#include #define XBYAK_NO_OP_NAMES #include "xbyak/xbyak.h" #include "xbyak/xbyak_bin2hex.h" #include #include #include "cybozu/inttype.hpp" #define NUM_OF_ARRAY(x) (sizeof(x) / sizeof(x[0])) using namespace Xbyak; const int bitEnd = 64; const uint64 MMX = 1ULL << 0; const uint64 _XMM = 1ULL << 1; const uint64 _MEM = 1ULL << 2; const uint64 _REG32 = 1ULL << 3; const uint64 EAX = 1ULL << 4; const uint64 IMM32 = 1ULL << 5; const uint64 IMM8 = 1ULL << 6; const uint64 _REG8 = 1ULL << 7; const uint64 _REG16 = 1ULL << 8; const uint64 NEG8 = 1ULL << 9; const uint64 IMM16 = 1ULL << 10; const uint64 NEG16 = 1ULL << 11; const uint64 AX = 1ULL << 12; const uint64 AL = 1ULL << 13; const uint64 IMM_1 = 1ULL << 14; const uint64 MEM8 = 1ULL << 15; const uint64 MEM16 = 1ULL << 16; const uint64 MEM32 = 1ULL << 17; const uint64 ONE = 1ULL << 19; const uint64 CL = 1ULL << 20; const uint64 MEM_ONLY_DISP = 1ULL << 21; const uint64 NEG32 = 1ULL << 23; const uint64 _YMM = 1ULL << 24; const uint64 VM32X_32 = 1ULL << 39; const uint64 VM32X_64 = 1ULL << 40; const uint64 VM32Y_32 = 1ULL << 41; const uint64 VM32Y_64 = 1ULL << 42; #ifdef XBYAK64 const uint64 _MEMe = 1ULL << 25; const uint64 REG32_2 = 1ULL << 26; // r8d, ... const uint64 REG16_2 = 1ULL << 27; // r8w, ... const uint64 REG8_2 = 1ULL << 28; // r8b, ... const uint64 REG8_3 = 1ULL << 29; // spl, ... const uint64 _REG64 = 1ULL << 30; // rax, ... const uint64 _REG64_2 = 1ULL << 31; // r8, ... const uint64 RAX = 1ULL << 32; const uint64 _XMM2 = 1ULL << 33; const uint64 _YMM2 = 1ULL << 34; const uint64 VM32X = VM32X_32 | VM32X_64; const uint64 VM32Y = VM32Y_32 | VM32Y_64; #else const uint64 _MEMe = 0; const uint64 REG32_2 = 0; const uint64 REG16_2 = 0; const uint64 REG8_2 = 0; const uint64 REG8_3 = 0; const uint64 _REG64 = 0; const uint64 _REG64_2 = 0; const uint64 RAX = 0; const uint64 _XMM2 = 0; const uint64 _YMM2 = 0; const uint64 VM32X = VM32X_32; const uint64 VM32Y = VM32Y_32; #endif const uint64 REG64 = _REG64 | _REG64_2 | RAX; const uint64 REG32 = _REG32 | REG32_2 | EAX; const uint64 REG16 = _REG16 | REG16_2 | AX; const uint64 REG32e = REG32 | REG64; const uint64 REG8 = _REG8 | REG8_2|AL; const uint64 MEM = _MEM | _MEMe; const uint64 MEM64 = 1ULL << 35; const uint64 ST0 = 1ULL << 36; const uint64 STi = 1ULL << 37; const uint64 IMM_2 = 1ULL << 38; const uint64 IMM = IMM_1 | IMM_2; const uint64 XMM = _XMM | _XMM2; const uint64 YMM = _YMM | _YMM2; const uint64 K = 1ULL << 43; const uint64 _ZMM = 1ULL << 44; const uint64 _ZMM2 = 1ULL << 45; #ifdef XBYAK64 const uint64 ZMM = _ZMM | _ZMM2; const uint64 _YMM3 = 1ULL << 46; #else const uint64 ZMM = _ZMM; const uint64 _YMM3 = 0; #endif const uint64 K2 = 1ULL << 47; const uint64 ZMM_SAE = 1ULL << 48; const uint64 ZMM_ER = 1ULL << 49; #ifdef XBYAK64 const uint64 _XMM3 = 1ULL << 50; #endif const uint64 XMM_SAE = 1ULL << 51; #ifdef XBYAK64 const uint64 XMM_KZ = 1ULL << 52; const uint64 YMM_KZ = 1ULL << 53; const uint64 ZMM_KZ = 1ULL << 54; #else const uint64 XMM_KZ = 0; const uint64 YMM_KZ = 0; const uint64 ZMM_KZ = 0; #endif const uint64 MEM_K = 1ULL << 55; const uint64 M_1to2 = 1ULL << 56; const uint64 M_1to4 = 1ULL << 57; const uint64 M_1to8 = 1ULL << 58; const uint64 M_1to16 = 1ULL << 59; const uint64 XMM_ER = 1ULL << 60; const uint64 M_xword = 1ULL << 61; const uint64 M_yword = 1ULL << 62; const uint64 MY_1to4 = 1ULL << 18; const uint64 BNDREG = 1ULL << 22; const uint64 NOPARA = 1ULL << (bitEnd - 1); class Test { Test(const Test&); void operator=(const Test&); const bool isXbyak_; int funcNum_; /* and_, or_, xor_, not_ => and, or, xor, not */ std::string removeUnderScore(std::string s) const { if (!isXbyak_ && s[s.size() - 1] == '_') s.resize(s.size() - 1); return s; } // check all op1, op2, op3 void put(const std::string& nm, uint64 op1 = NOPARA, uint64 op2 = NOPARA, uint64 op3 = NOPARA, uint64 op4 = NOPARA) const { for (int i = 0; i < bitEnd; i++) { if ((op1 & (1ULL << i)) == 0) continue; for (int j = 0; j < bitEnd; j++) { if ((op2 & (1ULL << j)) == 0) continue; for (int k = 0; k < bitEnd; k++) { if ((op3 & (1ULL << k)) == 0) continue; for (int s = 0; s < bitEnd; s++) { if ((op4 & (1ULL << s)) == 0) continue; printf("%s ", nm.c_str()); if (isXbyak_) printf("("); if (!(op1 & NOPARA)) printf("%s", get(1ULL << i)); if (!(op2 & NOPARA)) printf(", %s", get(1ULL << j)); if (!(op3 & NOPARA)) printf(", %s", get(1ULL << k)); if (!(op4 & NOPARA)) printf(", %s", get(1ULL << s)); if (isXbyak_) printf("); dump();"); printf("\n"); } } } } } void put(const char *nm, uint64 op, const char *xbyak, const char *nasm) const { for (int i = 0; i < bitEnd; i++) { if ((op & (1ULL << i)) == 0) continue; printf("%s ", nm); if (isXbyak_) printf("("); if (!(op & NOPARA)) printf("%s", get(1ULL << i)); printf(", %s", isXbyak_ ? xbyak : nasm); if (isXbyak_) printf("); dump();"); printf("\n"); } } void put(const char *nm, const char *xbyak, const char *nasm = 0, uint64 op = NOPARA) const { if (nasm == 0) nasm = xbyak; for (int i = 0; i < bitEnd; i++) { if ((op & (1ULL << i)) == 0) continue; printf("%s ", nm); if (isXbyak_) printf("("); printf("%s ", isXbyak_ ? xbyak : nasm); if (!(op & NOPARA)) printf(", %s", get(1ULL << i)); if (isXbyak_) printf("); dump();"); printf("\n"); } } const char *get(uint64 type) const { int idx = (rand() / 31) & 7; if (type == ST0) { return "st0"; } if (type == STi) { return "st2"; } switch (type) { case MMX: { static const char MmxTbl[][4] = { "mm0", "mm1", "mm2", "mm3", "mm4", "mm5", "mm6", "mm7" }; return MmxTbl[idx]; } case _XMM: { static const char tbl[][6] = { "xmm0", "xmm1", "xmm2", "xmm3", "xmm4", "xmm5", "xmm6", "xmm7", }; return tbl[idx]; } case _YMM: { static const char tbl[][6] = { "ymm0", "ymm1", "ymm2", "ymm3", "ymm4", "ymm5", "ymm6", "ymm7" }; return tbl[idx]; } case _ZMM: { static const char tbl[][6] = { "zmm0", "zmm1", "zmm2", "zmm3", "zmm4", "zmm5", "zmm6", "zmm7" }; return tbl[idx]; } #ifdef XBYAK64 case _XMM2: { static const char tbl[][6] = { "xmm8", "xmm9", "xmm10", "xmm11", "xmm12", "xmm13", "xmm14", "xmm15" }; return tbl[idx]; } case _XMM3: { static const char tbl[][6] = { "xmm16", "xmm17", "xmm18", "xmm19", "xmm20", "xmm21", "xmm22", "xmm23" }; return tbl[idx]; } case _YMM2: { static const char tbl[][6] = { "ymm8", "ymm9", "ymm10", "ymm11", "ymm12", "ymm13", "ymm14", "ymm15", }; return tbl[idx]; } case _YMM3: { static const char tbl[][6] = { "ymm16", "ymm17", "ymm18", "ymm19", "ymm20", "ymm21", "ymm22", "ymm23", }; return tbl[idx]; } case _ZMM2: { static const char tbl[][6] = { "zmm8", "zmm9", "zmm10", "zmm11", "zmm28", "zmm29", "zmm30", "zmm31", }; return tbl[idx]; } #endif case _MEM: { return isXbyak_ ? "ptr[eax+ecx+3]" : "[eax+ecx+3]"; // QQQ : disp8N /* idx %= 5; switch (idx) { case 0: return isXbyak_ ? "ptr[eax+ecx]" : "[eax+ecx]"; case 1: return isXbyak_ ? "ptr[eax+ecx+1]" : "[eax+ecx+1]"; case 2: return isXbyak_ ? "ptr[eax+ecx+16]" : "[eax+ecx+16]"; case 3: return isXbyak_ ? "ptr[eax+ecx+32]" : "[eax+ecx+32]"; case 4: return isXbyak_ ? "ptr[eax+ecx+48]" : "[eax+ecx+48]"; } */ } case _MEMe: { static int ccc = 1; #ifdef USE_YASM ccc++; #endif if (ccc & 1) { return isXbyak_ ? "ptr[rdx+r15+0x12]" : "[rdx+r15+0x12]"; } else { return isXbyak_ ? "ptr[rip - 0x13456+1-3]" : "[rip - 0x13456+1-3]"; } } case MEM8: return "byte [eax+edx]"; case MEM16: return "word [esi]"; case MEM32: return "dword [ebp*2]"; case MEM64: return "qword [eax+ecx*8]"; case MEM_ONLY_DISP: return isXbyak_ ? "ptr[(void*)0x123]" : "[0x123]"; case _REG16: // not ax { static const char Reg16Tbl[][4] = { "ax", "cx", "dx", "bx", "sp", "bp", "si", "di" }; return Reg16Tbl[(idx % 7) + 1]; } case _REG8: // not al { static const char Reg8Tbl[][4] = { #ifdef XBYAK64 // QQQ "al", "cl", "dl", "bl", "al", "cl", "dl", "bl" #else "al", "cl", "dl", "bl", "ah", "ch", "dh", "bh" #endif }; return Reg8Tbl[(idx % 7) + 1]; } case _REG32: // not eax { static const char Reg32Tbl[][4] = { "eax", "ecx", "edx", "ebx", "esp", "ebp", "esi", "edi" }; return Reg32Tbl[(idx % 7) + 1]; } #ifdef XBYAK64 case _REG64: // not rax { static const char Reg64Tbl[][4] = { "rax", "rcx", "rdx", "rbx", "rsp", "rbp", "rsi", "rdi" }; return Reg64Tbl[(idx % 7) + 1]; } case _REG64_2: { static const char Reg64_2Tbl[][4] = { "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15" }; return Reg64_2Tbl[idx]; } case REG32_2: { static const char Reg32eTbl[][5] = { "r8d", "r9d", "r10d", "r11d", "r12d", "r13d", "r14d", "r15d" }; return Reg32eTbl[idx]; } case REG16_2: { static const char