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diff --git a/src/jit/simdintrinsiclist.h b/src/jit/simdintrinsiclist.h
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+// Licensed to the .NET Foundation under one or more agreements.
+// The .NET Foundation licenses this file to you under the MIT license.
+// See the LICENSE file in the project root for more information.
+
+/*****************************************************************************/
+#ifndef SIMD_INTRINSIC
+#error Define SIMD_INTRINSIC before including this file
+#endif
+/*****************************************************************************/
+
+// clang-format off
+#ifdef FEATURE_SIMD
+
+ /*
+ Notes:
+ a) TYP_UNKNOWN means 'baseType' of SIMD vector which is not known apriori
+ b) Each method maps to a unique intrinsic Id
+ c) To facilitate argument types to be used as an array initializer, args are listed within "{}" braces.
+ d) Since comma is used as actual param seperator in a macro, TYP_UNDEF entries are added to keep param count constant.
+ e) TODO-Cleanup: when we plumb TYP_SIMD through front-end, replace TYP_STRUCT with TYP_SIMD.
+ */
+
+#ifdef _TARGET_AMD64_
+
+// Max number of parameters that we model in the table for SIMD intrinsic methods.
+#define SIMD_INTRINSIC_MAX_MODELED_PARAM_COUNT 3
+
+// Actual maximum number of parameters for any SIMD intrinsic method.
+// Constructors that take either N values, or a smaller Vector plus additional element values,
+// actually have more arguments than the "modeled" count.
+#define SIMD_INTRINSIC_MAX_PARAM_COUNT 5
+
+// Max number of base types supported by an intrinsic
+#define SIMD_INTRINSIC_MAX_BASETYPE_COUNT 10
+
+/***************************************************************************************************************************************************************************************************************************
+ Method Name, Is Instance Intrinsic Id, Display Name, return type, Arg count, Individual argument types SSE2 supported
+ Method (including implicit "this") base types
+ ***************************************************************************************************************************************************************************************************************************/
+SIMD_INTRINSIC(nullptr, false, None, "None", TYP_UNDEF, 0, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+SIMD_INTRINSIC("get_Count", false, GetCount, "count", TYP_INT, 0, {TYP_VOID, TYP_UNDEF, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("get_One", false, GetOne, "one", TYP_STRUCT, 0, {TYP_VOID, TYP_UNDEF, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("get_Zero", false, GetZero, "zero", TYP_STRUCT, 0, {TYP_VOID, TYP_UNDEF, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("get_AllOnes", false, GetAllOnes, "allOnes", TYP_STRUCT, 0, {TYP_VOID, TYP_UNDEF, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// .ctor call or newobj - there are four forms.
+// This form takes the object plus a value of the base (element) type:
+SIMD_INTRINSIC(".ctor", true, Init, "init", TYP_VOID, 2, {TYP_BYREF, TYP_UNKNOWN, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+// This form takes the object plus an array of the base (element) type:
+SIMD_INTRINSIC(".ctor", true, InitArray, "initArray", TYP_VOID, 2, {TYP_BYREF, TYP_REF, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+// This form takes the object, an array of the base (element) type, and an index into the array:
+SIMD_INTRINSIC(".ctor", true, InitArrayX, "initArray", TYP_VOID, 3, {TYP_BYREF, TYP_REF, TYP_INT }, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+// This form takes the object, and N values of the base (element) type. The actual number of arguments depends upon the Vector size, which must be a fixed type such as Vector2f/3f/4f
+// Right now this intrinsic is supported only on fixed float vectors and hence the supported base types lists only TYP_FLOAT.
+// This is currently the intrinsic that has the largest maximum number of operands - if we add new fixed vector types
+// with more than 4 elements, the above SIMD_INTRINSIC_MAX_PARAM_COUNT will have to change.
+SIMD_INTRINSIC(".ctor", true, InitN, "initN", TYP_VOID, 2, {TYP_BYREF, TYP_UNKNOWN, TYP_UNKNOWN}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+// This form takes the object, a smaller fixed vector, and one or two additional arguments of the base type, e.g. Vector3 V = new Vector3(V2, x); where V2 is a Vector2, and x is a float.
