//===-- ARMBaseInfo.h - Top level definitions for ARM -------- --*- 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 ARM target useful for the compiler back-end and the MC libraries. // As such, it deliberately does not include references to LLVM core // code gen types, passes, etc.. // //===----------------------------------------------------------------------===// #ifndef ARMBASEINFO_H #define ARMBASEINFO_H #include "ARMMCTargetDesc.h" #include "llvm/Support/ErrorHandling.h" namespace llvm { // Enums corresponding to ARM condition codes namespace ARMCC { // The CondCodes constants map directly to the 4-bit encoding of the // condition field for predicated instructions. enum CondCodes { // Meaning (integer) Meaning (floating-point) EQ, // Equal Equal NE, // Not equal Not equal, or unordered HS, // Carry set >, ==, or unordered LO, // Carry clear Less than MI, // Minus, negative Less than PL, // Plus, positive or zero >, ==, or unordered VS, // Overflow Unordered VC, // No overflow Not unordered HI, // Unsigned higher Greater than, or unordered LS, // Unsigned lower or same Less than or equal GE, // Greater than or equal Greater than or equal LT, // Less than Less than, or unordered GT, // Greater than Greater than LE, // Less than or equal <, ==, or unordered AL // Always (unconditional) Always (unconditional) }; inline static CondCodes getOppositeCondition(CondCodes CC) { switch (CC) { default: llvm_unreachable("Unknown condition code"); case EQ: return NE; case NE: return EQ; case HS: return LO; case LO: return HS; case MI: return PL; case PL: return MI; case VS: return VC; case VC: return VS; case HI: return LS; case LS: return HI; case GE: return LT; case LT: return GE; case GT: return LE; case LE: return GT; } } } // namespace ARMCC inline static const char *ARMCondCodeToString(ARMCC::CondCodes CC) { switch (CC) { case ARMCC::EQ: return "eq"; case ARMCC::NE: return "ne"; case ARMCC::HS: return "hs"; case ARMCC::LO: return "lo"; case ARMCC::MI: return "mi"; case ARMCC::PL: return "pl"; case ARMCC::VS: return "vs"; case ARMCC::VC: return "vc"; case ARMCC::HI: return "hi"; case ARMCC::LS: return "ls"; case ARMCC::GE: return "ge"; case ARMCC::LT: return "lt"; case ARMCC::GT: return "gt"; case ARMCC::LE: return "le"; case ARMCC::AL: return "al"; } llvm_unreachable("Unknown condition code"); } namespace ARM_PROC { enum IMod { IE = 2, ID = 3 }; enum IFlags { F = 1, I = 2, A = 4 }; inline static const char *IFlagsToString(unsigned val) { switch (val) { default: llvm_unreachable("Unknown iflags operand"); case F: return "f"; case I: return "i"; case A: return "a"; } } inline static const char *IModToString(unsigned val) { switch (val) { default: llvm_unreachable("Unknown imod operand"); case IE: return "ie"; case ID: return "id"; } } } namespace ARM_MB { // The Memory Barrier Option constants map directly to the 4-bit encoding of // the option field for memory barrier operations. enum MemBOpt { RESERVED_0 = 0, OSHLD = 1, OSHST = 2, OSH = 3, RESERVED_4 = 4, NSHLD = 5, NSHST = 6, NSH = 7, RESERVED_8 = 8, ISHLD = 9, ISHST = 10, ISH = 11, RESERVED_12 = 12, LD = 13, ST = 14, SY = 15 }; inline static const char *MemBOptToString(unsigned val, bool HasV8) { switch (val) { default: llvm_unreachable("Unknown memory operation"); case SY: return "sy"; case ST: return "st"; case LD: return HasV8 ? "ld" : "#0xd"; case RESERVED_12: return "#0xc"; case ISH: return "ish"; case ISHST: return "ishst"; case ISHLD: return HasV8 ? "ishld" : "#0x9"; case RESERVED_8: return "#0x8"; case NSH: return "nsh"; case NSHST: return "nshst"; case NSHLD: return HasV8 ? "nshld" : "#0x5"; case RESERVED_4: return "#0x4"; case OSH: return "osh"; case OSHST: return "oshst"; case OSHLD: return HasV8 ? "oshld" : "#0x1"; case RESERVED_0: return "#0x0"; } } } // namespace ARM_MB namespace ARM_ISB { enum InstSyncBOpt { RESERVED_0 = 0, RESERVED_1 = 1, RESERVED_2 = 2, RESERVED_3 = 3, RESERVED_4 = 4, RESERVED_5 = 5, RESERVED_6 = 6, RESERVED_7 = 7, RESERVED_8 = 8, RESERVED_9 = 9, RESERVED_10 = 10, RESERVED_11 = 11, RESERVED_12 = 12, RESERVED_13 = 13, RESERVED_14 = 14, SY = 15 }; inline static const char *InstSyncBOptToString(unsigned val) { switch (val) { default: llvm_unreachable("Unknown memory operation"); case RESERVED_0: return "#0x0"; case RESERVED_1: return "#0x1"; case RESERVED_2: return "#0x2"; case RESERVED_3: return "#0x3"; case RESERVED_4: return "#0x4"; case RESERVED_5: return "#0x5"; case RESERVED_6: return "#0x6"; case RESERVED_7: return "#0x7"; case RESERVED_8: return "#0x8"; case RESERVED_9: return "#0x9"; case RESERVED_10: return "#0xa"; case RESERVED_11: return "#0xb"; case RESERVED_12: return "#0xc"; case RESERVED_13: return "#0xd"; case RESERVED_14: return "#0xe"; case SY: return "sy"; } } } // namespace ARM_ISB /// isARMLowRegister - Returns true if the register is a low register (r0-r7). /// static inline bool isARMLowRegister(unsigned Reg) { using namespace ARM; switch (Reg) { case R0: case R1: case R2: case R3: case R4: case R5: case R6: case R7: return true; default: return false; } } /// ARMII - This namespace holds all of the target specific flags that /// instruction info tracks. /// namespace ARMII { /// ARM Index Modes enum IndexMode { IndexModeNone = 0, IndexModePre = 1, IndexModePost = 2, IndexModeUpd = 3 }; /// ARM Addressing Modes enum AddrMode { AddrModeNone = 0, AddrMode1 = 1, AddrMode2 = 2, AddrMode3 = 3, AddrMode4 = 4, AddrMode5 = 5, AddrMode6 = 6, AddrModeT1_1 = 7, AddrModeT1_2 = 8, AddrModeT1_4 = 9, AddrModeT1_s = 10, // i8 * 4 for pc and sp relative data AddrModeT2_i12 = 11, AddrModeT2_i8 = 12, AddrModeT2_so = 13, AddrModeT2_pc = 14, // +/- i12 for pc relative data AddrModeT2_i8s4 = 15, // i8 * 4 AddrMode_i12 = 16 }; inline static const char *AddrModeToString(AddrMode addrmode) { switch (addrmode) { case AddrModeNone: return "AddrModeNone"; case AddrMode1: return "AddrMode1"; case AddrMode2: return "AddrMode2"; case AddrMode3: return "AddrMode3"; case AddrMode4: return "AddrMode4"; case AddrMode5: return "AddrMode5"; case AddrMode6: return "AddrMode6"; case AddrModeT1_1: return "AddrModeT1_1"; case AddrModeT1_2: return "AddrModeT1_2"; case AddrModeT1_4: return "AddrModeT1_4"; case AddrModeT1_s: return "AddrModeT1_s"; case AddrModeT2_i12: return "AddrModeT2_i12"; case AddrModeT2_i8: return "AddrModeT2_i8"; case AddrModeT2_so: return "AddrModeT2_so"; case AddrModeT2_pc: return "AddrModeT2_pc"; case AddrModeT2_i8s4: return "AddrModeT2_i8s4"; case AddrMode_i12: return "AddrMode_i12"; } } /// Target Operand Flag enum. enum TOF { //===------------------------------------------------------------------===// // ARM Specific MachineOperand flags. MO_NO_FLAG = 0, /// MO_LO16 - On a symbol operand, this represents a relocation containing /// lower 16 bit of the address. Used only via movw instruction. MO_LO16 = 0x1, /// MO_HI16 - On a symbol operand, this represents a relocation containing /// higher 16 bit of the address. Used only via movt instruction. MO_HI16 = 0x2, /// MO_PLT - On a symbol operand, this represents an ELF PLT reference on a /// call operand. MO_PLT = 0x3, /// MO_OPTION_MASK - Most flags are mutually exclusive; this mask selects /// just that part of the flag set. MO_OPTION_MASK = 0x3f, /// MO_DLLIMPORT - On a symbol operand, this represents that the reference /// to the symbol is for an import stub. This is used for DLL import /// storage class indication on Windows. MO_DLLIMPORT = 0x40, /// MO_NONLAZY - This is an independent flag, on a symbol operand "FOO" it /// represents a symbol which, if indirect, will get special Darwin mangling /// as a non-lazy-ptr indirect symbol (i.e. "L_FOO$non_lazy_ptr"). Can be /// combined with MO_LO16, MO_HI16 or MO_NO_FLAG (in a constant-pool, for /// example). MO_NONLAZY = 0x80, // It's undefined behaviour if an enum overflows the range between its // smallest and largest values, but since these are |ed together, it can // happen. Put a sentinel in (values of this enum are stored as "unsigned // char"). MO_UNUSED_MAXIMUM = 0xff }; enum { //===------------------------------------------------------------------===// // Instruction Flags. //===------------------------------------------------------------------===// // This four-bit field describes the addressing mode used. AddrModeMask = 0x1f, // The AddrMode enums are declared in ARMBaseInfo.h // IndexMode - Unindex, pre-indexed, or post-indexed are valid for load // and store ops only. Generic "updating" flag is used for ld/st multiple. // The index mode enums are declared in ARMBaseInfo.h IndexModeShift = 5, IndexModeMask = 3 << IndexModeShift, //===------------------------------------------------------------------===// // Instruction encoding formats. // FormShift = 7, FormMask = 0x3f << FormShift, // Pseudo instructions Pseudo = 0 << FormShift, // Multiply instructions MulFrm = 1 << FormShift, // Branch instructions BrFrm = 2 << FormShift, BrMiscFrm = 3 << FormShift, // Data Processing instructions DPFrm = 4 << FormShift, DPSoRegFrm = 5 << FormShift, // Load and Store LdFrm = 6 << FormShift, StFrm = 7 << FormShift, LdMiscFrm = 8 << FormShift, StMiscFrm = 9 << FormShift, LdStMulFrm = 10 << FormShift, LdStExFrm = 11 << FormShift, // Miscellaneous arithmetic instructions ArithMiscFrm = 12 << FormShift, SatFrm = 13 << FormShift, // Extend instructions ExtFrm = 14 << FormShift, // VFP formats VFPUnaryFrm = 15 << FormShift, VFPBinaryFrm = 16 << FormShift, VFPConv1Frm = 17 << FormShift, VFPConv2Frm = 18 << FormShift, VFPConv3Frm = 19 << FormShift, VFPConv4Frm = 20 << FormShift, VFPConv5Frm = 21 << FormShift, VFPLdStFrm = 22 << FormShift, VFPLdStMulFrm = 23 << FormShift, VFPMiscFrm = 24 << FormShift, // Thumb format ThumbFrm = 25 << FormShift, // Miscelleaneous format MiscFrm = 26 << FormShift, // NEON formats NGetLnFrm = 27 << FormShift, NSetLnFrm = 28 << FormShift, NDupFrm = 29 << FormShift, NLdStFrm = 30 << FormShift, N1RegModImmFrm= 31 << FormShift, N2RegFrm = 32 << FormShift, NVCVTFrm = 33 << FormShift, NVDupLnFrm = 34 << FormShift, N2RegVShLFrm = 35 << FormShift, N2RegVShRFrm = 36 << FormShift, N3RegFrm = 37 << FormShift, N3RegVShFrm = 38 << FormShift, NVExtFrm = 39 << FormShift, NVMulSLFrm = 40 << FormShift, NVTBLFrm = 41 << FormShift, //===------------------------------------------------------------------===// // Misc flags. // UnaryDP - Indicates this is a unary data processing instruction, i.e. // it doesn't have a Rn operand. UnaryDP = 1 << 13, // Xform16Bit - Indicates this Thumb2 instruction may be transformed into // a 16-bit Thumb instruction if certain conditions are met. Xform16Bit = 1 << 14, // ThumbArithFlagSetting - The instruction is a 16-bit flag setting Thumb // instruction. Used by the parser to determine whether to require the 'S' // suffix on the mnemonic (when not in an IT block) or preclude it (when // in an IT block). ThumbArithFlagSetting = 1 << 18, //===------------------------------------------------------------------===// // Code domain. DomainShift = 15, DomainMask = 7 << DomainShift, DomainGeneral = 0 << DomainShift, DomainVFP = 1 << DomainShift, DomainNEON = 2 << DomainShift, DomainNEONA8 = 4 << DomainShift, //===------------------------------------------------------------------===// // Field shifts - such shifts are used to set field while generating // machine instructions. // // FIXME: This list will need adjusting/fixing as the MC code emitter // takes shape and the ARMCodeEmitter.cpp bits go away. ShiftTypeShift = 4, M_BitShift = 5, ShiftImmShift = 5, ShiftShift = 7, N_BitShift = 7, ImmHiShift = 8, SoRotImmShift = 8, RegRsShift = 8, ExtRotImmShift = 10, RegRdLoShift = 12, RegRdShift = 12, RegRdHiShift = 16, RegRnShift = 16, S_BitShift = 20, W_BitShift = 21, AM3_I_BitShift = 22, D_BitShift = 22, U_BitShift = 23, P_BitShift = 24, I_BitShift = 25, CondShift = 28 }; } // end namespace ARMII } // end namespace llvm; #endif