Reg16eTbl[][5] = { "r8w", "r9w", "r10w", "r11w", "r12w", "r13w", "r14w", "r15w" }; return Reg16eTbl[idx]; } case REG8_2: { static const char Reg8_2Tbl[][5] = { "r8b", "r9b", "r10b", "r11b", "r12b", "r13b", "r14b", "r15b" }; return Reg8_2Tbl[idx]; } case REG8_3: { static const char Reg8_3Tbl[][5] = { "spl", "bpl", "sil", "dil", "spl", "bpl", "sil", "dil" }; return Reg8_3Tbl[idx]; } case RAX: return "rax"; #endif case EAX: return "eax"; case AX: return "ax"; case AL: return "al"; case CL: return "cl"; case ONE: return "1"; case IMM32: return isXbyak_ ? "12345678" : "dword 12345678"; case IMM16: return isXbyak_ ? "1000" : "word 1000"; case IMM8: return isXbyak_ ? "4" : "byte 4"; case NEG8: return isXbyak_ ? "-30" : "byte -30"; case NEG16: return isXbyak_ ? "-1000" : "word -1000"; case NEG32: return isXbyak_ ? "-100000" : "dword -100000"; case IMM_1: return "4"; case IMM_2: return isXbyak_ ? "0xda" : "0xda"; case VM32X_32: return isXbyak_ ? "ptr [ebp+4+xmm1*8]" : "[ebp+4+xmm1*8]"; case VM32X_64: return isXbyak_ ? "ptr [12345+xmm13*2]" : "[12345+xmm13*2]"; case VM32Y_32: return isXbyak_ ? "ptr [ymm4]" : "[ymm4]"; case VM32Y_64: return isXbyak_ ? "ptr [12345+ymm13*2+r13]" : "[12345+ymm13*2+r13]"; case M_1to2: return isXbyak_ ? "ptr_b [eax+32]" : "[eax+32]{1to2}"; case M_1to4: return isXbyak_ ? "ptr_b [eax+32]" : "[eax+32]{1to4}"; case M_1to8: return isXbyak_ ? "ptr_b [eax+32]" : "[eax+32]{1to8}"; case M_1to16: return isXbyak_ ? "ptr_b [eax+32]" : "[eax+32]{1to16}"; case M_xword: return isXbyak_ ? "ptr [eax+33]" : "oword [eax+33]"; case M_yword: return isXbyak_ ? "yword [eax+33]" : "yword [eax+33]"; case MY_1to4: return isXbyak_ ? "yword_b [eax+32]" : "[eax+32]{1to4}"; case K: { static const char kTbl[][5] = { "k1", "k2", "k3", "k4", "k5", "k6", "k7", }; return kTbl[idx % 7]; } case K2: return isXbyak_ ? "k3 | k5" : "k3{k5}"; case BNDREG: { static const char tbl[][5] = { "bnd0", "bnd1", "bnd2", "bnd3", }; return tbl[idx % 4]; } #ifdef XBYAK64 case XMM_SAE: return isXbyak_ ? "xmm25 | T_sae" : "xmm25, {sae}"; case ZMM_SAE: return isXbyak_ ? "zmm25 | T_sae" : "zmm25, {sae}"; case XMM_ER: return isXbyak_ ? "xmm4 | T_rd_sae" : "xmm4, {rd-sae}"; case ZMM_ER: return isXbyak_ ? "zmm20 | T_rd_sae" : "zmm20, {rd-sae}"; case XMM_KZ: return isXbyak_ ? "xmm5 | k5" : "xmm5{k5}"; case YMM_KZ: return isXbyak_ ? "ymm2 |k3|T_z" : "ymm2{k3}{z}"; case ZMM_KZ: return isXbyak_ ? "zmm7|k1" : "zmm7{k1}"; case MEM_K: return isXbyak_ ? "ptr [rax] | k1" : "[rax]{k1}"; #else case XMM_SAE: return isXbyak_ ? "xmm5 | T_sae" : "xmm5, {sae}"; case ZMM_SAE: return isXbyak_ ? "zmm5 | T_sae" : "zmm5, {sae}"; case XMM_ER: return isXbyak_ ? "xmm30 | T_rd_sae" : "xmm30, {rd-sae}"; case ZMM_ER: return isXbyak_ ? "zmm2 | T_rd_sae" : "zmm2, {rd-sae}"; case MEM_K: return isXbyak_ ? "ptr [eax] | k1" : "[eax]{k1}"; #endif } return 0; } void putSIMPLE() const { const char tbl[][20] = { #ifdef XBYAK64 "cdqe", "cqo", "cmpsq", "movsq", "scasq", "stosq", #else "aaa", "aad", "aam", "aas", "daa", "das", "popad", "popfd", "pusha", "pushad", "pushfd", "popa", #endif "cbw", "cdq", "clc", "cld", "cli", "cmc", "cpuid", "cwd", "cwde", "lahf", // "lock", "cmpsb", "cmpsw", "cmpsd", "movsb", "movsw", "movsd", "scasb", "scasw", "scasd", "stosb", "stosw", "stosd", "nop", "sahf", "stc", "std", "sti", "emms", "pause", "sfence", "lfence", "mfence", "monitor", "mwait", "rdmsr", "rdpmc", "rdtsc", "rdtscp", "ud2", "wait", "fwait", "wbinvd", "wrmsr", "xlatb", "popf", "pushf", "stac", "xgetbv", "vzeroall", "vzeroupper", "f2xm1", "fabs", "faddp", "fchs", "fcom", "fcomp", "fcompp", "fcos", "fdecstp", "fdivp", "fdivrp", "fincstp", "finit", "fninit", "fld1", "fldl2t", "fldl2e", "fldpi", "fldlg2", "fldln2", "fldz", "fmulp", "fnop", "fpatan", "fprem", "fprem1", "fptan", "frndint", "fscale", "fsin", "fsincos", "fsqrt", "fsubp", "fsubrp", "ftst", "fucom", "fucomp", "fucompp", "fxam", "fxch", "fxtract", "fyl2x", "fyl2xp1", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put(tbl[i]); } put("bswap", REG32e); put("lea", REG32e|REG16, MEM); put("fldcw", MEM); put("fstcw", MEM); } void putJmp() const { #ifdef XBYAK64 put("jmp", REG64); put("call", REG64); #else put("jmp", REG32); put("call", REG16|REG32); #endif put("jmp", MEM); put("jmp", MEM); put("jmp", MEM); put("call", MEM|MEM_ONLY_DISP); #ifndef USE_YASM // call(ptr [getCode() + 5]); means to construct the opecode of "call" // after calling getCode(). // Its behavior is same as NASM(MASM). YASM makes different opecode. put("call", "getCode() + 5", "$ + 5"); #endif #ifdef XBYAK64 put("jmp", "ptr[(void*)0x12345678]", "[0x12345678]"); put("call", "ptr[(void*)0x12345678]", "[0x12345678]"); #ifdef USE_YASM put("jmp", "ptr[rip + 0x12345678]", "[rip+0x12345678]"); put("call", "ptr[rip + 0x12345678]", "[rip+0x12345678]"); put("call", "ptr[rip -23]", "[rip-23]"); put("call", "ptr[rip -23+56]", "[rip-23+56]"); #else // bug of yasm? if (isXbyak_) { puts("{ Label label0;"); puts("L(label0);"); puts("pshufb (xmm14, ptr [rip+label0]); dump();"); puts("}"); } else { puts("label0:"); puts("pshufb xmm14, [rel label0]"); } #endif #endif } void putMMX1() const { // emms etc put("ldmxcsr", MEM); put("movmskps", REG32e, XMM); put("movmskpd", REG32e, XMM); put("stmxcsr", MEM); put("maskmovq", MMX, MMX); put("movntps", MEM, XMM); put("movntq", MEM, MMX); put("prefetcht0", MEM); put("prefetcht1", MEM); put("prefetcht2", MEM); put("prefetchnta", MEM); put("prefetchwt1", MEM); put("prefetchw", MEM); // SSE2 misc put("maskmovdqu", XMM, XMM); put("movntpd", MEM, XMM); put("movntdq", MEM, XMM); put("movnti", MEM, REG32); // QQQ:REG32e? put("movhlps", XMM, XMM); put("movlhps", XMM, XMM); // movd for MMX, XMM put("movd", MEM|MEM32|REG32, MMX|XMM); put("movd", MMX|XMM, MEM|REG32|MEM32); // movq for MMX put("movq", MMX, MMX|MEM); put("movq", MEM, MMX); // movq for XMM put("movq", XMM, XMM|MEM); put("movq", MEM, XMM); put("movq", XMM|MMX, "qword[eax]", "qword[eax]"); put("movq", XMM|MMX, "ptr[eax]", "qword[eax]"); put("movq", "qword[eax]", "qword[eax]", XMM|MMX); put("movq", "ptr[eax]", "qword[eax]", XMM|MMX); #ifdef XBYAK64 put("movq", REG64, XMM|MMX); put("movq", XMM|MMX, REG64); #endif // SSE3 int put("lddqu", XMM, MEM); } void putMMX2() const { static const char nmTbl[][16] = { // MMX "packssdw", "packsswb", "packuswb", "pand", "pandn", "pmaddwd", "pmulhuw", "pmulhw", "pmullw", "por", "punpckhbw", "punpckhwd", "punpckhdq", "punpcklbw", "punpcklwd", "punpckldq", "pxor", "paddb", "paddw", "paddd", "paddsb", "paddsw", "paddusb", "paddusw", "pcmpeqb", "pcmpeqw", "pcmpeqd", "pcmpgtb", "pcmpgtw", "pcmpgtd", "psllw", "pslld", "psllq", "psraw", "psrad", "psrlw", "psrld", "psrlq", "psubb", "psubw", "psubd", "psubsb", "psubsw", "psubusb", "psubusw", // MMX2 "pavgb", "pavgw", "pmaxsw", "pmaxub", "pminsw", "pminub", "psadbw", // "paddq", "pmuludq", "psubq", }; for (size_t i = 0; i < NUM_OF_ARRAY(nmTbl); i++) { put(nmTbl[i], MMX, MMX|MEM); put(nmTbl[i], XMM, XMM|MEM); } } void putMMX3() const { static const char nmTbl[][16] = { "psllw", "pslld", "psllq", "psraw", "psrad", "psrlw", "psrld", "psrlq", }; for (size_t i = 0; i < NUM_OF_ARRAY(nmTbl); i++) { put(nmTbl[i], MMX|XMM, IMM); } put("pslldq", XMM, IMM); put("psrldq", XMM, IMM); put("pmovmskb", REG32, MMX|XMM); // QQQ put("pextrw", REG32, MMX|XMM, IMM); // QQQ put("pinsrw", MMX|XMM, REG32|MEM, IMM); // QQQ } void putMMX4() const { put("pshufw", MMX, MMX|MEM, IMM); put("pshuflw", XMM, XMM|MEM, IMM); put("pshufhw", XMM, XMM|MEM, IMM); put("pshufd", XMM, XMM|MEM, IMM); } void putMMX5() const { static const char nmTbl[][16] = { "movdqa", "movdqu", "movaps", "movss", "movups", "movapd", "movsd", "movupd", }; for (size_t i = 0; i < NUM_OF_ARRAY(nmTbl); i++) { put(nmTbl[i], XMM, XMM|MEM); put(nmTbl[i], MEM, XMM); } put("movq2dq", XMM, MMX); put("movdq2q", MMX, XMM); } void putXMM1() const { enum { PS = 1 << 0, SS = 1 << 1, PD = 1 << 2, SD = 1 << 3 }; const struct { uint8 code; const char *name; } sufTbl[] = { { 0, "ps" }, { 0xF3, "ss" }, { 0x66, "pd" }, { 0xF2, "sd" }, }; static const struct XmmTbl1 { uint8 code; int mode; const char *name; bool hasImm; } xmmTbl1[] = { { B01011000, PS|SS|PD|SD, "add", false }, { B01010101, PS|PD , "andn", false }, { B01010100, PS|PD , "and", false }, { B11000010, PS|SS|PD|SD, "cmp", true }, { B01011110, PS|SS|PD|SD, "div", false }, { B01011111, PS|SS|PD|SD, "max", false }, { B01011101, PS|SS|PD|SD, "min", false }, { B01011001, PS|SS|PD|SD, "mul", false }, { B01010110, PS|PD , "or", false }, { B01010011, PS|SS , "rcp", false }, { B01010010, PS|SS , "rsqrt", false }, { B11000110, PS|PD , "shuf", true }, { B01010001, PS|SS|PD|SD, "sqrt", false }, { B01011100, PS|SS|PD|SD, "sub", false }, { B00010101, PS|PD , "unpckh", false }, { B00010100, PS|PD , "unpckl", false }, { B01010111, PS|PD , "xor", false }, // }; for (size_t i = 0; i < NUM_OF_ARRAY(xmmTbl1); i++) { const XmmTbl1 *p = &xmmTbl1[i]; for (size_t j = 0; j < NUM_OF_ARRAY(sufTbl); j++) { if (!