//===-- 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 "llvm/Support/ErrorHandling.h" // Note that the following auto-generated files only defined enum types, and // so are safe to include here. // Defines symbolic names for ARM registers. This defines a mapping from // register name to register number. // #include "ARMGenRegisterNames.inc" // Defines symbolic names for the ARM instructions. // #include "ARMGenInstrNames.inc" 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) { default: llvm_unreachable("Unknown condition code"); 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"; } } 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 { SY = 15, ST = 14, ISH = 11, ISHST = 10, NSH = 7, NSHST = 6, OSH = 3, OSHST = 2 }; inline static const char *MemBOptToString(unsigned val) { switch (val) { default: llvm_unreachable("Unknown memory operation"); case SY: return "sy"; case ST: return "st"; case ISH: return "ish"; case ISHST: return "ishst"; case NSH: return "nsh"; case NSHST: return "nshst"; case OSH: return "osh"; case OSHST: return "oshst"; } } } // namespace ARM_MB /// getARMRegisterNumbering - Given the enum value for some register, e.g. /// ARM::LR, return the number that it corresponds to (e.g. 14). inline static unsigned getARMRegisterNumbering(unsigned Reg) { using namespace ARM; switch (Reg) { default: llvm_unreachable("Unknown ARM register!"); case R0: case S0: case D0: case Q0: return 0; case R1: case S1: case D1: case Q1: return 1; case R2: case S2: case D2: case Q2: return 2; case R3: case S3: case D3: case Q3: return 3; case R4: case S4: case D4: case Q4: return 4; case R5: case S5: case D5: case Q5: return 5; case R6: case S6: case D6: case Q6: return 6; case R7: case S7: case D7: case Q7: return 7; case R8: case S8: case D8: case Q8: return 8; case R9: case S9: case D9: case Q9: return 9; case R10: case S10: case D10: case Q10: return 10; case R11: case S11: case D11: case Q11: return 11; case R12: case S12: case D12: case Q12: return 12; case SP: case S13: case D13: case Q13: return 13; case LR: case S14: case D14: case Q14: return 14; case PC: case S15: case D15: case Q15: return 15; case S16: case D16: return 16; case S17: case D17: return 17; case S18: case D18: return 18; case S19: case D19: return 19; case S20: case D20: return 20; case S21: case D21: return 21; case S22: case D22: return 22; case S23: case D23: return 23; case S24: case D24: return 24; case S25: case D25: return 25; case S26: case D26: return 26; case S27: case D27: return 27; case S28: case D28: return 28; case S29: case D29: return 29; case S30: case D30: return 30; case S31: case D31: return 31; } } namespace ARMII { /// Target Operand Flag enum. enum TOF { //===------------------------------------------------------------------===// // ARM Specific MachineOperand flags. MO_NO_FLAG, /// MO_LO16 - On a symbol operand, this represents a relocation containing /// lower 16 bit of the address. Used only via movw instruction. MO_LO16, /// MO_HI16 - On a symbol operand, this represents a relocation containing /// higher 16 bit of the address. Used only via movt instruction. MO_HI16, /// MO_LO16_NONLAZY - On a symbol operand "FOO", this represents a /// relocation containing lower 16 bit of the non-lazy-ptr indirect symbol, /// i.e. "FOO$non_lazy_ptr". /// Used only via movw instruction. MO_LO16_NONLAZY, /// MO_HI16_NONLAZY - On a symbol operand "FOO", this represents a /// relocation containing lower 16 bit of the non-lazy-ptr indirect symbol, /// i.e. "FOO$non_lazy_ptr". Used only via movt instruction. MO_HI16_NONLAZY, /// MO_LO16_NONLAZY_PIC - On a symbol operand "FOO", this represents a /// relocation containing lower 16 bit of the PC relative address of the /// non-lazy-ptr indirect symbol, i.e. "FOO$non_lazy_ptr - LABEL". /// Used only via movw instruction. MO_LO16_NONLAZY_PIC, /// MO_HI16_NONLAZY_PIC - On a symbol operand "FOO", this represents a /// relocation containing lower 16 bit of the PC relative address of the /// non-lazy-ptr indirect symbol, i.e. "FOO$non_lazy_ptr - LABEL". /// Used only via movt instruction. MO_HI16_NONLAZY_PIC, /// MO_PLT - On a symbol operand, this represents an ELF PLT reference on a /// call operand. MO_PLT }; } // end namespace ARMII } // end namespace llvm; #endif