& addr) { opMR(addr, reg.cvt32(), T_66|T_0F38, 0xF8, T_APX|T_66); }"); puts("void cmpxchg8b(const Address& addr) { opMR(addr, Reg32(1), T_0F, 0xC7); }"); puts("void pextrw(const Operand& op, const Mmx& xmm, uint8_t imm) { opExt(op, xmm, 0x15, imm, true); }"); puts("void pextrb(const Operand& op, const Xmm& xmm, uint8_t imm) { opExt(op, xmm, 0x14, imm); }"); puts("void pextrd(const Operand& op, const Xmm& xmm, uint8_t imm) { opExt(op, xmm, 0x16, imm); }"); puts("void extractps(const Operand& op, const Xmm& xmm, uint8_t imm) { opExt(op, xmm, 0x17, imm); }"); puts("void pinsrw(const Mmx& mmx, const Operand& op, int imm) { if (!op.isREG(32) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opSSE(mmx, op, T_0F | (mmx.isXMM() ? T_66 : T_NONE), 0xC4, 0, imm); }"); puts("void insertps(const Xmm& xmm, const Operand& op, uint8_t imm) { opSSE(xmm, op, T_66 | T_0F3A, 0x21, isXMM_XMMorMEM, imm); }"); puts("void pinsrb(const Xmm& xmm, const Operand& op, uint8_t imm) { opSSE(xmm, op, T_66 | T_0F3A, 0x20, isXMM_REG32orMEM, imm); }"); puts("void pinsrd(const Xmm& xmm, const Operand& op, uint8_t imm) { opSSE(xmm, op, T_66 | T_0F3A, 0x22, isXMM_REG32orMEM, imm); }"); puts("void pmovmskb(const Reg32e& reg, const Mmx& mmx) { if (mmx.isXMM()) db(0x66); opRR(reg, mmx, T_0F, 0xD7); }"); puts("void maskmovq(const Mmx& reg1, const Mmx& reg2) { if (!reg1.isMMX() || !reg2.isMMX()) XBYAK_THROW(ERR_BAD_COMBINATION) opRR(reg1, reg2, T_0F, 0xF7); }"); puts("void movmskps(const Reg32e& reg, const Xmm& xmm) { opRR(reg, xmm, T_0F, 0x50); }"); puts("void movmskpd(const Reg32e& reg, const Xmm& xmm) { db(0x66); movmskps(reg, xmm); }"); puts("void movntps(const Address& addr, const Xmm& xmm) { opMR(addr, Mmx(xmm.getIdx()), T_0F, 0x2B); }"); puts("void movntdqa(const Xmm& xmm, const Address& addr) { opMR(addr, xmm, T_66 | T_0F38, 0x2A); }"); puts("void lddqu(const Xmm& xmm, const Address& addr) { opMR(addr, xmm, T_F2 | T_0F, 0xF0); }"); puts("void movnti(const Address& addr, const Reg32e& reg) { opMR(addr, reg, T_0F, 0xC3); }"); puts("void movntq(const Address& addr, const Mmx& mmx) { if (!mmx.isMMX()) XBYAK_THROW(ERR_BAD_COMBINATION) opMR(addr, mmx, T_0F, 0xE7); }"); puts("void movd(const Address& addr, const Mmx& mmx) { if (mmx.isXMM()) db(0x66); opMR(addr, mmx, T_0F, 0x7E); }"); puts("void movd(const Reg32& reg, const Mmx& mmx) { if (mmx.isXMM()) db(0x66); opRR(mmx, reg, T_0F, 0x7E); }"); puts("void movd(const Mmx& mmx, const Address& addr) { if (mmx.isXMM()) db(0x66); opMR(addr, mmx, T_0F, 0x6E); }"); puts("void movd(const Mmx& mmx, const Reg32& reg) { if (mmx.isXMM()) db(0x66); opRR(mmx, reg, T_0F, 0x6E); }"); puts("void movq2dq(const Xmm& xmm, const Mmx& mmx) { opRR(xmm, mmx, T_F3 | T_0F, 0xD6); }"); puts("void movdq2q(const Mmx& mmx, const Xmm& xmm) { opRR(mmx, xmm, T_F2 | T_0F, 0xD6); }"); puts("void movq(const Mmx& mmx, const Operand& op) { if (mmx.isXMM()) db(0xF3); opRO(mmx, op, T_0F, mmx.isXMM() ? 0x7E : 0x6F, mmx.getKind() == op.getKind()); }"); puts("void movq(const Address& addr, const Mmx& mmx) { if (mmx.isXMM()) db(0x66); opMR(addr, mmx, T_0F, mmx.isXMM() ? 0xD6 : 0x7F); }"); puts("void rdrand(const Reg& r) { if (r.isBit(8)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) opRR(Reg(6, Operand::REG, r.getBit()), r, T_0F, 0xC7); }"); puts("void rdseed(const Reg& r) { if (r.isBit(8)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) opRR(Reg(7, Operand::REG, r.getBit()), r, T_0F, 0xC7); }"); puts("void crc32(const Reg32e& r, const Operand& op) { if (!((r.isBit(32) && op.isBit(8|16|32)) || (r.isBit(64) && op.isBit(8|64)))) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) int code = 0xF0 | (op.isBit(8) ? 0 : 1); uint64_t type = op.isBit(16) ? T_66:0; if (opROO(Reg(), op, static_cast(r), T_APX|type, code)) return; opRO(r, op, T_F2|T_0F38|type, code); }"); puts("void tpause(const Reg32& r) { int idx = r.getIdx(); if (idx > 7) XBYAK_THROW(ERR_BAD_PARAMETER) db(0x66); db(0x0F); db(0xAE); setModRM(3, 6, idx); }"); puts("void umonitor(const Reg& r) { int idx = r.getIdx(); if (idx > 7) XBYAK_THROW(ERR_BAD_PARAMETER) int bit = r.getBit(); if (BIT != bit) { if ((BIT == 32 && bit == 16) || (BIT == 64 && bit == 32)) { db(0x67); } else { XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) } } db(0xF3); db(0x0F); db(0xAE); setModRM(3, 6, idx); }"); puts("void umwait(const Reg32& r) { int idx = r.getIdx(); if (idx > 7) XBYAK_THROW(ERR_BAD_PARAMETER) db(0xF2); db(0x0F); db(0xAE); setModRM(3, 6, idx); }"); puts("void clwb(const Address& addr) { opMR(addr, esi, T_66 | T_0F, 0xAE); }"); puts("void cldemote(const Address& addr) { opMR(addr, eax, T_0F, 0x1C); }"); puts("void xabort(uint8_t imm) { db(0xC6); db(0xF8); db(imm); }"); puts("void xbegin(uint32_t rel) { db(0xC7); db(0xF8); dd(rel); }"); puts("void vsha512msg1(const Ymm& y, const Xmm& x) { if (!(y.isYMM() && x.isXMM())) XBYAK_THROW(ERR_BAD_PARAMETER) opVex(y, 0, x, T_F2 | T_0F38 | T_W0 | T_YMM, 0xCC); }"); puts("void vsha512msg2(const Ymm& y1, const Ymm& y2) { if (!(y1.isYMM() && y2.isYMM())) XBYAK_THROW(ERR_BAD_PARAMETER) opVex(y1, 0, y2, T_F2 | T_0F38 | T_W0 | T_YMM, 0xCD); }"); puts("void vsha512rnds2(const Ymm& y1, const Ymm& y2, const Xmm& x) { if (!