third_party/llvm-16.0/llvm/lib/Target/VE/VVPNodes.def - SwiftShader - Git at Google

 //===-- VVPNodes.def - Lists & properties of VE Vector Predication Nodes --===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // This file defines all VVP_* SDNodes and their properties
 //
 //===----------------------------------------------------------------------===//

 /// HANDLE_VP_TO_VVP(VPOPC, VVPOPC)
 /// \p  VPOPC is the VP_* SDNode opcode.
 /// \p  VVPOPC is the VVP_* SDNode opcode.
 #ifndef HANDLE_VP_TO_VVP
 #define HANDLE_VP_TO_VVP(VPOPC, VVPOPC)
 #endif

 /// ADD_VVP_OP(VVPNAME,SDNAME)
 /// \p VVPName is a VVP SDNode operator.
 /// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
 #ifndef ADD_VVP_OP
 #define ADD_VVP_OP(X, Y)
 #endif

 /// ADD_UNARY_VVP_OP(VVPNAME,SDNAME)
 /// \p VVPName is a VVP Unary operator.
 /// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
 #ifndef ADD_UNARY_VVP_OP
 #define ADD_UNARY_VVP_OP(VVPNAME,SDNAME) \
             ADD_VVP_OP(VVPNAME,SDNAME)
 #endif

 /// ADD_BINARY_VVP_OP(VVPNAME,SDNAME)
 /// \p VVPName is a VVP Binary operator.
 /// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
 #ifndef ADD_BINARY_VVP_OP
 #define ADD_BINARY_VVP_OP(VVPNAME,VPNAME,SDNAME) \
             ADD_VVP_OP(VVPNAME,SDNAME) \
             HANDLE_VP_TO_VVP(VPNAME, VVPNAME)
 #endif

 /// ADD_TERNARY_VVP_OP(VVPNAME,SDNAME)
 /// \p VVPName is a VVP Ternary operator.
 /// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
 #ifndef ADD_TERNARY_VVP_OP
 #define ADD_TERNARY_VVP_OP(VVPNAME,SDNAME) \
     ADD_VVP_OP(VVPNAME,SDNAME)
 #endif

 #ifndef ADD_BINARY_VVP_OP_COMPACT
 #define ADD_BINARY_VVP_OP_COMPACT(NAME) \
     ADD_BINARY_VVP_OP(VVP_##NAME,VP_##NAME,NAME)
 #endif

 /// REGISTER_PACKED(OPC)
 /// \p OPC The VVP opcode of the operation.
 #ifndef REGISTER_PACKED
 #define REGISTER_PACKED(OPC)
 #endif

 /// ADD_REDUCE_VVP_OP(OPC)
 /// \p OPC The VVP opcode of the operation.
 /// \p SDNAME The standard opcode of the operation.
 #ifndef ADD_REDUCE_VVP_OP
 #define ADD_REDUCE_VVP_OP(OPC, SDNAME) ADD_VVP_OP(OPC, SDNAME)
 #endif

 // Scalar standard ISD to perform this reduction.
 #ifndef HANDLE_VVP_REDUCE_TO_SCALAR
 #define HANDLE_VVP_REDUCE_TO_SCALAR(VVP_RED_ISD, REDUCE_ISD)
 #endif

 /// Reductions.
 #define HELPER_REDUCTION(OPC, SCALAR_OPC) \
     ADD_REDUCE_VVP_OP(VVP_REDUCE_##OPC,VECREDUCE_##OPC) \
     HANDLE_VP_TO_VVP(VP_REDUCE_##OPC, VVP_REDUCE_##OPC) \
     HANDLE_VVP_REDUCE_TO_SCALAR(VVP_REDUCE_##OPC, SCALAR_OPC)

 HELPER_REDUCTION(ADD, ADD)
 HELPER_REDUCTION(AND, AND)
 HELPER_REDUCTION(OR, OR)
 HELPER_REDUCTION(XOR, XOR)
 HELPER_REDUCTION(SMAX, SMAX)

 #undef HELPER_REDUCTION

 ADD_VVP_OP(VVP_LOAD,LOAD)   HANDLE_VP_TO_VVP(VP_LOAD, VVP_LOAD)   REGISTER_PACKED(VVP_LOAD)
 ADD_VVP_OP(VVP_STORE,STORE) HANDLE_VP_TO_VVP(VP_STORE, VVP_STORE) REGISTER_PACKED(VVP_STORE)

 ADD_VVP_OP(VVP_GATHER, MGATHER)     HANDLE_VP_TO_VVP(VP_GATHER, VVP_GATHER)
 ADD_VVP_OP(VVP_SCATTER, MSCATTER)   HANDLE_VP_TO_VVP(VP_SCATTER, VVP_SCATTER)

 // Integer arithmetic.
 ADD_BINARY_VVP_OP_COMPACT(ADD) REGISTER_PACKED(VVP_ADD)
 ADD_BINARY_VVP_OP_COMPACT(SUB) REGISTER_PACKED(VVP_SUB)
 ADD_BINARY_VVP_OP_COMPACT(MUL)
 ADD_BINARY_VVP_OP_COMPACT(UDIV)
 ADD_BINARY_VVP_OP_COMPACT(SDIV)

