update xbyak v5.941

src/xbyak/xbyak.h

@@ -72,13 +72,17 @@
 	#define XBYAK_STD_UNORDERED_MULTIMAP std::multimap
 #endif
 #ifdef _WIN32
-	#include <winsock2.h>
+	#ifndef WIN32_LEAN_AND_MEAN
+		#define WIN32_LEAN_AND_MEAN
+	#endif
 	#include <windows.h>
 	#include <malloc.h>
+	#define XBYAK_TLS __declspec(thread)
 #elif defined(__GNUC__)
 	#include <unistd.h>
 	#include <sys/mman.h>
 	#include <stdlib.h>
+	#define XBYAK_TLS __thread
 #endif
 #if defined(__APPLE__) && !defined(XBYAK_DONT_USE_MAP_JIT)
 	#define XBYAK_USE_MAP_JIT
@@ -120,7 +124,7 @@ namespace Xbyak {
 
 enum {
 	DEFAULT_MAX_CODE_SIZE = 4096,
-	VERSION = 0x5912 /* 0xABCD = A.BC(D) */
+	VERSION = 0x5941 /* 0xABCD = A.BC(D) */
 };
 
 #ifndef MIE_INTEGER_TYPE_DEFINED
@@ -194,20 +198,11 @@ enum {
 	ERR_INVALID_RIP_IN_AUTO_GROW,
 	ERR_INVALID_MIB_ADDRESS,
 	ERR_X2APIC_IS_NOT_SUPPORTED,
+	ERR_NOT_SUPPORTED,
 	ERR_INTERNAL // Put it at last.
 };
 
-class Error : public std::exception {
-	int err_;
-public:
-	explicit Error(int err) : err_(err)
-	{
-		if (err_ < 0 || err_ > ERR_INTERNAL) {
-			err_ = ERR_INTERNAL;
-		}
-	}
-	operator int() const { return err_; }
-	const char *what() const throw()
+inline const char *ConvertErrorToString(int err)
 {
 	static const char *errTbl[] = {
 		"none",
@@ -255,19 +250,58 @@ public:
 		"invalid rip in AutoGrow",
 		"invalid mib address",
 		"x2APIC is not supported",
+		"not supported",
 		"internal error"
 	};
-		assert(err_ <= ERR_INTERNAL);
 	assert(ERR_INTERNAL + 1 == sizeof(errTbl) / sizeof(*errTbl));
-		return errTbl[err_];
+	return err <= ERR_INTERNAL ? errTbl[err] : "unknown err";
+}
+
+#ifdef XBYAK_NO_EXCEPTION
+namespace local {
+
+static XBYAK_TLS int l_err = 0;
+inline void SetError(int err) { if (err) l_err = err; } // keep the first err code
+
+} // local
+
+inline void ClearError() { local::l_err = 0; }
+inline int GetError() { return local::l_err; }
+
+#define XBYAK_THROW(err) { local::SetError(err); return; }
+#define XBYAK_THROW_RET(err, r) { local::SetError(err); return r; }
+
+#else
+class Error : public std::exception {
+	int err_;
+public:
+	explicit Error(int err) : err_(err)
+	{
+		if (err_ < 0 || err_ > ERR_INTERNAL) {
+			err_ = ERR_INTERNAL;
+		}
+	}
+	operator int() const { return err_; }
+	const char *what() const throw()
+	{
+		return ConvertErrorToString(err_);
 	}
 };
 
+// dummy functions
+inline void ClearError() { }
+inline int GetError() { return 0; }
+
 inline const char *ConvertErrorToString(const Error& err)
 {
 	return err.what();
 }
 
+#define XBYAK_THROW(err) { throw Error(err); }
+#define XBYAK_THROW_RET(err, r) { throw Error(err); }
+
+#endif
+
 inline void *AlignedMalloc(size_t size, size_t alignment)
 {
 #ifdef __MINGW32__
@@ -307,7 +341,7 @@ inline bool IsInInt32(uint64 x) { return ~uint64(0x7fffffffu) <= x || x <= 0x7FF
 inline uint32 VerifyInInt32(uint64 x)
 {
 #ifdef XBYAK64
-	if (!IsInInt32(x)) throw Error(ERR_OFFSET_IS_TOO_BIG);
+	if (!IsInInt32(x)) XBYAK_THROW_RET(ERR_OFFSET_IS_TOO_BIG, 0)
 #endif
 	return static_cast<uint32>(x);
 }
@@ -375,7 +409,7 @@ public:
 		#error "not supported"
 #endif
 		void *p = mmap(NULL, size, PROT_READ | PROT_WRITE, mode, -1, 0);
-		if (p == MAP_FAILED) throw Error(ERR_CANT_ALLOC);
+		if (p == MAP_FAILED) XBYAK_THROW_RET(ERR_CANT_ALLOC, 0)
 		assert(p);
 		sizeList_[(uintptr_t)p] = size;
 		return (uint8*)p;
@@ -384,8 +418,8 @@ public:
 	{
 		if (p == 0) return;
 		SizeList::iterator i = sizeList_.find((uintptr_t)p);
-		if (i == sizeList_.end()) throw Error(ERR_BAD_PARAMETER);
-		if (munmap((void*)i->first, i->second) < 0) throw Error(ERR_MUNMAP);
+		if (i == sizeList_.end()) XBYAK_THROW(ERR_BAD_PARAMETER)
+		if (munmap((void*)i->first, i->second) < 0) XBYAK_THROW(ERR_MUNMAP)
 		sizeList_.erase(i);
 	}
 };
@@ -397,8 +431,8 @@ class Reg;
 class Operand {
 	static const uint8 EXT8BIT = 0x20;
 	unsigned int idx_:6; // 0..31 + EXT8BIT = 1 if spl/bpl/sil/dil
-	unsigned int kind_:9;
-	unsigned int bit_:10;
+	unsigned int kind_:10;
+	unsigned int bit_:14;
 protected:
 	unsigned int zero_:1;
 	unsigned int mask_:3;
@@ -415,7 +449,8 @@ public:
 		YMM = 1 << 5,
 		ZMM = 1 << 6,
 		OPMASK = 1 << 7,
-		BNDREG = 1 << 8
+		BNDREG = 1 << 8,
+		TMM = 1 << 9
 	};
 	enum Code {
 #ifdef XBYAK64
@@ -445,6 +480,7 @@ public:
 	bool isXMM() const { return is(XMM); }
 	bool isYMM() const { return is(YMM); }
 	bool isZMM() const { return is(ZMM); }
+	bool isTMM() const { return is(TMM); }
 	bool isXMEM() const { return is(XMM | MEM); }
 	bool isYMEM() const { return is(YMM | MEM); }
 	bool isZMEM() const { return is(ZMM | MEM); }
@@ -463,20 +499,20 @@ public:
 	int getRounding() const { return rounding_; }
 	void setKind(Kind kind)
 	{
-		if ((kind & (XMM|YMM|ZMM)) == 0) return;
+		if ((kind & (XMM|YMM|ZMM|TMM)) == 0) return;
 		kind_ = kind;
-		bit_ = kind == XMM ? 128 : kind == YMM ? 256 : 512;
+		bit_ = kind == XMM ? 128 : kind == YMM ? 256 : kind == ZMM ? 512 : 8192;
 	}
 	// err if MMX/FPU/OPMASK/BNDREG
 	void setBit(int bit);
 	void setOpmaskIdx(int idx, bool /*ignore_idx0*/ = true)
 	{
-		if (mask_) throw Error(ERR_OPMASK_IS_ALREADY_SET);
+		if (mask_) XBYAK_THROW(ERR_OPMASK_IS_ALREADY_SET)
 		mask_ = idx;
 	}
 	void setRounding(int idx)
 	{
-		if (rounding_) throw Error(ERR_ROUNDING_IS_ALREADY_SET);
+		if (rounding_) XBYAK_THROW(ERR_ROUNDING_IS_ALREADY_SET)
 		rounding_ = idx;
 	}
 	void setZero() { zero_ = true; }
@@ -513,6 +549,11 @@ public:
 		} else if (isOPMASK()) {
 			static const char *tbl[8] = { "k0", "k1", "k2", "k3", "k4", "k5", "k6", "k7" };
 			return tbl[idx];
+		} else if (isTMM()) {
+			static const char *tbl[8] = {
+				"tmm0", "tmm1", "tmm2", "tmm3", "tmm4", "tmm5", "tmm6", "tmm7"
+			};
+			return tbl[idx];
 		} else if (isZMM()) {
 			static const char *tbl[32] = {
 				"zmm0", "zmm1", "zmm2", "zmm3", "zmm4", "zmm5", "zmm6", "zmm7", "zmm8", "zmm9", "zmm10", "zmm11", "zmm12", "zmm13", "zmm14", "zmm15",
@@ -541,7 +582,7 @@ public:
 			static const char *tbl[4] = { "bnd0", "bnd1", "bnd2", "bnd3" };
 			return tbl[idx];
 		}
-		throw Error(ERR_INTERNAL);
+		XBYAK_THROW_RET(ERR_INTERNAL, 0);
 	}
 	bool isEqualIfNotInherited(const Operand& rhs) const { return idx_ == rhs.idx_ && kind_ == rhs.kind_ && bit_ == rhs.bit_ && zero_ == rhs.zero_ && mask_ == rhs.mask_ && rounding_ == rhs.rounding_; }
 	bool operator==(const Operand& rhs) const;
@@ -552,13 +593,13 @@ public:
 
 inline void Operand::setBit(int bit)
 {
-	if (bit != 8 && bit != 16 && bit != 32 && bit != 64 && bit != 128 && bit != 256 && bit != 512) goto ERR;
+	if (bit != 8 && bit != 16 && bit != 32 && bit != 64 && bit != 128 && bit != 256 && bit != 512 && bit != 8192) goto ERR;
 	if (isBit(bit)) return;
 	if (is(MEM | OPMASK)) {
 		bit_ = bit;
 		return;
 	}
-	if (is(REG | XMM | YMM | ZMM)) {
+	if (is(REG | XMM | YMM | ZMM | TMM)) {
 		int idx = getIdx();
 		// err if converting ah, bh, ch, dh
 		if (isREG(8) && (4 <= idx && idx < 8) && !isExt8bit()) goto ERR;
@@ -580,6 +621,7 @@ inline void Operand::setBit(int bit)
 		case 128: kind = XMM; break;
 		case 256: kind = YMM; break;
 		case 512: kind = ZMM; break;
+		case 8192: kind = TMM; break;
 		}
 		idx_ = idx;
 		kind_ = kind;
@@ -590,7 +632,7 @@ inline void Operand::setBit(int bit)
 		return;
 	}
 ERR:
-	throw Error(ERR_CANT_CONVERT);
+	XBYAK_THROW(ERR_CANT_CONVERT)
 }
 
 class Label;
@@ -674,6 +716,12 @@ struct Zmm : public Ymm {
 	Zmm operator|(const EvexModifierRounding& emr) const { Zmm r(*this); r.setRounding(emr.rounding); return r; }
 };
 
+#ifdef XBYAK64
+struct Tmm : public Reg {
+	explicit Tmm(int idx = 0, Kind kind = Operand::TMM, int bit = 8192) : Reg(idx, kind, bit) { }
+};
+#endif
+
 struct Opmask : public Reg {
 	explicit Opmask(int idx = 0) : Reg(idx, Operand::OPMASK, 64) {}
 };
@@ -718,11 +766,11 @@ struct RegRip {
 		return RegRip(r.disp_ - disp, r.label_, r.isAddr_);
 	}
 	friend const RegRip operator+(const RegRip& r, const Label& label) {
-		if (r.label_ || r.isAddr_) throw Error(ERR_BAD_ADDRESSING);
+		if (r.label_ || r.isAddr_) XBYAK_THROW_RET(ERR_BAD_ADDRESSING, RegRip());
 		return RegRip(r.disp_, &label);
 	}
 	friend const RegRip operator+(const RegRip& r, const void *addr) {
-		if (r.label_ || r.isAddr_) throw Error(ERR_BAD_ADDRESSING);
+		if (r.label_ || r.isAddr_) XBYAK_THROW_RET(ERR_BAD_ADDRESSING, RegRip());
 		return RegRip(r.disp_ + (sint64)addr, 0, true);
 	}
 };
@@ -782,9 +830,9 @@ public:
 		: scale_(scale)
 		, disp_(0)
 	{
-		if (!r.isREG(i32e) && !r.is(Reg::XMM|Reg::YMM|Reg::ZMM)) throw Error(ERR_BAD_SIZE_OF_REGISTER);
+		if (!r.isREG(i32e) && !r.is(Reg::XMM|Reg::YMM|Reg::ZMM|Reg::TMM)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER)
 		if (scale == 0) return;
-		if (scale != 1 && scale != 2 && scale != 4 && scale != 8) throw Error(ERR_BAD_SCALE);
+		if (scale != 1 && scale != 2 && scale != 4 && scale != 8) XBYAK_THROW(ERR_BAD_SCALE)
 		if (r.getBit() >= 128 || scale != 1) { // xmm/ymm is always index
 			index_ = r;
 		} else {
@@ -812,10 +860,10 @@ public:
 	size_t getDisp() const { return disp_; }
 	void verify() const
 	{
-		if (base_.getBit() >= 128) throw Error(ERR_BAD_SIZE_OF_REGISTER);
+		if (base_.getBit() >= 128) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER)
 		if (index_.getBit() && index_.getBit() <= 64) {
-			if (index_.getIdx() == Operand::ESP) throw Error(ERR_ESP_CANT_BE_INDEX);
-			if (base_.getBit() && base_.getBit() != index_.getBit()) throw Error(ERR_BAD_SIZE_OF_REGISTER);
+			if (index_.getIdx() == Operand::ESP) XBYAK_THROW(ERR_ESP_CANT_BE_INDEX)
+			if (base_.getBit() && base_.getBit() != index_.getBit()) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER)
 		}
 	}
 	friend RegExp operator+(const RegExp& a, const RegExp& b);
@@ -838,12 +886,12 @@ private:
 
