llvm/include/llvm/CodeGen/MachineCombinerPattern.h - llvm-project - Git at Google

 //===-- llvm/CodeGen/MachineCombinerPattern.h - Instruction pattern supported by
 // combiner  ------*- C++ -*-===//
 //
 // 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 instruction pattern supported by combiner
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CODEGEN_MACHINECOMBINERPATTERN_H
 #define LLVM_CODEGEN_MACHINECOMBINERPATTERN_H

 namespace llvm {

 /// These are instruction patterns matched by the machine combiner pass.
 enum class MachineCombinerPattern {
   // These are commutative variants for reassociating a computation chain. See
   // the comments before getMachineCombinerPatterns() in TargetInstrInfo.cpp.
   REASSOC_AX_BY,
   REASSOC_AX_YB,
   REASSOC_XA_BY,
   REASSOC_XA_YB,

   // These are patterns matched by the PowerPC to reassociate FMA chains.
   REASSOC_XY_AMM_BMM,
   REASSOC_XMM_AMM_BMM,

   // These are patterns matched by the PowerPC to reassociate FMA and FSUB to
   // reduce register pressure.
   REASSOC_XY_BCA,
   REASSOC_XY_BAC,

   // These are multiply-add patterns matched by the AArch64 machine combiner.
   MULADDW_OP1,
   MULADDW_OP2,
   MULSUBW_OP1,
   MULSUBW_OP2,
   MULADDWI_OP1,
   MULSUBWI_OP1,
   MULADDX_OP1,
   MULADDX_OP2,
   MULSUBX_OP1,
   MULSUBX_OP2,
   MULADDXI_OP1,
   MULSUBXI_OP1,
   // NEON integers vectors
   MULADDv8i8_OP1,
   MULADDv8i8_OP2,
   MULADDv16i8_OP1,
   MULADDv16i8_OP2,
   MULADDv4i16_OP1,
   MULADDv4i16_OP2,
   MULADDv8i16_OP1,
   MULADDv8i16_OP2,
   MULADDv2i32_OP1,
   MULADDv2i32_OP2,
   MULADDv4i32_OP1,
   MULADDv4i32_OP2,

   MULSUBv8i8_OP1,
   MULSUBv8i8_OP2,
   MULSUBv16i8_OP1,
   MULSUBv16i8_OP2,
   MULSUBv4i16_OP1,
   MULSUBv4i16_OP2,
   MULSUBv8i16_OP1,
   MULSUBv8i16_OP2,
   MULSUBv2i32_OP1,
   MULSUBv2i32_OP2,
   MULSUBv4i32_OP1,
   MULSUBv4i32_OP2,

   MULADDv4i16_indexed_OP1,
   MULADDv4i16_indexed_OP2,
   MULADDv8i16_indexed_OP1,
   MULADDv8i16_indexed_OP2,
   MULADDv2i32_indexed_OP1,
   MULADDv2i32_indexed_OP2,
   MULADDv4i32_indexed_OP1,
   MULADDv4i32_indexed_OP2,

   MULSUBv4i16_indexed_OP1,
   MULSUBv4i16_indexed_OP2,
   MULSUBv8i16_indexed_OP1,
   MULSUBv8i16_indexed_OP2,
   MULSUBv2i32_indexed_OP1,
   MULSUBv2i32_indexed_OP2,
   MULSUBv4i32_indexed_OP1,
   MULSUBv4i32_indexed_OP2,