 ADD_BINARY_VVP_OP(VVP_SRA,VP_ASHR,SRA) REGISTER_PACKED(VVP_SRA)
 ADD_BINARY_VVP_OP(VVP_SRL,VP_LSHR,SRL) REGISTER_PACKED(VVP_SRL)
 ADD_BINARY_VVP_OP_COMPACT(SHL) REGISTER_PACKED(VVP_SHL)

 ADD_BINARY_VVP_OP_COMPACT(AND) REGISTER_PACKED(VVP_AND)
 ADD_BINARY_VVP_OP_COMPACT(OR)  REGISTER_PACKED(VVP_OR)
 ADD_BINARY_VVP_OP_COMPACT(XOR) REGISTER_PACKED(VVP_XOR)

 // FP arithmetic.
 ADD_UNARY_VVP_OP(VVP_FNEG, FNEG) HANDLE_VP_TO_VVP(VP_FNEG, VVP_FNEG) REGISTER_PACKED(VVP_FNEG)
 ADD_BINARY_VVP_OP_COMPACT(FADD) REGISTER_PACKED(VVP_FADD)
 ADD_BINARY_VVP_OP_COMPACT(FSUB) REGISTER_PACKED(VVP_FSUB)
 ADD_BINARY_VVP_OP_COMPACT(FMUL) REGISTER_PACKED(VVP_FMUL)
 ADD_BINARY_VVP_OP_COMPACT(FDIV)

 ADD_TERNARY_VVP_OP(VVP_FFMA,FMA) HANDLE_VP_TO_VVP(VP_FMA, VVP_FFMA) REGISTER_PACKED(VVP_FFMA)

 ADD_VVP_OP(VVP_SETCC, SETCC)

 // Shuffles.
 ADD_VVP_OP(VVP_SELECT,VSELECT) REGISTER_PACKED(VVP_SELECT)
 HANDLE_VP_TO_VVP(VP_SELECT, VVP_SELECT)
 HANDLE_VP_TO_VVP(VP_MERGE, VVP_SELECT)


 #undef ADD_BINARY_VVP_OP
 #undef ADD_TERNARY_VVP_OP
 #undef ADD_UNARY_VVP_OP
 #undef ADD_BINARY_VVP_OP_COMPACT
 #undef ADD_REDUCE_VVP_OP
 #undef ADD_VVP_OP
 #undef HANDLE_VP_TO_VVP
 #undef HANDLE_VVP_REDUCE_TO_SCALAR
 #undef REGISTER_PACKED
	//===-- VVPNodes.def - Lists & properties of VE Vector Predication Nodes --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// This file defines all VVP_* SDNodes and their properties
	//
	//===----------------------------------------------------------------------===//

	/// HANDLE_VP_TO_VVP(VPOPC, VVPOPC)
	/// \p VPOPC is the VP_* SDNode opcode.
	/// \p VVPOPC is the VVP_* SDNode opcode.
	#ifndef HANDLE_VP_TO_VVP
	#define HANDLE_VP_TO_VVP(VPOPC, VVPOPC)
	#endif

	/// ADD_VVP_OP(VVPNAME,SDNAME)
	/// \p VVPName is a VVP SDNode operator.
	/// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
	#ifndef ADD_VVP_OP
	#define ADD_VVP_OP(X, Y)
	#endif

	/// ADD_UNARY_VVP_OP(VVPNAME,SDNAME)
	/// \p VVPName is a VVP Unary operator.
	/// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
	#ifndef ADD_UNARY_VVP_OP
	#define ADD_UNARY_VVP_OP(VVPNAME,SDNAME) \
	ADD_VVP_OP(VVPNAME,SDNAME)
	#endif

	/// ADD_BINARY_VVP_OP(VVPNAME,SDNAME)
	/// \p VVPName is a VVP Binary operator.
	/// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
	#ifndef ADD_BINARY_VVP_OP
	#define ADD_BINARY_VVP_OP(VVPNAME,VPNAME,SDNAME) \
	ADD_VVP_OP(VVPNAME,SDNAME) \
	HANDLE_VP_TO_VVP(VPNAME, VVPNAME)
	#endif

	/// ADD_TERNARY_VVP_OP(VVPNAME,SDNAME)
	/// \p VVPName is a VVP Ternary operator.
	/// \p SDNAME is the generic SD opcode corresponding to \p VVPName.
	#ifndef ADD_TERNARY_VVP_OP
	#define ADD_TERNARY_VVP_OP(VVPNAME,SDNAME) \
	ADD_VVP_OP(VVPNAME,SDNAME)
	#endif

	#ifndef ADD_BINARY_VVP_OP_COMPACT
	#define ADD_BINARY_VVP_OP_COMPACT(NAME) \
	ADD_BINARY_VVP_OP(VVP_##NAME,VP_##NAME,NAME)
	#endif

	/// REGISTER_PACKED(OPC)
	/// \p OPC The VVP opcode of the operation.
	#ifndef REGISTER_PACKED
	#define REGISTER_PACKED(OPC)
	#endif

	/// ADD_REDUCE_VVP_OP(OPC)
	/// \p OPC The VVP opcode of the operation.
	/// \p SDNAME The standard opcode of the operation.
	#ifndef ADD_REDUCE_VVP_OP
	#define ADD_REDUCE_VVP_OP(OPC, SDNAME) ADD_VVP_OP(OPC, SDNAME)
	#endif

	// Scalar standard ISD to perform this reduction.
	#ifndef HANDLE_VVP_REDUCE_TO_SCALAR
	#define HANDLE_VVP_REDUCE_TO_SCALAR(VVP_RED_ISD, REDUCE_ISD)
	#endif

	/// Reductions.
	#define HELPER_REDUCTION(OPC, SCALAR_OPC) \
	ADD_REDUCE_VVP_OP(VVP_REDUCE_##OPC,VECREDUCE_##OPC) \
	HANDLE_VP_TO_VVP(VP_REDUCE_##OPC, VVP_REDUCE_##OPC) \
	HANDLE_VVP_REDUCE_TO_SCALAR(VVP_REDUCE_##OPC, SCALAR_OPC)

	HELPER_REDUCTION(ADD, ADD)
	HELPER_REDUCTION(AND, AND)
	HELPER_REDUCTION(OR, OR)
	HELPER_REDUCTION(XOR, XOR)
	HELPER_REDUCTION(SMAX, SMAX)

	#undef HELPER_REDUCTION

	ADD_VVP_OP(VVP_LOAD,LOAD) HANDLE_VP_TO_VVP(VP_LOAD, VVP_LOAD) REGISTER_PACKED(VVP_LOAD)
	ADD_VVP_OP(VVP_STORE,STORE) HANDLE_VP_TO_VVP(VP_STORE, VVP_STORE) REGISTER_PACKED(VVP_STORE)

	ADD_VVP_OP(VVP_GATHER, MGATHER) HANDLE_VP_TO_VVP(VP_GATHER, VVP_GATHER)
	ADD_VVP_OP(VVP_SCATTER, MSCATTER) HANDLE_VP_TO_VVP(VP_SCATTER, VVP_SCATTER)

	// Integer arithmetic.
	ADD_BINARY_VVP_OP_COMPACT(ADD) REGISTER_PACKED(VVP_ADD)
	ADD_BINARY_VVP_OP_COMPACT(SUB) REGISTER_PACKED(VVP_SUB)
	ADD_BINARY_VVP_OP_COMPACT(MUL)
	ADD_BINARY_VVP_OP_COMPACT(UDIV)
	ADD_BINARY_VVP_OP_COMPACT(SDIV)

	ADD_BINARY_VVP_OP(VVP_SRA,VP_ASHR,SRA) REGISTER_PACKED(VVP_SRA)
	ADD_BINARY_VVP_OP(VVP_SRL,VP_LSHR,SRL) REGISTER_PACKED(VVP_SRL)
	ADD_BINARY_VVP_OP_COMPACT(SHL) REGISTER_PACKED(VVP_SHL)

	ADD_BINARY_VVP_OP_COMPACT(AND) REGISTER_PACKED(VVP_AND)
	ADD_BINARY_VVP_OP_COMPACT(OR) REGISTER_PACKED(VVP_OR)
	ADD_BINARY_VVP_OP_COMPACT(XOR) REGISTER_PACKED(VVP_XOR)

	// FP arithmetic.
	ADD_UNARY_VVP_OP(VVP_FNEG, FNEG) HANDLE_VP_TO_VVP(VP_FNEG, VVP_FNEG) REGISTER_PACKED(VVP_FNEG)
	ADD_BINARY_VVP_OP_COMPACT(FADD) REGISTER_PACKED(VVP_FADD)
	ADD_BINARY_VVP_OP_COMPACT(FSUB) REGISTER_PACKED(VVP_FSUB)
	ADD_BINARY_VVP_OP_COMPACT(FMUL) REGISTER_PACKED(VVP_FMUL)
	ADD_BINARY_VVP_OP_COMPACT(FDIV)

	ADD_TERNARY_VVP_OP(VVP_FFMA,FMA) HANDLE_VP_TO_VVP(VP_FMA, VVP_FFMA) REGISTER_PACKED(VVP_FFMA)

	ADD_VVP_OP(VVP_SETCC, SETCC)

	// Shuffles.
	ADD_VVP_OP(VVP_SELECT,VSELECT) REGISTER_PACKED(VVP_SELECT)
	HANDLE_VP_TO_VVP(VP_SELECT, VVP_SELECT)
	HANDLE_VP_TO_VVP(VP_MERGE, VVP_SELECT)


	#undef ADD_BINARY_VVP_OP
	#undef ADD_TERNARY_VVP_OP
	#undef ADD_UNARY_VVP_OP
	#undef ADD_BINARY_VVP_OP_COMPACT
	#undef ADD_REDUCE_VVP_OP
	#undef ADD_VVP_OP
	#undef HANDLE_VP_TO_VVP
	#undef HANDLE_VVP_REDUCE_TO_SCALAR
	#undef REGISTER_PACKED