 inline RegExp operator+(const RegExp& a, const RegExp& b)
 {
-	if (a.index_.getBit() && b.index_.getBit()) throw Error(ERR_BAD_ADDRESSING);
+	if (a.index_.getBit() && b.index_.getBit()) XBYAK_THROW_RET(ERR_BAD_ADDRESSING, RegExp())
 	RegExp ret = a;
 	if (!ret.index_.getBit()) { ret.index_ = b.index_; ret.scale_ = b.scale_; }
 	if (b.base_.getBit()) {
 		if (ret.base_.getBit()) {
-			if (ret.index_.getBit()) throw Error(ERR_BAD_ADDRESSING);
+			if (ret.index_.getBit()) XBYAK_THROW_RET(ERR_BAD_ADDRESSING, RegExp())
 			// base + base => base + index * 1
 			ret.index_ = b.base_;
 			// [reg + esp] => [esp + reg]
@@ -917,7 +965,7 @@ protected:
 	{
 		const size_t newSize = (std::max<size_t>)(DEFAULT_MAX_CODE_SIZE, maxSize_ * 2);
 		uint8 *newTop = alloc_->alloc(newSize);
-		if (newTop == 0) throw Error(ERR_CANT_ALLOC);
+		if (newTop == 0) XBYAK_THROW(ERR_CANT_ALLOC)
 		for (size_t i = 0; i < size_; i++) newTop[i] = top_[i];
 		alloc_->free(top_);
 		top_ = newTop;
@@ -949,10 +997,10 @@ public:
 		, size_(0)
 		, isCalledCalcJmpAddress_(false)
 	{
-		if (maxSize_ > 0 && top_ == 0) throw Error(ERR_CANT_ALLOC);
+		if (maxSize_ > 0 && top_ == 0) XBYAK_THROW(ERR_CANT_ALLOC)
 		if ((type_ == ALLOC_BUF && userPtr != DontSetProtectRWE && useProtect()) && !setProtectMode(PROTECT_RWE, false)) {
 			alloc_->free(top_);
-			throw Error(ERR_CANT_PROTECT);
+			XBYAK_THROW(ERR_CANT_PROTECT)
 		}
 	}
 	virtual ~CodeArray()
@@ -966,7 +1014,7 @@ public:
 	{
 		bool isOK = protect(top_, maxSize_, mode);
 		if (isOK) return true;
-		if (throwException) throw Error(ERR_CANT_PROTECT);
+		if (throwException) XBYAK_THROW_RET(ERR_CANT_PROTECT, false)
 		return false;
 	}
 	bool setProtectModeRE(bool throwException = true) { return setProtectMode(PROTECT_RE, throwException); }
@@ -983,7 +1031,7 @@ public:
 			if (type_ == AUTO_GROW) {
 				growMemory();
 			} else {
-				throw Error(ERR_CODE_IS_TOO_BIG);
+				XBYAK_THROW(ERR_CODE_IS_TOO_BIG)
 			}
 		}
 		top_[size_++] = static_cast<uint8>(code);
@@ -994,7 +1042,7 @@ public:
 	}
 	void db(uint64 code, size_t codeSize)
 	{
-		if (codeSize > 8) throw Error(ERR_BAD_PARAMETER);
+		if (codeSize > 8) XBYAK_THROW(ERR_BAD_PARAMETER)
 		for (size_t i = 0; i < codeSize; i++) db(static_cast<uint8>(code >> (i * 8)));
 	}
 	void dw(uint32 code) { db(code, 2); }
@@ -1009,7 +1057,7 @@ public:
 	size_t getSize() const { return size_; }
 	void setSize(size_t size)
 	{
-		if (size > maxSize_) throw Error(ERR_OFFSET_IS_TOO_BIG);
+		if (size > maxSize_) XBYAK_THROW(ERR_OFFSET_IS_TOO_BIG)
 		size_ = size;
 	}
 	void dump() const
@@ -1042,7 +1090,7 @@ public:
 	void rewrite(size_t offset, uint64 disp, size_t size)
 	{
 		assert(offset < maxSize_);
-		if (size != 1 && size != 2 && size != 4 && size != 8) throw Error(ERR_BAD_PARAMETER);
+		if (size != 1 && size != 2 && size != 4 && size != 8) XBYAK_THROW(ERR_BAD_PARAMETER)
 		uint8 *const data = top_ + offset;
 		for (size_t i = 0; i < size; i++) {
 			data[i] = static_cast<uint8>(disp >> (i * 8));
@@ -1271,7 +1319,7 @@ class LabelManager {
 		// add label
 		typename DefList::value_type item(labelId, addrOffset);
 		std::pair<typename DefList::iterator, bool> ret = defList.insert(item);
-		if (!ret.second) throw Error(ERR_LABEL_IS_REDEFINED);
+		if (!ret.second) XBYAK_THROW(ERR_LABEL_IS_REDEFINED)
 		// search undefined label
 		for (;;) {
 			typename UndefList::iterator itr = undefList.find(labelId);
@@ -1286,9 +1334,9 @@ class LabelManager {
 			} else {
 				disp = addrOffset - jmp->endOfJmp + jmp->disp;
 #ifdef XBYAK64
-				if (jmp->jmpSize <= 4 && !inner::IsInInt32(disp)) throw Error(ERR_OFFSET_IS_TOO_BIG);
+				if (jmp->jmpSize <= 4 && !inner::IsInInt32(disp)) XBYAK_THROW(ERR_OFFSET_IS_TOO_BIG)
 #endif
-				if (jmp->jmpSize == 1 && !inner::IsInDisp8((uint32)disp)) throw Error(ERR_LABEL_IS_TOO_FAR);
+				if (jmp->jmpSize == 1 && !inner::IsInDisp8((uint32)disp)) XBYAK_THROW(ERR_LABEL_IS_TOO_FAR)
 			}
 			if (base_->isAutoGrow()) {
 				base_->save(offset, disp, jmp->jmpSize, jmp->mode);
@@ -1360,6 +1408,7 @@ public:
 		clabelDefList_.clear();
 		clabelUndefList_.clear();
 		resetLabelPtrList();
+		ClearError();
 	}
 	void enterLocal()
 	{
@@ -1367,14 +1416,14 @@ public:
 	}
 	void leaveLocal()
 	{
-		if (stateList_.size() <= 2) throw Error(ERR_UNDER_LOCAL_LABEL);
-		if (hasUndefinedLabel_inner(stateList_.back().undefList)) throw Error(ERR_LABEL_IS_NOT_FOUND);
+		if (stateList_.size() <= 2) XBYAK_THROW(ERR_UNDER_LOCAL_LABEL)
+		if (hasUndefinedLabel_inner(stateList_.back().undefList)) XBYAK_THROW(ERR_LABEL_IS_NOT_FOUND)
 		stateList_.pop_back();
 	}
 	void set(CodeArray *base) { base_ = base; }
 	void defineSlabel(std::string label)
 	{
-		if (label == "@b" || label == "@f") throw Error(ERR_BAD_LABEL_STR);
+		if (label == "@b" || label == "@f") XBYAK_THROW(ERR_BAD_LABEL_STR)
 		if (label == "@@") {
 			SlabelDefList& defList = stateList_.front().defList;
 			SlabelDefList::iterator i = defList.find("@f");
@@ -1401,7 +1450,7 @@ public:
 	void assign(Label& dst, const Label& src)
 	{
 		ClabelDefList::const_iterator i = clabelDefList_.find(src.id);
-		if (i == clabelDefList_.end()) throw Error(ERR_LABEL_ISNOT_SET_BY_L);
+		if (i == clabelDefList_.end()) XBYAK_THROW(ERR_LABEL_ISNOT_SET_BY_L)
 		define_inner(clabelDefList_, clabelUndefList_, dst.id, i->second.offset);
 		dst.mgr = this;
 		labelPtrList_.insert(&dst);
@@ -1413,7 +1462,7 @@ public:
 			if (defList.find("@f") != defList.end()) {
 				label = "@f";
 			} else if (defList.find("@b") == defList.end()) {
-				throw Error(ERR_LABEL_IS_NOT_FOUND);
+				XBYAK_THROW_RET(ERR_LABEL_IS_NOT_FOUND, false)
 			}
 		} else if (label == "@f") {
 			if (defList.find("@f") != defList.end()) {
@@ -1456,7 +1505,7 @@ inline Label::Label(const Label& rhs)
 }
 inline Label& Label::operator=(const Label& rhs)
 {
-	if (id) throw Error(ERR_LABEL_IS_ALREADY_SET_BY_L);
+	if (id) XBYAK_THROW_RET(ERR_LABEL_IS_ALREADY_SET_BY_L, *this)
 	id = rhs.id;
 	mgr = rhs.mgr;
 	if (mgr) mgr->incRefCount(id, this);
@@ -1485,7 +1534,7 @@ private:
 	CodeGenerator operator=(const CodeGenerator&); // don't call
 #ifdef XBYAK64
 	enum { i32e = 32 | 64, BIT = 64 };
-	static const size_t dummyAddr = (size_t(0x11223344) << 32) | 55667788;
+	static const uint64 dummyAddr = uint64(0x1122334455667788ull);
 	typedef Reg64 NativeReg;
 #else
 	enum { i32e = 32, BIT = 32 };
@@ -1532,7 +1581,7 @@ private:
 		uint8 rex = 0;
 		const Operand *p1 = &op1, *p2 = &op2;
 		if (p1->isMEM()) std::swap(p1, p2);
-		if (p1->isMEM()) throw Error(ERR_BAD_COMBINATION);
+		if (p1->isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION)
 		if (p2->isMEM()) {
 			const Address& addr = p2->getAddress();
 			if (BIT == 64 && addr.is32bit()) db(0x67);
@@ -1592,7 +1641,7 @@ private:
 		bool r = reg.isExtIdx();
 		bool b = base.isExtIdx();
 		int idx = v ? v->getIdx() : 0;
-		if ((idx | reg.getIdx() | base.getIdx()) >= 16) throw Error(ERR_BAD_COMBINATION);
+		if ((idx | reg.getIdx() | base.getIdx()) >= 16) XBYAK_THROW(ERR_BAD_COMBINATION)
 		uint32 pp = (type & T_66) ? 1 : (type & T_F3) ? 2 : (type & T_F2) ? 3 : 0;
 		uint32 vvvv = (((~idx) & 15) << 3) | (is256 ? 4 : 0) | pp;
 		if (!b && !x && !w && (type & T_0F)) {
@@ -1606,23 +1655,23 @@ private:
 	void verifySAE(const Reg& r, int type) const
 	{
 		if (((type & T_SAE_X) && r.isXMM()) || ((type & T_SAE_Y) && r.isYMM()) || ((type & T_SAE_Z) && r.isZMM())) return;
-		throw Error(ERR_SAE_IS_INVALID);
+		XBYAK_THROW(ERR_SAE_IS_INVALID)
 	}
 	void verifyER(const Reg& r, int type) const
 	{
 		if (((type & T_ER_X) && r.isXMM()) || ((type & T_ER_Y) && r.isYMM()) || ((type & T_ER_Z) && r.isZMM())) return;
-		throw Error(ERR_ER_IS_INVALID);
+		XBYAK_THROW(ERR_ER_IS_INVALID)
 	}
 	// (a, b, c) contains non zero two or three values then err
 	int verifyDuplicate(int a, int b, int c, int err)
 	{
 		int v = a | b | c;
-		if ((a > 0 && a != v) + (b > 0 && b != v) + (c > 0 && c != v) > 0) return Error(err);
+		if ((a > 0 && a != v) + (b > 0 && b != v) + (c > 0 && c != v) > 0) XBYAK_THROW_RET(err, 0)
 		return v;
 	}
 	int evex(const Reg& reg, const Reg& base, const Operand *v, int type, int code, bool x = false, bool b = false, int aaa = 0, uint32 VL = 0, bool Hi16Vidx = false)
 	{
-		if (!(type & (T_EVEX | T_MUST_EVEX))) throw Error(ERR_EVEX_IS_INVALID);