(p->mode & (1 << j))) continue; char buf[16]; sprintf(buf, "%s%s", p->name, sufTbl[j].name); if (p->hasImm) { put(buf, XMM, XMM|MEM, IMM); } else { put(buf, XMM, XMM|MEM); } } } } void putXMM2() const { // (XMM, XMM|MEM) static const char tbl[][16] = { "punpckhqdq", "punpcklqdq", "comiss", "ucomiss", "comisd", "ucomisd", "cvtpd2ps", "cvtps2pd", "cvtsd2ss", "cvtss2sd", "cvtpd2dq", "cvttpd2dq", "cvtdq2pd", "cvtps2dq", "cvttps2dq", "cvtdq2ps", "addsubpd", "addsubps", "haddpd", "haddps", "hsubpd", "hsubps", "movddup", "movshdup", "movsldup", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put(tbl[i], XMM, XMM|MEM); } } void putXMM3() const { static const struct Tbl { const char *name; uint64 op1; uint64 op2; } tbl[] = { { "cvtpi2ps", XMM, MMX|MEM }, { "cvtps2pi", MMX, XMM|MEM }, { "cvtsi2ss", XMM, REG32|MEM }, { "cvtss2si", REG32, XMM|MEM }, { "cvttps2pi", MMX, XMM|MEM }, { "cvttss2si", REG32, XMM|MEM }, { "cvtpi2pd", XMM, MMX|MEM }, { "cvtpd2pi", MMX, XMM|MEM }, { "cvtsi2sd", XMM, REG32|MEM }, { "cvtsd2si", REG32, XMM|MEM }, { "cvttpd2pi", MMX, XMM|MEM }, { "cvttsd2si", REG32, XMM|MEM }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, p->op1, p->op2); } } void putXMM4() const { static const char tbl[][16] = { "movhps", "movlps", "movhpd", "movlpd", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, XMM, MEM); put(p, MEM, XMM); } } void putCmov() const { const char tbl[][4] = { "o", "no", "b", "c", "nae", "nb", "nc", "ae", "e", "z", "ne", "nz", "be", "na", "nbe", "a", "s", "ns", "p", "pe", "np", "po", "l", "nge", "nl", "ge", "le", "ng", "nle", "g", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { char buf[16]; sprintf(buf, "cmov%s", tbl[i]); put(buf, REG16, REG16|MEM); put(buf, REG32, REG32|MEM); put(buf, REG64, REG64|MEM); sprintf(buf, "set%s", tbl[i]); put(buf, REG8|REG8_3|MEM); } } void putReg1() const { // (REG, REG|MEM) { static const char tbl[][16] = { "adc", "add", "and_", "cmp", "or_", "sbb", "sub", "xor_", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const std::string s = removeUnderScore(tbl[i]); const char *p = s.c_str(); put(p, REG32, REG32|MEM); put(p, REG64, REG64|MEM); put(p, REG16, REG16|MEM); put(p, REG8|REG8_3, REG8|MEM); put(p, MEM, REG32e|REG16|REG8|REG8_3); put(p, MEM8, IMM8|NEG8); put(p, MEM16, IMM8|IMM16|NEG8|NEG16); put(p, MEM32, IMM8|IMM32|NEG8|NEG32); put(p, REG64|RAX, IMM8|NEG8); put(p, REG64|RAX, "0x12345678", "0x12345678"); put(p, REG64|RAX, "192", "192"); put(p, REG64|RAX, "0x1234", "0x1234"); put(p, REG32|EAX, IMM8|IMM32|NEG8); put(p, REG16|AX, IMM8|IMM16|NEG8|NEG16); put(p, REG8|REG8_3|AL, IMM|NEG8); } } { const char tbl[][8] = { "adcx", "adox", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, REG32, REG32|MEM); put(p, REG64, REG64|MEM); } } } void putBt() const { static const char tbl[][16] = { "bt", "bts", "btr", "btc", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, MEM|REG16, REG16); put(p, MEM|REG32, REG32); put(p, MEM|REG64, REG64); put(p, MEM16|REG16, IMM); } } void putRorM() const { static const char tbl[][16] = { "inc", "dec", "div", "idiv", "imul", "mul", "neg", "not_", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const std::string s = removeUnderScore(tbl[i]); const char *p = s.c_str(); put(p, REG32e|REG16|REG8|REG8_3); put(p, MEM32|MEM16|MEM8); } const char *p = "imul"; put(p, REG16, REG16|MEM16); put(p, REG32, REG32|MEM32); put(p, REG64, REG64|MEM); put(p, REG16, REG16|MEM, IMM8|IMM16); put(p, REG32, REG32|MEM, IMM8|IMM32); put(p, REG64, REG64|MEM, IMM8|IMM32); } void putPushPop() const { /* QQQ: push byte 2 push dword 2 reduce 4-byte stack push word 2 reduce 2-byte stack, so I can't support it */ put("push", IMM8|IMM32); if (isXbyak_) { puts("push(word, 1000);dump();"); } else { puts("push word 1000"); } put("push", REG16|MEM16); put("pop", REG16|MEM16); #ifdef XBYAK64 put("push", REG64|IMM32|MEM64); put("pop", REG64|MEM64); #else put("push", REG32|IMM32|MEM32); put("pop", REG32|MEM32); #endif } void putTest() const { const char *p = "test"; put(p, REG32|MEM, REG32); put(p, REG64|MEM, REG64); put(p, REG16|MEM, REG16); put(p, REG8|REG8_3|MEM, REG8|REG8_3); put(p, REG32e|REG16|REG8|REG8_3|EAX|AX|AL|MEM32|MEM16|MEM8, IMM); } void putMov64() const { const struct { const char *a; const char *b; } tbl[] = { { "0", "0" }, { "0x123", "0x123" }, { "0x12345678", "0x12345678" }, { "0x7fffffff", "0x7fffffff" }, { "0xffffffff", "0xffffffff" }, { "0x80000000", "0x80000000" }, { "2147483648U", "2147483648" }, { "0x80000001", "0x80000001" }, { "0xffffffffffffffff", "0xffffffffffffffff" }, { "-1", "-1" }, { "0xffffffff80000000", "0xffffffff80000000" }, { "0xffffffff80000001", "0xffffffff80000001" }, { "0xffffffff12345678", "0xffffffff12345678" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put("mov", REG64, tbl[i].a, tbl[i].b); } } // only nasm void putMovImm64() const { put("mov", REG64, "0x1234567890abcdefLL", "0x1234567890abcdef"); put("mov", REG64, "0x12345678", "0x12345678"); put("mov", REG64, "0xffffffff12345678LL", "0xffffffff12345678"); put("mov", REG32e|REG16|REG8|RAX|EAX|AX|AL, IMM); } void putEtc() const { { const char *p = "ret"; put(p); put(p, IMM); p = "mov"; put(p, EAX|REG32|MEM|MEM_ONLY_DISP, REG32|EAX); put(p, REG64|MEM|MEM_ONLY_DISP, REG64|RAX); put(p, AX|REG16|MEM|MEM_ONLY_DISP, REG16|AX); put(p, AL|REG8|REG8_3|MEM|MEM_ONLY_DISP, REG8|REG8_3|AL); put(p, REG32e|REG16|REG8|RAX|EAX|AX|AL, MEM|MEM_ONLY_DISP); put(p, MEM32|MEM16|MEM8, IMM); put(p, REG64, "0x1234567890abcdefLL", "0x1234567890abcdef"); put("movbe", REG16|REG32e, MEM); put("movbe", MEM, REG16|REG32e); #ifdef XBYAK64 put(p, RAX|EAX|AX|AL, "ptr [0x1234567890abcdefLL]", "[qword 0x1234567890abcdef]"); put(p, "ptr [0x1234567890abcdefLL]", "[qword 0x1234567890abcdef]", RAX|EAX|AX|AL); put(p, "qword [rax], 0"); put(p, "qword [rax], 0x12"); put(p, "qword [rax], 0x1234"); put(p, "qword [rax], 0x12345678"); // put(p, "qword [rax], 0x123456789ab"); put(p, "qword [rax], 1000000"); put(p, "rdx, qword [rax]"); #endif put("mov", EAX, "ptr [eax + ecx * 0]", "[eax + ecx * 0]"); // ignore scale = 0 } { const char tbl[][8] = { "movsx", "movzx", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, REG64, REG16|REG8|MEM8|MEM16); put(p, REG32, REG16|REG8|MEM8|MEM16); put(p, REG16, REG8|MEM8); } } #ifdef XBYAK64 put("movsxd", REG64, REG32|MEM32); #endif put("cmpxchg8b", MEM); #ifdef XBYAK64 put("cmpxchg16b", MEM); #endif { const char tbl[][8] = { "xadd", "cmpxchg" }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, REG8|MEM, REG8); put(p, REG16|MEM, REG16); put(p, REG32|MEM, REG32); put(p, REG64|MEM, REG64); } } put("xchg", AL|REG8, AL|REG8|MEM); put("xchg", MEM, AL|REG8); put("xchg", AX|REG16, AX|REG16|MEM); put("xchg", MEM, AX|REG16); put("xchg", EAX|REG32, EAX|REG32|MEM); put("xchg", MEM, EAX|REG32); put("xchg", REG64, REG64|MEM); } void putShift() const { const char tbl[][8] = { "rcl", "rcr", "rol", "ror", "sar", "shl", "shr", "sal", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, REG32e|REG16|REG8|MEM32|MEM16|MEM8, ONE|CL|IMM); } } void putShxd() const { const char tbl[][8] = { "shld", "shrd", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, REG64|MEM, REG64, IMM|CL); put(p, REG32|MEM, REG32, IMM|CL); put(p, REG16|MEM, REG16, IMM|CL); } } void putBs() const { const char tbl[][8] = { "bsr", "bsf", "lzcnt", "tzcnt", "popcnt", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, REG64, REG64|MEM); put(p, REG32, REG32|MEM); put(p, REG16, REG16|MEM); } } void putSSSE3() const { const char tbl[][16] = { "pshufb", "phaddw", "phaddd", "phaddsw", "pmaddubsw", "phsubw", "phsubd", "phsubsw", "psignb", "psignw", "psignd", "pmulhrsw", "pabsb", "pabsw", "pabsd", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, XMM, XMM|MEM); put(p, MMX, MMX|MEM); } put("palignr", XMM, XMM|MEM, IMM8); put("palignr", MMX, MMX|MEM, IMM8); } void putSSE4_1() const { const char