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Current File : //usr/src/contrib/llvm/lib/Target/Mips/MCTargetDesc/MipsBaseInfo.h |
//===-- MipsBaseInfo.h - Top level definitions for MIPS MC ------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file contains small standalone helper functions and enum definitions for // the Mips target useful for the compiler back-end and the MC libraries. // //===----------------------------------------------------------------------===// #ifndef MIPSBASEINFO_H #define MIPSBASEINFO_H #include "MipsFixupKinds.h" #include "MipsMCTargetDesc.h" #include "llvm/MC/MCExpr.h" #include "llvm/Support/DataTypes.h" #include "llvm/Support/ErrorHandling.h" namespace llvm { /// MipsII - This namespace holds all of the target specific flags that /// instruction info tracks. /// namespace MipsII { /// Target Operand Flag enum. enum TOF { //===------------------------------------------------------------------===// // Mips Specific MachineOperand flags. MO_NO_FLAG, /// MO_GOT16 - Represents the offset into the global offset table at which /// the address the relocation entry symbol resides during execution. MO_GOT16, MO_GOT, /// MO_GOT_CALL - Represents the offset into the global offset table at /// which the address of a call site relocation entry symbol resides /// during execution. This is different from the above since this flag /// can only be present in call instructions. MO_GOT_CALL, /// MO_GPREL - Represents the offset from the current gp value to be used /// for the relocatable object file being produced. MO_GPREL, /// MO_ABS_HI/LO - Represents the hi or low part of an absolute symbol /// address. MO_ABS_HI, MO_ABS_LO, /// MO_TLSGD - Represents the offset into the global offset table at which // the module ID and TSL block offset reside during execution (General // Dynamic TLS). MO_TLSGD, /// MO_TLSLDM - Represents the offset into the global offset table at which // the module ID and TSL block offset reside during execution (Local // Dynamic TLS). MO_TLSLDM, MO_DTPREL_HI, MO_DTPREL_LO, /// MO_GOTTPREL - Represents the offset from the thread pointer (Initial // Exec TLS). MO_GOTTPREL, /// MO_TPREL_HI/LO - Represents the hi and low part of the offset from // the thread pointer (Local Exec TLS). MO_TPREL_HI, MO_TPREL_LO, // N32/64 Flags. MO_GPOFF_HI, MO_GPOFF_LO, MO_GOT_DISP, MO_GOT_PAGE, MO_GOT_OFST }; enum { //===------------------------------------------------------------------===// // Instruction encodings. These are the standard/most common forms for // Mips instructions. // // Pseudo - This represents an instruction that is a pseudo instruction // or one that has not been implemented yet. It is illegal to code generate // it, but tolerated for intermediate implementation stages. Pseudo = 0, /// FrmR - This form is for instructions of the format R. FrmR = 1, /// FrmI - This form is for instructions of the format I. FrmI = 2, /// FrmJ - This form is for instructions of the format J. FrmJ = 3, /// FrmFR - This form is for instructions of the format FR. FrmFR = 4, /// FrmFI - This form is for instructions of the format FI. FrmFI = 5, /// FrmOther - This form is for instructions that have no specific format. FrmOther = 6, FormMask = 15 }; } /// getMipsRegisterNumbering - Given the enum value for some register, /// return the number that it corresponds to. inline static unsigned getMipsRegisterNumbering(unsigned RegEnum) { switch (RegEnum) { case Mips::ZERO: case Mips::ZERO_64: case Mips::F0: case Mips::D0_64: case Mips::D0: return 0; case Mips::AT: case Mips::AT_64: case Mips::F1: case