+		if (!(type & (T_EVEX | T_MUST_EVEX))) XBYAK_THROW_RET(ERR_EVEX_IS_INVALID, 0)
 		int w = (type & T_EW1) ? 1 : 0;
 		uint32 mm = (type & T_0F) ? 1 : (type & T_0F38) ? 2 : (type & T_0F3A) ? 3 : 0;
 		uint32 pp = (type & T_66) ? 1 : (type & T_F3) ? 2 : (type & T_F2) ? 3 : 0;
@@ -1680,10 +1729,10 @@ private:
 	}
 	void setSIB(const RegExp& e, int reg, int disp8N = 0)
 	{
-		size_t disp64 = e.getDisp();
+		uint64 disp64 = e.getDisp();
 #ifdef XBYAK64
-		size_t high = disp64 >> 32;
-		if (high != 0 && high != 0xFFFFFFFF) throw Error(ERR_OFFSET_IS_TOO_BIG);
+		uint64 high = disp64 >> 32;
+		if (high != 0 && high != 0xFFFFFFFF) XBYAK_THROW(ERR_OFFSET_IS_TOO_BIG)
 #endif
 		uint32 disp = static_cast<uint32>(disp64);
 		const Reg& base = e.getBase();
@@ -1743,23 +1792,23 @@ private:
 	}
 	void opModM(const Address& addr, const Reg& reg, int code0, int code1 = NONE, int code2 = NONE, int immSize = 0)
 	{
-		if (addr.is64bitDisp()) throw Error(ERR_CANT_USE_64BIT_DISP);
+		if (addr.is64bitDisp()) XBYAK_THROW(ERR_CANT_USE_64BIT_DISP)
 		rex(addr, reg);
 		db(code0 | (reg.isBit(8) ? 0 : 1)); if (code1 != NONE) db(code1); if (code2 != NONE) db(code2);
 		opAddr(addr, reg.getIdx(), immSize);
 	}
 	void opLoadSeg(const Address& addr, const Reg& reg, int code0, int code1 = NONE)
 	{
-		if (addr.is64bitDisp()) throw Error(ERR_CANT_USE_64BIT_DISP);
-		if (reg.isBit(8)) throw Error(ERR_BAD_SIZE_OF_REGISTER);
+		if (addr.is64bitDisp()) XBYAK_THROW(ERR_CANT_USE_64BIT_DISP)
+		if (reg.isBit(8)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER)
 		rex(addr, reg);
 		db(code0); if (code1 != NONE) db(code1);
 		opAddr(addr, reg.getIdx());
 	}
 	void opMIB(const Address& addr, const Reg& reg, int code0, int code1)
 	{
-		if (addr.is64bitDisp()) throw Error(ERR_CANT_USE_64BIT_DISP);
-		if (addr.getMode() != Address::M_ModRM) throw Error(ERR_INVALID_MIB_ADDRESS);
+		if (addr.is64bitDisp()) XBYAK_THROW(ERR_CANT_USE_64BIT_DISP)
+		if (addr.getMode() != Address::M_ModRM) XBYAK_THROW(ERR_INVALID_MIB_ADDRESS)
 		if (BIT == 64 && addr.is32bit()) db(0x67);
 		const RegExp& regExp = addr.getRegExp(false);
 		uint8 rex = regExp.getRex();
@@ -1775,7 +1824,7 @@ private:
 		if (type != T_NEAR && inner::IsInDisp8(disp - shortJmpSize)) {
 			db(shortCode); db(disp - shortJmpSize);
 		} else {
-			if (type == T_SHORT) throw Error(ERR_LABEL_IS_TOO_FAR);
+			if (type == T_SHORT) XBYAK_THROW(ERR_LABEL_IS_TOO_FAR)
 			if (longPref) db(longPref);
 			db(longCode); dd(disp - longJmpSize);
 		}
@@ -1805,7 +1854,7 @@ private:
 	void opJmpAbs(const void *addr, LabelType type, uint8 shortCode, uint8 longCode, uint8 longPref = 0)
 	{
 		if (isAutoGrow()) {
-			if (!isNEAR(type)) throw Error(ERR_ONLY_T_NEAR_IS_SUPPORTED_IN_AUTO_GROW);
+			if (!isNEAR(type)) XBYAK_THROW(ERR_ONLY_T_NEAR_IS_SUPPORTED_IN_AUTO_GROW)
 			if (size_ + 16 >= maxSize_) growMemory();
 			if (longPref) db(longPref);
 			db(longCode);
@@ -1821,7 +1870,7 @@ private:
 	// disp8N = 0(normal), disp8N = 1(force disp32), disp8N = {2, 4, 8} ; compressed displacement
 	void opAddr(const Address &addr, int reg, int immSize = 0, int disp8N = 0, bool permitVisb = false)
 	{
-		if (!permitVisb && addr.isVsib()) throw Error(ERR_BAD_VSIB_ADDRESSING);
+		if (!permitVisb && addr.isVsib()) XBYAK_THROW(ERR_BAD_VSIB_ADDRESSING)
 		if (addr.getMode() == Address::M_ModRM) {
 			setSIB(addr.getRegExp(), reg, disp8N);
 		} else if (addr.getMode() == Address::M_rip || addr.getMode() == Address::M_ripAddr) {
@@ -1831,7 +1880,7 @@ private:
 			} else {
 				size_t disp = addr.getDisp();
 				if (addr.getMode() == Address::M_ripAddr) {
-					if (isAutoGrow()) throw Error(ERR_INVALID_RIP_IN_AUTO_GROW);
+					if (isAutoGrow()) XBYAK_THROW(ERR_INVALID_RIP_IN_AUTO_GROW)
 					disp -= (size_t)getCurr() + 4 + immSize;
 				}
 				dd(inner::VerifyInInt32(disp));
@@ -1841,7 +1890,7 @@ private:
 	/* preCode is for SSSE3/SSE4 */
 	void opGen(const Operand& reg, const Operand& op, int code, int pref, bool isValid(const Operand&, const Operand&), int imm8 = NONE, int preCode = NONE)
 	{
-		if (isValid && !isValid(reg, op)) throw Error(ERR_BAD_COMBINATION);
+		if (isValid && !isValid(reg, op)) XBYAK_THROW(ERR_BAD_COMBINATION)
 		if (pref != NONE) db(pref);
 		if (op.isMEM()) {
 			opModM(op.getAddress(), reg.getReg(), 0x0F, preCode, code, (imm8 != NONE) ? 1 : 0);
@@ -1868,7 +1917,7 @@ private:
 		} else if (op1.isMEM() && op2.isXMM()) {
 			opModM(op1.getAddress(), op2.getReg(), 0x0F, code | 1);
 		} else {
-			throw Error(ERR_BAD_COMBINATION);
+			XBYAK_THROW(ERR_BAD_COMBINATION)
 		}
 	}
 	void opExt(const Operand& op, const Mmx& mmx, int code, int imm, bool hasMMX2 = false)
@@ -1889,7 +1938,7 @@ private:
 		} else if (op.isMEM()) {
 			opModM(op.getAddress(), Reg(ext, Operand::REG, opBit), code0, code1, code2, immSize);
 		} else {
-			throw Error(ERR_BAD_COMBINATION);
+			XBYAK_THROW(ERR_BAD_COMBINATION)
 		}
 	}
 	void opShift(const Operand& op, int imm, int ext)
@@ -1900,7 +1949,7 @@ private:
 	}
 	void opShift(const Operand& op, const Reg8& _cl, int ext)
 	{
-		if (_cl.getIdx() != Operand::CL) throw Error(ERR_BAD_COMBINATION);
+		if (_cl.getIdx() != Operand::CL) XBYAK_THROW(ERR_BAD_COMBINATION)
 		opR_ModM(op, 0, ext, 0xD2);
 	}
 	void opModRM(const Operand& op1, const Operand& op2, bool condR, bool condM, int code0, int code1 = NONE, int code2 = NONE, int immSize = 0)
@@ -1910,12 +1959,12 @@ private:
 		} else if (condM) {
 			opModM(op2.getAddress(), op1.getReg(), code0, code1, code2, immSize);
 		} else {
-			throw Error(ERR_BAD_COMBINATION);
+			XBYAK_THROW(ERR_BAD_COMBINATION)
 		}
 	}
 	void opShxd(const Operand& op, const Reg& reg, uint8 imm, int code, const Reg8 *_cl = 0)
 	{
-		if (_cl && _cl->getIdx() != Operand::CL) throw Error(ERR_BAD_COMBINATION);
+		if (_cl && _cl->getIdx() != Operand::CL) XBYAK_THROW(ERR_BAD_COMBINATION)
 		opModRM(reg, op, (op.isREG(16 | i32e) && op.getBit() == reg.getBit()), op.isMEM() && (reg.isREG(16 | i32e)), 0x0F, code | (_cl ? 1 : 0), NONE, _cl ? 0 : 1);
 		if (!_cl) db(imm);
 	}
@@ -1934,7 +1983,7 @@ private:
 		verifyMemHasSize(op);
 		uint32 immBit = inner::IsInDisp8(imm) ? 8 : isInDisp16(imm) ? 16 : 32;
 		if (op.isBit(8)) immBit = 8;
-		if (op.getBit() < immBit) throw Error(ERR_IMM_IS_TOO_BIG);
+		if (op.getBit() < immBit) XBYAK_THROW(ERR_IMM_IS_TOO_BIG)
 		if (op.isBit(32|64) && immBit == 16) immBit = 32; /* don't use MEM16 if 32/64bit mode */
 		if (op.isREG() && op.getIdx() == 0 && (op.getBit() == immBit || (op.isBit(64) && immBit == 32))) { // rax, eax, ax, al
 			rex(op);
@@ -1976,21 +2025,21 @@ private:
 				return;
 			}
 		}
-		throw Error(ERR_BAD_COMBINATION);
+		XBYAK_THROW(ERR_BAD_COMBINATION)
 	}
 	void verifyMemHasSize(const Operand& op) const
 	{
-		if (op.isMEM() && op.getBit() == 0) throw Error(ERR_MEM_SIZE_IS_NOT_SPECIFIED);
+		if (op.isMEM() && op.getBit() == 0) XBYAK_THROW(ERR_MEM_SIZE_IS_NOT_SPECIFIED)
 	}
 	/*
 		mov(r, imm) = db(imm, mov_imm(r, imm))
 	*/
-	int mov_imm(const Reg& reg, size_t imm)
+	int mov_imm(const Reg& reg, uint64 imm)
 	{
 		int bit = reg.getBit();
 		const int idx = reg.getIdx();
 		int code = 0xB0 | ((bit == 8 ? 0 : 1) << 3);
-		if (bit == 64 && (imm & ~size_t(0xffffffffu)) == 0) {
+		if (bit == 64 && (imm & ~uint64(0xffffffffu)) == 0) {
 			rex(Reg32(idx));
 			bit = 32;
 		} else {
@@ -2027,19 +2076,19 @@ private:
 	}
 	void opMovxx(const Reg& reg, const Operand& op, uint8 code)
 	{
-		if (op.isBit(32)) throw Error(ERR_BAD_COMBINATION);
+		if (op.isBit(32)) XBYAK_THROW(ERR_BAD_COMBINATION)
 		int w = op.isBit(16);
 #ifdef XBYAK64
-		if (op.isHigh8bit()) throw Error(ERR_BAD_COMBINATION);
+		if (op.isHigh8bit()) XBYAK_THROW(ERR_BAD_COMBINATION)
 #endif
 		bool cond = reg.isREG() && (reg.getBit() > op.getBit());
 		opModRM(reg, op, cond && op.isREG(), cond && op.isMEM(), 0x0F, code | w);
 	}
 	void opFpuMem(const Address& addr, uint8 m16, uint8 m32, uint8 m64, uint8 ext, uint8 m64ext)
 	{
-		if (addr.is64bitDisp()) throw Error(ERR_CANT_USE_64BIT_DISP);
+		if (addr.is64bitDisp()) XBYAK_THROW(ERR_CANT_USE_64BIT_DISP)
 		uint8 code = addr.isBit(16) ? m16 : addr.isBit(32) ? m32 : addr.isBit(64) ? m64 : 0;
-		if (!code) throw Error(ERR_BAD_MEM_SIZE);
+		if (!code) XBYAK_THROW(ERR_BAD_MEM_SIZE)
 		if (m64ext && addr.isBit(64)) ext = m64ext;
 
