lib/Target/Hexagon/Hexagon.td - llvm - Git at Google

 //===-- Hexagon.td - Describe the Hexagon Target Machine --*- tablegen -*--===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This is the top level entry point for the Hexagon target.
 //
 //===----------------------------------------------------------------------===//

 //===----------------------------------------------------------------------===//
 // Target-independent interfaces which we are implementing
 //===----------------------------------------------------------------------===//

 include "llvm/Target/Target.td"

 //===----------------------------------------------------------------------===//
 // Hexagon Subtarget features.
 //===----------------------------------------------------------------------===//

 // Hexagon Architectures
 include "HexagonDepArch.td"

 // Hexagon ISA Extensions
 def ExtensionHVX: SubtargetFeature<"hvx", "UseHVXOps", "true",
       "Hexagon HVX instructions">;
 def ExtensionHVXDbl: SubtargetFeature<"hvx-double", "UseHVXDblOps", "true",
       "Hexagon HVX Double instructions">;
 def FeatureLongCalls: SubtargetFeature<"long-calls", "UseLongCalls", "true",
       "Use constant-extended calls">;

 //===----------------------------------------------------------------------===//
 // Hexagon Instruction Predicate Definitions.
 //===----------------------------------------------------------------------===//

 def UseMEMOP           : Predicate<"HST->useMemOps()">;
 def IEEERndNearV5T     : Predicate<"HST->modeIEEERndNear()">;
 def UseHVXDbl          : Predicate<"HST->useHVXDblOps()">,
                          AssemblerPredicate<"ExtensionHVXDbl">;
 def UseHVXSgl          : Predicate<"HST->useHVXSglOps()">;
 def UseHVX             : Predicate<"HST->useHVXSglOps() ||HST->useHVXDblOps()">,
                          AssemblerPredicate<"ExtensionHVX">;

 //===----------------------------------------------------------------------===//
 // Classes used for relation maps.
 //===----------------------------------------------------------------------===//

 class ImmRegShl;
 // PredRel - Filter class used to relate non-predicated instructions with their
 // predicated forms.
 class PredRel;
 // PredNewRel - Filter class used to relate predicated instructions with their
 // predicate-new forms.
 class PredNewRel: PredRel;
 // ImmRegRel - Filter class used to relate instructions having reg-reg form
 // with their reg-imm counterparts.
 class ImmRegRel;
 // NewValueRel - Filter class used to relate regular store instructions with
 // their new-value store form.
 class NewValueRel: PredNewRel;
 // NewValueRel - Filter class used to relate load/store instructions having
 // different addressing modes with each other.
 class AddrModeRel: NewValueRel;
 class IntrinsicsRel;

 //===----------------------------------------------------------------------===//
 // Generate mapping table to relate non-predicate instructions with their
 // predicated formats - true and false.
 //

 def getPredOpcode : InstrMapping {
   let FilterClass = "PredRel";
   // Instructions with the same BaseOpcode and isNVStore values form a row.
   let RowFields = ["BaseOpcode", "isNVStore", "PNewValue", "isBrTaken", "isNT"];
   // Instructions with the same predicate sense form a column.
   let ColFields = ["PredSense"];
   // The key column is the unpredicated instructions.
   let KeyCol = [""];
   // Value columns are PredSense=true and PredSense=false
   let ValueCols = [["true"], ["false"]];
 }

 //===----------------------------------------------------------------------===//
 // Generate mapping table to relate predicate-true instructions with their
 // predicate-false forms
 //
 def getFalsePredOpcode : InstrMapping {
   let FilterClass = "PredRel";
   let RowFields = ["BaseOpcode", "PNewValue", "isNVStore", "isBrTaken", "isNT"];
   let ColFields = ["PredSense"];
   let KeyCol = ["true"];
   let ValueCols = [["false"]];
 }

 //===----------------------------------------------------------------------===//
 // Generate mapping table to relate predicate-false instructions with their
 // predicate-true forms
 //
 def getTruePredOpcode : InstrMapping {
   let FilterClass = "PredRel";
   let RowFields = ["BaseOpcode", "PNewValue", "isNVStore", "isBrTaken", "isNT"];
   let ColFields = ["PredSense"];
   let KeyCol = ["false"];
   let ValueCols = [["true"]];
 }

 //===----------------------------------------------------------------------===//
 // Generate mapping table to relate predicated instructions with their .new
 // format.
 //
 def getPredNewOpcode : InstrMapping {
   let FilterClass = "PredNewRel";
   let RowFields = ["BaseOpcode", "PredSense", "isNVStore", "isBrTaken"];
   let ColFields = ["PNewValue"];
   let KeyCol = [""];
   let ValueCols = [["new"]];
 }