+SIMD_INTRINSIC(".ctor", true, InitFixed, "initFixed", TYP_VOID, 3, {TYP_BYREF, TYP_STRUCT, TYP_UNKNOWN}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Copy vector to an array
+SIMD_INTRINSIC("CopyTo", true, CopyToArray, "CopyToArray", TYP_VOID, 2, {TYP_BYREF, TYP_REF, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("CopyTo", true, CopyToArrayX, "CopyToArray", TYP_VOID, 3, {TYP_BYREF, TYP_REF, TYP_INT }, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Get operations
+SIMD_INTRINSIC("get_Item", true, GetItem, "get[i]", TYP_UNKNOWN, 2, {TYP_BYREF, TYP_INT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("get_X", true, GetX, "getX", TYP_UNKNOWN, 1, {TYP_BYREF, TYP_UNDEF, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("get_Y", true, GetY, "getY", TYP_UNKNOWN, 1, {TYP_BYREF, TYP_UNDEF, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("get_Z", true, GetZ, "getZ", TYP_UNKNOWN, 1, {TYP_BYREF, TYP_UNDEF, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("get_W", true, GetW, "getW", TYP_UNKNOWN, 1, {TYP_BYREF, TYP_UNDEF, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Set operations
+SIMD_INTRINSIC("set_X", true, SetX, "setX", TYP_VOID, 2, {TYP_BYREF, TYP_UNKNOWN, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("set_Y", true, SetY, "setY", TYP_VOID, 2, {TYP_BYREF, TYP_UNKNOWN, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("set_Z", true, SetZ, "setZ", TYP_VOID, 2, {TYP_BYREF, TYP_UNKNOWN, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("set_W", true, SetW, "setW", TYP_VOID, 2, {TYP_BYREF, TYP_UNKNOWN, TYP_UNDEF}, {TYP_FLOAT, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Object.Equals()
+SIMD_INTRINSIC("Equals", true, InstEquals, "equals", TYP_BOOL, 2, {TYP_BYREF, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Operator == and !=
+SIMD_INTRINSIC("op_Equality", false, OpEquality, "==", TYP_BOOL, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("op_Inequality", false, OpInEquality, "!=", TYP_BOOL, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Arithmetic Operations
+SIMD_INTRINSIC("op_Addition", false, Add, "+", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("op_Subtraction", false, Sub, "-", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("op_Multiply", false, Mul, "*", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_SHORT,TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("op_Division", false, Div, "/", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_FLOAT, TYP_DOUBLE, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Abs and SquareRoot are recognized as intrinsics only in case of float or double vectors
+SIMD_INTRINSIC("Abs", false, Abs, "abs", TYP_STRUCT, 1, {TYP_STRUCT, TYP_UNDEF, TYP_UNDEF}, {TYP_FLOAT, TYP_DOUBLE, TYP_CHAR, TYP_UBYTE, TYP_UINT, TYP_ULONG, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("SquareRoot", false, Sqrt, "sqrt", TYP_STRUCT, 1, {TYP_STRUCT, TYP_UNDEF, TYP_UNDEF}, {TYP_FLOAT, TYP_DOUBLE, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Min and max methods are recognized as intrinsics only in case of float or double vectors
+SIMD_INTRINSIC("Min", false, Min, "min", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("Max", false, Max, "max", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Vector Relational operators
+SIMD_INTRINSIC("Equals", false, Equal, "eq", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("LessThan", false, LessThan, "lt", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("LessThanOrEqual", false, LessThanOrEqual, "le", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("GreaterThan", false, GreaterThan, "gt", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("GreaterThanOrEqual", false, GreaterThanOrEqual, "ge", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Bitwise operations
+SIMD_INTRINSIC("op_BitwiseAnd", false, BitwiseAnd, "&", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("BitwiseAndNot", false, BitwiseAndNot, "&~", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("op_BitwiseOr", false, BitwiseOr, "|", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+SIMD_INTRINSIC("op_ExclusiveOr", false, BitwiseXor, "^", TYP_STRUCT, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Dot Product
+SIMD_INTRINSIC("Dot", false, DotProduct, "Dot", TYP_UNKNOWN, 2, {TYP_STRUCT, TYP_STRUCT, TYP_UNDEF}, {TYP_FLOAT, TYP_DOUBLE, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Select
+SIMD_INTRINSIC("ConditionalSelect", false, Select, "Select", TYP_STRUCT, 3, {TYP_STRUCT, TYP_STRUCT, TYP_STRUCT}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Cast
+SIMD_INTRINSIC("op_Explicit", false, Cast, "Cast", TYP_STRUCT, 1, {TYP_STRUCT, TYP_UNDEF, TYP_UNDEF}, {TYP_INT, TYP_FLOAT, TYP_DOUBLE, TYP_LONG, TYP_CHAR, TYP_UBYTE, TYP_BYTE, TYP_SHORT, TYP_UINT, TYP_ULONG})
+
+// Miscellaneous
+SIMD_INTRINSIC("get_IsHardwareAccelerated", false, HWAccel, "HWAccel", TYP_BOOL, 0, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Shuffle and Shift operations - these are internal intrinsics as there is no corresponding managed method.
+// To prevent this being accidentally recognized as an intrinsic, all of the arg types and supported base types is made TYP_UNDEF
+SIMD_INTRINSIC("ShuffleSSE2", false, ShuffleSSE2, "ShuffleSSE2", TYP_STRUCT, 2, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Internal, logical shift operations that shift the entire vector register instead of individual elements of the vector.
+SIMD_INTRINSIC("ShiftLeftInternal", false, ShiftLeftInternal, "<< Internal", TYP_STRUCT, 2, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("ShiftRightInternal", false, ShiftRightInternal, ">> Internal", TYP_STRUCT, 2, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+// Internal intrinsics for saving & restoring the upper half of a vector register
+SIMD_INTRINSIC("UpperSave", false, UpperSave, "UpperSave Internal", TYP_STRUCT, 2, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+SIMD_INTRINSIC("UpperRestore", false, UpperRestore, "UpperRestore Internal", TYP_STRUCT, 2, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+
+SIMD_INTRINSIC(nullptr, false, Invalid, "Invalid", TYP_UNDEF, 0, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF}, {TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF, TYP_UNDEF})
+#undef SIMD_INTRINSIC
+
+#else //_TARGET_AMD64_
+#error SIMD intrinsics not defined for target arch
+#endif //!_TARGET_AMD64_
+
+#endif //FEATURE_SIMD
+// clang-format on