 		rex(addr, st0);
@@ -2051,7 +2100,7 @@ private:
 	void opFpuFpu(const Fpu& reg1, const Fpu& reg2, uint32 code1, uint32 code2)
 	{
 		uint32 code = reg1.getIdx() == 0 ? code1 : reg2.getIdx() == 0 ? code2 : 0;
-		if (!code) throw Error(ERR_BAD_ST_COMBINATION);
+		if (!code) XBYAK_THROW(ERR_BAD_ST_COMBINATION)
 		db(uint8(code >> 8));
 		db(uint8(code | (reg1.getIdx() | reg2.getIdx())));
 	}
@@ -2071,10 +2120,10 @@ private:
 			bool x = index.isExtIdx();
 			if ((type & (T_MUST_EVEX|T_MEM_EVEX)) || r.hasEvex() || (p1 && p1->hasEvex()) || addr.isBroadcast() || addr.getOpmaskIdx()) {
 				int aaa = addr.getOpmaskIdx();
-				if (aaa && !(type & T_M_K)) throw Error(ERR_INVALID_OPMASK_WITH_MEMORY);
+				if (aaa && !(type & T_M_K)) XBYAK_THROW(ERR_INVALID_OPMASK_WITH_MEMORY)
 				bool b = false;
 				if (addr.isBroadcast()) {
-					if (!(type & (T_B32 | T_B64))) throw Error(ERR_INVALID_BROADCAST);
+					if (!(type & (T_B32 | T_B64))) XBYAK_THROW(ERR_INVALID_BROADCAST)
 					b = true;
 				}
 				int VL = regExp.isVsib() ? index.getBit() : 0;
@@ -2102,7 +2151,7 @@ private:
 		const Operand *p2 = &op2;
 		if (!isR_R_RM) std::swap(p1, p2);
 		const unsigned int bit = r.getBit();
-		if (p1->getBit() != bit || (p2->isREG() && p2->getBit() != bit)) throw Error(ERR_BAD_COMBINATION);
+		if (p1->getBit() != bit || (p2->isREG() && p2->getBit() != bit)) XBYAK_THROW(ERR_BAD_COMBINATION)
 		type |= (bit == 64) ? T_W1 : T_W0;
 		opVex(r, p1, *p2, type, code, imm8);
 	}
@@ -2115,23 +2164,23 @@ private:
 			op = &op1;
 		}
 		// (x1, x2, op)
-		if (!((x1.isXMM() && x2->isXMM()) || ((type & T_YMM) && ((x1.isYMM() && x2->isYMM()) || (x1.isZMM() && x2->isZMM()))))) throw Error(ERR_BAD_COMBINATION);
+		if (!((x1.isXMM() && x2->isXMM()) || ((type & T_YMM) && ((x1.isYMM() && x2->isYMM()) || (x1.isZMM() && x2->isZMM()))))) XBYAK_THROW(ERR_BAD_COMBINATION)
 		opVex(x1, x2, *op, type, code0, imm8);
 	}
 	void opAVX_K_X_XM(const Opmask& k, const Xmm& x2, const Operand& op3, int type, int code0, int imm8 = NONE)
 	{
-		if (!op3.isMEM() && (x2.getKind() != op3.getKind())) throw Error(ERR_BAD_COMBINATION);
+		if (!op3.isMEM() && (x2.getKind() != op3.getKind())) XBYAK_THROW(ERR_BAD_COMBINATION)
 		opVex(k, &x2, op3, type, code0, imm8);
 	}
 	// (x, x/m), (y, x/m256), (z, y/m)
 	void checkCvt1(const Operand& x, const Operand& op) const
 	{
-		if (!op.isMEM() && !(x.is(Operand::XMM | Operand::YMM) && op.isXMM()) && !(x.isZMM() && op.isYMM())) throw Error(ERR_BAD_COMBINATION);
+		if (!op.isMEM() && !(x.is(Operand::XMM | Operand::YMM) && op.isXMM()) && !(x.isZMM() && op.isYMM())) XBYAK_THROW(ERR_BAD_COMBINATION)
 	}
 	// (x, x/m), (x, y/m256), (y, z/m)
 	void checkCvt2(const Xmm& x, const Operand& op) const
 	{
-		if (!(x.isXMM() && op.is(Operand::XMM | Operand::YMM | Operand::MEM)) && !(x.isYMM() && op.is(Operand::ZMM | Operand::MEM))) throw Error(ERR_BAD_COMBINATION);
+		if (!(x.isXMM() && op.is(Operand::XMM | Operand::YMM | Operand::MEM)) && !(x.isYMM() && op.is(Operand::ZMM | Operand::MEM))) XBYAK_THROW(ERR_BAD_COMBINATION)
 	}
 	void opCvt2(const Xmm& x, const Operand& op, int type, int code)
 	{
@@ -2141,7 +2190,7 @@ private:
 	}
 	void opCvt3(const Xmm& x1, const Xmm& x2, const Operand& op, int type, int type64, int type32, uint8 code)
 	{
-		if (!(x1.isXMM() && x2.isXMM() && (op.isREG(i32e) || op.isMEM()))) throw Error(ERR_BAD_SIZE_OF_REGISTER);
+		if (!(x1.isXMM() && x2.isXMM() && (op.isREG(i32e) || op.isMEM()))) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER)
 		Xmm x(op.getIdx());
 		const Operand *p = op.isREG() ? &x : &op;
 		opVex(x1, &x2, *p, type | (op.isBit(64) ? type64 : type32), code);
@@ -2158,16 +2207,16 @@ private:
 	// QQQ:need to refactor
 	void opSp1(const Reg& reg, const Operand& op, uint8 pref, uint8 code0, uint8 code1)
 	{
-		if (reg.isBit(8)) throw Error(ERR_BAD_SIZE_OF_REGISTER);
+		if (reg.isBit(8)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER)
 		bool is16bit = reg.isREG(16) && (op.isREG(16) || op.isMEM());
-		if (!is16bit && !(reg.isREG(i32e) && (op.isREG(reg.getBit()) || op.isMEM()))) throw Error(ERR_BAD_COMBINATION);
+		if (!is16bit && !(reg.isREG(i32e) && (op.isREG(reg.getBit()) || op.isMEM()))) XBYAK_THROW(ERR_BAD_COMBINATION)
 		if (is16bit) db(0x66);
 		db(pref); opModRM(reg.changeBit(i32e == 32 ? 32 : reg.getBit()), op, op.isREG(), true, code0, code1);
 	}
 	void opGather(const Xmm& x1, const Address& addr, const Xmm& x2, int type, uint8 code, int mode)
 	{
 		const RegExp& regExp = addr.getRegExp();
-		if (!regExp.isVsib(128 | 256)) throw Error(ERR_BAD_VSIB_ADDRESSING);
+		if (!regExp.isVsib(128 | 256)) XBYAK_THROW(ERR_BAD_VSIB_ADDRESSING)
 		const int y_vx_y = 0;
 		const int y_vy_y = 1;
 //		const int x_vy_x = 2;
@@ -2181,7 +2230,7 @@ private:
 			} else { // x_vy_x
 				isOK = !x1.isYMM() && isAddrYMM && !x2.isYMM();
 			}
-			if (!isOK) throw Error(ERR_BAD_VSIB_ADDRESSING);
+			if (!isOK) XBYAK_THROW(ERR_BAD_VSIB_ADDRESSING)
 		}
 		opAVX_X_X_XM(isAddrYMM ? Ymm(x1.getIdx()) : x1, isAddrYMM ? Ymm(x2.getIdx()) : x2, addr, type, code);
 	}
@@ -2201,11 +2250,11 @@ private:
 		case xx_xy_yz: if ((x1.isXMM() && x2.isYMM()) || (x1.isYMM() && x2.isZMM())) return;
 			break;
 		}
-		throw Error(ERR_BAD_VSIB_ADDRESSING);
+		XBYAK_THROW(ERR_BAD_VSIB_ADDRESSING)
 	}
 	void opGather2(const Xmm& x, const Address& addr, int type, uint8 code, int mode)
 	{
-		if (x.hasZero()) throw Error(ERR_INVALID_ZERO);
+		if (x.hasZero()) XBYAK_THROW(ERR_INVALID_ZERO)
 		checkGather2(x, addr.getRegExp().getIndex(), mode);
 		opVex(x, 0, addr, type, code);
 	}
@@ -2216,16 +2265,16 @@ private:
 	void opVmov(const Operand& op, const Xmm& x, int type, uint8 code, bool mode)
 	{
 		if (mode) {
-			if (!op.isMEM() && !((op.isXMM() && x.isXMM()) || (op.isXMM() && x.isYMM()) || (op.isYMM() && x.isZMM())))  throw Error(ERR_BAD_COMBINATION);
+			if (!op.isMEM() && !((op.isXMM() && x.isXMM()) || (op.isXMM() && x.isYMM()) || (op.isYMM() && x.isZMM()))) XBYAK_THROW(ERR_BAD_COMBINATION)
 		} else {
-			if (!op.isMEM() && !op.isXMM()) throw Error(ERR_BAD_COMBINATION);
+			if (!op.isMEM() && !op.isXMM()) XBYAK_THROW(ERR_BAD_COMBINATION)
 		}
 		opVex(x, 0, op, type, code);
 	}
 	void opGatherFetch(const Address& addr, const Xmm& x, int type, uint8 code, Operand::Kind kind)
 	{
-		if (addr.hasZero()) throw Error(ERR_INVALID_ZERO);
-		if (addr.getRegExp().getIndex().getKind() != kind) throw Error(ERR_BAD_VSIB_ADDRESSING);
+		if (addr.hasZero()) XBYAK_THROW(ERR_INVALID_ZERO)
+		if (addr.getRegExp().getIndex().getKind() != kind) XBYAK_THROW(ERR_BAD_VSIB_ADDRESSING)
 		opVex(x, 0, addr, type, code);
 	}
 	void opInOut(const Reg& a, const Reg& d, uint8 code)
@@ -2237,7 +2286,7 @@ private:
 			case 32: db(code + 1); return;
 			}
 		}
-		throw Error(ERR_BAD_COMBINATION);
+		XBYAK_THROW(ERR_BAD_COMBINATION)
 	}
 	void opInOut(const Reg& a, uint8 code, uint8 v)
 	{
@@ -2248,8 +2297,17 @@ private:
 			case 32: db(code + 1); db(v); return;
 			}
 		}
-		throw Error(ERR_BAD_COMBINATION);
+		XBYAK_THROW(ERR_BAD_COMBINATION)
 	}
+#ifdef XBYAK64
+	void opAMX(const Tmm& t1, const Address& addr, int type, int code0)
+	{
+		// require both base and index
+		const RegExp exp = addr.getRegExp(false);
+		if (exp.getBase().getBit() == 0 || exp.getIndex().getBit() == 0) XBYAK_THROW(ERR_NOT_SUPPORTED)
+		opVex(t1, &tmm0, addr, type, code0);
+	}
+#endif
 public:
 	unsigned int getVersion() const { return VERSION; }
 	using CodeArray::db;
@@ -2285,6 +2343,7 @@ public:
 	const Zmm zmm8, zmm9, zmm10, zmm11, zmm12, zmm13, zmm14, zmm15;
 	const Zmm zmm16, zmm17, zmm18, zmm19, zmm20, zmm21, zmm22, zmm23;
 	const Zmm zmm24, zmm25, zmm26, zmm27, zmm28, zmm29, zmm30, zmm31;
+	const Tmm tmm0, tmm1, tmm2, tmm3, tmm4, tmm5, tmm6, tmm7;
 	const Xmm &xm8, &xm9, &xm10, &xm11, &xm12, &xm13, &xm14, &xm15; // for my convenience
 	const Xmm &xm16, &xm17, &xm18, &xm19, &xm20, &xm21, &xm22, &xm23;
 	const Xmm &xm24, &xm25, &xm26, &xm27, &xm28, &xm29, &xm30, &xm31;
@@ -2411,7 +2470,7 @@ public:
 				db(reg1.isREG(8) ? 0xA0 : reg1.isREG() ? 0xA1 : reg2.isREG(8) ? 0xA2 : 0xA3);
 				db(addr->getDisp(), 8);
 			} else {
-				throw Error(ERR_BAD_COMBINATION);
+				XBYAK_THROW(ERR_BAD_COMBINATION)
 			}
 		} else
 #else
@@ -2425,7 +2484,7 @@ public:
 			opRM_RM(reg1, reg2, 0x88);
 		}
 	}
-	void mov(const Operand& op, size_t imm)
+	void mov(const Operand& op, uint64 imm)
 	{
 		if (op.isREG()) {
 			const int size = mov_imm(op.getReg(), imm);
@@ -2435,15 +2494,15 @@ public:
 			int immSize = op.getBit() / 8;
 			if (immSize <= 4) {
 				sint64 s = sint64(imm) >> (immSize * 8);
-				if (s != 0 && s != -1) throw Error(ERR_IMM_IS_TOO_BIG);
+				if (s != 0 && s != -1) XBYAK_THROW(ERR_IMM_IS_TOO_BIG)
 			} else {
-				if (!inner::IsInInt32(imm)) throw Error(ERR_IMM_IS_TOO_BIG);
+				if (!inner::IsInInt32(imm)) XBYAK_THROW(ERR_IMM_IS_TOO_BIG)
 				immSize = 4;
 			}
 			opModM(op.getAddress(), Reg(0, Operand::REG, op.getBit()), 0xC6, NONE, NONE, immSize);
 			db(static_cast<uint32>(imm), immSize);
 		} else {
-			throw Error(ERR_BAD_COMBINATION);
+			XBYAK_THROW(ERR_BAD_COMBINATION)
 		}
 	}
 	void mov(const NativeReg& reg, const char *label) // can't use std::string
@@ -2466,7 +2525,7 @@ public:
 		if (p1->isMEM() || (p2->isREG(16 | i32e) && p2->getIdx() == 0)) {
 			p1 = &op2; p2 = &op1;
 		}
-		if (p1->isMEM()) throw Error(ERR_BAD_COMBINATION);
+		if (p1->isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION)
 		if (p2->isREG() && (p1->isREG(16 | i32e) && p1->getIdx() == 0)
 #ifdef XBYAK64
 			&& (p2->getIdx() != 0 || !p1->isREG(32))
@@ -2496,7 +2555,7 @@ public:
 	{
 		switch (seg.getIdx()) {
 		case Segment::es: db(0x07); break;
-		case Segment::cs: throw Error(ERR_BAD_COMBINATION);
+		case Segment::cs: XBYAK_THROW(ERR_BAD_COMBINATION)
 		case Segment::ss: db(0x17); break;
 		case Segment::ds: db(0x1F); break;
 		case Segment::fs: db(0x0F); db(0xA1); break;
@@ -2566,6 +2625,7 @@ public:
 		, zmm8(8), zmm9(9), zmm10(10), zmm11(11), zmm12(12), zmm13(13), zmm14(14), zmm15(15)
 		, zmm16(16), zmm17(17), zmm18(18), zmm19(19), zmm20(20), zmm21(21), zmm22(22), zmm23(23)
 		, zmm24(24), zmm25(25), zmm26(26), zmm27(27), zmm28(28), zmm29(29), zmm30(30), zmm31(31)
+		, tmm0(0), tmm1(1), tmm2(2), tmm3(3), tmm4(4), tmm5(5), tmm6(6), tmm7(7)
 		// for my convenience
 		, xm8(xmm8), xm9(xmm9), xm10(xmm10), xm11(xmm11), xm12(xmm12), xm13(xmm13), xm14(xmm14), xm15(xmm15)
 		, xm16(xmm16), xm17(xmm17), xm18(xmm18), xm19(xmm19), xm20(xmm20), xm21(xmm21), xm22(xmm22), xm23(xmm23)
@@ -2598,7 +2658,7 @@ public:
 	*/
 	void ready(ProtectMode mode = PROTECT_RWE)
 	{
-		if (hasUndefinedLabel()) throw Error(ERR_LABEL_IS_NOT_FOUND);
+		if (hasUndefinedLabel()) XBYAK_THROW(ERR_LABEL_IS_NOT_FOUND)
 		if (isAutoGrow()) {
 			calcJmpAddress();
 			if (useProtect()) setProtectMode(mode);
@@ -2663,7 +2723,7 @@ public:
 	void align(size_t x = 16, bool useMultiByteNop = true)
 	{
 		if (x == 1) return;
-		if (x < 1 || (x & (x - 1))) throw Error(ERR_BAD_ALIGN);
+		if (x < 1 || (x & (x - 1))) XBYAK_THROW(ERR_BAD_ALIGN)
 		if (isAutoGrow() && x > inner::ALIGN_PAGE_SIZE) fprintf(stderr, "warning:autoGrow mode does not support %d align\n", (int)x);
 		size_t remain = size_t(getCurr()) % x;
 		if (remain) {
@@ -2702,6 +2762,7 @@ static const Ymm ymm24(24), ymm25(25), ymm26(26), ymm27(27), ymm28(28), ymm29(29
 static const Zmm zmm8(8), zmm9(9), zmm10(10), zmm11(11), zmm12(12), zmm13(13), zmm14(14), zmm15(15);
 static const Zmm zmm16(16), zmm17(17), zmm18(18), zmm19(19), zmm20(20), zmm21(21), zmm22(22), zmm23(23);
 static const Zmm zmm24(24), zmm25(25), zmm26(26), zmm27(27), zmm28(28), zmm29(29), zmm30(30), zmm31(31);
+static const Tmm tmm0(0), tmm1(1), tmm2(2), tmm3(3), tmm4(4), tmm5(5), tmm6(6), tmm7(7);
 static const RegRip rip;
 #endif
 #ifndef XBYAK_DISABLE_SEGMENT