 //===----------------------------------------------------------------------===//
 // Generate mapping table to relate .new predicated instructions with their old
 // format.
 //
 def getPredOldOpcode : InstrMapping {
   let FilterClass = "PredNewRel";
   let RowFields = ["BaseOpcode", "PredSense", "isNVStore", "isBrTaken"];
   let ColFields = ["PNewValue"];
   let KeyCol = ["new"];
   let ValueCols = [[""]];
 }

 //===----------------------------------------------------------------------===//
 // Generate mapping table to relate store instructions with their new-value
 // format.
 //
 def getNewValueOpcode : InstrMapping {
   let FilterClass = "NewValueRel";
   let RowFields = ["BaseOpcode", "PredSense", "PNewValue", "addrMode", "isNT"];
   let ColFields = ["NValueST"];
   let KeyCol = ["false"];
   let ValueCols = [["true"]];
 }

 //===----------------------------------------------------------------------===//
 // Generate mapping table to relate new-value store instructions with their old
 // format.
 //
 def getNonNVStore : InstrMapping {
   let FilterClass = "NewValueRel";
   let RowFields = ["BaseOpcode", "PredSense", "PNewValue", "addrMode", "isNT"];
   let ColFields = ["NValueST"];
   let KeyCol = ["true"];
   let ValueCols = [["false"]];
 }

 def getBaseWithImmOffset : InstrMapping {
   let FilterClass = "AddrModeRel";
   let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore",
                    "isFloat"];
   let ColFields = ["addrMode"];
   let KeyCol = ["Absolute"];
   let ValueCols = [["BaseImmOffset"]];
 }

 def getAbsoluteForm : InstrMapping {
   let FilterClass = "AddrModeRel";
   let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore",
                    "isFloat"];
   let ColFields = ["addrMode"];
   let KeyCol = ["BaseImmOffset"];
   let ValueCols = [["Absolute"]];
 }

 def getBaseWithRegOffset : InstrMapping {
   let FilterClass = "AddrModeRel";
   let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
   let ColFields = ["addrMode"];
   let KeyCol = ["BaseImmOffset"];
   let ValueCols = [["BaseRegOffset"]];
 }

 def xformRegToImmOffset : InstrMapping {
   let FilterClass = "AddrModeRel";
   let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
   let ColFields = ["addrMode"];
   let KeyCol = ["BaseRegOffset"];
   let ValueCols = [["BaseImmOffset"]];
 }

 def getBaseWithLongOffset : InstrMapping {
   let FilterClass = "ImmRegShl";
   let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
   let ColFields = ["addrMode"];
   let KeyCol = ["BaseRegOffset"];
   let ValueCols = [["BaseLongOffset"]];
 }

 def getRegForm : InstrMapping {
   let FilterClass = "ImmRegRel";
   let RowFields = ["CextOpcode", "PredSense", "PNewValue"];
   let ColFields = ["InputType"];
   let KeyCol = ["imm"];
   let ValueCols = [["reg"]];
 }

 def getRegShlForm : InstrMapping {
   let FilterClass = "ImmRegShl";
   let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
   let ColFields = ["InputType"];
   let KeyCol = ["imm"];
   let ValueCols = [["reg"]];
 }

 def notTakenBranchPrediction : InstrMapping {
   let FilterClass = "PredRel";
   let RowFields = ["BaseOpcode", "PNewValue",  "PredSense", "isBranch", "isPredicated"];
   let ColFields = ["isBrTaken"];
   let KeyCol = ["true"];
   let ValueCols = [["false"]];
 }

 def takenBranchPrediction : InstrMapping {
   let FilterClass = "PredRel";
   let RowFields = ["BaseOpcode", "PNewValue",  "PredSense", "isBranch", "isPredicated"];
   let ColFields = ["isBrTaken"];
   let KeyCol = ["false"];
   let ValueCols = [["true"]];
 }

 def getRealHWInstr : InstrMapping {
   let FilterClass = "IntrinsicsRel";
   let RowFields = ["BaseOpcode"];
   let ColFields = ["InstrType"];
   let KeyCol = ["Pseudo"];
   let ValueCols = [["Pseudo"], ["Real"]];
 }
 //===----------------------------------------------------------------------===//
 // Register File, Calling Conv, Instruction Descriptions
 //===----------------------------------------------------------------------===//
 include "HexagonSchedule.td"
 include "HexagonRegisterInfo.td"
 include "HexagonOperands.td"
 include "HexagonDepOperands.td"
 include "HexagonDepITypes.td"
 include "HexagonInstrFormats.td"
 include "HexagonDepInstrFormats.td"
 include "HexagonDepInstrInfo.td"
 include "HexagonPseudo.td"
 include "HexagonPatterns.td"
 include "HexagonDepMappings.td"
 include "HexagonIntrinsics.td"
 include "HexagonIntrinsicsDerived.td"
 include "HexagonMapAsm2IntrinV62.gen.td"

 def HexagonInstrInfo : InstrInfo;