(y1.isYMM() && y2.isYMM() && x.isXMM())) XBYAK_THROW(ERR_BAD_PARAMETER) opVex(y1, &y2, x, T_F2 | T_0F38 | T_W0 | T_YMM, 0xCB); }"); } { const struct Tbl { uint8_t m16; uint8_t m32; uint8_t m64; uint8_t ext; const char *name; uint8_t m64ext; } tbl[] = { { 0x00, 0xD8, 0xDC, 0, "fadd" }, { 0xDE, 0xDA, 0x00, 0, "fiadd" }, { 0x00, 0xD8, 0xDC, 2, "fcom" }, { 0x00, 0xD8, 0xDC, 3, "fcomp" }, { 0x00, 0xD8, 0xDC, 6, "fdiv" }, { 0xDE, 0xDA, 0x00, 6, "fidiv" }, { 0x00, 0xD8, 0xDC, 7, "fdivr" }, { 0xDE, 0xDA, 0x00, 7, "fidivr" }, { 0xDE, 0xDA, 0x00, 2, "ficom" }, { 0xDE, 0xDA, 0x00, 3, "ficomp" }, { 0xDF, 0xDB, 0xDF, 0, "fild", 5 }, { 0xDF, 0xDB, 0x00, 2, "fist" }, { 0xDF, 0xDB, 0xDF, 3, "fistp", 7 }, { 0xDF, 0xDB, 0xDD, 1, "fisttp" }, { 0x00, 0xD9, 0xDD, 0, "fld" }, { 0x00, 0xD8, 0xDC, 1, "fmul" }, { 0xDE, 0xDA, 0x00, 1, "fimul" }, { 0x00, 0xD9, 0xDD, 2, "fst" }, { 0x00, 0xD9, 0xDD, 3, "fstp" }, { 0x00, 0xD8, 0xDC, 4, "fsub" }, { 0xDE, 0xDA, 0x00, 4, "fisub" }, { 0x00, 0xD8, 0xDC, 5, "fsubr" }, { 0xDE, 0xDA, 0x00, 5, "fisubr" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Address& addr) { opFpuMem(addr, 0x%02X, 0x%02X, 0x%02X, %d, %d); }\n", p->name, p->m16, p->m32, p->m64, p->ext, p->m64ext); } } { const struct Tbl { uint32_t code1; uint32_t code2; const char *name; } tbl[] = { { 0xD8C0, 0xDCC0, "fadd" }, { 0x0000, 0xDEC0, "faddp" }, { 0xDAC0, 0x00C0, "fcmovb" }, { 0xDAC8, 0x00C8, "fcmove" }, { 0xDAD0, 0x00D0, "fcmovbe" }, { 0xDAD8, 0x00D8, "fcmovu" }, { 0xDBC0, 0x00C0, "fcmovnb" }, { 0xDBC8, 0x00C8, "fcmovne" }, { 0xDBD0, 0x00D0, "fcmovnbe" }, { 0xDBD8, 0x00D8, "fcmovnu" }, { 0xDBF0, 0x00F0, "fcomi" }, { 0xDFF0, 0x00F0, "fcomip" }, { 0xDBE8, 0x00E8, "fucomi" }, { 0xDFE8, 0x00E8, "fucomip" }, { 0xD8F0, 0xDCF8, "fdiv" }, { 0x0000, 0xDEF8, "fdivp" }, { 0xD8F8, 0xDCF0, "fdivr" }, { 0x0000, 0xDEF0, "fdivrp" }, { 0xD8C8, 0xDCC8, "fmul" }, { 0x0000, 0xDEC8, "fmulp" }, { 0xD8E0, 0xDCE8, "fsub" }, { 0x0000, 0xDEE8, "fsubp" }, { 0xD8E8, 0xDCE0, "fsubr" }, { 0x0000, 0xDEE0, "fsubrp" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Fpu& reg1, const Fpu& reg2) { opFpuFpu(reg1, reg2, 0x%04X, 0x%04X); }\n", p->name, p->code1, p->code2); // omit st0 version(like nasm) if (p->code1) { printf("void %s(const Fpu& reg1) { opFpuFpu(st0, reg1, 0x%04X, 0x%04X); }\n", p->name, p->code1, p->code2); } else { printf("void %s(const Fpu& reg1) { opFpuFpu(reg1, st0, 0x%04X, 0x%04X); }\n", p->name, p->code1, p->code2); } } } { const struct Tbl { uint8_t code1; uint8_t code2; const char *name; } tbl[] = { { 0xD8, 0xD0, "fcom" }, { 0xD8, 0xD8, "fcomp" }, { 0xDD, 0xC0, "ffree" }, { 0xD9, 0xC0, "fld" }, { 0xDD, 0xD0, "fst" }, { 0xDD, 0xD8, "fstp" }, { 0xDD, 0xE0, "fucom" }, { 0xDD, 0xE8, "fucomp" }, { 0xD9, 0xC8, "fxch" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Fpu& reg) { opFpu(reg, 0x%02X, 0x%02X); }\n", p->name, p->code1, p->code2); } } // AVX { // pd, ps, sd, ss const struct Tbl { uint8_t code; const char *name; bool only_pd_ps; } tbl[] = { { 0x58, "add", false }, { 0x5C, "sub", false }, { 0x59, "mul", false }, { 0x5E, "div", false }, { 0x5F, "max", false }, { 0x5D, "min", false }, { 0x54, "and", true }, { 0x55, "andn", true }, { 0x56, "or", true }, { 0x57, "xor", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void v%spd(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, T_0F | T_66 | T_EW1 | T_YMM | T_EVEX | T_ER_Z | T_B64, 0x%02X); }\n", p->name, p->code); printf("void v%sps(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, T_0F | T_EW0 | T_YMM | T_EVEX | T_ER_Z | T_B32, 0x%02X); }\n", p->name, p->code); if (p->only_pd_ps) continue; printf("void v%ssd(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, T_0F | T_F2 | T_EW1 | T_EVEX | T_ER_X | T_N8, 0x%02X); }\n", p->name, p->code); printf("void v%sss(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, T_0F | T_F3 | T_EW0 | T_EVEX | T_ER_X | T_N4, 0x%02X); }\n", p->name, p->code); } } putX_X_XM(false); // (x, x/m[, imm]) or (y, y/m[, imm]) { const struct Tbl { uint8_t code; const char *name; uint64_t type; bool hasIMM; int mode; // 1 : SSE, 2 : AVX, 3 : SSE + AVX } tbl[] = { { 0x15, "blendvpd", T_0F38 | T_66, false, 1 }, { 0x14, "blendvps", T_0F38 | T_66, false, 1 }, { 0x10, "pblendvb", T_0F38 | T_66, false, 1 }, { 0xDF, "aeskeygenassist", T_0F3A | T_66, true, 3 }, { 0xDB, "aesimc", T_0F38 | T_66 | T_W0, false, 3 }, { 0x09, "roundpd", T_0F3A | T_66 | T_YMM, true, 3 }, { 0x08, "roundps", T_0F3A | T_66 | T_YMM, true, 3 }, { 0x05, "permilpd", T_0F3A | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64, true, 2 }, { 0x04, "permilps", T_0F3A | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, true, 2 }, { 0x61, "pcmpestri", T_0F3A | T_66, true, 3 }, { 0x60, "pcmpestrm", T_0F3A | T_66, true, 3 }, { 0x63, "pcmpistri", T_0F3A | T_66, true, 3 }, { 0x62, "pcmpistrm", T_0F3A | T_66, true, 3 }, { 0x0E, "testps", T_0F38 | T_66 | T_YMM, false, 2 }, { 0x0F, "testpd", T_0F38 | T_66 | T_YMM, false, 2 }, { 0x2F, "comisd", T_0F | T_66 | T_EVEX | T_EW1 | T_SAE_X | T_N8, false, 2 }, { 0x2F, "comiss", T_0F | T_EVEX | T_EW0 | T_SAE_X | T_N4, false, 2 }, { 0x5B, "cvtdq2ps", T_0F | T_YMM | T_EVEX | T_EW0 | T_B32 | T_ER_Z, false, 2 }, { 0x5B, "cvtps2dq", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32 | T_ER_Z, false, 2 }, { 0x5B, "cvttps2dq", T_0F | T_F3 | T_YMM | T_EVEX | T_EW0 | T_B32 | T_SAE_Z, false, 2 }, { 0x28, "movapd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1, false, 2 }, { 0x28, "movaps", T_0F | T_YMM | T_EVEX | T_EW0, false, 2 }, { 0x12, "movddup", T_0F | T_F2 | T_YMM | T_EVEX | T_EW1 | T_ER_X | T_ER_Y | T_ER_Z | T_DUP, false, 3 }, { 0x6F, "movdqa", T_0F | T_66 | T_YMM, false, 2 }, { 0x6F, "movdqu", T_0F | T_F3 | T_YMM, false, 2 }, { 0x16, "movshdup", T_0F | T_F3 | T_YMM | T_EVEX | T_EW0, false, 3 }, { 0x12, "movsldup", T_0F | T_F3 | T_YMM | T_EVEX | T_EW0, false, 3 }, { 0x10, "movupd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1, false, 2 }, { 0x10, "movups", T_0F | T_YMM | T_EVEX | T_EW0, false, 2 }, { 0x1C, "pabsb", T_0F38 | T_66 | T_YMM | T_EVEX, false, 2 }, { 0x1D, "pabsw", T_0F38 | T_66 | T_YMM | T_EVEX, false, 2 }, { 0x1E, "pabsd", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, false, 2 }, { 0x41, "phminposuw", T_0F38 | T_66, false, 3 }, { 0x20, "pmovsxbw", T_0F38 | T_66 | T_YMM | T_EVEX | T_N8 | T_N_VL, false, 3 }, { 0x21, "pmovsxbd", T_0F38 | T_66 | T_YMM | T_EVEX | T_N4 | T_N_VL, false, 3 }, { 0x22, "pmovsxbq", T_0F38 | T_66 | T_YMM | T_EVEX | T_N2 | T_N_VL, false, 3 }, { 