tbl[][16] = { "blendvpd", "blendvps", "packusdw", "pblendvb", "pcmpeqq", "ptest", "pmovsxbw", "pmovsxbd", "pmovsxbq", "pmovsxwd", "pmovsxwq", "pmovsxdq", "pmovzxbw", "pmovzxbd", "pmovzxbq", "pmovzxwd", "pmovzxwq", "pmovzxdq", "pminsb", "pminsd", "pminuw", "pminud", "pmaxsb", "pmaxsd", "pmaxuw", "pmaxud", "pmuldq", "pmulld", "phminposuw", "pcmpgtq", "aesdec", "aesdeclast", "aesenc", "aesenclast", "aesimc", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, XMM, XMM|MEM); } } void putSSE4_2() const { { const char tbl[][16] = { "blendpd", "blendps", "dppd", "dpps", "mpsadbw", "pblendw", "roundps", "roundpd", "roundss", "roundsd", "pcmpestrm", "pcmpestri", "pcmpistrm", "pcmpistri", "pclmulqdq", "aeskeygenassist", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, XMM, XMM|MEM, IMM); } } { const char tbl[][16] = { "pclmullqlqdq", "pclmulhqlqdq", // "pclmullqhdq", // QQQ : not supported by nasm/yasm // "pclmulhqhdq", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, XMM, XMM|MEM); } } put("extractps", REG32e|MEM, XMM, IMM); put("pextrw", REG32e|MEM, XMM, IMM); // pextrw for REG32 is for MMX2 put("pextrb", REG32e|MEM, XMM, IMM); put("pextrd", REG32|MEM, XMM, IMM); put("insertps", XMM, XMM|MEM, IMM); put("pinsrb", XMM, REG32|MEM, IMM); put("pinsrd", XMM, REG32|MEM, IMM); put("movntdqa", XMM, MEM); put("crc32", REG32, REG8|REG16|REG32|MEM8|MEM16|MEM32); put("crc32", REG64, REG64|REG8|MEM8); #ifdef XBYAK64 put("pextrq", REG64|MEM, XMM, IMM); put("pinsrq", XMM, REG64|MEM, IMM); #endif } void putSHA() const { put("sha1rnds4", XMM, XMM|MEM, IMM); put("sha1nexte", XMM, XMM|MEM); put("sha1msg1", XMM, XMM|MEM); put("sha1msg2", XMM, XMM|MEM); put("sha256rnds2", XMM, XMM|MEM); put("sha256msg1", XMM, XMM|MEM); put("sha256msg2", XMM, XMM|MEM); } void putMPX() const { #ifdef XBYAK64 const uint64 reg = REG64; #else const uint64 reg = REG32; #endif put("bndcl", BNDREG, reg|MEM); put("bndcu", BNDREG, reg|MEM); put("bndcn", BNDREG, reg|MEM); put("bndldx", BNDREG, MEM); put("bndmk", BNDREG, MEM); put("bndmov", BNDREG, BNDREG|MEM); put("bndstx", MEM, BNDREG); put("bndstx", "ptr [eax]", "[eax]", BNDREG); put("bndstx", "ptr [eax+5]", "[eax+5]", BNDREG); put("bndstx", "ptr [eax+500]", "[eax+500]", BNDREG); put("bndstx", "ptr [eax+ecx]", "[eax+ecx]", BNDREG); put("bndstx", "ptr [ecx+eax]", "[ecx+eax]", BNDREG); put("bndstx", "ptr [eax+esp]", "[eax+esp]", BNDREG); put("bndstx", "ptr [esp+eax]", "[esp+eax]", BNDREG); put("bndstx", "ptr [eax+ecx*2]", "[eax+ecx*2]", BNDREG); put("bndstx", "ptr [ecx+ecx]", "[ecx+ecx]", BNDREG); put("bndstx", "ptr [ecx*2]", "[ecx*2]", BNDREG); put("bndstx", "ptr [eax+ecx*2+500]", "[eax+ecx*2+500]", BNDREG); #ifdef XBYAK64 put("bndstx", "ptr [rax+rcx*2]", "[rax+rcx*2]", BNDREG); put("bndstx", "ptr [r9*2]", "[r9*2]", BNDREG); put("bndstx", "ptr [r9*2+r15]", "[r9*2+r15]", BNDREG); #endif } void putFpuMem16_32() const { const char tbl[][8] = { "fiadd", "fidiv", "fidivr", "ficom", "ficomp", "fimul", "fist", "fisub", "fisubr", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, MEM16|MEM32); } } void putFpuMem32_64() const { const char tbl[][8] = { "fadd", "fcom", "fcomp", "fdiv", "fdivr", "fld", "fmul", "fst", "fstp", "fsub", "fsubr", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, MEM32|MEM64); } } void putFpuMem16_32_64() const { const char tbl[][8] = { "fild", "fistp", "fisttp", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *p = tbl[i]; put(p, MEM16|MEM32|MEM64); } } void putFpuFpu() const { const struct Tbl { const char *name; int mode; /* 1:only (st0, sti), 2: only (sti, st0), 3: both */ } tbl[] = { { "fadd", 3 }, { "faddp", 2 }, { "fcmovb", 1 }, { "fcmove", 1 }, { "fcmovbe", 1 }, { "fcmovu", 1 }, { "fcmovnb", 1 }, { "fcmovne", 1 }, { "fcmovnbe", 1 }, { "fcmovnu", 1 }, { "fcomi", 1 }, { "fcomip", 1 }, { "fucomi", 1 }, { "fucomip", 1 }, { "fdiv", 3 }, { "fdivp", 2 }, { "fdivr", 3 }, { "fdivrp", 2 }, { "fmul", 3 }, { "fmulp", 2 }, { "fsub", 3 }, { "fsubp", 2 }, { "fsubr", 3 }, { "fsubrp", 2 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; if (p->mode & 1) put(p->name, ST0, STi); if (p->mode & 2) put(p->name, STi, ST0); if (p->mode) put(p->name, STi); } } void putFpu() const { const char tbl[][16] = { "fcom", "fcomp", "ffree", "fld", "fst", "fstp", "fucom", "fucomp", "fxch", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put(tbl[i], STi); } } void putAVX1() { const struct Tbl { const char *name; bool only_pd_ps; } tbl[] = { { "add", false }, { "sub", false }, { "mul", false }, { "div", false }, { "max", false }, { "min", false }, { "and", true }, { "andn", true }, { "or", true }, { "xor", true }, { "addsub", true }, { "hadd", true }, { "hsub", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const struct Suf { const char *suf; bool supportYMM; } suf[] = { { "pd", true }, { "ps", true }, { "sd", false }, { "ss", false }, }; for (size_t j = 0; j < NUM_OF_ARRAY(suf); j++) { if (tbl[i].only_pd_ps && j == 2) break; std::string name = std::string("v") + tbl[i].name + suf[j].suf; const char *p = name.c_str(); put(p, XMM, XMM | MEM); put(p, XMM, XMM, XMM | MEM); if (!suf[j].supportYMM) continue; put(p, YMM, YMM | MEM); put(p, YMM, YMM, YMM | MEM); } } } void putAVX_X_X_XM_omit() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vaesenc", false }, { "vaesenclast", false }, { "vaesdec", false }, { "vaesdeclast", false }, { "vcvtsd2ss", false }, { "vcvtss2sd", false }, { "vpacksswb", true }, { "vpackssdw", true }, { "vpackuswb", true }, { "vpackusdw", true }, { "vpaddb", true }, { "vpaddw", true }, { "vpaddd", true }, { "vpaddq", true }, { "vpaddsb", true }, { "vpaddsw", true }, { "vpaddusb", true }, { "vpaddusw", true }, { "vpand", true }, { "vpandn", true }, { "vpavgb", true }, { "vpavgw", true }, { "vpcmpeqb", true }, { "vpcmpeqw", true }, { "vpcmpeqd", true }, { "vpcmpeqq", true }, { "vpcmpgtb", true }, { "vpcmpgtw", true }, { "vpcmpgtd", true }, { "vpcmpgtq", true }, { "vphaddw", true }, { "vphaddd", true }, { "vphaddsw", true }, { "vphsubw", true }, { "vphsubd", true }, { "vphsubsw", true }, { "vpmaddwd", true }, { "vpmaddubsw", true }, { "vpmaxsb", true }, { "vpmaxsw", true }, { "vpmaxsd", true }, { "vpmaxub", true }, { "vpmaxuw", true }, { "vpmaxud", true }, { "vpminsb", true }, { "vpminsw", true }, { "vpminsd", true }, { "vpminub", true }, { "vpminuw", true }, { "vpminud", true }, { "vpmulhuw", true }, { "vpmulhrsw", true }, { "vpmulhw", true }, { "vpmullw", true }, { "vpmulld", true }, { "vpmuludq", true }, { "vpmuldq", true }, { "vpor", true }, { "vpsadbw", true }, { "vpsignb", true }, { "vpsignw", true }, { "vpsignd", true }, { "vpsllw", false }, { "vpslld", false }, { "vpsllq", false }, { "vpsraw", false }, { "vpsrad", false }, { "vpsrlw", false }, { "vpsrld", false }, { "vpsrlq", false }, { "vpsubb", true }, { "vpsubw", true }, { "vpsubd", true }, { "vpsubq", true }, { "vpsubsb", true }, { "vpsubsw", true }, { "vpsubusb", true }, { "vpsubusw", true }, { "vpunpckhbw", true }, { "vpunpckhwd", true }, { "vpunpckhdq", true }, { "vpunpckhqdq", true }, { "vpunpcklbw", true }, { "vpunpcklwd", true }, { "vpunpckldq", true }, { "vpunpcklqdq", true }, { "vpxor", true }, { "vsqrtsd", false }, { "vsqrtss", false }, { "vunpckhpd", true }, { "vunpckhps", true }, { "vunpcklpd", true }, { "vunpcklps", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, XMM, XMM | MEM); put(p->name, XMM, XMM, XMM | MEM); if (!p->supportYMM) continue; put(p->name, YMM, YMM | MEM); put(p->name, YMM, YMM, YMM | MEM); } } void putAVX_X_X_XM_IMM() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vblendpd", true }, { "vblendps", true }, { "vdppd", false }, { "vdpps", true }, { "vmpsadbw", true }, { "vpblendw", true }, { "vpblendd", true }, { "vroundsd", false }, { "vroundss", false }, { "vpclmulqdq", false }, { "vcmppd", true }, { "vcmpps", true }, { "vcmpsd", false }, { "vcmpss", false }, { "vinsertps", false }, { "vpalignr", true }, { "vshufpd", true }, { "vshufps", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, XMM, XMM, XMM | MEM, IMM); put(p->name, XMM, XMM | MEM, IMM); if (!p->supportYMM) continue; put(p->name, YMM, YMM, YMM | MEM, IMM); put(p->name, YMM, YMM | MEM, IMM); } } void putAVX_X_XM_IMM() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vroundpd", true }, { "vroundps", true }, { "vpcmpestri", false }, { "vpcmpestrm", false }, { "vpcmpistri", false }, { "vpcmpistrm", false }, { "vpermilpd", true }, { "vpermilps", true }, { "vaeskeygenassist", false }, { "vpshufd", true }, { "vpshufhw", true }, { "vpshuflw", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, XMM, XMM | MEM, IMM); if (!p->supportYMM) continue; put(p->name, YMM, YMM | MEM, IMM); } } void