 //===----------------------------------------------------------------------===//
 // Hexagon processors supported.
 //===----------------------------------------------------------------------===//

 class Proc<string Name, SchedMachineModel Model,
            list<SubtargetFeature> Features>
  : ProcessorModel<Name, Model, Features>;

 def : Proc<"hexagonv4",  HexagonModelV4,
            [ArchV4]>;
 def : Proc<"hexagonv5",  HexagonModelV4,
            [ArchV4, ArchV5]>;
 def : Proc<"hexagonv55", HexagonModelV55,
            [ArchV4, ArchV5, ArchV55]>;
 def : Proc<"hexagonv60", HexagonModelV60,
            [ArchV4, ArchV5, ArchV55, ArchV60, ExtensionHVX]>;
 def : Proc<"hexagonv62", HexagonModelV62,
            [ArchV4, ArchV5, ArchV55, ArchV60, ArchV62, ExtensionHVX]>;

 //===----------------------------------------------------------------------===//
 // Declare the target which we are implementing
 //===----------------------------------------------------------------------===//

 def HexagonAsmParser : AsmParser {
   let ShouldEmitMatchRegisterAltName = 1;
   bit HasMnemonicFirst = 0;
 }

 def HexagonAsmParserVariant : AsmParserVariant {
   int Variant = 0;
   string TokenizingCharacters = "#()=:.<>!+*-|^&";
 }

 def Hexagon : Target {
   // Pull in Instruction Info:
   let InstructionSet = HexagonInstrInfo;
   let AssemblyParsers = [HexagonAsmParser];
   let AssemblyParserVariants = [HexagonAsmParserVariant];
 }
	//===-- Hexagon.td - Describe the Hexagon Target Machine --- tablegen ---===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This is the top level entry point for the Hexagon target.
	//
	//===----------------------------------------------------------------------===//

	//===----------------------------------------------------------------------===//
	// Target-independent interfaces which we are implementing
	//===----------------------------------------------------------------------===//

	include "llvm/Target/Target.td"

	//===----------------------------------------------------------------------===//
	// Hexagon Subtarget features.
	//===----------------------------------------------------------------------===//

	// Hexagon Architectures
	include "HexagonDepArch.td"

	// Hexagon ISA Extensions
	def ExtensionHVX: SubtargetFeature<"hvx", "UseHVXOps", "true",
	"Hexagon HVX instructions">;
	def ExtensionHVXDbl: SubtargetFeature<"hvx-double", "UseHVXDblOps", "true",
	"Hexagon HVX Double instructions">;
	def FeatureLongCalls: SubtargetFeature<"long-calls", "UseLongCalls", "true",
	"Use constant-extended calls">;

	//===----------------------------------------------------------------------===//
	// Hexagon Instruction Predicate Definitions.
	//===----------------------------------------------------------------------===//

	def UseMEMOP : Predicate<"HST->useMemOps()">;
	def IEEERndNearV5T : Predicate<"HST->modeIEEERndNear()">;
	def UseHVXDbl : Predicate<"HST->useHVXDblOps()">,
	AssemblerPredicate<"ExtensionHVXDbl">;
	def UseHVXSgl : Predicate<"HST->useHVXSglOps()">;
	def UseHVX : Predicate<"HST->useHVXSglOps() \|\|HST->useHVXDblOps()">,
	AssemblerPredicate<"ExtensionHVX">;

	//===----------------------------------------------------------------------===//
	// Classes used for relation maps.
	//===----------------------------------------------------------------------===//

	class ImmRegShl;
	// PredRel - Filter class used to relate non-predicated instructions with their
	// predicated forms.
	class PredRel;
	// PredNewRel - Filter class used to relate predicated instructions with their
	// predicate-new forms.
	class PredNewRel: PredRel;
	// ImmRegRel - Filter class used to relate instructions having reg-reg form
	// with their reg-imm counterparts.
	class ImmRegRel;
	// NewValueRel - Filter class used to relate regular store instructions with
	// their new-value store form.
	class NewValueRel: PredNewRel;
	// NewValueRel - Filter class used to relate load/store instructions having
	// different addressing modes with each other.
	class AddrModeRel: NewValueRel;
	class IntrinsicsRel;