0x23, "pmovsxwd", T_0F38 | T_66 | T_YMM | T_EVEX | T_N8 | T_N_VL, false, 3 }, { 0x24, "pmovsxwq", T_0F38 | T_66 | T_YMM | T_EVEX | T_N4 | T_N_VL, false, 3 }, { 0x25, "pmovsxdq", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_N8 | T_N_VL, false, 3 }, { 0x30, "pmovzxbw", T_0F38 | T_66 | T_YMM | T_EVEX | T_N8 | T_N_VL, false, 3 }, { 0x31, "pmovzxbd", T_0F38 | T_66 | T_YMM | T_EVEX | T_N4 | T_N_VL, false, 3 }, { 0x32, "pmovzxbq", T_0F38 | T_66 | T_YMM | T_EVEX | T_N2 | T_N_VL, false, 3 }, { 0x33, "pmovzxwd", T_0F38 | T_66 | T_YMM | T_EVEX | T_N8 | T_N_VL, false, 3 }, { 0x34, "pmovzxwq", T_0F38 | T_66 | T_YMM | T_EVEX | T_N4 | T_N_VL, false, 3 }, { 0x35, "pmovzxdq", T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0 | T_N8 | T_N_VL, false, 3 }, { 0x70, "pshufd", T_0F | T_66 | T_YMM | T_EVEX | T_EW0 | T_B32, true, 2 }, { 0x70, "pshufhw", T_0F | T_F3 | T_YMM | T_EVEX, true, 2 }, { 0x70, "pshuflw", T_0F | T_F2 | T_YMM | T_EVEX, true, 2 }, { 0x17, "ptest", T_0F38 | T_66 | T_YMM, false, 3 }, { 0x53, "rcpps", T_0F | T_YMM, false, 2 }, { 0x52, "rsqrtps", T_0F | T_YMM, false, 2 }, { 0x51, "sqrtpd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_ER_Z | T_B64, false, 2 }, { 0x51, "sqrtps", T_0F | T_YMM | T_EVEX | T_EW0 | T_ER_Z | T_B32, false, 2 }, { 0x2E, "ucomisd", T_0F | T_66 | T_EVEX | T_EW1 | T_SAE_X | T_N8, false, 2 }, { 0x2E, "ucomiss", T_0F | T_EVEX | T_EW0 | T_SAE_X | T_N4, false, 2 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); if (p->mode & 1) { const char *immS1 = p->hasIMM ? ", uint8_t imm" : ""; const char *immS2 = p->hasIMM ? ", imm" : ", NONE"; printf("void %s(const Xmm& xmm, const Operand& op%s) { opSSE(xmm, op, %s, 0x%02X, isXMM_XMMorMEM%s); }\n", p->name, immS1, s.c_str(), p->code, immS2); } if (p->mode & 2) { printf("void v%s(const Xmm& xm, const Operand& op%s) { opAVX_X_XM_IMM(xm, op, %s, 0x%02X%s); }\n" , p->name, p->hasIMM ? ", uint8_t imm" : "", s.c_str(), p->code, p->hasIMM ? ", imm" : ""); } } } // sha { const struct Tbl { uint8_t code; uint8_t code2; const char *name; } tbl[] = { { 0xC8, 0xD8, "sha1nexte" }, { 0xC9, 0xD9, "sha1msg1" }, { 0xCA, 0xDA, "sha1msg2" }, { 0xCB, 0xDB, "sha256rnds2" }, { 0xCC, 0xDC, "sha256msg1" }, { 0xCD, 0xDD, "sha256msg2" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void %s(const Xmm& x, const Operand& op) { opSSE_APX(x, op, T_0F38, 0x%02X, T_MUST_EVEX, 0x%02X); }\n", p->name, p->code, p->code2); } puts("void sha1rnds4(const Xmm& x, const Operand& op, uint8_t imm) { opSSE_APX(x, op, T_0F3A, 0xCC, T_MUST_EVEX, 0xD4, imm); }"); } // (m, x), (m, y) { const struct Tbl { uint8_t code; const char *name; uint64_t type; } tbl[] = { { 0x29, "movapd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_M_K }, { 0x29, "movaps", T_0F | T_YMM | T_EVEX | T_EW0 | T_M_K }, { 0x7F, "movdqa", T_0F | T_66 | T_YMM }, { 0x7F, "movdqu", T_0F | T_F3 | T_YMM }, { 0x11, "movupd", T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_M_K }, { 0x11, "movups", T_0F | T_YMM | T_EVEX | T_EW0 | T_M_K }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); printf("void v%s(const Address& addr, const Xmm& xmm) { opAVX_X_XM_IMM(xmm, addr, %s, 0x%02X); }\n" , p->name, s.c_str(), p->code); } } // (x, x/m), (y, y/m), (x, x, x/m), (y, y, y/m) { const struct Tbl { uint8_t code; const char *name; uint64_t type; int mode; // 1 : sse, 2 : avx, 3 : sse + avx } tbl[] = { { 0xD0, "addsubpd", T_0F | T_66 | T_YMM, 3 }, { 0xD0, "addsubps", T_0F | T_F2 | T_YMM, 3 }, { 0x7C, "haddpd", T_0F | T_66 | T_YMM, 3 }, { 0x7C, "haddps", T_0F | T_F2 | T_YMM, 3 }, { 0x7D, "hsubpd", T_0F | T_66 | T_YMM, 3 }, { 0x7D, "hsubps", T_0F | T_F2 | T_YMM, 3 }, { 0xDC, "aesenc", T_0F38 | T_66 | T_YMM | T_EVEX, 3 }, { 0xDD, "aesenclast", T_0F38 | T_66 | T_YMM | T_EVEX, 3 }, { 0xDE, "aesdec", T_0F38 | T_66 | T_YMM | T_EVEX, 3 }, { 0xDF, "aesdeclast", T_0F38 | T_66 | T_YMM | T_EVEX, 3 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); if (p->mode & 1) { printf("void %s(const Xmm& xmm, const Operand& op) { opSSE(xmm, op, %s, 0x%02X, isXMM_XMMorMEM); }\n", p->name, s.c_str(), p->code); } if (p->mode & 2) { printf("void v%s(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, %s, 0x%02X); }\n" , p->name, s.c_str(), p->code); } } } // vmaskmov { const char suf[][8] = { "ps", "pd" }; for (int i = 0; i < 2; i++) { printf("void vmaskmov%s(const Xmm& x1, const Xmm& x2, const Address& addr) { opAVX_X_X_XM(x1, x2, addr, T_0F38 | T_66 | T_W0 | T_YMM, 0x%02X); }\n", suf[i], 0x2C + i); printf("void vmaskmov%s(const Address& addr, const Xmm& x1, const Xmm& x2) { opAVX_X_X_XM(x2, x1, addr, T_0F38 | T_66 | T_W0 | T_YMM, 0x%02X); }\n", suf[i], 0x2E + i); } } // vpmaskmov { const char suf[][8] = { "d", "q" }; for (int i = 0; i < 2; i++) { printf("void vpmaskmov%s(const Xmm& x1, const Xmm& x2, const Address& addr) { opAVX_X_X_XM(x1, x2, addr, T_0F38 | T_66 | T_W%d | T_YMM, 0x%02X); }\n", suf[i], i, 0x8C); printf("void vpmaskmov%s(const Address& addr, const Xmm& x1, const Xmm& x2) { opAVX_X_X_XM(x2, x1, addr, T_0F38 | T_66 | T_W%d | T_YMM, 0x%02X); }\n", suf[i], i, 0x8E); } } // vpermd, vpermps { const struct Tbl { uint8_t code; const char *name; uint64_t type; } tbl[] = { { 0x36, "vpermd", T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX | T_EW0 | T_B32 }, { 0x36, "vpermq", T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX | T_EW1 | T_B64 }, { 0x16, "vpermps", T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX | T_EW0 | T_B32 }, { 0x16, "vpermpd", T_66 | T_0F38 | T_MUST_EVEX | T_EW1 | T_YMM | T_B64 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; std::string s = type2String(p.type); printf("void %s(const Ymm& y1, const Ymm& y2, const Operand& op) { opAVX_X_X_XM(y1, y2, op, %s, 0x%02X); }\n", p.name, s.c_str(), p.code); } } // vpermq, vpermpd { const struct Tbl { uint8_t code; const char *name; uint64_t type; } tbl[] = { { 