src/xbyak/xbyak_mnemonic.h

@@ -1,4 +1,4 @@
-const char *getVersionString() const { return "5.912"; }
+const char *getVersionString() const { return "5.941"; }
 void adc(const Operand& op, uint32 imm) { opRM_I(op, imm, 0x10, 2); }
 void adc(const Operand& op1, const Operand& op2) { opRM_RM(op1, op2, 0x10); }
 void adcx(const Reg32e& reg, const Operand& op) { opGen(reg, op, 0xF6, 0x66, isREG32_REG32orMEM, NONE, 0x38); }
@@ -266,7 +266,7 @@ void fnsave(const Address& addr) { opModM(addr, Reg32(6), 0xDD, 0x100); }
 void fnstcw(const Address& addr) { opModM(addr, Reg32(7), 0xD9, 0x100); }
 void fnstenv(const Address& addr) { opModM(addr, Reg32(6), 0xD9, 0x100); }
 void fnstsw(const Address& addr) { opModM(addr, Reg32(7), 0xDD, 0x100); }
-void fnstsw(const Reg16& r) { if (r.getIdx() != Operand::AX) throw Error(ERR_BAD_PARAMETER); db(0xDF); db(0xE0); }
+void fnstsw(const Reg16& r) { if (r.getIdx() != Operand::AX) XBYAK_THROW(ERR_BAD_PARAMETER) db(0xDF); db(0xE0); }
 void fpatan() { db(0xD9); db(0xF3); }
 void fprem() { db(0xD9); db(0xF8); }
 void fprem1() { db(0xD9); db(0xF5); }
@@ -285,7 +285,7 @@ void fstenv(const Address& addr) { db(0x9B); opModM(addr, Reg32(6), 0xD9, 0x100)
 void fstp(const Address& addr) { opFpuMem(addr, 0x00, 0xD9, 0xDD, 3, 0); }
 void fstp(const Fpu& reg) { opFpu(reg, 0xDD, 0xD8); }
 void fstsw(const Address& addr) { db(0x9B); opModM(addr, Reg32(7), 0xDD, 0x100); }
-void fstsw(const Reg16& r) { if (r.getIdx() != Operand::AX) throw Error(ERR_BAD_PARAMETER); db(0x9B); db(0xDF); db(0xE0); }
+void fstsw(const Reg16& r) { if (r.getIdx() != Operand::AX) XBYAK_THROW(ERR_BAD_PARAMETER) db(0x9B); db(0xDF); db(0xE0); }
 void fsub(const Address& addr) { opFpuMem(addr, 0x00, 0xD8, 0xDC, 4, 0); }
 void fsub(const Fpu& reg1) { opFpuFpu(st0, reg1, 0xD8E0, 0xDCE8); }
 void fsub(const Fpu& reg1, const Fpu& reg2) { opFpuFpu(reg1, reg2, 0xD8E0, 0xDCE8); }
@@ -454,7 +454,7 @@ void jz(std::string label, LabelType type = T_AUTO) { opJmp(label, type, 0x74, 0
 void lahf() { db(0x9F); }
 void lddqu(const Xmm& xmm, const Address& addr) { db(0xF2); opModM(addr, xmm, 0x0F, 0xF0); }
 void ldmxcsr(const Address& addr) { opModM(addr, Reg32(2), 0x0F, 0xAE); }
-void lea(const Reg& reg, const Address& addr) { if (!reg.isBit(16 | i32e)) throw Error(ERR_BAD_SIZE_OF_REGISTER); opModM(addr, reg, 0x8D); }
+void lea(const Reg& reg, const Address& addr) { if (!reg.isBit(16 | i32e)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) opModM(addr, reg, 0x8D); }
 void leave() { db(0xC9); }
 void lfence() { db(0x0F); db(0xAE); db(0xE8); }
 void lfs(const Reg& reg, const Address& addr) { opLoadSeg(addr, reg, 0x0F, 0xB4); }
@@ -475,7 +475,7 @@ void loopne(std::string label) { opJmp(label, T_SHORT, 0xE0, 0, 0); }
 void lss(const Reg& reg, const Address& addr) { opLoadSeg(addr, reg, 0x0F, 0xB2); }
 void lzcnt(const Reg&reg, const Operand& op) { opSp1(reg, op, 0xF3, 0x0F, 0xBD); }
 void maskmovdqu(const Xmm& reg1, const Xmm& reg2) { db(0x66);  opModR(reg1, reg2, 0x0F, 0xF7); }
-void maskmovq(const Mmx& reg1, const Mmx& reg2) { if (!reg1.isMMX() || !reg2.isMMX()) throw Error(ERR_BAD_COMBINATION); opModR(reg1, reg2, 0x0F, 0xF7); }
+void maskmovq(const Mmx& reg1, const Mmx& reg2) { if (!reg1.isMMX() || !reg2.isMMX()) XBYAK_THROW(ERR_BAD_COMBINATION) opModR(reg1, reg2, 0x0F, 0xF7); }
 void maxpd(const Xmm& xmm, const Operand& op) { opGen(xmm, op, 0x5F, 0x66, isXMM_XMMorMEM); }
 void maxps(const Xmm& xmm, const Operand& op) { opGen(xmm, op, 0x5F, 0x100, isXMM_XMMorMEM); }
 void maxsd(const Xmm& xmm, const Operand& op) { opGen(xmm, op, 0x5F, 0xF2, isXMM_XMMorMEM); }
@@ -516,7 +516,7 @@ void movntdqa(const Xmm& xmm, const Address& addr) { db(0x66); opModM(addr, xmm,
 void movnti(const Address& addr, const Reg32e& reg) { opModM(addr, reg, 0x0F, 0xC3); }
 void movntpd(const Address& addr, const Xmm& reg) { opModM(addr, Reg16(reg.getIdx()), 0x0F, 0x2B); }
 void movntps(const Address& addr, const Xmm& xmm) { opModM(addr, Mmx(xmm.getIdx()), 0x0F, 0x2B); }
-void movntq(const Address& addr, const Mmx& mmx) { if (!mmx.isMMX()) throw Error(ERR_BAD_COMBINATION); opModM(addr, mmx, 0x0F, 0xE7); }
+void movntq(const Address& addr, const Mmx& mmx) { if (!mmx.isMMX()) XBYAK_THROW(ERR_BAD_COMBINATION) opModM(addr, mmx, 0x0F, 0xE7); }
 void movq(const Address& addr, const Mmx& mmx) { if (mmx.isXMM()) db(0x66); opModM(addr, mmx, 0x0F, mmx.isXMM() ? 0xD6 : 0x7F); }
 void movq(const Mmx& mmx, const Operand& op) { if (mmx.isXMM()) db(0xF3); opModRM(mmx, op, (mmx.getKind() == op.getKind()), op.isMEM(), 0x0F, mmx.isXMM() ? 0x7E : 0x6F); }
 void movq2dq(const Xmm& xmm, const Mmx& mmx) { db(0xF3); opModR(xmm, mmx, 0x0F, 0xD6); }
@@ -609,7 +609,7 @@ void phsubsw(const Mmx& mmx, const Operand& op) { opMMX(mmx, op, 0x07, 0x66, NON
 void phsubw(const Mmx& mmx, const Operand& op) { opMMX(mmx, op, 0x05, 0x66, NONE, 0x38); }
 void pinsrb(const Xmm& xmm, const Operand& op, uint8 imm) { opGen(xmm, op, 0x20, 0x66, isXMM_REG32orMEM, imm, 0x3A); }
 void pinsrd(const Xmm& xmm, const Operand& op, uint8 imm) { opGen(xmm, op, 0x22, 0x66, isXMM_REG32orMEM, imm, 0x3A); }
-void pinsrw(const Mmx& mmx, const Operand& op, int imm) { if (!op.isREG(32) && !op.isMEM()) throw Error(ERR_BAD_COMBINATION); opGen(mmx, op, 0xC4, mmx.isXMM() ? 0x66 : NONE, 0, imm); }
+void pinsrw(const Mmx& mmx, const Operand& op, int imm) { if (!op.isREG(32) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opGen(mmx, op, 0xC4, mmx.isXMM() ? 0x66 : NONE, 0, imm); }
 void pmaddubsw(const Mmx& mmx, const Operand& op) { opMMX(mmx, op, 0x04, 0x66, NONE, 0x38); }
 void pmaddwd(const Mmx& mmx, const Operand& op) { opMMX(mmx, op, 0xF5); }
 void pmaxsb(const Xmm& xmm, const Operand& op) { opGen(xmm, op, 0x3C, 0x66, isXMM_XMMorMEM, NONE, 0x38); }
@@ -707,8 +707,8 @@ void rcr(const Operand& op, const Reg8& _cl) { opShift(op, _cl, 3); }
 void rcr(const Operand& op, int imm) { opShift(op, imm, 3); }
 void rdmsr() { db(0x0F); db(0x32); }
 void rdpmc() { db(0x0F); db(0x33); }
-void rdrand(const Reg& r) { if (r.isBit(8)) throw Error(ERR_BAD_SIZE_OF_REGISTER); opModR(Reg(6, Operand::REG, r.getBit()), r, 0x0F, 0xC7); }
-void rdseed(const Reg& r) { if (r.isBit(8)) throw Error(ERR_BAD_SIZE_OF_REGISTER); opModR(Reg(7, Operand::REG, r.getBit()), r, 0x0F, 0xC7); }
+void rdrand(const Reg& r) { if (r.isBit(8)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) opModR(Reg(6, Operand::REG, r.getBit()), r, 0x0F, 0xC7); }
+void rdseed(const Reg& r) { if (r.isBit(8)) XBYAK_THROW(ERR_BAD_SIZE_OF_REGISTER) opModR(Reg(7, Operand::REG, r.getBit()), r, 0x0F, 0xC7); }
 void rdtsc() { db(0x0F); db(0x31); }
 void rdtscp() { db(0x0F); db(0x01); db(0xF9); }
 void rep() { db(0xF3); }
@@ -839,8 +839,8 @@ void vblendvpd(const Xmm& x1, const Xmm& x2, const Operand& op, const Xmm& x4) {
 void vblendvps(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, 0x4A, x4.getIdx() << 4); }
 void vbroadcastf128(const Ymm& y, const Address& addr) { opAVX_X_XM_IMM(y, addr, T_0F38 | T_66 | T_W0 | T_YMM, 0x1A); }
 void vbroadcasti128(const Ymm& y, const Address& addr) { opAVX_X_XM_IMM(y, addr, T_0F38 | T_66 | T_W0 | T_YMM, 0x5A); }
-void vbroadcastsd(const Ymm& y, const Operand& op) { if (!op.isMEM() && !(y.isYMM() && op.isXMM()) && !(y.isZMM() && op.isXMM())) throw Error(ERR_BAD_COMBINATION); opAVX_X_XM_IMM(y, op, T_0F38 | T_66 | T_W0 | T_YMM | T_EVEX | T_EW1 | T_N8, 0x19); }
-void vbroadcastss(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) throw Error(ERR_BAD_COMBINATION); opAVX_X_XM_IMM(x, op, T_N4 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x18); }
+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); }
+void vbroadcastss(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_XM_IMM(x, op, T_N4 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x18); }
 void vcmpeq_ospd(const Xmm& x1, const Xmm& x2, const Operand& op) { vcmppd(x1, x2, op, 16); }
 void vcmpeq_osps(const Xmm& x1, const Xmm& x2, const Operand& op) { vcmpps(x1, x2, op, 16); }
 void vcmpeq_ossd(const Xmm& x1, const Xmm& x2, const Operand& op) { vcmpsd(x1, x2, op, 16); }
@@ -999,9 +999,9 @@ void vdivsd(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand())
 void vdivss(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_Z | T_N4, 0x5E); }
 void vdppd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F3A | T_W0, 0x41, imm); }
 void vdpps(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F3A | T_W0 | T_YMM, 0x40, imm); }
-void vextractf128(const Operand& op, const Ymm& y, uint8 imm) { if (!(op.isXMEM() && y.isYMM())) throw Error(ERR_BAD_COMBINATION); opVex(y, 0, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x19, imm); }
-void vextracti128(const Operand& op, const Ymm& y, uint8 imm) { if (!(op.isXMEM() && y.isYMM())) throw Error(ERR_BAD_COMBINATION); opVex(y, 0, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x39, imm); }
-void vextractps(const Operand& op, const Xmm& x, uint8 imm) { if (!((op.isREG(32) || op.isMEM()) && x.isXMM())) throw Error(ERR_BAD_COMBINATION); opVex(x, 0, op, T_0F3A | T_66 | T_W0 | T_EVEX | T_N4, 0x17, imm); }
+void vextractf128(const Operand& op, const Ymm& y, uint8 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); }
+void vextracti128(const Operand& op, const Ymm& y, uint8 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); }
+void vextractps(const Operand& op, const Xmm& x, uint8 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); }
 void vfmadd132pd(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_W1 | T_EW1 | T_YMM | T_EVEX | T_B64, 0x98); }
 void vfmadd132ps(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_W0 | T_EW0 | T_YMM | T_EVEX | T_B32, 0x98); }
 void vfmadd132sd(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_N8 | T_66 | T_0F38 | T_W1 | T_EW1 | T_EVEX | T_ER_X, 0x99); }
@@ -1073,8 +1073,8 @@ void vhaddpd(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand())
 void vhaddps(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, T_F2 | T_0F | T_YMM, 0x7C); }
 void vhsubpd(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, T_66 | T_0F | T_YMM, 0x7D); }
 void vhsubps(const Xmm& xmm, const Operand& op1, const Operand& op2 = Operand()) { opAVX_X_X_XM(xmm, op1, op2, T_F2 | T_0F | T_YMM, 0x7D); }
-void vinsertf128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 imm) { if (!(y1.isYMM() && y2.isYMM() && op.isXMEM())) throw Error(ERR_BAD_COMBINATION); opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x18, imm); }
-void vinserti128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 imm) { if (!(y1.isYMM() && y2.isYMM() && op.isXMEM())) throw Error(ERR_BAD_COMBINATION); opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x38, imm); }
+void vinsertf128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 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); }
+void vinserti128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 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); }
 void vinsertps(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_N4 | T_66 | T_0F3A | T_W0 | T_EW0 | T_EVEX, 0x21, imm); }
 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); }
 void vldmxcsr(const Address& addr) { opAVX_X_X_XM(xm2, xm0, addr, T_0F, 0xAE); }
@@ -1095,25 +1095,25 @@ void vmovapd(const Address& addr, const Xmm& xmm) { opAVX_X_XM_IMM(xmm, addr, T_
 void vmovapd(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_66 | T_0F | T_EW1 | T_YMM | T_EVEX, 0x28); }
 void vmovaps(const Address& addr, const Xmm& xmm) { opAVX_X_XM_IMM(xmm, addr, T_0F | T_EW0 | T_YMM | T_EVEX | T_M_K, 0x29); }
 void vmovaps(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_0F | T_EW0 | T_YMM | T_EVEX, 0x28); }
-void vmovd(const Operand& op, const Xmm& x) { if (!op.isREG(32) && !op.isMEM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x, xm0, op, T_0F | T_66 | T_W0 | T_EVEX | T_N4, 0x7E); }
-void vmovd(const Xmm& x, const Operand& op) { if (!op.isREG(32) && !op.isMEM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x, xm0, op, T_0F | T_66 | T_W0 | T_EVEX | T_N4, 0x6E); }
+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); }
+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); }
 void vmovddup(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_DUP | T_F2 | T_0F | T_EW1 | T_YMM | T_EVEX | T_ER_X | T_ER_Y | T_ER_Z, 0x12); }
 void vmovdqa(const Address& addr, const Xmm& xmm) { opAVX_X_XM_IMM(xmm, addr, T_66 | T_0F | T_YMM, 0x7F); }
 void vmovdqa(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_66 | T_0F | T_YMM, 0x6F); }
 void vmovdqu(const Address& addr, const Xmm& xmm) { opAVX_X_XM_IMM(xmm, addr, T_F3 | T_0F | T_YMM, 0x7F); }
 void vmovdqu(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_F3 | T_0F | T_YMM, 0x6F); }
-void vmovhlps(const Xmm& x1, const Xmm& x2, const Operand& op = Operand()) { if (!op.isNone() && !op.isXMM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x1, x2, op, T_0F | T_EVEX | T_EW0, 0x12); }
+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); }
 void vmovhpd(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, T_0F | T_66 | T_EVEX | T_EW1 | T_N8, 0x17); }
-void vmovhpd(const Xmm& x, const Operand& op1, const Operand& op2 = Operand()) { if (!op2.isNone() && !op2.isMEM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x, op1, op2, T_0F | T_66 | T_EVEX | T_EW1 | T_N8, 0x16); }
+void vmovhpd(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, T_0F | T_66 | T_EVEX | T_EW1 | T_N8, 0x16); }
 void vmovhps(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, T_0F | T_EVEX | T_EW0 | T_N8, 0x17); }
-void vmovhps(const Xmm& x, const Operand& op1, const Operand& op2 = Operand()) { if (!op2.isNone() && !op2.isMEM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x, op1, op2, T_0F | T_EVEX | T_EW0 | T_N8, 0x16); }
-void vmovlhps(const Xmm& x1, const Xmm& x2, const Operand& op = Operand()) { if (!op.isNone() && !op.isXMM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x1, x2, op, T_0F | T_EVEX | T_EW0, 0x16); }