   // Floating Point
   FMULADDH_OP1,
   FMULADDH_OP2,
   FMULSUBH_OP1,
   FMULSUBH_OP2,
   FMULADDS_OP1,
   FMULADDS_OP2,
   FMULSUBS_OP1,
   FMULSUBS_OP2,
   FMULADDD_OP1,
   FMULADDD_OP2,
   FMULSUBD_OP1,
   FMULSUBD_OP2,
   FNMULSUBH_OP1,
   FNMULSUBS_OP1,
   FNMULSUBD_OP1,
   FMLAv1i32_indexed_OP1,
   FMLAv1i32_indexed_OP2,
   FMLAv1i64_indexed_OP1,
   FMLAv1i64_indexed_OP2,
   FMLAv4f16_OP1,
   FMLAv4f16_OP2,
   FMLAv8f16_OP1,
   FMLAv8f16_OP2,
   FMLAv2f32_OP2,
   FMLAv2f32_OP1,
   FMLAv2f64_OP1,
   FMLAv2f64_OP2,
   FMLAv4i16_indexed_OP1,
   FMLAv4i16_indexed_OP2,
   FMLAv8i16_indexed_OP1,
   FMLAv8i16_indexed_OP2,
   FMLAv2i32_indexed_OP1,
   FMLAv2i32_indexed_OP2,
   FMLAv2i64_indexed_OP1,
   FMLAv2i64_indexed_OP2,
   FMLAv4f32_OP1,
   FMLAv4f32_OP2,
   FMLAv4i32_indexed_OP1,
   FMLAv4i32_indexed_OP2,
   FMLSv1i32_indexed_OP2,
   FMLSv1i64_indexed_OP2,
   FMLSv4f16_OP1,
   FMLSv4f16_OP2,
   FMLSv8f16_OP1,
   FMLSv8f16_OP2,
   FMLSv2f32_OP1,
   FMLSv2f32_OP2,
   FMLSv2f64_OP1,
   FMLSv2f64_OP2,
   FMLSv4i16_indexed_OP1,
   FMLSv4i16_indexed_OP2,
   FMLSv8i16_indexed_OP1,
   FMLSv8i16_indexed_OP2,
   FMLSv2i32_indexed_OP1,
   FMLSv2i32_indexed_OP2,
   FMLSv2i64_indexed_OP1,
   FMLSv2i64_indexed_OP2,
   FMLSv4f32_OP1,
   FMLSv4f32_OP2,
   FMLSv4i32_indexed_OP1,
   FMLSv4i32_indexed_OP2,

   FMULv2i32_indexed_OP1,
   FMULv2i32_indexed_OP2,
   FMULv2i64_indexed_OP1,
   FMULv2i64_indexed_OP2,
   FMULv4i16_indexed_OP1,
   FMULv4i16_indexed_OP2,
   FMULv4i32_indexed_OP1,
   FMULv4i32_indexed_OP2,
   FMULv8i16_indexed_OP1,
   FMULv8i16_indexed_OP2,
 };

 } // end namespace llvm

 #endif
	//===-- llvm/CodeGen/MachineCombinerPattern.h - Instruction pattern supported by
	// combiner ------- C++ --===//
	//
	// 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 instruction pattern supported by combiner
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CODEGEN_MACHINECOMBINERPATTERN_H
	#define LLVM_CODEGEN_MACHINECOMBINERPATTERN_H

	namespace llvm {

	/// These are instruction patterns matched by the machine combiner pass.
	enum class MachineCombinerPattern {
	// These are commutative variants for reassociating a computation chain. See
	// the comments before getMachineCombinerPatterns() in TargetInstrInfo.cpp.
	REASSOC_AX_BY,
	REASSOC_AX_YB,
	REASSOC_XA_BY,
	REASSOC_XA_YB,

	// These are patterns matched by the PowerPC to reassociate FMA chains.
	REASSOC_XY_AMM_BMM,
	REASSOC_XMM_AMM_BMM,

	// These are patterns matched by the PowerPC to reassociate FMA and FSUB to
	// reduce register pressure.
	REASSOC_XY_BCA,
	REASSOC_XY_BAC,

	// These are multiply-add patterns matched by the AArch64 machine combiner.
	MULADDW_OP1,
	MULADDW_OP2,
	MULSUBW_OP1,
	MULSUBW_OP2,
	MULADDWI_OP1,
	MULSUBWI_OP1,
	MULADDX_OP1,
	MULADDX_OP2,
	MULSUBX_OP1,
	MULSUBX_OP2,
	MULADDXI_OP1,
	MULSUBXI_OP1,
	// NEON integers vectors
	MULADDv8i8_OP1,
	MULADDv8i8_OP2,
	MULADDv16i8_OP1,
	MULADDv16i8_OP2,
	MULADDv4i16_OP1,
	MULADDv4i16_OP2,
	MULADDv8i16_OP1,
	MULADDv8i16_OP2,
	MULADDv2i32_OP1,
	MULADDv2i32_OP2,
	MULADDv4i32_OP1,
	MULADDv4i32_OP2,