0x00, "vpermq", T_0F3A | T_66 | T_W1 | T_YMM | T_EVEX | T_EW1 | T_B64 }, { 0x01, "vpermpd", T_0F3A | T_66 | T_W1 | T_YMM | T_EVEX | T_EW1 | T_B64 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; std::string s = type2String(p.type); printf("void %s(const Ymm& y, const Operand& op, uint8_t imm) { opAVX_X_XM_IMM(y, op, %s, 0x%02X, imm); }\n", p.name, s.c_str(), p.code); } } // vcmpeqps { const char pred[32][16] = { "eq", "lt", "le", "unord", "neq", "nlt", "nle", "ord", "eq_uq", "nge", "ngt", "false", "neq_oq", "ge", "gt", "true", "eq_os", "lt_oq", "le_oq", "unord_s", "neq_us", "nlt_uq", "nle_uq", "ord_s", "eq_us", "nge_uq", "ngt_uq", "false_os", "neq_os", "ge_oq", "gt_oq", "true_us" }; const char suf[][4] = { "pd", "ps", "sd", "ss" }; for (int i = 0; i < 4; i++) { const char *s = suf[i]; for (int j = 0; j < 32; j++) { if (j < 8) { printf("void cmp%s%s(const Xmm& x, const Operand& op) { cmp%s(x, op, %d); }\n", pred[j], s, s, j); } printf("void vcmp%s%s(const Xmm& x1, const Xmm& x2, const Operand& op) { vcmp%s(x1, x2, op, %d); }\n", pred[j], s, s, j); } } } // vmov(h|l)(pd|ps) { const struct Tbl { bool isH; bool isPd; uint8_t code; } tbl[] = { { true, true, 0x16 }, { true, false, 0x16 }, { false, true, 0x12 }, { false, false, 0x12 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; char c = p.isH ? 'h' : 'l'; const char *suf = p.isPd ? "pd" : "ps"; std::string s = type2String(p.isPd ? (T_0F | T_66 | T_EVEX | T_EW1 | T_N8) : (T_0F | T_EVEX | T_EW0 | T_N8)); printf("void vmov%c%s(const Xmm& x, const Operand& op1, const Operand& op2 = Operand()) { if (!op2.isNone() && !op2.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x, op1, op2, %s, 0x%02X); }\n" , c, suf, s.c_str(), p.code); printf("void vmov%c%s(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, %s, 0x%02X); }\n" , c, suf, s.c_str(), p.code + 1); } } // FMA { const struct Tbl { uint8_t code; const char *name; bool supportYMM; } tbl[] = { { 0x08, "vfmadd", true }, { 0x09, "vfmadd", false }, { 0x06, "vfmaddsub", true }, { 0x07, "vfmsubadd", true }, { 0x0A, "vfmsub", true }, { 0x0B, "vfmsub", false }, { 0x0C, "vfnmadd", true }, { 0x0D, "vfnmadd", false }, { 0x0E, "vfnmsub", true }, { 0x0F, "vfnmsub", false }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { for (int j = 0; j < 2; j++) { const char sufTbl[][2][8] = { { "pd", "ps" }, { "sd", "ss" }, }; for (int k = 0; k < 3; k++) { const struct Ord { const char *str; uint8_t code; } ord[] = { { "132", 0x90 }, { "213", 0xA0 }, { "231", 0xB0 }, }; int t = T_0F38 | T_66 | T_EVEX; t |= (j == 0) ? (T_W1 | T_EW1) : (T_W0 | T_EW0); if (tbl[i].supportYMM) t |= T_YMM; const std::string suf = sufTbl[tbl[i].supportYMM ? 0 : 1][j]; if (suf == "pd") { t |= T_B64; } else if (suf == "ps") { t |= T_B32; } else if (suf == "sd") { t |= T_ER_X | T_N8; } else { // ss t |= T_ER_X | T_N4; } std::string s = type2String(t); printf("void %s%s%s(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, %s, 0x%02X); }\n" , tbl[i].name, ord[k].str, suf.c_str(), s.c_str(), tbl[i].code + ord[k].code); } } } } // FMA others { printf("void vbroadcastf128(const Ymm& y, const Address& addr) { opAVX_X_XM_IMM(y, addr, T_0F38 | T_66 | T_W0 | T_YMM, 0x1A); }\n"); printf("void vbroadcasti128(const Ymm& y, const Address& addr) { opAVX_X_XM_IMM(y, addr, T_0F38 | T_66 | T_W0 | T_YMM, 0x5A); }\n"); printf("void vbroadcastsd(const Ymm& y, const Operand& op) { if (!op.isMEM() && !(y.isYMM() && op.isXMM()) && !(y.isZMM() && op.isXMM())) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_XM_IMM(y, op, T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW1 | T_N8, 0x19); }\n"); const struct Tbl { const char *name; uint8_t code; uint64_t type; bool ew1; } tbl[] = { { "vbroadcastss", 0x18, T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_N4 }, { "vpbroadcastb", 0x78, T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_N1 }, { "vpbroadcastw", 0x79, T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_N2 }, { "vpbroadcastd", 0x58, T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_N4 }, { "vpbroadcastq", 0x59, T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW1 | T_N8 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; std::string s = type2String(p.type); printf("void %s(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_XM_IMM(x, op, %s, 0x%02X); }\n", p.name, s.c_str(), p.code); } puts("void vextractf128(const Operand& op, const Ymm& y, uint8_t imm) { if (!(op.isXMEM() && y.isYMM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(y, 0, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x19, imm); }"); puts("void vextracti128(const Operand& op, const Ymm& y, uint8_t imm) { if (!(op.isXMEM() && y.isYMM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(y, 0, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x39, imm); }"); puts("void vextractps(const Operand& op, const Xmm& x, uint8_t imm) { if (!((op.isREG(32) || op.isMEM()) && x.isXMM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x, 0, op, T_0F3A | T_66 | T_W0 | T_EVEX | T_N4, 0x17, imm); }"); puts("void vinsertf128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8_t imm) { if (!(y1.isYMM() && y2.isYMM() && op.isXMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x18, imm); }"); puts("void vinserti128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8_t imm) { if (!(y1.isYMM() && y2.isYMM() && op.isXMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x38, imm); }"); puts("void vperm2f128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8_t imm) { if (!(y1.isYMM() && y2.isYMM() && op.isYMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x06, imm); }"); puts("void vperm2i128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8_t imm) { if (!