+void vmovhps(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, T_0F | T_EVEX | T_EW0 | T_N8, 0x16); }
+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); }
 void vmovlpd(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, T_0F | T_66 | T_EVEX | T_EW1 | T_N8, 0x13); }
-void vmovlpd(const Xmm& x, const Operand& op1, const Operand& op2 = Operand()) { if (!op2.isNone() && !op2.isMEM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x, op1, op2, T_0F | T_66 | T_EVEX | T_EW1 | T_N8, 0x12); }
+void vmovlpd(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, T_0F | T_66 | T_EVEX | T_EW1 | T_N8, 0x12); }
 void vmovlps(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, T_0F | T_EVEX | T_EW0 | T_N8, 0x13); }
-void vmovlps(const Xmm& x, const Operand& op1, const Operand& op2 = Operand()) { if (!op2.isNone() && !op2.isMEM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x, op1, op2, T_0F | T_EVEX | T_EW0 | T_N8, 0x12); }
-void vmovmskpd(const Reg& r, const Xmm& x) { if (!r.isBit(i32e)) throw Error(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); }
-void vmovmskps(const Reg& r, const Xmm& x) { if (!r.isBit(i32e)) throw Error(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); }
+void vmovlps(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, T_0F | T_EVEX | T_EW0 | T_N8, 0x12); }
+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); }
+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); }
 void vmovntdq(const Address& addr, const Xmm& x) { opVex(x, 0, addr, T_0F | T_66 | T_YMM | T_EVEX | T_EW0, 0xE7); }
 void vmovntdqa(const Xmm& x, const Address& addr) { opVex(x, 0, addr, T_0F38 | T_66 | T_YMM | T_EVEX | T_EW0, 0x2A); }
 void vmovntpd(const Address& addr, const Xmm& x) { opVex(x, 0, addr, T_0F | T_66 | T_YMM | T_EVEX | T_EW1, 0x2B); }
@@ -1123,12 +1123,12 @@ void vmovq(const Xmm& x, const Address& addr) { int type, code; if (x.getIdx() <
 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); }
 void vmovsd(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, T_N8 | T_F2 | T_0F | T_EW1 | T_EVEX | T_M_K, 0x11); }
 void vmovsd(const Xmm& x, const Address& addr) { opAVX_X_X_XM(x, xm0, addr, T_N8 | T_F2 | T_0F | T_EW1 | T_EVEX, 0x10); }
-void vmovsd(const Xmm& x1, const Xmm& x2, const Operand& op = Operand()) { if (!op.isNone() && !op.isXMM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x1, x2, op, T_N8 | T_F2 | T_0F | T_EW1 | T_EVEX, 0x10); }
+void vmovsd(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_N8 | T_F2 | T_0F | T_EW1 | T_EVEX, 0x10); }
 void vmovshdup(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_F3 | T_0F | T_EW0 | T_YMM | T_EVEX, 0x16); }
 void vmovsldup(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_F3 | T_0F | T_EW0 | T_YMM | T_EVEX, 0x12); }
 void vmovss(const Address& addr, const Xmm& x) { opAVX_X_X_XM(x, xm0, addr, T_N4 | T_F3 | T_0F | T_EW0 | T_EVEX | T_M_K, 0x11); }
 void vmovss(const Xmm& x, const Address& addr) { opAVX_X_X_XM(x, xm0, addr, T_N4 | T_F3 | T_0F | T_EW0 | T_EVEX, 0x10); }
-void vmovss(const Xmm& x1, const Xmm& x2, const Operand& op = Operand()) { if (!op.isNone() && !op.isXMM()) throw Error(ERR_BAD_COMBINATION); opAVX_X_X_XM(x1, x2, op, T_N4 | T_F3 | T_0F | T_EW0 | T_EVEX, 0x10); }
+void vmovss(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_N4 | T_F3 | T_0F | T_EW0 | T_EVEX, 0x10); }
 void vmovupd(const Address& addr, const Xmm& xmm) { opAVX_X_XM_IMM(xmm, addr, T_66 | T_0F | T_EW1 | T_YMM | T_EVEX | T_M_K, 0x11); }
 void vmovupd(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_66 | T_0F | T_EW1 | T_YMM | T_EVEX, 0x10); }
 void vmovups(const Address& addr, const Xmm& xmm) { opAVX_X_XM_IMM(xmm, addr, T_0F | T_EW0 | T_YMM | T_EVEX | T_M_K, 0x11); }
@@ -1163,10 +1163,10 @@ void vpavgw(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1,
 void vpblendd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F3A | T_W0 | T_YMM, 0x02, imm); }
 void vpblendvb(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, 0x4C, x4.getIdx() << 4); }
 void vpblendw(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F3A | T_W0 | T_YMM, 0x0E, imm); }
-void vpbroadcastb(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) throw Error(ERR_BAD_COMBINATION); opAVX_X_XM_IMM(x, op, T_N1 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x78); }
-void vpbroadcastd(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) throw Error(ERR_BAD_COMBINATION); opAVX_X_XM_IMM(x, op, T_N4 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x58); }
-void vpbroadcastq(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) throw Error(ERR_BAD_COMBINATION); opAVX_X_XM_IMM(x, op, T_N8 | T_66 | T_0F38 | T_W0 | T_EW1 | T_YMM | T_EVEX, 0x59); }
-void vpbroadcastw(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) throw Error(ERR_BAD_COMBINATION); opAVX_X_XM_IMM(x, op, T_N2 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x79); }
+void vpbroadcastb(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_XM_IMM(x, op, T_N1 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x78); }
+void vpbroadcastd(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_XM_IMM(x, op, T_N4 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x58); }
+void vpbroadcastq(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_XM_IMM(x, op, T_N8 | T_66 | T_0F38 | T_W0 | T_EW1 | T_YMM | T_EVEX, 0x59); }
+void vpbroadcastw(const Xmm& x, const Operand& op) { if (!(op.isXMM() || op.isMEM())) XBYAK_THROW(ERR_BAD_COMBINATION) opAVX_X_XM_IMM(x, op, T_N2 | T_66 | T_0F38 | T_W0 | T_YMM | T_EVEX, 0x79); }
 void vpclmulqdq(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F3A | T_W0 | T_YMM | T_EVEX, 0x44, imm); }
 void vpcmpeqb(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F | T_YMM, 0x74); }
 void vpcmpeqd(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F | T_YMM, 0x76); }
@@ -1180,8 +1180,8 @@ void vpcmpgtq(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1
 void vpcmpgtw(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F | T_YMM, 0x65); }
 void vpcmpistri(const Xmm& xm, const Operand& op, uint8 imm) { opAVX_X_XM_IMM(xm, op, T_66 | T_0F3A, 0x63, imm); }
 void vpcmpistrm(const Xmm& xm, const Operand& op, uint8 imm) { opAVX_X_XM_IMM(xm, op, T_66 | T_0F3A, 0x62, imm); }
-void vperm2f128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 imm) { if (!(y1.isYMM() && y2.isYMM() && op.isYMEM())) throw Error(ERR_BAD_COMBINATION); opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x06, imm); }
-void vperm2i128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 imm) { if (!(y1.isYMM() && y2.isYMM() && op.isYMEM())) throw Error(ERR_BAD_COMBINATION); opVex(y1, &y2, op, T_0F3A | T_66 | T_W0 | T_YMM, 0x46, imm); }
+void vperm2f128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 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); }
+void vperm2i128(const Ymm& y1, const Ymm& y2, const Operand& op, uint8 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); }
 void vpermd(const Ymm& y1, const Ymm& y2, const Operand& op) { opAVX_X_X_XM(y1, y2, op, T_66 | T_0F38 | T_W0 | T_EW0 | T_YMM | T_EVEX | T_B32, 0x36); }
 void vpermilpd(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_W0 | T_EW1 | T_YMM | T_EVEX | T_B64, 0x0D); }
 void vpermilpd(const Xmm& xm, const Operand& op, uint8 imm) { opAVX_X_XM_IMM(xm, op, T_66 | T_0F3A | T_EW1 | T_YMM | T_EVEX | T_B64, 0x05, imm); }
@@ -1192,10 +1192,10 @@ void vpermpd(const Ymm& y1, const Ymm& y2, const Operand& op) { opAVX_X_X_XM(y1,
 void vpermps(const Ymm& y1, const Ymm& y2, const Operand& op) { opAVX_X_X_XM(y1, y2, op, T_66 | T_0F38 | T_W0 | T_EW0 | T_YMM | T_EVEX | T_B32, 0x16); }
 void vpermq(const Ymm& y, const Operand& op, uint8 imm) { opAVX_X_XM_IMM(y, op, T_66 | T_0F3A | T_W1 | T_EW1 | T_YMM | T_EVEX | T_B64, 0x00, imm); }
 void vpermq(const Ymm& y1, const Ymm& y2, const Operand& op) { opAVX_X_X_XM(y1, y2, op, T_66 | T_0F38 | T_W0 | T_EW1 | T_YMM | T_EVEX | T_B64, 0x36); }
-void vpextrb(const Operand& op, const Xmm& x, uint8 imm) { if (!((op.isREG(8|16|i32e) || op.isMEM()) && x.isXMM())) throw Error(ERR_BAD_COMBINATION); opVex(x, 0, op, T_0F3A | T_66 | T_EVEX | T_N1, 0x14, imm); }
-void vpextrd(const Operand& op, const Xmm& x, uint8 imm) { if (!((op.isREG(32) || op.isMEM()) && x.isXMM())) throw Error(ERR_BAD_COMBINATION); opVex(x, 0, op, T_0F3A | T_66 | T_W0 | T_EVEX | T_EW0 | T_N4, 0x16, imm); }
-void vpextrq(const Operand& op, const Xmm& x, uint8 imm) { if (!((op.isREG(64) || op.isMEM()) && x.isXMM())) throw Error(ERR_BAD_COMBINATION); opVex(x, 0, op, T_0F3A | T_66 | T_W1 | T_EVEX | T_EW1 | T_N8, 0x16, imm); }
-void vpextrw(const Operand& op, const Xmm& x, uint8 imm) { if (!((op.isREG(16|i32e) || op.isMEM()) && x.isXMM())) throw Error(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); } }
+void vpextrb(const Operand& op, const Xmm& x, uint8 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); }
+void vpextrd(const Operand& op, const Xmm& x, uint8 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); }
+void vpextrq(const Operand& op, const Xmm& x, uint8 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); }
+void vpextrw(const Operand& op, const Xmm& x, uint8 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); } }
 void vpgatherdd(const Xmm& x1, const Address& addr, const Xmm& x2) { opGather(x1, addr, x2, T_0F38 | T_66 | T_YMM | T_VSIB | T_W0, 0x90, 1); }
 void vpgatherdq(const Xmm& x1, const Address& addr, const Xmm& x2) { opGather(x1, addr, x2, T_0F38 | T_66 | T_YMM | T_VSIB | T_W1, 0x90, 0); }
 void vpgatherqd(const Xmm& x1, const Address& addr, const Xmm& x2) { opGather(x1, addr, x2, T_0F38 | T_66 | T_YMM | T_VSIB | T_W0, 0x91, 2); }
@@ -1207,10 +1207,10 @@ void vphminposuw(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_66
 void vphsubd(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_YMM, 0x06); }
 void vphsubsw(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_YMM, 0x07); }
 void vphsubw(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_YMM, 0x05); }
-void vpinsrb(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(32) || op.isMEM()))) throw Error(ERR_BAD_COMBINATION); opVex(x1, &x2, op, T_0F3A | T_66 | T_EVEX | T_N1, 0x20, imm); }
-void vpinsrd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(32) || op.isMEM()))) throw Error(ERR_BAD_COMBINATION); opVex(x1, &x2, op, T_0F3A | T_66 | T_W0 | T_EVEX | T_EW0 | T_N4, 0x22, imm); }
-void vpinsrq(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(64) || op.isMEM()))) throw Error(ERR_BAD_COMBINATION); opVex(x1, &x2, op, T_0F3A | T_66 | T_W1 | T_EVEX | T_EW1 | T_N8, 0x22, imm); }
-void vpinsrw(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { if (!(x1.isXMM() && x2.isXMM() && (op.isREG(32) || op.isMEM()))) throw Error(ERR_BAD_COMBINATION); opVex(x1, &x2, op, T_0F | T_66 | T_EVEX | T_N2, 0xC4, imm); }
+void vpinsrb(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 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); }
+void vpinsrd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 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); }
+void vpinsrq(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 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); }
+void vpinsrw(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 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); }
 void vpmaddubsw(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_YMM | T_EVEX, 0x04); }
 void vpmaddwd(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F | T_YMM | T_EVEX, 0xF5); }
 void vpmaskmovd(const Address& addr, const Xmm& x1, const Xmm& x2) { opAVX_X_X_XM(x2, x1, addr, T_0F38 | T_66 | T_W0 | T_YMM, 0x8E); }
@@ -1229,7 +1229,7 @@ void vpminsw(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1,
 void vpminub(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F | T_YMM | T_EVEX, 0xDA); }
 void vpminud(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_EW0 | T_YMM | T_EVEX | T_B32, 0x3B); }
 void vpminuw(const Xmm& x1, const Xmm& x2, const Operand& op) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F38 | T_YMM | T_EVEX, 0x3A); }
-void vpmovmskb(const Reg32e& r, const Xmm& x) { if (!x.is(Operand::XMM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(x.isYMM() ? Ymm(r.getIdx()) : Xmm(r.getIdx()), 0, x, T_0F | T_66 | T_YMM, 0xD7); }
+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); }
 void vpmovsxbd(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_N4 | T_N_VL | T_66 | T_0F38 | T_YMM | T_EVEX, 0x21); }
 void vpmovsxbq(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_N2 | T_N_VL | T_66 | T_0F38 | T_YMM | T_EVEX, 0x22); }
 void vpmovsxbw(const Xmm& xm, const Operand& op) { opAVX_X_XM_IMM(xm, op, T_N8 | T_N_VL | T_66 | T_0F38 | T_YMM | T_EVEX, 0x20); }
@@ -1618,15 +1618,27 @@ void cmpxchg16b(const Address& addr) { opModM(addr, Reg64(1), 0x0F, 0xC7); }
 void fxrstor64(const Address& addr) { opModM(addr, Reg64(1), 0x0F, 0xAE); }
 void movq(const Reg64& reg, const Mmx& mmx) { if (mmx.isXMM()) db(0x66); opModR(mmx, reg, 0x0F, 0x7E); }
 void movq(const Mmx& mmx, const Reg64& reg) { if (mmx.isXMM()) db(0x66); opModR(mmx, reg, 0x0F, 0x6E); }
-void movsxd(const Reg64& reg, const Operand& op) { if (!op.isBit(32)) throw Error(ERR_BAD_COMBINATION); opModRM(reg, op, op.isREG(), op.isMEM(), 0x63); }
-void pextrq(const Operand& op, const Xmm& xmm, uint8 imm) { if (!op.isREG(64) && !op.isMEM()) throw Error(ERR_BAD_COMBINATION); opGen(Reg64(xmm.getIdx()), op, 0x16, 0x66, 0, imm, 0x3A); }
-void pinsrq(const Xmm& xmm, const Operand& op, uint8 imm) { if (!op.isREG(64) && !op.isMEM()) throw Error(ERR_BAD_COMBINATION); opGen(Reg64(xmm.getIdx()), op, 0x22, 0x66, 0, imm, 0x3A); }
+void movsxd(const Reg64& reg, const Operand& op) { if (!op.isBit(32)) XBYAK_THROW(ERR_BAD_COMBINATION) opModRM(reg, op, op.isREG(), op.isMEM(), 0x63); }
+void pextrq(const Operand& op, const Xmm& xmm, uint8 imm) { if (!op.isREG(64) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opGen(Reg64(xmm.getIdx()), op, 0x16, 0x66, 0, imm, 0x3A); }
