//===-- 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 def ArchV4: SubtargetFeature<"v4", "HexagonArchVersion", "V4", "Hexagon V4">; def ArchV5: SubtargetFeature<"v5", "HexagonArchVersion", "V5", "Hexagon V5">; def ArchV55: SubtargetFeature<"v55", "HexagonArchVersion", "V55", "Hexagon V55">; def ArchV60: SubtargetFeature<"v60", "HexagonArchVersion", "V60", "Hexagon V60">; // Hexagon ISA Extensions def ExtensionHVX: SubtargetFeature<"hvx", "UseHVXOps", "true", "Hexagon HVX instructions">; def ExtensionHVXDbl: SubtargetFeature<"hvx-double", "UseHVXDblOps", "true", "Hexagon HVX Double instructions">; //===----------------------------------------------------------------------===// // Hexagon Instruction Predicate Definitions. //===----------------------------------------------------------------------===// def HasV5T : Predicate<"HST->hasV5TOps()">; def NoV5T : Predicate<"!HST->hasV5TOps()">; def HasV55T : Predicate<"HST->hasV55TOps()">, AssemblerPredicate<"ArchV55">; def HasV60T : Predicate<"HST->hasV60TOps()">, AssemblerPredicate<"ArchV60">; 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", "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"]; 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 "HexagonCallingConv.td" include "HexagonInstrInfo.td" include "HexagonIntrinsics.td" include "HexagonIntrinsicsDerived.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]>; //===----------------------------------------------------------------------===// // 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]; }