(y1.isYMM() && y2.isYMM() && op.isYMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x46, imm); }"); puts("void vlddqu(const Xmm& x, const Address& addr) { opAVX_X_X_XM(x, cvtIdx0(x), addr, T_0F | T_F2 | T_W0 | T_YMM, 0xF0); }"); puts("void vldmxcsr(const Address& addr) { opAVX_X_X_XM(xm2, xm0, addr, T_0F, 0xAE); }"); puts("void vstmxcsr(const Address& addr) { opAVX_X_X_XM(xm3, xm0, addr, T_0F, 0xAE); }"); puts("void vmaskmovdqu(const Xmm& x1, const Xmm& x2) { opAVX_X_X_XM(x1, xm0, x2, T_0F | T_66, 0xF7); }"); puts("void vpextrb(const Operand& op, const Xmm& x, uint8_t imm) { if (!((op.isREG(8|16|i32e) || op.isMEM()) && x.isXMM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x, 0, op, T_0F3A | T_66 | T_EVEX | T_N1, 0x14, imm); }"); puts("void vpextrw(const Operand& op, const Xmm& x, uint8_t imm) { if (!((op.isREG(16|i32e) || op.isMEM()) && x.isXMM())) XBYAK_THROW(ERR_BAD_COMBINATION) if (op.isREG() && x.getIdx() < 16) { opAVX_X_X_XM(Xmm(op.getIdx()), xm0, x, T_0F | T_66, 0xC5, imm); } else { opVex(x, 0, op, T_0F3A | T_66 | T_EVEX | T_N2, 0x15, imm); } }"); puts("void vpextrd(const Operand& op, const Xmm& x, uint8_t imm) { if (!((op.isREG(32) || op.isMEM()) && x.isXMM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x, 0, op, T_0F3A | T_66 | T_W0 | T_EVEX | T_EW0 | T_N4, 0x16, imm); }"); puts("void vpextrq(const Operand& op, const Xmm& x, uint8_t imm) { if (!((op.isREG(64) || op.isMEM()) && x.isXMM())) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x, 0, op, T_0F3A | T_66 | T_W1 | T_EVEX | T_EW1 | T_N8, 0x16, imm); }"); puts("void vpinsrb(const Xmm& x1, const Xmm& x2, const Operand& op, uint8_t imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(32) || op.isMEM()))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x1, &x2, op, T_0F3A | T_66 | T_EVEX | T_N1, 0x20, imm); }"); puts("void vpinsrw(const Xmm& x1, const Xmm& x2, const Operand& op, uint8_t imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(32) || op.isMEM()))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x1, &x2, op, T_0F | T_66 | T_EVEX | T_N2, 0xC4, imm); }"); puts("void vpinsrd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8_t imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(32) || op.isMEM()))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x1, &x2, op, T_0F3A | T_66 | T_W0 | T_EVEX | T_EW0 | T_N4, 0x22, imm); }"); puts("void vpinsrq(const Xmm& x1, const Xmm& x2, const Operand& op, uint8_t imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(64) || op.isMEM()))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x1, &x2, op, T_0F3A | T_66 | T_W1 | T_EVEX | T_EW1 | T_N8, 0x22, imm); }"); puts("void vpmovmskb(const Reg32e& r, const Xmm& x) { if (!x.is(Operand::XMM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(x.isYMM() ? Ymm(r.getIdx()) : Xmm(r.getIdx()), 0, x, T_0F | T_66 | T_YMM, 0xD7); }"); } // (x, x, imm), (x, imm) { const struct Tbl { const char *name; uint8_t code; int idx; uint64_t type; } tbl[] = { { "pslldq", 0x73, 7, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX }, { "psrldq", 0x73, 3, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX }, { "psllw", 0x71, 6, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX }, { "pslld", 0x72, 6, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX | T_EW0 | T_B32 }, { "psllq", 0x73, 6, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX | T_EW1 | T_B64 }, { "psraw", 0x71, 4, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX }, { "psrad", 0x72, 4, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX | T_EW0 | T_B32 }, { "psrlw", 0x71, 2, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX }, { "psrld", 0x72, 2, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX | T_EW0 | T_B32 }, { "psrlq", 0x73, 2, T_0F | T_66 | T_YMM | T_EVEX | T_MEM_EVEX | T_EW1 | T_B64 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; std::string s = type2String(p.type); printf("void v%s(const Xmm& x, const Operand& op, uint8_t imm) { opAVX_X_X_XM(Xmm(x.getKind(), %d), x, op, %s, 0x%02X, imm); }\n", p.name, p.idx, s.c_str(), p.code); } } // 4-op { const struct Tbl { const char *name; uint8_t code; } tbl[] = { { "vblendvpd", 0x4B }, { "vblendvps", 0x4A }, { "vpblendvb", 0x4C }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; printf("void %s(const Xmm& x1, const Xmm& x2, const Operand& op, const Xmm& x4) { opAVX_X_X_XM(x1, x2, op, T_0F3A | T_66 | T_YMM, 0x%02X, x4.getIdx() << 4); }\n", p.name, p.code); } } // mov { printf("void vmovd(const Xmm& x, const Operand& op) { if (!op.isREG(32) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x, xm0, op, T_0F | T_66 | T_W0 | T_EVEX | T_N4, 0x6E); }\n"); printf("void vmovd(const Operand& op, const Xmm& x) { if (!op.isREG(32) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x, xm0, op, T_0F | T_66 | T_W0 | T_EVEX | T_N4, 0x7E); }\n"); printf("void vmovq(const Xmm& x, const Address& addr) { uint64_t type; uint8_t code; if (x.getIdx() < 16) { type = T_0F | T_F3; code = 0x7E; } else { type = T_0F | T_66 | T_EVEX | T_EW1 | T_N8; code = 0x6E; } opAVX_X_X_XM(x, xm0, addr, type, code); }\n"); printf("void vmovq(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, T_0F | T_66 | T_EVEX | T_EW1 | T_N8, x.getIdx() < 16 ? 