+void pinsrq(const Xmm& xmm, const Operand& op, uint8 imm) { if (!op.isREG(64) && !op.isMEM()) XBYAK_THROW(ERR_BAD_COMBINATION) opGen(Reg64(xmm.getIdx()), op, 0x22, 0x66, 0, imm, 0x3A); }
 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); }
 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); }
 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); }
 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); }
 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); }
 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); }
+void ldtilecfg(const Address& addr) { opVex(tmm0, &tmm0, addr, T_0F38 | T_W0, 0x49); }
+void sttilecfg(const Address& addr) { opVex(tmm0, &tmm0, addr, T_66 | T_0F38 | T_W0, 0x49); }
+void tileloadd(const Tmm& tm, const Address& addr) { opAMX(tm, addr, T_F2 | T_0F38 | T_W0, 0x4b); }
+void tileloaddt1(const Tmm& tm, const Address& addr) { opAMX(tm, addr, T_66 | T_0F38 | T_W0, 0x4b); }
+void tilerelease() { db(0xc4); db(0xe2); db(0x78); db(0x49); db(0xc0); }
+void tilestored(const Address& addr, const Tmm& tm) { opVex(tm, &tmm0, addr, T_F3 | T_0F38 | T_W0, 0x4b); }
+void tilezero(const Tmm& Tmm) { opVex(Tmm, &tmm0, tmm0, T_F2 | T_0F38 | T_W0, 0x49); }
+void tdpbssd(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_F2 | T_0F38 | T_W0, 0x5e); }
+void tdpbsud(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_F3 | T_0F38 | T_W0, 0x5e); }
+void tdpbusd(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_66 | T_0F38 | T_W0, 0x5e); }
+void tdpbuud(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_0F38 | T_W0, 0x5e); }
+void tdpbf16ps(const Tmm& x1, const Tmm& x2, const Tmm& x3) { opVex(x1, &x3, x2, T_F3 | T_0F38 | T_W0, 0x5c); }
 #else
 void jcxz(std::string label) { db(0x67); opJmp(label, T_SHORT, 0xe3, 0, 0); }
 void jcxz(const Label& label) { db(0x67); opJmp(label, T_SHORT, 0xe3, 0, 0); }
@@ -1671,17 +1683,17 @@ void kandnw(const Opmask& r1, const Opmask& r2, const Opmask& r3) { opVex(r1, &r
 void kandq(const Opmask& r1, const Opmask& r2, const Opmask& r3) { opVex(r1, &r2, r3, T_L1 | T_0F | T_W1, 0x41); }
 void kandw(const Opmask& r1, const Opmask& r2, const Opmask& r3) { opVex(r1, &r2, r3, T_L1 | T_0F | T_W0, 0x41); }
 void kmovb(const Address& addr, const Opmask& k) { opVex(k, 0, addr, T_L0 | T_0F | T_66 | T_W0, 0x91); }
-void kmovb(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) throw Error(ERR_BAD_COMBINATION); opVex(k, 0, op, T_L0 | T_0F | T_66 | T_W0, 0x90); }
+void kmovb(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(k, 0, op, T_L0 | T_0F | T_66 | T_W0, 0x90); }
 void kmovb(const Opmask& k, const Reg32& r) { opVex(k, 0, r, T_L0 | T_0F | T_66 | T_W0, 0x92); }
 void kmovb(const Reg32& r, const Opmask& k) { opVex(r, 0, k, T_L0 | T_0F | T_66 | T_W0, 0x93); }
 void kmovd(const Address& addr, const Opmask& k) { opVex(k, 0, addr, T_L0 | T_0F | T_66 | T_W1, 0x91); }
-void kmovd(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) throw Error(ERR_BAD_COMBINATION); opVex(k, 0, op, T_L0 | T_0F | T_66 | T_W1, 0x90); }
+void kmovd(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(k, 0, op, T_L0 | T_0F | T_66 | T_W1, 0x90); }
 void kmovd(const Opmask& k, const Reg32& r) { opVex(k, 0, r, T_L0 | T_0F | T_F2 | T_W0, 0x92); }
 void kmovd(const Reg32& r, const Opmask& k) { opVex(r, 0, k, T_L0 | T_0F | T_F2 | T_W0, 0x93); }
 void kmovq(const Address& addr, const Opmask& k) { opVex(k, 0, addr, T_L0 | T_0F | T_W1, 0x91); }
-void kmovq(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) throw Error(ERR_BAD_COMBINATION); opVex(k, 0, op, T_L0 | T_0F | T_W1, 0x90); }
+void kmovq(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(k, 0, op, T_L0 | T_0F | T_W1, 0x90); }
 void kmovw(const Address& addr, const Opmask& k) { opVex(k, 0, addr, T_L0 | T_0F | T_W0, 0x91); }
-void kmovw(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) throw Error(ERR_BAD_COMBINATION); opVex(k, 0, op, T_L0 | T_0F | T_W0, 0x90); }
+void kmovw(const Opmask& k, const Operand& op) { if (!op.isMEM() && !op.isOPMASK()) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(k, 0, op, T_L0 | T_0F | T_W0, 0x90); }
 void kmovw(const Opmask& k, const Reg32& r) { opVex(k, 0, r, T_L0 | T_0F | T_W0, 0x92); }
 void kmovw(const Reg32& r, const Opmask& k) { opVex(r, 0, k, T_L0 | T_0F | T_W0, 0x93); }
 void knotb(const Opmask& r1, const Opmask& r2) { opVex(r1, 0, r2, T_0F | T_66 | T_W0, 0x44); }
@@ -1777,22 +1789,22 @@ void vexp2pd(const Zmm& z, const Operand& op) { opAVX_X_XM_IMM(z, op, T_66 | T_0
 void vexp2ps(const Zmm& z, const Operand& op) { opAVX_X_XM_IMM(z, op, T_66 | T_0F38 | T_MUST_EVEX | T_YMM | T_EW0 | T_B32 | T_SAE_Z, 0xC8); }
 void vexpandpd(const Xmm& x, const Operand& op) { opAVX_X_XM_IMM(x, op, T_N8 | T_66 | T_0F38 | T_EW1 | T_YMM | T_MUST_EVEX, 0x88); }
 void vexpandps(const Xmm& x, const Operand& op) { opAVX_X_XM_IMM(x, op, T_N4 | T_66 | T_0F38 | T_EW0 | T_YMM | T_MUST_EVEX, 0x88); }
-void vextractf32x4(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x19, imm); }
-void vextractf32x8(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x1B, imm); }
-void vextractf64x2(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x19, imm); }
-void vextractf64x4(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x1B, imm); }
-void vextracti32x4(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x39, imm); }
-void vextracti32x8(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x3B, imm); }
-void vextracti64x2(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x39, imm); }
-void vextracti64x4(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x3B, imm); }
+void vextractf32x4(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x19, imm); }
+void vextractf32x8(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x1B, imm); }
+void vextractf64x2(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x19, imm); }
+void vextractf64x4(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x1B, imm); }
+void vextracti32x4(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x39, imm); }
+void vextracti32x8(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x3B, imm); }
+void vextracti64x2(const Operand& op, const Ymm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::XMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x39, imm); }
+void vextracti64x4(const Operand& op, const Zmm& r, uint8 imm) { if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r, 0, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x3B, imm); }
 void vfixupimmpd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F3A | T_EW1 | T_YMM | T_SAE_Z | T_MUST_EVEX | T_B64, 0x54, imm); }
 void vfixupimmps(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_66 | T_0F3A | T_EW0 | T_YMM | T_SAE_Z | T_MUST_EVEX | T_B32, 0x54, imm); }
 void vfixupimmsd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_N8 | T_66 | T_0F3A | T_EW1 | T_SAE_Z | T_MUST_EVEX, 0x55, imm); }
 void vfixupimmss(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_N4 | T_66 | T_0F3A | T_EW0 | T_SAE_Z | T_MUST_EVEX, 0x55, imm); }
-void vfpclasspd(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isBit(128|256|512)) throw Error(ERR_BAD_MEM_SIZE); opVex(k.changeBit(op.getBit()), 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_YMM | T_EW1 | T_B64, 0x66, imm); }
-void vfpclassps(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isBit(128|256|512)) throw Error(ERR_BAD_MEM_SIZE); opVex(k.changeBit(op.getBit()), 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_YMM | T_EW0 | T_B32, 0x66, imm); }
-void vfpclasssd(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isXMEM()) throw Error(ERR_BAD_MEM_SIZE); opVex(k, 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_EW1 | T_N8, 0x67, imm); }
-void vfpclassss(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isXMEM()) throw Error(ERR_BAD_MEM_SIZE); opVex(k, 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_EW0 | T_N4, 0x67, imm); }
+void vfpclasspd(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isBit(128|256|512)) XBYAK_THROW(ERR_BAD_MEM_SIZE) opVex(k.changeBit(op.getBit()), 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_YMM | T_EW1 | T_B64, 0x66, imm); }
+void vfpclassps(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isBit(128|256|512)) XBYAK_THROW(ERR_BAD_MEM_SIZE) opVex(k.changeBit(op.getBit()), 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_YMM | T_EW0 | T_B32, 0x66, imm); }
+void vfpclasssd(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isXMEM()) XBYAK_THROW(ERR_BAD_MEM_SIZE) opVex(k, 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_EW1 | T_N8, 0x67, imm); }
+void vfpclassss(const Opmask& k, const Operand& op, uint8 imm) { if (!op.isXMEM()) XBYAK_THROW(ERR_BAD_MEM_SIZE) opVex(k, 0, op, T_66 | T_0F3A | T_MUST_EVEX | T_EW0 | T_N4, 0x67, imm); }
 void vgatherdpd(const Xmm& x, const Address& addr) { opGather2(x, addr, T_N8 | T_66 | T_0F38 | T_EW1 | T_YMM | T_MUST_EVEX | T_VSIB, 0x92, 1); }
 void vgatherdps(const Xmm& x, const Address& addr) { opGather2(x, addr, T_N4 | T_66 | T_0F38 | T_EW0 | T_YMM | T_MUST_EVEX | T_VSIB, 0x92, 0); }
 void vgatherpf0dpd(const Address& addr) { opGatherFetch(addr, zm1, T_N8 | T_66 | T_0F38 | T_EW1 | T_MUST_EVEX | T_M_K | T_VSIB, 0xC6, Operand::YMM); }
@@ -1813,14 +1825,14 @@ void vgetmantpd(const Xmm& x, const Operand& op, uint8 imm) { opAVX_X_XM_IMM(x,
 void vgetmantps(const Xmm& x, const Operand& op, uint8 imm) { opAVX_X_XM_IMM(x, op, T_66 | T_0F3A | T_EW0 | T_YMM | T_SAE_Z | T_MUST_EVEX | T_B32, 0x26, imm); }
 void vgetmantsd(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_N8 | T_66 | T_0F3A | T_EW1 | T_SAE_X | T_MUST_EVEX, 0x27, imm); }
 void vgetmantss(const Xmm& x1, const Xmm& x2, const Operand& op, uint8 imm) { opAVX_X_X_XM(x1, x2, op, T_N4 | T_66 | T_0F3A | T_EW0 | T_SAE_X | T_MUST_EVEX, 0x27, imm); }
-void vinsertf32x4(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x18, imm); }
-void vinsertf32x8(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x1A, imm); }
-void vinsertf64x2(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x18, imm); }
-void vinsertf64x4(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x1A, imm); }
-void vinserti32x4(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x38, imm); }
-void vinserti32x8(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x3A, imm); }
-void vinserti64x2(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x38, imm); }
-void vinserti64x4(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) throw Error(ERR_BAD_COMBINATION); opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x3A, imm); }
+void vinsertf32x4(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x18, imm); }
+void vinsertf32x8(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x1A, imm); }
+void vinsertf64x2(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x18, imm); }
+void vinsertf64x4(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x1A, imm); }
+void vinserti32x4(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x38, imm); }
+void vinserti32x8(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW0 | T_YMM | T_MUST_EVEX, 0x3A, imm); }
+void vinserti64x2(const Ymm& r1, const Ymm& r2, const Operand& op, uint8 imm) {if (!(r1.getKind() == r2.getKind() && op.is(Operand::MEM | Operand::XMM))) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N16 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x38, imm); }
+void vinserti64x4(const Zmm& r1, const Zmm& r2, const Operand& op, uint8 imm) {if (!op.is(Operand::MEM | Operand::YMM)) XBYAK_THROW(ERR_BAD_COMBINATION) opVex(r1, &r2, op, T_N32 | T_66 | T_0F3A | T_EW1 | T_YMM | T_MUST_EVEX, 0x3A, imm); }
 void vmovdqa32(const Address& addr, const Xmm& x) { opAVX_X_XM_IMM(x, addr, T_66 | T_0F | T_EW0 | T_YMM | T_ER_X | T_ER_Y | T_ER_Z | T_MUST_EVEX | T_M_K, 0x7F); }
 void vmovdqa32(const Xmm& x, const Operand& op) { opAVX_X_XM_IMM(x, op, T_66 | T_0F | T_EW0 | T_YMM | T_ER_X | T_ER_Y | T_ER_Z | T_MUST_EVEX, 0x6F); }
 void vmovdqa64(const Address& addr, const Xmm& x) { opAVX_X_XM_IMM(x, addr, T_66 | T_0F | T_EW1 | T_YMM | T_ER_X | T_ER_Y | T_ER_Z | T_MUST_EVEX | T_M_K, 0x7F); }
@@ -1833,8 +1845,8 @@ void vmovdqu64(const Address& addr, const Xmm& x) { opAVX_X_XM_IMM(x, addr, T_F3
 void vmovdqu64(const Xmm& x, const Operand& op) { opAVX_X_XM_IMM(x, op, T_F3 | T_0F | T_EW1 | T_YMM | T_ER_X | T_ER_Y | T_ER_Z | T_MUST_EVEX, 0x6F); }
 void vmovdqu8(const Address& addr, const Xmm& x) { opAVX_X_XM_IMM(x, addr, T_F2 | T_0F | T_EW0 | T_YMM | T_ER_X | T_ER_Y | T_ER_Z | T_MUST_EVEX | T_M_K, 0x7F); }
 void vmovdqu8(const Xmm& x, const Operand& op) { opAVX_X_XM_IMM(x, op, T_F2 | T_0F | T_EW0 | T_YMM | T_ER_X | T_ER_Y | T_ER_Z | T_MUST_EVEX, 0x6F); }
-void vp2intersectd(const Opmask& k, const Xmm& x, const Operand& op) { if (k.getOpmaskIdx() != 0) throw Error(ERR_OPMASK_IS_ALREADY_SET); opAVX_K_X_XM(k, x, op, T_F2 | T_0F38 | T_YMM | T_EVEX | T_EW0 | T_B32, 0x68); }
-void vp2intersectq(const Opmask& k, const Xmm& x, const Operand& op) { if (k.getOpmaskIdx() != 0) throw Error(ERR_OPMASK_IS_ALREADY_SET); opAVX_K_X_XM(k, x, op, T_F2 | T_0F38 | T_YMM | T_EVEX | T_EW1 | T_B64, 0x68); }
+void vp2intersectd(const Opmask& k, const Xmm& x, const Operand& op) { if (k.getOpmaskIdx() != 0) XBYAK_THROW(ERR_OPMASK_IS_ALREADY_SET) opAVX_K_X_XM(k, x, op, T_F2 | T_0F38 | T_YMM | T_EVEX | T_EW0 | T_B32, 0x68); }
+void vp2intersectq(const Opmask& k, const Xmm& x, const Operand& op) { if (k.getOpmaskIdx() != 0) XBYAK_THROW(ERR_OPMASK_IS_ALREADY_SET) opAVX_K_X_XM(k, x, op, T_F2 | T_0F38 | T_YMM | T_EVEX | T_EW1 | T_B64, 0x68); }
 void vp4dpwssd(const Zmm& z1, const Zmm& z2, const Address& addr) { opAVX_X_X_XM(z1, z2, addr, T_0F38 | T_F2 | T_EW0 | T_YMM | T_MUST_EVEX | T_N16, 0x52); }
 void vp4dpwssds(const Zmm& z1, const Zmm& z2, const Address& addr) { opAVX_X_X_XM(z1, z2, addr, T_0F38 | T_F2 | T_EW0 | T_YMM | T_MUST_EVEX | T_N16, 0x53); }
 void vpabsq(const Xmm& x, const Operand& op) { opAVX_X_XM_IMM(x, op, T_66 | T_0F38 | T_MUST_EVEX | T_EW1 | T_B64 | T_YMM, 0x1F); }