	MULSUBv8i8_OP1,
	MULSUBv8i8_OP2,
	MULSUBv16i8_OP1,
	MULSUBv16i8_OP2,
	MULSUBv4i16_OP1,
	MULSUBv4i16_OP2,
	MULSUBv8i16_OP1,
	MULSUBv8i16_OP2,
	MULSUBv2i32_OP1,
	MULSUBv2i32_OP2,
	MULSUBv4i32_OP1,
	MULSUBv4i32_OP2,

	MULADDv4i16_indexed_OP1,
	MULADDv4i16_indexed_OP2,
	MULADDv8i16_indexed_OP1,
	MULADDv8i16_indexed_OP2,
	MULADDv2i32_indexed_OP1,
	MULADDv2i32_indexed_OP2,
	MULADDv4i32_indexed_OP1,
	MULADDv4i32_indexed_OP2,

	MULSUBv4i16_indexed_OP1,
	MULSUBv4i16_indexed_OP2,
	MULSUBv8i16_indexed_OP1,
	MULSUBv8i16_indexed_OP2,
	MULSUBv2i32_indexed_OP1,
	MULSUBv2i32_indexed_OP2,
	MULSUBv4i32_indexed_OP1,
	MULSUBv4i32_indexed_OP2,

	// Floating Point
	FMULADDH_OP1,
	FMULADDH_OP2,
	FMULSUBH_OP1,
	FMULSUBH_OP2,
	FMULADDS_OP1,
	FMULADDS_OP2,
	FMULSUBS_OP1,
	FMULSUBS_OP2,
	FMULADDD_OP1,
	FMULADDD_OP2,
	FMULSUBD_OP1,
	FMULSUBD_OP2,
	FNMULSUBH_OP1,
	FNMULSUBS_OP1,
	FNMULSUBD_OP1,
	FMLAv1i32_indexed_OP1,
	FMLAv1i32_indexed_OP2,
	FMLAv1i64_indexed_OP1,
	FMLAv1i64_indexed_OP2,
	FMLAv4f16_OP1,
	FMLAv4f16_OP2,
	FMLAv8f16_OP1,
	FMLAv8f16_OP2,
	FMLAv2f32_OP2,
	FMLAv2f32_OP1,
	FMLAv2f64_OP1,
	FMLAv2f64_OP2,
	FMLAv4i16_indexed_OP1,
	FMLAv4i16_indexed_OP2,
	FMLAv8i16_indexed_OP1,
	FMLAv8i16_indexed_OP2,
	FMLAv2i32_indexed_OP1,
	FMLAv2i32_indexed_OP2,
	FMLAv2i64_indexed_OP1,
	FMLAv2i64_indexed_OP2,
	FMLAv4f32_OP1,
	FMLAv4f32_OP2,
	FMLAv4i32_indexed_OP1,
	FMLAv4i32_indexed_OP2,
	FMLSv1i32_indexed_OP2,
	FMLSv1i64_indexed_OP2,
	FMLSv4f16_OP1,
	FMLSv4f16_OP2,
	FMLSv8f16_OP1,
	FMLSv8f16_OP2,
	FMLSv2f32_OP1,
	FMLSv2f32_OP2,
	FMLSv2f64_OP1,
	FMLSv2f64_OP2,
	FMLSv4i16_indexed_OP1,
	FMLSv4i16_indexed_OP2,
	FMLSv8i16_indexed_OP1,
	FMLSv8i16_indexed_OP2,
	FMLSv2i32_indexed_OP1,
	FMLSv2i32_indexed_OP2,
	FMLSv2i64_indexed_OP1,
	FMLSv2i64_indexed_OP2,
	FMLSv4f32_OP1,
	FMLSv4f32_OP2,
	FMLSv4i32_indexed_OP1,
	FMLSv4i32_indexed_OP2,

	FMULv2i32_indexed_OP1,
	FMULv2i32_indexed_OP2,
	FMULv2i64_indexed_OP1,
	FMULv2i64_indexed_OP2,
	FMULv4i16_indexed_OP1,
	FMULv4i16_indexed_OP2,
	FMULv4i32_indexed_OP1,
	FMULv4i32_indexed_OP2,
	FMULv8i16_indexed_OP1,
	FMULv8i16_indexed_OP2,
	};

	} // end namespace llvm

	#endif