0xD6 : 0x7E); }\n"); printf("void vmovq(const Xmm& x1, const Xmm& x2) { opAVX_X_X_XM(x1, xm0, x2, T_0F | T_F3 | T_EVEX | T_EW1 | T_N8, 0x7E); }\n"); printf("void vmovhlps(const Xmm& x1, const Xmm& x2, const Operand& op = Operand()) { if (!op.isNone() && !op.isXMM()) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x1, x2, op, T_0F | T_EVEX | T_EW0, 0x12); }\n"); printf("void vmovlhps(const Xmm& x1, const Xmm& x2, const Operand& op = Operand()) { if (!op.isNone() && !op.isXMM()) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x1, x2, op, T_0F | T_EVEX | T_EW0, 0x16); }\n"); printf("void vmovmskpd(const Reg& r, const Xmm& x) { if (!r.isBit(i32e)) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x.isXMM() ? Xmm(r.getIdx()) : Ymm(r.getIdx()), cvtIdx0(x), x, T_0F | T_66 | T_W0 | T_YMM, 0x50); }\n"); printf("void vmovmskps(const Reg& r, const Xmm& x) { if (!r.isBit(i32e)) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x.isXMM() ? Xmm(r.getIdx()) : Ymm(r.getIdx()), cvtIdx0(x), x, T_0F | T_W0 | T_YMM, 0x50); }\n"); puts("void vmovntdq(const Address& addr, const Xmm& x) { opVex(x, 0, addr, T_0F | T_66 | T_YMM | T_EVEX | T_EW0, 0xE7); }"); puts("void vmovntpd(const Address& addr, const Xmm& x) { opVex(x, 0, addr, T_0F | T_66 | T_YMM | T_EVEX | T_EW1, 0x2B); }"); puts("void vmovntps(const Address& addr, const Xmm& x) { opVex(x, 0, addr, T_0F | T_YMM | T_EVEX | T_EW0, 0x2B); }"); puts("void vmovntdqa(const Xmm& x, const Address& addr) { opVex(x, 0, addr, T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0, 0x2A); }"); // vmovsd, vmovss for (int i = 0; i < 2; i++) { char c1 = i == 0 ? 'd' : 's'; uint64_t type = T_0F | T_EVEX; type |= i == 0 ? (T_F2 | T_EW1 | T_N8) : (T_F3 | T_EW0 | T_N4); std::string s = type2String(type); printf("void vmovs%c(const Xmm& x1, const Xmm& x2, const Operand& op = Operand()) { if (!op.isNone() && !op.isXMM()) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_X_XM(x1, x2, op, %s, 0x10); }\n", c1, s.c_str()); printf("void vmovs%c(const Xmm& x, const Address& addr) { opAVX_X_X_XM(x, xm0, addr, %s, 0x10); }\n", c1, s.c_str()); printf("void vmovs%c(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, %s | T_M_K, 0x11); }\n", c1, s.c_str()); } } // cvt { puts("void vcvtss2si(const Reg32& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F3 | T_W0 | T_EVEX | T_EW0 | T_ER_X | T_N8, 0x2D); }"); puts("void vcvttss2si(const Reg32& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F3 | T_W0 | T_EVEX | T_EW0 | T_SAE_X | T_N8, 0x2C); }"); puts("void vcvtsd2si(const Reg32& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F2 | T_W0 | T_EVEX | T_EW0 | T_N4 | T_ER_X, 0x2D); }"); puts("void vcvttsd2si(const Reg32& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F2 | T_W0 | T_EVEX | T_EW0 | T_N4 | T_SAE_X, 0x2C); }"); puts("void vcvtsi2ss(const Xmm& x1, const Xmm& x2, const Operand& op) { opCvt3(x1, x2, op, T_0F | T_F3 | T_EVEX | T_ER_X, T_W1 | T_EW1 | T_N8, T_W0 | T_EW0 | T_N4, 0x2A); }"); puts("void vcvtsi2sd(const Xmm& x1, const Xmm& x2, const Operand& op) { opCvt3(x1, x2, op, T_0F | T_F2 | T_EVEX, T_W1 | T_EW1 | T_ER_X | T_N8, T_W0 | T_EW0 | T_N4, 0x2A); }"); puts("void vcvtps2pd(const Xmm& x, const Operand& op) { checkCvt1(x, op); opVex(x, 0, op, T_0F | T_YMM | T_EVEX | T_EW0 | T_B32 | T_N8 | T_N_VL | T_SAE_Y, 0x5A); }"); puts("void vcvtdq2pd(const Xmm& x, const Operand& op) { checkCvt1(x, op); opVex(x, 0, op, T_0F | T_F3 | T_YMM | T_EVEX | T_EW0 | T_B32 | T_N8 | T_N_VL, 0xE6); }"); puts("void vcvtpd2ps(const Xmm& x, const Operand& op) { opCvt2(x, op, T_0F | T_66 | T_YMM | T_EVEX | T_EW1 | T_B64 | T_ER_Z, 0x5A); }"); puts("void vcvtpd2dq(const Xmm& x, const Operand& op) { opCvt2(x, op, T_0F | T_F2 | T_YMM | T_EVEX | T_EW1 | T_B64 | T_ER_Z, 0xE6); }"); puts("void vcvttpd2dq(const Xmm& x, const Operand& op) { opCvt2(x, op, T_66 | T_0F | T_YMM | T_EVEX |T_EW1 | T_B64 | T_ER_Z, 0xE6); }"); puts("void vcvtph2ps(const Xmm& x, const Operand& op) { checkCvt1(x, op); opVex(x, 0, op, T_0F38 | T_66 | T_W0 | T_EVEX | T_EW0 | T_N8 | T_N_VL | T_SAE_Y, 0x13); }"); puts("void vcvtps2ph(const Operand& op, const Xmm& x, uint8_t imm) { checkCvt1(x, op); opVex(x, 0, op, T_0F3A | T_66 | T_W0 | T_EVEX | T_EW0 | T_N8 | T_N_VL | T_SAE_Y | T_M_K, 0x1D, imm); }"); } { const struct Tbl { const char *name; uint64_t type; uint8_t code; } tbl[] = { { "vbcstnebf162ps", T_F3 | T_0F38 | T_W0 | T_B16 | T_YMM, 0xB1 }, { "vbcstnesh2ps", T_66 | T_0F38 | T_W0 | T_B16 | T_YMM, 0xB1 }, { "vcvtneebf162ps", T_F3 | T_0F38 | T_W0 | T_YMM, 0xB0 }, { "vcvtneeph2ps", T_66 | T_0F38 | T_W0 | T_YMM, 0xB0 }, { "vcvtneobf162ps", T_F2 | T_0F38 | T_W0 | T_YMM, 0xB0 }, { "vcvtneoph2ps", T_0F38 | T_W0 | T_YMM, 0xB0 } }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; printf("void %s(const Xmm& x, const Address& addr) { opVex(x, 0, addr, %s, 0x%02X); }\n", p.name, type2String(p.type).c_str(), p.code); } printf("void vcvtneps2bf16(const Xmm& x, const Operand& op, PreferredEncoding encoding = DefaultEncoding) { opCvt2(x, op, %s|orEvexIf(encoding), 0x72); }\n", type2String(T_F3 | T_0F38 | T_EW0 | T_YMM | T_SAE_Z | T_B32).c_str()); } // haswell gpr(reg, reg, r/m) { const struct Tbl { const char *name; uint64_t type; uint8_t code; } tbl[] = { { "andn", T_0F38 | T_APX | T_NF, 0xF2 }, { "mulx", T_F2 | T_0F38 | T_APX , 0xF6 }, { "pdep", T_F2 | T_0F38 | T_APX, 0xF5 }, { "pext", T_F3 | T_0F38 | T_APX, 0xF5 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; printf("void %s(const Reg32e& r1, const Reg32e& r2, const Operand& op) { opRRO(r1, r2, op, %s, 0x%x); }\n", p.name, type2String(p.type).c_str(), p.code); } } // gpr(reg, r/m, reg) { const struct Tbl { const char *name; uint64_t type; uint8_t code; } tbl[] = { { "bextr", T_0F38 | T_APX | T_NF, 0xF7 }, { "bzhi", T_0F38 | T_APX | T_NF, 0xF5 }, { "sarx", T_0F38 | T_F3 | T_APX, 0xF7 }, { "shlx", T_0F38 | T_66 | T_APX, 0xF7 }, { "shrx", T_0F38 | T_F2 | T_APX, 0xF7 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; printf("void %s(const Reg32e& r1, const Operand& op, const Reg32e& r2) { opRRO(r1, r2, op, %s, 0x%x); }\n", p.name, type2String(p.type).c_str(), p.code); } puts("void rorx(const Reg32e& r, const Operand& op, uint8_t imm) { opRRO(r, Reg32e(0, r.getBit()), op, T_0F3A|T_F2|T_APX, 0xF0, imm); }"); } // gpr(reg, r/m) { const struct Tbl { const char *name; uint64_t type; uint8_t code; uint8_t idx; } tbl[] = { { "blsi", T_0F38 | T_APX|T_NF, 0xF3, 3 }, { "blsmsk", T_0F38 | T_APX|T_NF, 0xF3, 2 }, { "blsr", T_0F38 | T_APX|T_NF, 0xF3, 1 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; printf("void %s(const Reg32e& r, const Operand& op) { opRRO(Reg32e(%d, r.getBit()), r, op, %s, 0x%x); }\n", p.name, p.idx, type2String(p.type).c_str(), p.code); } } // gather { const int y_vx_y = 0; const int y_vy_y = 1; const int x_vy_x = 2; const struct Tbl { const char *name; uint8_t code; int w; int mode; } tbl[] = { { "vgatherdpd", 0x92, 1, y_vx_y }, { "vgatherqpd", 0x93, 1, y_vy_y }, { "vgatherdps", 0x92, 0, y_vy_y }, { "vgatherqps", 0x93, 0, x_vy_x }, { "vpgatherdd", 0x90, 0, y_vy_y }, { "vpgatherqd", 0x91, 0, x_vy_x }, { "vpgatherdq", 0x90, 1, y_vx_y }, { "vpgatherqq", 0x91, 1, y_vy_y }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; printf("void %s(const Xmm& x1, const Address& addr, const Xmm& x2) { opGather(x1, addr, x2, T_0F38 | T_66 | T_YMM | T_VSIB | T_W%d, 0x%x, %d); }\n", p.name, p.w, p.code, p.mode); } } // vnni { const struct Tbl { uint8_t code; const char *name; uint64_t type; } tbl[] = { { 0x50, "vpdpbusd", T_66 | T_0F38 | T_YMM | T_EW0 | T_SAE_Z | T_B32}, { 0x51, "vpdpbusds", T_66 | T_0F38 | T_YMM | T_EW0 | T_SAE_Z | T_B32}, { 0x52, "vpdpwssd", T_66 | T_0F38 | T_YMM | T_EW0 | T_SAE_Z | T_B32}, { 0x53, "vpdpwssds", T_66 | T_0F38 | T_YMM | T_EW0 | T_SAE_Z | T_B32}, { 0xB4, "vpmadd52luq", T_66 | T_0F38 | T_YMM | T_EW1 | T_B64 }, { 0xB5, "vpmadd52huq", T_66 | T_0F38 | T_YMM | T_EW1 | T_B64 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); printf("void %s(const Xmm& x1, const Xmm& x2, const Operand& op, PreferredEncoding encoding = DefaultEncoding) { opEncoding(x1, x2, op, %s, 0x%02X, encoding); }\n", p->name, s.c_str(), p->code); } } // avx-vnni-int8 // avx-vnni-int16 { const struct Tbl { uint8_t code; const char *name; uint64_t type; } tbl[] = { { 0x50, "vpdpbssd", T_F2 | T_0F38 | T_W0 | T_YMM }, { 0x51, "vpdpbssds", T_F2 | T_0F38 | T_W0 | T_YMM }, { 0x50, "vpdpbsud", T_F3 | T_0F38 | T_W0 | T_YMM }, { 0x51, "vpdpbsuds", T_F3 | T_0F38 | T_W0 | T_YMM }, { 0x50, "vpdpbuud", T_0F38 | T_W0 | T_YMM }, { 0x51, "vpdpbuuds", T_0F38 | T_W0 | T_YMM }, { 0xD2, "vpdpwsud", T_F3 | T_0F38 | T_W0 | T_YMM }, { 0xD3, "vpdpwsuds", T_F3 | T_0F38 | T_W0 | T_YMM }, { 0xD2, "vpdpwusd", T_66 | T_0F38 | T_W0 | T_YMM }, { 0xD3, "vpdpwusds", T_66 | T_0F38 | T_W0 | T_YMM }, { 0xD2, "vpdpwuud", T_0F38 | T_W0 | T_YMM }, { 0xD3, "vpdpwuuds", T_0F38 | T_W0 | T_YMM }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s = type2String(p->type); printf("void %s(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, %s, 0x%02X); }\n", p->name, s.c_str(), p->code); } } } void put32() { put_jREGz("cx", true); put_jREGz("ecx", false); const GenericTbl tbl[] = { { "aaa", 0x37 }, { "aad", 0xD5, 0x0A }, { "aam", 0xD4, 0x0A }, { "aas", 0x3F }, { "daa", 0x27 }, { "das", 0x2F }, { "into", 0xCE }, { "popad", 0x61 }, { "popfd", 0x9D }, { "pusha", 0x60 }, { "pushad", 0x60 }, { "pushfd", 0x9C }, { "popa", 0x61 }, }; putGeneric(tbl, NUM_OF_ARRAY(tbl)); putLoadSeg("lds", 0, 0xC5); putLoadSeg("les", 0, 0xC4); } void put64() { put_jREGz("ecx", true); put_jREGz("rcx", false); { const GenericTbl tbl[] = { { "cdqe", 0x48, 0x98 }, { "cqo", 0x48, 0x99 }, { "cmpsq", 0x48, 0xA7 }, { "popfq", 0x9D }, { "pushfq", 0x9C }, { "lodsq", 0x48, 0xAD }, { "movsq", 0x48, 0xA5 }, { "scasq", 0x48, 0xAF }, { "stosq", 0x48, 0xAB }, { "syscall", 0x0F, 0x05 }, { "sysret", 0x0F, 0x07 }, { "clui", 0xF3, 0x0F, 0x01, 0xEE }, { "stui", 0xF3, 0x0F, 0x01, 0xEF }, { "testui", 0xF3, 0x0F, 0x01, 0xED }, { "uiret", 0xF3, 0x0F, 0x01, 0xEC }, }; putGeneric(tbl, NUM_OF_ARRAY(tbl)); } putMemOp("cmpxchg16b", "T_0F", 1, 0xC7, 64); putMemOp("fxrstor64", "T_0F", 1, 0xAE, 64); puts("void movq(const Reg64& reg, const Mmx& mmx) { if (mmx.isXMM()) db(0x66); opRR(mmx, reg, T_0F, 0x7E); }"); puts("void movq(const Mmx& mmx, const Reg64& reg) { if (mmx.isXMM()) db(0x66); opRR(mmx, reg, T_0F, 0x6E); }"); puts("void movsxd(const Reg64& reg, const Operand& op) { if (!op.isBit(32)) XBYAK_THROW(ERR_BAD_COMBINATION) opRO(reg, op, 0, 0x63); }"); puts("void pextrq(const Operand& op, const Xmm& xmm, uint8_t imm) { if (!op.isREG(64) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opSSE(Reg64(xmm.getIdx()), op, T_66 | T_0F3A, 0x16, 0, imm); }"); puts("void pinsrq(const Xmm& xmm, const Operand& op, uint8_t imm) { if (!op.isREG(64) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opSSE(Reg64(xmm.getIdx()), op, T_66 | T_0F3A, 0x22, 0, imm); }"); puts("void senduipi(const Reg64& r) { opRR(Reg32(6), r.cvt32(), T_F3 | T_0F, 0xC7); }"); puts("void vcvtss2si(const Reg64& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F3 | T_W1 | T_EVEX | T_EW1 | T_ER_X | T_N8, 0x2D); }"); puts("void vcvttss2si(const Reg64& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F3 | T_W1 | T_EVEX | T_EW1 | T_SAE_X | T_N8, 0x2C); }"); puts("void vcvtsd2si(const Reg64& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F2 | T_W1 | T_EVEX | T_EW1 | T_N4 | T_ER_X, 0x2D); }"); puts("void vcvttsd2si(const Reg64& r, const Operand& op) { opAVX_X_X_XM(Xmm(r.getIdx()), xm0, op, T_0F | T_F2 | T_W1 | T_EVEX | T_EW1 | T_N4 | T_SAE_X, 0x2C); }"); puts("void vmovq(const Xmm& x, const Reg64& r) { opAVX_X_X_XM(x, xm0, Xmm(r.getIdx()), T_66 | T_0F | T_W1 | T_EVEX | T_EW1, 0x6E); }"); puts("void vmovq(const Reg64& r, const Xmm& x) { opAVX_X_X_XM(x, xm0, Xmm(r.getIdx()), T_66 | T_0F | T_W1 | T_EVEX | T_EW1, 0x7E); }"); puts("void jmpabs(uint64_t addr) { db(0xD5); db(0x00); db(0xA1); dq(addr); }"); puts("void push2(const Reg64& r1, const Reg64& r2) { opROO(r1, r2, Reg64(6), T_APX|T_ND1|T_W0, 0xFF); }"); puts("void push2p(const Reg64& r1, const Reg64& r2) { opROO(r1, r2, Reg64(6), T_APX|T_ND1|T_W1, 0xFF); }"); puts("void pop2(const Reg64& r1, const Reg64& r2) { opROO(r1, r2, Reg64(0), T_APX|T_ND1|T_W0, 0x8F); }"); puts("void pop2p(const Reg64& r1, const Reg64& r2) { opROO(r1, r2, Reg64(0), T_APX|T_ND1|T_W1, 0x8F); }"); // CMPccXADD { const struct