putAVX_X_X_XM() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vpermilpd", true }, { "vpermilps", true }, { "vpshufb", true }, { "vpsllvd", true }, { "vpsllvq", true }, { "vpsravd", true }, { "vpsrlvd", true }, { "vpsrlvq", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, XMM, XMM, XMM | MEM); if (!p->supportYMM) continue; put(p->name, YMM, YMM, YMM | MEM); } } void putAVX_X_XM() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vaesimc", false }, { "vtestps", true }, { "vtestpd", true }, { "vcomisd", false }, { "vcomiss", false }, { "vcvtdq2ps", true }, { "vcvtps2dq", true }, { "vcvttps2dq", true }, { "vmovapd", true }, { "vmovaps", true }, { "vmovddup", true }, { "vmovdqa", true }, { "vmovdqu", true }, { "vmovupd", true }, { "vmovups", true }, { "vpabsb", true }, { "vpabsw", true }, { "vpabsd", true }, { "vphminposuw", false }, { "vpmovsxbw", false }, { "vpmovsxbd", false }, { "vpmovsxbq", false }, { "vpmovsxwd", false }, { "vpmovsxwq", false }, { "vpmovsxdq", false }, { "vpmovzxbw", false }, { "vpmovzxbd", false }, { "vpmovzxbq", false }, { "vpmovzxwd", false }, { "vpmovzxwq", false }, { "vpmovzxdq", false }, { "vptest", true }, { "vrcpps", true }, { "vrcpss", false }, { "vrsqrtps", true }, { "vrsqrtss", false }, { "vsqrtpd", true }, { "vsqrtps", true }, { "vucomisd", false }, { "vucomiss", false }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, XMM, XMM | MEM); if (!p->supportYMM) continue; put(p->name, YMM, YMM | MEM); } } void putAVX_Y_XM() { const char *tbl[] = { "vpmovsxbw", "vpmovsxbd", "vpmovsxbq", "vpmovsxwd", "vpmovsxwq", "vpmovsxdq", "vpmovzxbw", "vpmovzxbd", "vpmovzxbq", "vpmovzxwd", "vpmovzxwq", "vpmovzxdq", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; put(name, YMM, XMM); } } void putAVX_M_X() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vmovapd", true }, { "vmovaps", true }, { "vmovdqa", true }, { "vmovdqu", true }, { "vmovupd", true }, { "vmovups", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, MEM, XMM); if (!p->supportYMM) continue; put(p->name, MEM, YMM); } } void putAVX_X_X_IMM_omit() { const struct Tbl { const char *name; bool support_Y_Y_X; } tbl[] = { { "vpslldq", false }, { "vpsrldq", false }, { "vpsllw", true }, { "vpslld", true }, { "vpsllq", true }, { "vpsraw", true }, { "vpsrad", true }, { "vpsrlw", true }, { "vpsrld", true }, { "vpsrlq", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; put(p.name, XMM, XMM, IMM); put(p.name, YMM, YMM, IMM); put(p.name, YMM, IMM); put(p.name, _ZMM, _ZMM, IMM8); #ifdef XBYAK64 put(p.name, _XMM3, _XMM3, IMM8); put(p.name, _YMM3, _YMM3, IMM8); #endif if (p.support_Y_Y_X) { put(p.name, YMM, YMM, XMM); } } } void putFMA() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vfmadd", true }, { "vfmadd", false }, { "vfmaddsub", true }, { "vfmsubadd", true }, { "vfmsub", true }, { "vfmsub", false }, { "vfnmadd", true }, { "vfnmadd", false }, { "vfnmsub", true }, { "vfnmsub", false }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; const struct Ord { const char *name; } ord[] = { { "132" }, { "213" }, { "231" }, }; for (size_t j = 0; j < NUM_OF_ARRAY(ord); j++) { const char sufTbl[][2][8] = { { "pd", "ps" }, { "sd", "ss" }, }; for (size_t k = 0; k < 2; k++) { const std::string suf = sufTbl[p.supportYMM ? 0 : 1][k]; std::string name = std::string(p.name) + ord[j].name + suf; const char *q = name.c_str(); put(q, XMM, XMM, XMM | MEM); if (!p.supportYMM) continue; put(q, YMM, YMM, YMM | MEM); } } } } void putAVX2() { put("vextractps", REG32 | MEM, XMM, IMM); put("vldmxcsr", MEM); put("vstmxcsr", MEM); put("vmaskmovdqu", XMM, XMM); put("vmovd", XMM, REG32 | MEM); put("vmovd", REG32 | MEM, XMM); put("vmovq", XMM, XMM | MEM); put("vmovq", MEM, XMM); put("vmovhlps", XMM, XMM); put("vmovhlps", XMM, XMM, XMM); put("vmovlhps", XMM, XMM); put("vmovlhps", XMM, XMM, XMM); { const char tbl[][16] = { "vmovhpd", "vmovhps", "vmovlpd", "vmovlps", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put(tbl[i], XMM, XMM, MEM); put(tbl[i], XMM, MEM); put(tbl[i], MEM, XMM); } } put("vmovmskpd", REG32e, XMM | YMM); put("vmovmskps", REG32e, XMM | YMM); put("vmovntdq", MEM, XMM | YMM); put("vmovntpd", MEM, XMM | YMM); put("vmovntdqa", XMM | YMM, MEM); { const char tbl[][8] = { "vmovsd", "vmovss" }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put(tbl[i], XMM, XMM, XMM); put(tbl[i], XMM, XMM | MEM); put(tbl[i], MEM, XMM); } } put("vpextrb", REG32e|MEM, XMM, IMM); put("vpextrd", REG32|MEM, XMM, IMM); for (int i = 0; i < 3; i++) { const char tbl[][8] = { "vpinsrb", "vpinsrw", "vpinsrd" }; put(tbl[i], XMM, XMM, REG32|MEM, IMM); put(tbl[i], XMM, REG32|MEM, IMM); } put("vpmovmskb", REG32e, XMM|YMM); { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vblendvpd", true }, { "vblendvps", true }, { "vpblendvb", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; put(p.name, XMM, XMM, XMM | MEM, XMM); put(p.name, XMM, XMM | MEM, XMM); if (!p.supportYMM) continue; put(p.name, YMM, YMM, YMM | MEM, YMM); put(p.name, YMM, YMM | MEM, YMM); } } // cvt { put("vcvtss2si", REG32e, XMM | MEM); put("vcvttss2si", REG32e, XMM | MEM); put("vcvtsd2si", REG32e, XMM | MEM); put("vcvttsd2si", REG32e, XMM | MEM); put("vcvtsi2ss", XMM, XMM, REG32e | MEM); put("vcvtsi2ss", XMM, REG32e | MEM); put("vcvtsi2sd", XMM, XMM, REG32e | MEM); put("vcvtsi2sd", XMM, REG32e | MEM); #ifdef XBYAK64 put("vcvtsi2sd", XMM, XMM, MEM64); put("vcvtsi2sd", XMM, MEM64); #endif put("vcvtps2pd", XMM | YMM, XMM | MEM); put("vcvtdq2pd", XMM | YMM, XMM | MEM); put("vcvtpd2ps", XMM, XMM | YMM | MEM); put("vcvtpd2dq", XMM, XMM | YMM | MEM); put("vcvttpd2dq", XMM, XMM | YMM | MEM); put("vcvtph2ps", XMM | YMM, XMM | MEM); put("vcvtps2ph", XMM | MEM, XMM | YMM, IMM8); } #ifdef XBYAK64 put("vmovq", XMM, REG64); put("vmovq", REG64, XMM); put("vpextrq", REG64|MEM, XMM, IMM); put("vpinsrq", XMM, XMM, REG64|MEM, IMM); put("vpinsrq", XMM, REG64|MEM, IMM); #endif } void putFMA2() { #ifdef USE_YASM put("vextractf128", XMM | MEM, YMM, IMM); put("vextracti128", XMM | MEM, YMM, IMM); put("vmaskmovps", MEM, YMM, YMM); put("vmaskmovpd", MEM, YMM, YMM); put("vlddqu", XMM | YMM, MEM); put("vmovshdup", XMM, XMM | MEM); put("vmovshdup", YMM, YMM | MEM); put("vmovsldup", XMM, XMM | MEM); put("vmovsldup", YMM, YMM | MEM); // QQQ:nasm is wrong put("vpcmpeqq", XMM, XMM | MEM); put("vpcmpeqq", XMM, XMM, XMM | MEM); put("vpcmpgtq", XMM, XMM | MEM); put("vpcmpgtq", XMM, XMM, XMM | MEM); put("vmovntps", MEM, XMM | YMM); // nasm error #else put("vmaskmovps", XMM, XMM, MEM); put("vmaskmovps", YMM, YMM, MEM); put("vmaskmovpd", YMM, YMM, MEM); put("vmaskmovpd", XMM, XMM, MEM); put("vmaskmovps", MEM, XMM, XMM); put("vmaskmovpd", MEM, XMM, XMM); #endif } void putCmp() { 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++) { for (int j = 0; j < 32; j++) { if (j < 8) { put((std::string("cmp") + pred[j] + suf[i]).c_str(), XMM, XMM | MEM); } std::string str = std::string("vcmp") + pred[j] + suf[i]; const char *p = str.c_str(); put(p, XMM, XMM | MEM); put(p, XMM, XMM, XMM | MEM); if (i >= 2) continue; put(p, YMM, YMM | MEM); put(p, YMM, YMM, YMM | MEM); } } } void putRip() { const char tbl[][2][64] = { { "mov(byte [rip - 10], 3);dump();", "mov byte [rip - 10], 3" }, { "mov(word [rip - 10], 3);dump();", "mov word [rip - 10], 3" }, { "mov(dword[rip - 10], 3);dump();", "mov dword [rip - 10], 3" }, { "mov(qword [rip - 10], 3);dump();", "mov qword [rip - 10], 3" }, { "mov(ptr [rip - 10], al);dump();", "mov byte [rip - 10], al" }, { "mov(ptr [rip - 10], ax);dump();", "mov word [rip - 10], ax" }, { "mov(ptr [rip - 10], eax);dump();", "mov dword [rip - 10], eax" }, { "mov(ptr [rip - 10], rax);dump();", "mov qword [rip - 10], rax" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { puts(tbl[i][isXbyak_ ? 