Mips::D1_64: return 1; case Mips::V0: case Mips::V0_64: case Mips::F2: case Mips::D2_64: case Mips::D1: return 2; case Mips::V1: case Mips::V1_64: case Mips::F3: case Mips::D3_64: return 3; case Mips::A0: case Mips::A0_64: case Mips::F4: case Mips::D4_64: case Mips::D2: return 4; case Mips::A1: case Mips::A1_64: case Mips::F5: case Mips::D5_64: return 5; case Mips::A2: case Mips::A2_64: case Mips::F6: case Mips::D6_64: case Mips::D3: return 6; case Mips::A3: case Mips::A3_64: case Mips::F7: case Mips::D7_64: return 7; case Mips::T0: case Mips::T0_64: case Mips::F8: case Mips::D8_64: case Mips::D4: return 8; case Mips::T1: case Mips::T1_64: case Mips::F9: case Mips::D9_64: return 9; case Mips::T2: case Mips::T2_64: case Mips::F10: case Mips::D10_64: case Mips::D5: return 10; case Mips::T3: case Mips::T3_64: case Mips::F11: case Mips::D11_64: return 11; case Mips::T4: case Mips::T4_64: case Mips::F12: case Mips::D12_64: case Mips::D6: return 12; case Mips::T5: case Mips::T5_64: case Mips::F13: case Mips::D13_64: return 13; case Mips::T6: case Mips::T6_64: case Mips::F14: case Mips::D14_64: case Mips::D7: return 14; case Mips::T7: case Mips::T7_64: case Mips::F15: case Mips::D15_64: return 15; case Mips::S0: case Mips::S0_64: case Mips::F16: case Mips::D16_64: case Mips::D8: return 16; case Mips::S1: case Mips::S1_64: case Mips::F17: case Mips::D17_64: return 17; case Mips::S2: case Mips::S2_64: case Mips::F18: case Mips::D18_64: case Mips::D9: return 18; case Mips::S3: case Mips::S3_64: case Mips::F19: case Mips::D19_64: return 19; case Mips::S4: case Mips::S4_64: case Mips::F20: case Mips::D20_64: case Mips::D10: return 20; case Mips::S5: case Mips::S5_64: case Mips::F21: case Mips::D21_64: return 21; case Mips::S6: case Mips::S6_64: case Mips::F22: case Mips::D22_64: case Mips::D11: return 22; case Mips::S7: case Mips::S7_64: case Mips::F23: case Mips::D23_64: return 23; case Mips::T8: case Mips::T8_64: case Mips::F24: case Mips::D24_64: case Mips::D12: return 24; case Mips::T9: case Mips::T9_64: case Mips::F25: case Mips::D25_64: return 25; case Mips::K0: case Mips::K0_64: case Mips::F26: case Mips::D26_64: case Mips::D13: return 26; case Mips::K1: case Mips::K1_64: case Mips::F27: case Mips::D27_64: return 27; case Mips::GP: case Mips::GP_64: case Mips::F28: case Mips::D28_64: case Mips::D14: return 28; case Mips::SP: case Mips::SP_64: case Mips::F29: case Mips::D29_64: case Mips::HWR29: return 29; case Mips::FP: case Mips::FP_64: case Mips::F30: case Mips::D30_64: case Mips::D15: return 30; case Mips::RA: case Mips::RA_64: case Mips::F31: case Mips::D31_64: return 31; default: llvm_unreachable("Unknown register number!"); } } inline static std::pair<const MCSymbolRefExpr*, int64_t> MipsGetSymAndOffset(const MCFixup &Fixup) { MCFixupKind FixupKind = Fixup.getKind(); if ((FixupKind < FirstTargetFixupKind) || (FixupKind >= MCFixupKind(Mips::LastTargetFixupKind))) return std::make_pair((const MCSymbolRefExpr*)0, (int64_t)0); const MCExpr *Expr = Fixup.getValue(); MCExpr::ExprKind Kind = Expr->getKind(); if (Kind == MCExpr::Binary) { const MCBinaryExpr *BE = static_cast<const MCBinaryExpr*>(Expr); const MCExpr *LHS = BE->getLHS(); const MCConstantExpr *CE = dyn_cast<MCConstantExpr>(BE->getRHS()); if ((LHS->getKind() != MCExpr::SymbolRef) || !CE) return std::make_pair((const MCSymbolRefExpr*)0, (int64_t)0); return std::make_pair(cast<MCSymbolRefExpr>(LHS), CE->getValue()); } if (Kind != MCExpr::SymbolRef) return std::make_pair((const MCSymbolRefExpr*)0, (int64_t)0); return std::make_pair(cast<MCSymbolRefExpr>(Expr), 0); } } #endif