	//===----------------------------------------------------------------------===//
	// Generate mapping table to relate non-predicate instructions with their
	// predicated formats - true and false.
	//

	def getPredOpcode : InstrMapping {
	let FilterClass = "PredRel";
	// Instructions with the same BaseOpcode and isNVStore values form a row.
	let RowFields = ["BaseOpcode", "isNVStore", "PNewValue", "isBrTaken", "isNT"];
	// Instructions with the same predicate sense form a column.
	let ColFields = ["PredSense"];
	// The key column is the unpredicated instructions.
	let KeyCol = [""];
	// Value columns are PredSense=true and PredSense=false
	let ValueCols = [["true"], ["false"]];
	}

	//===----------------------------------------------------------------------===//
	// Generate mapping table to relate predicate-true instructions with their
	// predicate-false forms
	//
	def getFalsePredOpcode : InstrMapping {
	let FilterClass = "PredRel";
	let RowFields = ["BaseOpcode", "PNewValue", "isNVStore", "isBrTaken", "isNT"];
	let ColFields = ["PredSense"];
	let KeyCol = ["true"];
	let ValueCols = [["false"]];
	}

	//===----------------------------------------------------------------------===//
	// Generate mapping table to relate predicate-false instructions with their
	// predicate-true forms
	//
	def getTruePredOpcode : InstrMapping {
	let FilterClass = "PredRel";
	let RowFields = ["BaseOpcode", "PNewValue", "isNVStore", "isBrTaken", "isNT"];
	let ColFields = ["PredSense"];
	let KeyCol = ["false"];
	let ValueCols = [["true"]];
	}

	//===----------------------------------------------------------------------===//
	// Generate mapping table to relate predicated instructions with their .new
	// format.
	//
	def getPredNewOpcode : InstrMapping {
	let FilterClass = "PredNewRel";
	let RowFields = ["BaseOpcode", "PredSense", "isNVStore", "isBrTaken"];
	let ColFields = ["PNewValue"];
	let KeyCol = [""];
	let ValueCols = [["new"]];
	}

	//===----------------------------------------------------------------------===//
	// Generate mapping table to relate .new predicated instructions with their old
	// format.
	//
	def getPredOldOpcode : InstrMapping {
	let FilterClass = "PredNewRel";
	let RowFields = ["BaseOpcode", "PredSense", "isNVStore", "isBrTaken"];
	let ColFields = ["PNewValue"];
	let KeyCol = ["new"];
	let ValueCols = [[""]];
	}

	//===----------------------------------------------------------------------===//
	// Generate mapping table to relate store instructions with their new-value
	// format.
	//
	def getNewValueOpcode : InstrMapping {
	let FilterClass = "NewValueRel";
	let RowFields = ["BaseOpcode", "PredSense", "PNewValue", "addrMode", "isNT"];
	let ColFields = ["NValueST"];
	let KeyCol = ["false"];
	let ValueCols = [["true"]];
	}

	//===----------------------------------------------------------------------===//
	// Generate mapping table to relate new-value store instructions with their old
	// format.
	//
	def getNonNVStore : InstrMapping {
	let FilterClass = "NewValueRel";
	let RowFields = ["BaseOpcode", "PredSense", "PNewValue", "addrMode", "isNT"];
	let ColFields = ["NValueST"];
	let KeyCol = ["true"];
	let ValueCols = [["false"]];
	}

	def getBaseWithImmOffset : InstrMapping {
	let FilterClass = "AddrModeRel";
	let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore",
	"isFloat"];
	let ColFields = ["addrMode"];
	let KeyCol = ["Absolute"];
	let ValueCols = [["BaseImmOffset"]];
	}

	def getAbsoluteForm : InstrMapping {
	let FilterClass = "AddrModeRel";
	let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore",
	"isFloat"];
	let ColFields = ["addrMode"];
	let KeyCol = ["BaseImmOffset"];
	let ValueCols = [["Absolute"]];
	}

	def getBaseWithRegOffset : InstrMapping {
	let FilterClass = "AddrModeRel";
	let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
	let ColFields = ["addrMode"];
	let KeyCol = ["BaseImmOffset"];
	let ValueCols = [["BaseRegOffset"]];
	}