0 : 1]); } } public: Test(bool isXbyak) : isXbyak_(isXbyak) , funcNum_(1) { if (!isXbyak_) return; printf("%s", " void gen0()\n" " {\n"); } /* gcc and vc give up to compile this source, so I split functions. */ void separateFunc() { if (!isXbyak_) return; printf( " }\n" " void gen%d()\n" " {\n", funcNum_++); } ~Test() { if (!isXbyak_) return; printf("%s", " }\n" " void gen()\n" " {\n"); for (int i = 0; i < funcNum_; i++) { printf( " gen%d();\n", i); } printf( " }\n"); } void putGprR_R_RM() { const char *tbl[] = { "andn", "mulx", "pdep", "pext", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; put(name, REG32, REG32, REG32 | MEM); #ifdef XBYAK64 put(name, REG64, REG64, REG64 | MEM); #endif } } void putGprR_RM_R() { const char *tbl[] = { "bextr", "bzhi", "sarx", "shlx", "shrx", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; put(name, REG32, REG32 | MEM, REG32); #ifdef XBYAK64 put(name, REG64, REG64 | MEM, REG64); #endif } } void putGprR_RM() { const char *tbl[] = { "blsi", "blsmsk", "blsr", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; put(name, REG32, REG32 | MEM); #ifdef XBYAK64 put(name, REG64, REG64 | MEM); #endif } } void putGprOtherwise() { put("rdrand", REG16 | REG32e); put("rdseed", REG16 | REG32e); put("rorx", REG32, REG32 | MEM, IMM8); #ifdef XBYAK64 put("rorx", REG64, REG64 | MEM, IMM8); #endif } void putGather() { const int y_vx_y = 0; const int y_vy_y = 1; const int x_vy_x = 2; const struct Tbl { const char *name; int mode; } tbl[] = { { "vgatherdpd", y_vx_y }, { "vgatherqpd", y_vy_y }, { "vgatherdps", y_vy_y }, { "vgatherqps", x_vy_x }, { "vpgatherdd", y_vy_y }, { "vpgatherqd", x_vy_x }, { "vpgatherdq", y_vx_y }, { "vpgatherqq", y_vy_y }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; const char *name = p.name; put(name, XMM, VM32X, XMM); switch (p.mode) { case y_vx_y: put(name, YMM, VM32X, YMM); break; case y_vy_y: put(name, YMM, VM32Y, YMM); break; case x_vy_x: put(name, XMM, VM32Y, XMM); break; default: printf("ERR mode=%d\n", p.mode); exit(1); } } } void putGath(const std::string& vsib) { std::string x = "xmm1, "; std::string a = std::string("[") + vsib + "], xmm3"; put("vgatherdpd", (x + "ptr" + a).c_str(), (x + a).c_str()); } void putGatherAll() { const char *xmmTbl[] = { "xmm2", "xmm4", "xmm2*1", "xmm2*4", }; for (size_t i = 0; i < NUM_OF_ARRAY(xmmTbl); i++) { std::string s = xmmTbl[i]; putGath(s); putGath(s + "+3"); putGath(s + "+eax"); putGath("3+" + s); putGath("eax+" + s); } for (size_t i = 0; i < NUM_OF_ARRAY(xmmTbl); i++) { int ord[] = { 0, 1, 2 }; do { std::string s; for (int j = 0; j < 3; j++) { if (j > 0) s += '+'; switch (ord[j]) { case 0: s += xmmTbl[i]; break; case 1: s += "123"; break; case 2: s += "ebp"; break; } } putGath(s); } while (std::next_permutation(ord, ord + 3)); } } void putSeg() { { const char *segTbl[] = { "es", "cs", "ss", "ds", "fs", "gs", }; for (size_t i = 0; i < NUM_OF_ARRAY(segTbl); i++) { const char *seg = segTbl[i]; const char *op1Tbl[] = { "ax", "edx", (isXbyak_ ? "ptr [eax]" : "[eax]"), #ifdef XBYAK64 "r9", #endif }; for (size_t j = 0; j < NUM_OF_ARRAY(op1Tbl); j++) { const char *op1 = op1Tbl[j]; if (isXbyak_) { printf("mov(%s, %s); dump();\n", op1, seg); printf("mov(%s, %s); dump();\n", seg, op1); } else { printf("mov %s, %s\n", op1, seg); printf("mov %s, %s\n", seg, op1); } } } } { const char *segTbl[] = { #ifdef XBYAK32 "es", "ss", "ds", #endif "fs", "gs", }; for (size_t i = 0; i < NUM_OF_ARRAY(segTbl); i++) { const char *seg = segTbl[i]; if (isXbyak_) { printf("push(%s); dump();\n", seg); printf("pop(%s); dump();\n", seg); } else { printf("push %s\n", seg); printf("pop %s\n", seg); } } } } void put() { #ifdef USE_AVX512 putAVX512(); #else #ifdef USE_AVX separateFunc(); putFMA2(); #ifdef USE_YASM putGprR_R_RM(); putGprR_RM_R(); putGprR_RM(); putGprOtherwise(); putGather(); putGatherAll(); #else putAVX1(); separateFunc(); putAVX2(); putAVX_X_X_XM_omit(); separateFunc(); putAVX_X_X_XM_IMM(); separateFunc(); putAVX_X_XM_IMM(); separateFunc(); putAVX_X_X_XM(); separateFunc(); putAVX_X_XM(); separateFunc(); putAVX_M_X(); putAVX_X_X_IMM_omit(); separateFunc(); putAVX_Y_XM(); separateFunc(); putFMA(); putSHA(); #endif #else // USE_AVX putJmp(); #ifdef USE_YASM putSSSE3(); putSSE4_1(); separateFunc(); putSSE4_2(); putSeg(); // same behavior as yasm for mov rax, cx #else putSIMPLE(); putReg1(); putBt(); putRorM(); separateFunc(); putPushPop(); putTest(); separateFunc(); putEtc(); putShift(); putShxd(); separateFunc(); putBs(); putMMX1(); putMMX2(); separateFunc(); putMMX3(); putMMX4(); putMMX5(); separateFunc(); putXMM1(); putXMM2(); putXMM3(); putXMM4(); separateFunc(); putCmov(); putFpuMem16_32(); putFpuMem32_64(); separateFunc(); putFpuMem16_32_64(); put("clflush", MEM); // current nasm is ok putFpu(); putFpuFpu(); putCmp(); putMPX(); #endif #ifdef XBYAK64 #ifdef USE_YASM putRip(); #else putMov64(); putMovImm64(); #endif #endif // XBYAK64 #endif // USE_AVX #endif // USE_AVX512 } #ifdef USE_AVX512 void putOpmask() { { const char *tbl[] = { "kadd", "kand", "kandn", "kor", "kxnor", "kxor", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { std::string name = tbl[i]; put(name + "b", K, K, K); put(name + "w", K, K, K); put(name + "q", K, K, K); put(name + "d", K, K, K); } put("kunpckbw", K, K, K); put("kunpckwd", K, K, K); put("kunpckdq", K, K, K); } { const char *tbl[] = { "knot", "kortest", "ktest", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { std::string name = tbl[i]; put(name + "b", K, K); put(name + "w", K, K); put(name + "q", K, K); put(name + "d", K, K); } } { const char *tbl[] = { "kshiftl", "kshiftr", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { std::string name = tbl[i]; put(name + "b", K, K, IMM8); put(name + "w", K, K, IMM8); put(name + "q", K, K, IMM8); put(name + "d", K, K, IMM8); } } put("kmovw", K, K | MEM | REG32); put("kmovq", K, K | MEM); put("kmovb", K, K | MEM | REG32); put("kmovd", K, K | MEM | REG32); put("kmovw", MEM | REG32, K); put("kmovq", MEM, K); put("kmovb", MEM | REG32, K); put("kmovd", MEM | REG32, K); #ifdef XBYAK64 put("kmovq", K, REG64); put("kmovq", REG64, K); #endif } void put_vaddpd(const char *r1, const char *r2, const char *r3, int kIdx = 0, bool z = false, int sae = 0) { std::string modifier; char pk[16] = ""; const char *pz = ""; const char *saeTblXbyak[] = { "", "|T_rn_sae", "|T_rd_sae", "|T_ru_sae", "|T_rz_sae" }; const char *saeTblNASM[] = { "", ",{rn-sae}", ",{rd-sae}", ",{ru-sae}", ",{rz-sae}" }; if (isXbyak_) { if (kIdx) CYBOZU_SNPRINTF(pk, sizeof(pk), "|k%d", kIdx); if (z) pz = "|T_z"; printf("vaddpd(%s%s%s, %s, %s%s); dump();\n", r1, pk, pz, r2, r3, saeTblXbyak[sae]); } else { if (kIdx) CYBOZU_SNPRINTF(pk, sizeof(pk), "{k%d}", kIdx); if (z) pz = "{z}"; printf("vaddpd %s%s%s, %s, %s%s\n", r1, pk, pz, r2, r3, saeTblNASM[sae]); } } void putCombi() { const char *xTbl[] = { "xmm2", #ifdef XBYAK64 "xmm8", "xmm31" #else "xmm5", "xmm6" #endif }; const char *yTbl[] = { "ymm0", #ifdef XBYAK64 "ymm15", "ymm31" #else "ymm4", "ymm2" #endif }; const char *zTbl[] = { "zmm1", #ifdef XBYAK64 "zmm9", "zmm30" #else "zmm3", "zmm7" #endif }; const size_t N = NUM_OF_ARRAY(zTbl); for (size_t i = 0; i < N; i++) { for (size_t j = 0; j < N; j++) { separateFunc(); for (size_t k = 0; k < N; k++) { #ifdef XBYAK64 for (int kIdx = 0; kIdx < 8; kIdx++) { for (int z = 0; z < 2; z++) { put_vaddpd(xTbl[i], xTbl[j], xTbl[k], kIdx, z == 1); put_vaddpd(yTbl[i], yTbl[j], yTbl[k], kIdx, z == 1); for (int sae = 0; sae < 5; sae++) { put_vaddpd(zTbl[i], zTbl[j], zTbl[k], kIdx, z == 1, sae); } } } #else put_vaddpd(xTbl[i], xTbl[j], xTbl[k]); put_vaddpd(yTbl[i], yTbl[j], yTbl[k]); for (int sae = 0; sae < 5; sae++) { put_vaddpd(zTbl[i], zTbl[j], zTbl[k], sae); } #endif } } } put("vaddpd", XMM, XMM, _MEM); put("vaddpd", YMM, YMM, _MEM); put("vaddpd", ZMM, ZMM, _MEM); } void putCmpK() { { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vcmppd", true }, { "vcmpps", true }, { "vcmpsd", false }, { "vcmpss", false }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, K, _XMM, _XMM | MEM, IMM); if (!p->supportYMM) continue; put(p->name, K, _YMM, _YMM | MEM, IMM); put(p->name, K, _ZMM, _ZMM | MEM, IMM); } } put("vcmppd", K2, ZMM, ZMM_SAE, IMM); #ifdef XBYAK64 { const struct Tbl { const char *name; } tbl[] = { { "vcomisd" }, { "vcomiss" }, { "vucomisd" }, { "vucomiss" }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl *p = &tbl[i]; put(p->name, XMM | _XMM3, XMM_SAE | XMM | MEM); } } put("vcomiss", _XMM3, XMM | MEM); put("vcomiss", XMM, XMM_SAE); #endif } void putBroadcastSub(int idx, int disp) { #ifdef XBYAK64 const char *a = "rax"; #else const char *a = "eax"; #endif if (isXbyak_) { printf("vaddpd(zmm%d, zmm1, ptr_b[%s+%d]);dump();\n", idx, a, disp); printf("vaddpd(ymm%d, ymm1, ptr_b[%s+%d]);dump();\n", idx, a, disp); printf("vaddpd(xmm%d, xmm1, ptr_b[%s+%d]);dump();\n", idx, a, disp); } else { printf("vaddpd zmm%d, zmm1, [%s+%d]{1to8}\n", idx, a, disp); printf("vaddpd ymm%d, ymm1, [%s+%d]{1to4}\n", idx, a, disp); printf("vaddpd xmm%d, xmm1, [%s+%d]{1to2}\n", idx, a, disp); } } void putBroadcast() { for (int i = 0; i < 9; i++) { putBroadcastSub(0, i); #ifdef XBYAK64 putBroadcastSub(10, i); putBroadcastSub(20, i); #endif } put("vpbroadcastb", XMM_KZ | ZMM_KZ, REG8); put("vpbroadcastw", XMM_KZ | ZMM_KZ, REG16); put("vpbroadcastd", XMM_KZ | ZMM_KZ, REG32); #ifdef XBYAK64 put("vpbroadcastq", XMM_KZ | ZMM_KZ, REG64); #endif { const char *tbl[] = { "vpbroadcastb", "vpbroadcastw", "vpbroadcastd", "vpbroadcastq", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put(tbl[i], XMM_KZ | ZMM_KZ, _XMM | _MEM); } } put("vbroadcasti32x2", XMM_KZ | YMM_KZ | ZMM_KZ, _XMM | _MEM); put("vbroadcasti32x4", YMM_KZ | ZMM_KZ, _MEM); put("vbroadcasti64x2", YMM_KZ | ZMM_KZ, _MEM); put("vbroadcasti32x8", ZMM_KZ, _MEM); put("vbroadcasti64x4", ZMM_KZ, _MEM); } void putAVX512_M_X() { const char *tbl[] = { "vmovapd", "vmovaps", "vmovupd", "vmovups", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; put(name, MEM|MEM_K, ZMM|XMM|YMM); put(name, ZMM, MEM); } } void put_vmov() { #ifdef XBYAK64 put("vmovd", _XMM3, MEM|REG32); put("vmovd", MEM|REG32, _XMM3); put("vmovq", _XMM3, MEM|REG64|XMM); put("vmovq", MEM|REG64|XMM, _XMM3); put("vmovhlps", _XMM3, _XMM3, _XMM3); put("vmovlhps", _XMM3, _XMM3, _XMM3); put("vmovntdqa", _XMM3|_YMM3|ZMM, MEM); put("vmovntdq", MEM, _XMM3 | _YMM3 | ZMM); put("vmovntpd", MEM, _XMM3 | _YMM3 | ZMM); put("vmovntps", MEM, _XMM3 | _YMM3 | ZMM); put("vmovsd", XMM_KZ, _XMM3, _XMM3); put("vmovsd", XMM_KZ, MEM); put("vmovsd", MEM_K, XMM); put("vmovss", XMM_KZ, _XMM3, _XMM3); put("vmovss", XMM_KZ, MEM); put("vmovss", MEM_K, XMM); put("vmovshdup", _ZMM, _ZMM); put("vmovsldup", _ZMM, _ZMM); { const char *tbl[] = { "valignd", "valignq", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; put(name, XMM_KZ, _XMM, _XMM | MEM, IMM); put(name, _YMM3, _YMM3, _YMM3, IMM); put(name, _ZMM, _ZMM, _ZMM, IMM); } } { const char tbl[][16] = { "vmovhpd", "vmovhps", "vmovlpd", "vmovlps", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { put(tbl[i], _XMM3, _XMM3, MEM); put(tbl[i], MEM, _XMM3); } } #endif } void put512_X_XM() { const struct Tbl { const char *name; bool M_X; } tbl[] = { { "vmovddup", false }, { "vmovdqa32", true }, { "vmovdqa64", true }, { "vmovdqu8", true }, { "vmovdqu16", true }, { "vmovdqu32", true }, { "vmovdqu64", true }, { "vpabsb", false }, { "vpabsw", false }, { "vpabsd", false }, { "vpabsq", false }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; put(p.name, _XMM|XMM_KZ, _XMM|MEM); put(p.name, _YMM|YMM_KZ, _YMM|MEM); put(p.name, _ZMM|ZMM_KZ, _ZMM|MEM); if (!p.M_X) continue; put(p.name, MEM, _XMM); put(p.name, MEM, _YMM); put(p.name, MEM, _ZMM); } put("vsqrtpd", XMM_KZ, M_1to2); put("vsqrtpd", YMM_KZ, M_1to4); put("vsqrtpd", ZMM_KZ, M_1to8); put("vsqrtpd", ZMM_KZ, ZMM_ER); put("vsqrtps", XMM_KZ, M_1to4); put("vsqrtps", YMM_KZ, M_1to8); put("vsqrtps", ZMM_KZ, M_1to16); put("vsqrtps", ZMM_KZ, ZMM_ER); put("vpabsd", ZMM_KZ, M_1to16); put("vpabsq", ZMM_KZ, M_1to8); put("vbroadcastf32x2", YMM_KZ | ZMM_KZ, _XMM | _MEM); put("vbroadcastf32x4", YMM_KZ | ZMM_KZ, _MEM); put("vbroadcastf64x2", YMM_KZ | ZMM_KZ, _MEM); put("vbroadcastf64x4", ZMM_KZ, _MEM); } void put512_X_X_XM() { const struct Tbl { const char *name; uint64_t mem; } tbl[] = { { "vsqrtsd", MEM }, { "vsqrtss", MEM }, { "vunpckhpd", M_1to2 }, { "vunpckhps", M_1to4 }, { "vunpcklpd", M_1to2 }, { "vunpcklps", M_1to4 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; put(p.name, XMM_KZ, _XMM, _XMM|p.mem); } } void put512_X3() { #ifdef XBYAK64 const struct Tbl { const char *name; uint64_t x1; uint64_t x2; uint64_t xm; } tbl[] = { { "vpacksswb", XMM_KZ, _XMM, _XMM | _MEM }, { "vpacksswb", YMM_KZ, _YMM, _YMM | _MEM }, { "vpacksswb", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpackssdw", XMM_KZ, _XMM, _XMM | M_1to4 }, { "vpackssdw", YMM_KZ, _YMM, _YMM | M_1to8 }, { "vpackssdw", ZMM_KZ, _ZMM, _ZMM | M_1to16 }, { "vpackusdw", XMM_KZ, _XMM, _XMM | M_1to4 }, { "vpackusdw", YMM_KZ, _YMM, _YMM | M_1to8 }, { "vpackusdw", ZMM_KZ, _ZMM, _ZMM | M_1to16 }, { "vpackuswb", XMM_KZ, _XMM, _XMM | _MEM }, { "vpackuswb", YMM_KZ, _YMM, _YMM | _MEM }, { "vpackuswb", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpaddb", XMM_KZ, _XMM, _XMM | _MEM }, { "vpaddw", XMM_KZ, _XMM, _XMM | _MEM }, { "vpaddd", XMM_KZ, _XMM, _XMM | M_1to4 }, { "vpaddq", ZMM_KZ, _ZMM, M_1to8 }, { "vpaddsb", XMM_KZ, _XMM, _XMM | _MEM }, { "vpaddsb", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpaddsw", XMM_KZ, _XMM, _XMM | _MEM }, { "vpaddsw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpaddusb", XMM_KZ, _XMM, _XMM | MEM }, { "vpaddusb", ZMM_KZ, _ZMM, _ZMM | MEM }, { "vpaddusw", XMM_KZ, _XMM, _XMM | MEM }, { "vpaddusw", ZMM_KZ, _ZMM, _ZMM | MEM }, { "vpsubb", XMM_KZ, _XMM, _XMM | _MEM }, { "vpsubw", XMM_KZ, _XMM, _XMM | _MEM }, { "vpsubd", XMM_KZ, _XMM, _XMM | M_1to4 }, { "vpsubq", ZMM_KZ, _ZMM, M_1to8 }, { "vpsubsb", XMM_KZ, _XMM, _XMM | _MEM }, { "vpsubsb", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpsubsw", XMM_KZ, _XMM, _XMM | _MEM }, { "vpsubsw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpsubusb", XMM_KZ, _XMM, _XMM | MEM }, { "vpsubusb", ZMM_KZ, _ZMM, _ZMM | MEM }, { "vpsubusw", XMM_KZ, _XMM, _XMM | MEM }, { "vpsubusw", ZMM_KZ, _ZMM, _ZMM | MEM }, { "vpandd", ZMM_KZ, _ZMM, _ZMM | M_1to16 }, { "vpandq", ZMM_KZ, _ZMM, _ZMM | M_1to8 }, { "vpandnd", ZMM_KZ, _ZMM, _ZMM | M_1to16 }, { "vpandnq", ZMM_KZ, _ZMM, _ZMM | M_1to8 }, { "vpavgb", ZMM_KZ, _ZMM, _ZMM }, { "vpavgw", ZMM_KZ, _ZMM, _ZMM }, { "vpcmpeqb", K2, _ZMM, _ZMM | _MEM }, { "vpcmpeqw", K2, _ZMM, _ZMM | _MEM }, { "vpcmpeqd", K2, _ZMM, _ZMM | M_1to16 }, { "vpcmpeqq", K2, _ZMM, _ZMM | M_1to8 }, { "vpcmpgtb", K2, _ZMM, _ZMM | _MEM }, { "vpcmpgtw", K2, _ZMM, _ZMM | _MEM }, { "vpcmpgtd", K2, _ZMM, _ZMM | M_1to16 }, { "vpcmpgtq", K2, _ZMM, _ZMM | M_1to8 }, { "vpmaddubsw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpmaddwd", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpmaxsb", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpmaxsw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpmaxsd", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to16 }, { "vpmaxsq", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to8 }, { "vpmaxub", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpmaxuw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpmaxud", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to16 }, { "vpmaxuq", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to8 }, { "vpminsb", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpminsw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpminsd", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to16 }, { "vpminsq", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to8 }, { "vpminub", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpminuw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpminud", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to16 }, { "vpminuq", ZMM_KZ, _ZMM, _ZMM | _MEM | M_1to8 }, { "vpslldq", _XMM3, _XMM3 | _MEM, IMM8 }, { "vpslldq", _YMM3, _YMM3 | _MEM, IMM8 }, { "vpslldq", _ZMM, _ZMM | _MEM, IMM8 }, { "vpsrldq", _XMM3, _XMM3 | _MEM, IMM8 }, { "vpsrldq", _YMM3, _YMM3 | _MEM, IMM8 }, { "vpsrldq", _ZMM, _ZMM | _MEM, IMM8 }, { "vpsraw", XMM_KZ, _XMM, IMM8 }, { "vpsraw", ZMM_KZ, _ZMM, IMM8 }, { "vpsrad", XMM_KZ, _XMM | M_1to4, IMM8 }, { "vpsrad", ZMM_KZ, _ZMM | M_1to16, IMM8 }, { "vpsraq", XMM, XMM, IMM8 }, { "vpsraq", XMM_KZ, _XMM | M_1to2, IMM8 }, { "vpsraq", ZMM_KZ, _ZMM | M_1to8, IMM8 }, { "vpsllw", _XMM3, _XMM3 | _MEM, IMM8 }, { "vpslld", _XMM3, _XMM3 | _MEM | M_1to4, IMM8 }, { "vpsllq", _XMM3, _XMM3 | _MEM | M_1to2, IMM8 }, { "vpsrlw", XMM_KZ, _XMM, IMM8 }, { "vpsrlw", ZMM_KZ, _ZMM, IMM8 }, { "vpsrld", XMM_KZ, _XMM | M_1to4, IMM8 }, { "vpsrld", ZMM_KZ, _ZMM | M_1to16, IMM8 }, { "vpsrlq", _XMM3, _XMM3 | _MEM | M_1to2, IMM8 }, { "vpsrlq", _ZMM, _ZMM | _MEM | M_1to8, IMM8 }, { "vpsravw", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsravw", _ZMM, _ZMM, _MEM }, { "vpsravd", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsravd", _ZMM, _ZMM, M_1to16 }, { "vpsravq", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsravq", _ZMM, _ZMM, M_1to8 }, { "vpsllvw", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsllvw", _ZMM, _ZMM, _MEM }, { "vpsllvd", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsllvd", _ZMM, _ZMM, M_1to16 }, { "vpsllvq", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsllvq", _ZMM, _ZMM, M_1to8 }, { "vpsrlvw", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsrlvw", _ZMM, _ZMM, _MEM }, { "vpsrlvd", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsrlvd", _ZMM, _ZMM, M_1to16 }, { "vpsrlvq", XMM_KZ | _XMM, _XMM, _XMM }, { "vpsrlvq", _ZMM, _ZMM, M_1to8 }, { "vpshufb", _XMM | XMM_KZ, _XMM, _XMM }, { "vpshufb", ZMM_KZ, _ZMM, _MEM }, { "vpshufhw", _XMM | XMM_KZ, _XMM, IMM8 }, { "vpshufhw", ZMM_KZ, _MEM, IMM8 }, { "vpshuflw", _XMM | XMM_KZ, _XMM, IMM8 }, { "vpshuflw", ZMM_KZ, _MEM, IMM8 }, { "vpshufd", _XMM | XMM_KZ, _XMM | M_1to4, IMM8 }, { "vpshufd", _ZMM | ZMM_KZ, _ZMM | M_1to16, IMM8 }, { "vpord", _XMM | XMM_KZ, _XMM, _XMM | M_1to4 }, { "vpord", _ZMM | ZMM_KZ, _ZMM, M_1to16 }, { "vporq", _XMM | XMM_KZ, _XMM, _XMM | M_1to2 }, { "vporq", _ZMM | ZMM_KZ, _ZMM, M_1to8 }, { "vpxord", _XMM | XMM_KZ, _XMM, _XMM | M_1to4 }, { "vpxord", _ZMM | ZMM_KZ, _ZMM, M_1to16 }, { "vpxorq", _XMM | XMM_KZ, _XMM, _XMM | M_1to2 }, { "vpxorq", _ZMM | ZMM_KZ, _ZMM, M_1to8 }, { "vpsadbw", _XMM3, _XMM, _XMM }, { "vpsadbw", _ZMM, _ZMM, _MEM }, { "vpmuldq", _XMM3, _XMM, _XMM | M_1to2 }, { "vpmuldq", ZMM_KZ, _ZMM, M_1to8 }, { "vpmulhrsw", _XMM3, _XMM, _XMM }, { "vpmulhrsw", ZMM_KZ, _ZMM, _MEM }, { "vpmulhuw", _XMM3, _XMM, _XMM }, { "vpmulhuw", ZMM_KZ, _ZMM, _MEM }, { "vpmulhw", _XMM3, _XMM, _XMM }, { "vpmulhw", ZMM_KZ, _ZMM, _MEM }, { "vpmullw", _XMM3, _XMM, _XMM }, { "vpmullw", ZMM_KZ, _ZMM, _MEM }, { "vpmulld", _XMM3, _XMM, M_1to4 }, { "vpmulld", ZMM_KZ, _ZMM, M_1to16 }, { "vpmullq", _XMM3, _XMM, M_1to2 }, { "vpmullq", ZMM_KZ, _ZMM, M_1to8 }, { "vpmuludq", _XMM3, _XMM, M_1to2 }, { "vpmuludq", ZMM_KZ, _ZMM, M_1to8 }, { "vpunpckhbw", _XMM3, _XMM, _XMM }, { "vpunpckhbw", _ZMM, _ZMM, _MEM }, { "vpunpckhwd", _XMM3, _XMM, _XMM }, { "vpunpckhwd", _ZMM, _ZMM, _MEM }, { "vpunpckhdq", _XMM3, _XMM, M_1to4 }, { "vpunpckhdq", _ZMM, _ZMM, M_1to16 }, { "vpunpckhqdq", _XMM3, _XMM, M_1to2 }, { "vpunpckhqdq", _ZMM, _ZMM, M_1to8 }, { "vpunpcklbw", _XMM3, _XMM, _XMM }, { "vpunpcklbw", _ZMM, _ZMM, _MEM }, { "vpunpcklwd", _XMM3, _XMM, _XMM }, { "vpunpcklwd", _ZMM, _ZMM, _MEM }, { "vpunpckldq", _XMM3, _XMM, M_1to4 }, { "vpunpckldq", _ZMM, _ZMM, M_1to16 }, { "vpunpcklqdq", _XMM3, _XMM, M_1to2 }, { "vpunpcklqdq", _ZMM, _ZMM, M_1to8 }, { "vextractf32x4", _XMM | XMM_KZ | _MEM, _YMM | _ZMM, IMM8 }, { "vextractf64x2", _XMM | XMM_KZ | _MEM, _YMM | _ZMM, IMM8 }, { "vextractf32x8", _YMM | YMM_KZ | _MEM, _ZMM, IMM8 }, { "vextractf64x4", _YMM | YMM_KZ | _MEM, _ZMM, IMM8 }, { "vextracti32x4", _XMM | XMM_KZ | _MEM, _YMM | _ZMM, IMM8 }, { "vextracti64x2", _XMM | XMM_KZ | _MEM, _YMM | _ZMM, IMM8 }, { "vextracti32x8", _YMM | YMM_KZ | _MEM, _ZMM, IMM8 }, { "vextracti64x4", _YMM | YMM_KZ | _MEM, _ZMM, IMM8 }, { "vextractps", REG32 | _MEM, _XMM3, IMM8 }, { "vpermb", XMM_KZ, _XMM, _XMM }, { "vpermb", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpermw", XMM_KZ, _XMM, _XMM }, { "vpermw", ZMM_KZ, _ZMM, _ZMM | _MEM }, { "vpermd", YMM_KZ, _YMM, _YMM | M_1to8 }, { "vpermd", ZMM_KZ, _ZMM, _ZMM | M_1to16 }, { "vpermilpd", XMM_KZ, _XMM, _XMM | M_1to2 }, { "vpermilpd", ZMM_KZ, _ZMM, M_1to8 }, { "vpermilpd", XMM_KZ, M_1to2, IMM8 }, { "vpermilpd", ZMM_KZ, M_1to8, IMM8 }, { "vpermilps", XMM_KZ, _XMM, _XMM | M_1to4 }, { "vpermilps", ZMM_KZ, _ZMM, M_1to16 }, { "vpermilps", XMM_KZ, M_1to4, IMM8 }, { "vpermilps", ZMM_KZ, M_1to16, IMM8 }, { "vpermpd", YMM_KZ, _YMM | M_1to4, IMM8 }, { "vpermpd", ZMM_KZ, _ZMM | M_1to8, IMM8 }, { "vpermpd", YMM_KZ, _YMM, M_1to4 }, { "vpermpd", ZMM_KZ, _ZMM, M_1to8 }, { "vpermps", YMM_KZ, _YMM, M_1to8 }, { "vpermps", ZMM_KZ, _ZMM, M_1to16 }, { "vpermq", YMM_KZ, _YMM | M_1to4, IMM8 }, { "vpermq", ZMM_KZ, _ZMM | M_1to8, IMM8 }, { "vpermq", YMM_KZ, _YMM, M_1to4 }, { "vpermq", ZMM_KZ, _ZMM, M_1to8 }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; put(p.name, p.x1, p.x2, p.xm); } #endif } void put512_X3_I() { const struct Tbl { const char *name; uint64_t x1; uint64_t x2; uint64_t xm; } tbl[] = { #ifdef XBYAK64 { "vinsertps", _XMM, _XMM, _XMM3 }, { "vshufpd", XMM_KZ, _XMM, M_1to2 }, { "vshufpd", ZMM_KZ, _ZMM, M_1to8 }, { "vshufps", XMM_KZ, _XMM, M_1to4 }, { "vshufps", ZMM_KZ, _ZMM, M_1to16 }, { "vinsertf32x4", _YMM | YMM_KZ, _YMM, _XMM | _MEM }, { "vinsertf32x4", _ZMM | ZMM_KZ, _ZMM, _XMM | _MEM }, { "vinsertf64x2", _YMM | YMM_KZ, _YMM, _XMM | _MEM }, { "vinsertf64x2", _ZMM | ZMM_KZ, _ZMM, _XMM | _MEM }, { "vinsertf32x8", _ZMM | ZMM_KZ, _ZMM, _YMM | _MEM }, { "vinsertf64x4", _ZMM | ZMM_KZ, _ZMM, _YMM | _MEM }, { "vinserti32x4", _YMM | YMM_KZ, _YMM, _XMM | _MEM }, { "vinserti32x4", _ZMM | ZMM_KZ, _ZMM, _XMM | _MEM }, { "vinserti64x2", _YMM | YMM_KZ, _YMM, _XMM | _MEM }, { "vinserti64x2", _ZMM | ZMM_KZ, _ZMM, _XMM | _MEM }, { "vinserti32x8", _ZMM | ZMM_KZ, _ZMM, _YMM | _MEM }, { "vinserti64x4", _ZMM | ZMM_KZ, _ZMM, _YMM | _MEM }, #endif { "vpalignr", ZMM_KZ, _ZMM, _ZMM }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; put(p.name, p.x1, p.x2, p.xm, IMM8); } #ifdef XBYAK64 put("vpextrb", _REG64, _XMM3, IMM8); put("vpextrw", _REG64|MEM, _XMM3, IMM8); put("vpextrd", _REG32, _XMM3, IMM8); put("vpextrq", _REG64, _XMM3, IMM8); put("vpinsrb", _XMM3, _XMM3, _REG32, IMM8); put("vpinsrw", _XMM3, _XMM3, _REG32, IMM8); put("vpinsrd", _XMM3, _XMM3, _REG32, IMM8); put("vpinsrq", _XMM3, _XMM3, _REG64, IMM8); #endif } void put512_FMA() { const struct Tbl { const char *name; bool supportYMM; } tbl[] = { { "vfmadd", true }, { "vfmadd", false }, { "vfmaddsub", true }, { "vfmsubadd", true }, { "vfmsub", true }, { "vfmsub", false }, { "vfnmadd", true }, { "vfnmadd", false }, { "vfnmsub", true }, { "vfnmsub", false }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const Tbl& p = tbl[i]; const struct Ord { const char *name; } ord[] = { { "132" }, { "213" }, { "231" }, }; for (size_t j = 0; j < NUM_OF_ARRAY(ord); j++) { const char sufTbl[][2][8] = { { "pd", "ps" }, { "sd", "ss" }, }; for (size_t k = 0; k < 2; k++) { const std::string suf = sufTbl[p.supportYMM ? 0 : 1][k]; uint64_t mem = 0; if (suf == "pd") { mem = M_1to2; } else if (suf == "ps") { mem = M_1to4; } else { mem = XMM_ER; } std::string name = std::string(p.name) + ord[j].name + suf; const char *q = name.c_str(); put(q, XMM_KZ, _XMM, mem); if (!p.supportYMM) continue; if (suf == "pd") { mem = M_1to8; } else if (suf == "ps") { mem = M_1to16; } else { mem = XMM_ER; } put(q, _ZMM, _ZMM, mem); } } } } void put512_Y_XM() { const char *tbl[] = { "vpmovsxbw", "vpmovsxbd", "vpmovsxbq", "vpmovsxwd", "vpmovsxwq", "vpmovsxdq", "vpmovzxbw", "vpmovzxbd", "vpmovzxbq", "vpmovzxwd", "vpmovzxwq", "vpmovzxdq", }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const char *name = tbl[i]; put(name, XMM_KZ, _XMM); put(name, _ZMM, _MEM); } } void put512_AVX1() { #ifdef XBYAK64 const struct Tbl { std::string name; bool only_pd_ps; } tbl[] = { { "vadd", false }, { "vsub", false }, { "vmul", false }, { "vdiv", false }, { "vmax", false }, { "vmin", false }, { "vand", true }, { "vandn", true }, { "vor", true }, { "vxor", true }, }; for (size_t i = 0; i < NUM_OF_ARRAY(tbl); i++) { const struct Suf { const char *suf; bool supportYMM; } sufTbl[] = { { "pd", true }, { "ps", true }, { "sd", false }, { "ss", false }, }; for (size_t j = 0; j < NUM_OF_ARRAY(sufTbl); j++) { if (tbl[i].only_pd_ps && j == 2) break; std::string suf = sufTbl[j].suf; std::string name = tbl[i].name + suf; const char *p = name.c_str(); uint64_t mem = 0; if (suf == "pd") { mem = M_1to2; } else if (suf == "ps") { mem = M_1to4; } put(p, _XMM3 | XMM_KZ, _XMM, mem); if (!sufTbl[j].supportYMM) continue; mem = 0; if (suf == "pd") { mem = M_1to8; } else if (suf == "ps") { mem = M_1to16; } put(p, _ZMM, _ZMM, mem); } } #endif } void put512_cvt() { #ifdef XBYAK64 put("vcvtdq2pd", XMM_KZ, _XMM | M_1to2); put("vcvtdq2pd", YMM_KZ, _XMM | M_1to4); put("vcvtdq2pd", ZMM_KZ, _YMM | M_1to8); put("vcvtdq2ps", XMM_KZ, _XMM | M_1to4); put("vcvtdq2ps", YMM_KZ, _YMM | M_1to8); put("vcvtdq2ps", ZMM_KZ, _ZMM | M_1to16); put("vcvtpd2dq", XMM_KZ, _XMM | _YMM | M_1to2); put("vcvtpd2dq", YMM_KZ, _ZMM | ZMM_ER | M_1to8); #endif } void putMin() { #ifdef XBYAK64 put("vcvtpd2dq", _XMM | _XMM3, _XMM | M_xword | M_1to2); put("vcvtpd2dq", _XMM | _XMM3, _YMM | M_yword | MY_1to4); #endif } void putAVX512() { #ifdef MIN_TEST putMin(); #else putOpmask(); separateFunc(); putCombi(); separateFunc(); putCmpK(); separateFunc(); putBroadcast(); separateFunc(); putAVX512_M_X(); separateFunc(); put_vmov(); separateFunc(); put512_X_XM(); separateFunc(); put512_X_X_XM(); separateFunc(); put512_X3(); separateFunc(); put512_X3_I(); separateFunc(); put512_FMA(); separateFunc(); put512_Y_XM(); separateFunc(); put512_AVX1(); separateFunc(); put512_cvt(); #endif } #endif }; int main(int argc, char *[]) { Test test(argc > 1); test.put(); }