src/xbyak/xbyak_util.h

@@ -220,23 +220,23 @@ public:
 	int displayModel; // model + extModel
 
 	unsigned int getNumCores(IntelCpuTopologyLevel level) {
-		if (!x2APIC_supported_) throw Error(ERR_X2APIC_IS_NOT_SUPPORTED);
+		if (!x2APIC_supported_) XBYAK_THROW_RET(ERR_X2APIC_IS_NOT_SUPPORTED, 0)
 		switch (level) {
 		case SmtLevel: return numCores_[level - 1];
 		case CoreLevel: return numCores_[level - 1] / numCores_[SmtLevel - 1];
-		default: throw Error(ERR_X2APIC_IS_NOT_SUPPORTED);
+		default: XBYAK_THROW_RET(ERR_X2APIC_IS_NOT_SUPPORTED, 0)
 		}
 	}
 
 	unsigned int getDataCacheLevels() const { return dataCacheLevels_; }
 	unsigned int getCoresSharingDataCache(unsigned int i) const
 	{
-		if (i >= dataCacheLevels_) throw  Error(ERR_BAD_PARAMETER);
+		if (i >= dataCacheLevels_) XBYAK_THROW_RET(ERR_BAD_PARAMETER, 0)
 		return coresSharignDataCache_[i];
 	}
 	unsigned int getDataCacheSize(unsigned int i) const
 	{
-		if (i >= dataCacheLevels_) throw  Error(ERR_BAD_PARAMETER);
+		if (i >= dataCacheLevels_) XBYAK_THROW_RET(ERR_BAD_PARAMETER, 0)
 		return dataCacheSize_[i];
 	}
 
@@ -353,6 +353,9 @@ public:
 	static const Type tAVX512_VPOPCNTDQ = uint64(1) << 56;
 	static const Type tAVX512_BF16 = uint64(1) << 57;
 	static const Type tAVX512_VP2INTERSECT = uint64(1) << 58;
+	static const Type tAMX_TILE = uint64(1) << 59;
+	static const Type tAMX_INT8 = uint64(1) << 60;
+	static const Type tAMX_BF16 = uint64(1) << 61;
 
 	Cpu()
 		: type_(NONE)
@@ -456,6 +459,9 @@ public:
 			if (EBX & (1U << 14)) type_ |= tMPX;
 			if (EBX & (1U << 29)) type_ |= tSHA;
 			if (ECX & (1U << 0)) type_ |= tPREFETCHWT1;
+			if (EDX & (1U << 24)) type_ |= tAMX_TILE;
+			if (EDX & (1U << 25)) type_ |= tAMX_INT8;
+			if (EDX & (1U << 22)) type_ |= tAMX_BF16;
 		}
 		setFamily();
 		setNumCores();
@@ -558,7 +564,7 @@ public:
 	{
 		if (n_ == maxTblNum) {
 			fprintf(stderr, "ERR Pack::can't append\n");
-			throw Error(ERR_BAD_PARAMETER);
+			XBYAK_THROW_RET(ERR_BAD_PARAMETER, *this)
 		}
 		tbl_[n_++] = &t;
 		return *this;
@@ -567,7 +573,7 @@ public:
 	{
 		if (n > maxTblNum) {
 			fprintf(stderr, "ERR Pack::init bad n=%d\n", (int)n);
-			throw Error(ERR_BAD_PARAMETER);
+			XBYAK_THROW(ERR_BAD_PARAMETER)
 		}
 		n_ = n;
 		for (size_t i = 0; i < n; i++) {
@@ -578,7 +584,7 @@ public:
 	{
 		if (n >= n_) {
 			fprintf(stderr, "ERR Pack bad n=%d(%d)\n", (int)n, (int)n_);
-			throw Error(ERR_BAD_PARAMETER);
+			XBYAK_THROW_RET(ERR_BAD_PARAMETER, rax)
 		}
 		return *tbl_[n];
 	}
@@ -591,7 +597,7 @@ public:
 		if (num == size_t(-1)) num = n_ - pos;
 		if (pos + num > n_) {
 			fprintf(stderr, "ERR Pack::sub bad pos=%d, num=%d\n", (int)pos, (int)num);
-			throw Error(ERR_BAD_PARAMETER);
+			XBYAK_THROW_RET(ERR_BAD_PARAMETER, Pack())
 		}
 		Pack pack;
 		pack.n_ = num;
@@ -666,9 +672,9 @@ public:
 		, t(t_)
 	{
 		using namespace Xbyak;
-		if (pNum < 0 || pNum > 4) throw Error(ERR_BAD_PNUM);
+		if (pNum < 0 || pNum > 4) XBYAK_THROW(ERR_BAD_PNUM)
 		const int allRegNum = pNum + tNum_ + (useRcx_ ? 1 : 0) + (useRdx_ ? 1 : 0);
-		if (tNum_ < 0 || allRegNum > maxRegNum) throw Error(ERR_BAD_TNUM);
+		if (tNum_ < 0 || allRegNum > maxRegNum) XBYAK_THROW(ERR_BAD_TNUM)
 		const Reg64& _rsp = code->rsp;
 		saveNum_ = (std::max)(0, allRegNum - noSaveNum);
 		const int *tbl = getOrderTbl() + noSaveNum;