	def xformRegToImmOffset : InstrMapping {
	let FilterClass = "AddrModeRel";
	let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
	let ColFields = ["addrMode"];
	let KeyCol = ["BaseRegOffset"];
	let ValueCols = [["BaseImmOffset"]];
	}

	def getBaseWithLongOffset : InstrMapping {
	let FilterClass = "ImmRegShl";
	let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
	let ColFields = ["addrMode"];
	let KeyCol = ["BaseRegOffset"];
	let ValueCols = [["BaseLongOffset"]];
	}

	def getRegForm : InstrMapping {
	let FilterClass = "ImmRegRel";
	let RowFields = ["CextOpcode", "PredSense", "PNewValue"];
	let ColFields = ["InputType"];
	let KeyCol = ["imm"];
	let ValueCols = [["reg"]];
	}

	def getRegShlForm : InstrMapping {
	let FilterClass = "ImmRegShl";
	let RowFields = ["CextOpcode", "PredSense", "PNewValue", "isNVStore"];
	let ColFields = ["InputType"];
	let KeyCol = ["imm"];
	let ValueCols = [["reg"]];
	}

	def notTakenBranchPrediction : InstrMapping {
	let FilterClass = "PredRel";
	let RowFields = ["BaseOpcode", "PNewValue", "PredSense", "isBranch", "isPredicated"];
	let ColFields = ["isBrTaken"];
	let KeyCol = ["true"];
	let ValueCols = [["false"]];
	}

	def takenBranchPrediction : InstrMapping {
	let FilterClass = "PredRel";
	let RowFields = ["BaseOpcode", "PNewValue", "PredSense", "isBranch", "isPredicated"];
	let ColFields = ["isBrTaken"];
	let KeyCol = ["false"];
	let ValueCols = [["true"]];
	}

	def getRealHWInstr : InstrMapping {
	let FilterClass = "IntrinsicsRel";
	let RowFields = ["BaseOpcode"];
	let ColFields = ["InstrType"];
	let KeyCol = ["Pseudo"];
	let ValueCols = [["Pseudo"], ["Real"]];
	}
	//===----------------------------------------------------------------------===//
	// Register File, Calling Conv, Instruction Descriptions
	//===----------------------------------------------------------------------===//
	include "HexagonSchedule.td"
	include "HexagonRegisterInfo.td"
	include "HexagonOperands.td"
	include "HexagonDepOperands.td"
	include "HexagonDepITypes.td"
	include "HexagonInstrFormats.td"
	include "HexagonDepInstrFormats.td"
	include "HexagonDepInstrInfo.td"
	include "HexagonPseudo.td"
	include "HexagonPatterns.td"
	include "HexagonDepMappings.td"
	include "HexagonIntrinsics.td"
	include "HexagonIntrinsicsDerived.td"
	include "HexagonMapAsm2IntrinV62.gen.td"

	def HexagonInstrInfo : InstrInfo;

	//===----------------------------------------------------------------------===//
	// Hexagon processors supported.
	//===----------------------------------------------------------------------===//

	class Proc<string Name, SchedMachineModel Model,
	list<SubtargetFeature> Features>
	: ProcessorModel<Name, Model, Features>;

	def : Proc<"hexagonv4", HexagonModelV4,
	[ArchV4]>;
	def : Proc<"hexagonv5", HexagonModelV4,
	[ArchV4, ArchV5]>;
	def : Proc<"hexagonv55", HexagonModelV55,
	[ArchV4, ArchV5, ArchV55]>;
	def : Proc<"hexagonv60", HexagonModelV60,
	[ArchV4, ArchV5, ArchV55, ArchV60, ExtensionHVX]>;
	def : Proc<"hexagonv62", HexagonModelV62,
	[ArchV4, ArchV5, ArchV55, ArchV60, ArchV62, ExtensionHVX]>;

	//===----------------------------------------------------------------------===//
	// Declare the target which we are implementing
	//===----------------------------------------------------------------------===//

	def HexagonAsmParser : AsmParser {
	let ShouldEmitMatchRegisterAltName = 1;
	bit HasMnemonicFirst = 0;
	}

	def HexagonAsmParserVariant : AsmParserVariant {
	int Variant = 0;
	string TokenizingCharacters = "#()=:.<>!+*-\|^&";
	}

	def Hexagon : Target {
	// Pull in Instruction Info:
	let InstructionSet = HexagonInstrInfo;
	let AssemblyParsers = [HexagonAsmParser];
	let AssemblyParserVariants = [HexagonAsmParserVariant];
	}