Tbl { const char *name; uint8_t code; } tbl[] = { { "be", 0xE6 }, { "b", 0xE2 }, { "le", 0xEE }, { "l", 0xEC }, { "nbe", 0xE7 }, { "nb", 0xE3 }, { "nle", 0xEF }, { "nl", 0xED }, { "no", 0xE1 }, { "np", 0xEB }, { "ns", 0xE9 }, { "nz", 0xE5 }, { "o", 0xE0 }, { "p", 0xEA }, { "s", 0xE8 }, { "z", 0xE4 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; printf("void cmp%sxadd(const Address& addr, const Reg32e& r1, const Reg32e& r2) { opRRO(r1, r2, addr, T_APX|T_66|T_0F38, 0x%02X); }\n", p->name, p->code); } } // aes { const struct Tbl { const char *name; uint64_t type1; uint64_t type2; uint8_t code; int idx; } tbl[] = { { "aesdec128kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xDD, 8 }, { "aesdec256kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xDF, 8 }, { "aesdecwide128kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xD8, 1 }, { "aesdecwide256kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xD8, 3 }, { "aesenc128kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xDC, 8 }, { "aesenc256kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xDE, 8 }, { "aesencwide128kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xD8, 0 }, { "aesencwide256kl", T_F3|T_0F38, T_MUST_EVEX|T_F3, 0xD8, 2 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; std::string s1 = type2String(p->type1); std::string s2 = type2String(p->type2); if (p->idx == 8) { printf("void %s(const Xmm& x, const Address& addr) { opSSE_APX(x, addr, %s, 0x%02X, %s, 0x%02X); }\n", p->name, s1.c_str(), p->code, s2.c_str(), p->code); } else { printf("void %s(const Address& addr) { opSSE_APX(xmm%d, addr, %s, 0x%02X, %s, 0x%02X); }\n", p->name, p->idx, s1.c_str(), p->code, s2.c_str(), p->code); } } } // encodekey puts("void encodekey128(const Reg32& r1, const Reg32& r2) { opEncodeKey(r1, r2, 0xFA, 0xDA); }"); puts("void encodekey256(const Reg32& r1, const Reg32& r2) { opEncodeKey(r1, r2, 0xFB, 0xDB); }"); } void putAMX_TILE() { puts("void ldtilecfg(const Address& addr) { if (opROO(Reg(), addr, tmm0, T_APX|T_0F38|T_W0, 0x49)) return; opVex(tmm0, &tmm0, addr, T_0F38|T_W0, 0x49); }"); puts("void sttilecfg(const Address& addr) { if (opROO(Reg(), addr, tmm0, T_APX|T_66|T_0F38|T_W0, 0x49)) return; opVex(tmm0, &tmm0, addr, T_66|T_0F38 | T_W0, 0x49); }"); puts("void tileloadd(const Tmm& tm, const Address& addr) { opAMX(tm, addr, T_F2|T_0F38|T_W0, 0x4B); }"); puts("void tileloaddt1(const Tmm& tm, const Address& addr) { opAMX(tm, addr, T_66|T_0F38|T_W0, 0x4B); }"); puts("void tilerelease() { db(0xc4); db(0xe2); db(0x78); db(0x49); db(0xc0); }"); puts("void tilestored(const Address& addr, const Tmm& tm) { if (opROO(Reg(), addr, tm, T_APX|T_F3|T_0F38|T_W0, 0x4B)) return; opVex(tm, &tmm0, addr, T_F3|T_0F38|T_W0, 0x4B); }"); puts("void tilezero(const Tmm& Tmm) { opVex(Tmm, &tmm0, tmm0, T_F2 | T_0F38 | T_W0, 0x49); }"); } void putAMX_INT8() { puts("void tdpbssd(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_F2 | T_0F38 | T_W0, 0x5e); }"); puts("void tdpbsud(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_F3 | T_0F38 | T_W0, 0x5e); }"); puts("void tdpbusd(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_66 | T_0F38 | T_W0, 0x5e); }"); puts("void tdpbuud(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_0F38 | T_W0, 0x5e); }"); puts("void tdpfp16ps(const Tmm &x1, const Tmm &x2, const Tmm &x3) { opVex(x1, &x3, x2, T_F2 | T_0F38 | T_W0, 0x5c); }"); } void putAMX_BF16() { puts("void tdpbf16ps(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_F3 | T_0F38 | T_W0, 0x5c); }"); } void putFixed() { puts("#ifdef XBYAK64"); put64(); putAMX_TILE(); putAMX_INT8(); putAMX_BF16(); puts("#else"); put32(); puts("#endif"); puts("#ifndef XBYAK_NO_OP_NAMES"); const char *tbl[] = { "and", "or", "xor", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; printf("void %s(const Operand& op1, const Operand& op2) { %s_(op1, op2); }\n", name, name); printf("void %s(const Operand& op, uint32_t imm) { %s_(op, imm); }\n", name, name); } puts("void not(const Operand& op) { not_(op); }"); puts("#endif"); } void putOmit() { puts("void vpinsrb(const Xmm& x, const Operand& op, uint8_t imm) { vpinsrb(x, x, op, imm); }"); puts("void vpinsrd(const Xmm& x, const Operand& op, uint8_t imm) { vpinsrd(x, x, op, imm); }"); puts("void vpinsrq(const Xmm& x, const Operand& op, uint8_t imm) { vpinsrq(x, x, op, imm); }"); puts("void vpinsrw(const Xmm& x, const Operand& op, uint8_t imm) { vpinsrw(x, x, op, imm); }"); puts("void vcvtsi2sd(const Xmm& x, const Operand& op) { vcvtsi2sd(x, x, op); }"); puts("void vcvtsi2ss(const Xmm& x, const Operand& op) { vcvtsi2ss(x, x, op); }"); { const char pred[32][16] = { "eq", "lt", "le", "unord", "neq", "nlt", "nle", "ord", "eq_uq", "nge", "ngt", "false", "neq_oq", "ge", "gt", "true", "eq_os", "lt_oq", "le_oq", "unord_s", "neq_us", "nlt_uq", "nle_uq", "ord_s", "eq_us", "nge_uq", "ngt_uq", "false_os", "neq_os", "ge_oq", "gt_oq", "true_us" }; const char suf[][4] = { "pd", "ps", "sd", "ss" }; for (int i = 0; i < 4; i++) { const char *s = suf[i]; for (int j = 0; j < 32; j++) { printf("void vcmp%s%s(const Xmm& x, const Operand& op) { vcmp%s%s(x, x, op); }\n", pred[j], s, pred[j], s); } } } { const char *tbl[] = { "pslldq", "psrldq", "psllw", "pslld", "psllq", "psraw", "psrad", "psrlw", "psrld", "psrlq", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; printf("void v%s(const Xmm& x, uint8_t imm) { v%s(x, x, imm); }\n", name, name); } } { const char *tbl[] = { "vblendvpd", "vblendvps", "vpblendvb", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; printf("void %s(const Xmm& x1, const Operand& op, const Xmm& x4) { %s(x1, x1, op, x4); }\n", name, name); } } putX_X_XM(true); } int main(int argc, char *argv[]) { std::string mode = argc == 2 ? argv[1] : ""; if (mode == "") { put(); } else if (mode == "fixed") { putFixed(); } else { putOmit(); } }