| //===- subzero/src/IceInstARM32.def - X-Macros for ARM32 insts --*- C++ -*-===// |
| // |
| // The Subzero Code Generator |
| // |
| // This file is distributed under the University of Illinois Open Source |
| // License. See LICENSE.TXT for details. |
| // |
| //===----------------------------------------------------------------------===// |
| // |
| // This file defines properties of ARM32 instructions in the form of x-macros. |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #ifndef SUBZERO_SRC_ICEINSTARM32_DEF |
| #define SUBZERO_SRC_ICEINSTARM32_DEF |
| |
| // NOTE: PC and SP are not considered isInt, to avoid register allocating. |
| // |
| // For the NaCl sandbox we also need to r9 for TLS, so just reserve always. |
| // TODO(jvoung): Allow r9 to be isInt when sandboxing is turned off |
| // (native mode). |
| // |
| // LR is not considered isInt to avoid being allocated as a register. |
| // It is technically preserved, but save/restore is handled separately, |
| // based on whether or not the function MaybeLeafFunc. |
| #define REGARM32_GPR_TABLE \ |
| /* val, encode, name, scratch, preserved, stackptr, frameptr, isInt, isFP */ \ |
| X(Reg_r0, = 0, "r0", 1, 0, 0, 0, 1, 0) \ |
| X(Reg_r1, = Reg_r0 + 1, "r1", 1, 0, 0, 0, 1, 0) \ |
| X(Reg_r2, = Reg_r0 + 2, "r2", 1, 0, 0, 0, 1, 0) \ |
| X(Reg_r3, = Reg_r0 + 3, "r3", 1, 0, 0, 0, 1, 0) \ |
| X(Reg_r4, = Reg_r0 + 4, "r4", 0, 1, 0, 0, 1, 0) \ |
| X(Reg_r5, = Reg_r0 + 5, "r5", 0, 1, 0, 0, 1, 0) \ |
| X(Reg_r6, = Reg_r0 + 6, "r6", 0, 1, 0, 0, 1, 0) \ |
| X(Reg_r7, = Reg_r0 + 7, "r7", 0, 1, 0, 0, 1, 0) \ |
| X(Reg_r8, = Reg_r0 + 8, "r8", 0, 1, 0, 0, 1, 0) \ |
| X(Reg_r9, = Reg_r0 + 9, "r9", 0, 1, 0, 0, 0, 0) \ |
| X(Reg_r10, = Reg_r0 + 10, "r10", 0, 1, 0, 0, 1, 0) \ |
| X(Reg_fp, = Reg_r0 + 11, "fp", 0, 1, 0, 1, 1, 0) \ |
| X(Reg_ip, = Reg_r0 + 12, "ip", 1, 0, 0, 0, 1, 0) \ |
| X(Reg_sp, = Reg_r0 + 13, "sp", 0, 0, 1, 0, 0, 0) \ |
| X(Reg_lr, = Reg_r0 + 14, "lr", 0, 0, 0, 0, 0, 0) \ |
| X(Reg_pc, = Reg_r0 + 15, "pc", 0, 0, 0, 0, 0, 0) \ |
| //#define X(val, encode, name, scratch, preserved, stackptr, frameptr, |
| // isInt, isFP) |
| |
| // TODO(jvoung): List FP registers and know S0 == D0 == Q0, etc. |
| // Be able to grab even registers, and the corresponding odd register |
| // for each even register. |
| |
| // We also provide a combined table, so that there is a namespace where |
| // all of the registers are considered and have distinct numberings. |
| // This is in contrast to the above, where the "encode" is based on how |
| // the register numbers will be encoded in binaries and values can overlap. |
| #define REGARM32_TABLE \ |
| /* val, encode, name, scratch, preserved, stackptr, frameptr, isInt, isFP */ \ |
| REGARM32_GPR_TABLE |
| //#define X(val, encode, name, scratch, preserved, stackptr, frameptr, |
| // isInt, isFP) |
| |
| #define REGARM32_TABLE_BOUNDS \ |
| /* val, init */ \ |
| X(Reg_GPR_First, = Reg_r0) \ |
| X(Reg_GPR_Last, = Reg_pc) |
| //define X(val, init) |
| |
| // TODO(jvoung): add condition code tables, etc. |
| |
| // Load/Store instruction width suffixes. |
| #define ICETYPEARM32_TABLE \ |
| /* tag, element type, width, addr off bits sext, zext */ \ |
| X(IceType_void, IceType_void, "", 0, 0) \ |
| X(IceType_i1, IceType_void, "b", 8, 12) \ |
| X(IceType_i8, IceType_void, "b", 8, 12) \ |
| X(IceType_i16, IceType_void, "h", 8, 8) \ |
| X(IceType_i32, IceType_void, "", 12, 12) \ |
| X(IceType_i64, IceType_void, "d", 8, 8) \ |
| X(IceType_f32, IceType_void, "", 10, 10) \ |
| X(IceType_f64, IceType_void, "", 10, 10) \ |
| X(IceType_v4i1, IceType_i32 , "", 0, 0) \ |
| X(IceType_v8i1, IceType_i16 , "", 0, 0) \ |
| X(IceType_v16i1, IceType_i8 , "", 0, 0) \ |
| X(IceType_v16i8, IceType_i8 , "", 0, 0) \ |
| X(IceType_v8i16, IceType_i16 , "", 0, 0) \ |
| X(IceType_v4i32, IceType_i32 , "", 0, 0) \ |
| X(IceType_v4f32, IceType_f32 , "", 0, 0) \ |
| //#define X(tag, elementty, width, sbits, ubits) |
| |
| // Shifter types for Data-processing operands as defined in section A5.1.2. |
| #define ICEINSTARM32SHIFT_TABLE \ |
| /* enum value, emit */ \ |
| X(LSL, "lsl") \ |
| X(LSR, "lsr") \ |
| X(ASR, "asr") \ |
| X(ROR, "ror") \ |
| X(RRX, "rrx") \ |
| //#define X(tag, emit) |
| |
| // Attributes for the condition code 4-bit encoding (that is independent |
| // of the APSR's NZCV fields). For example, EQ is 0, but corresponds to |
| // Z = 1, and NE is 1, but corresponds to Z = 0. |
| #define ICEINSTARM32COND_TABLE \ |
| /* enum value, encoding, opposite, emit */ \ |
| X(EQ, 0, NE, "eq") /* equal */ \ |
| X(NE, 1, EQ, "ne") /* not equal */ \ |
| X(CS, 2, CC, "cs") /* carry set/unsigned (AKA hs: higher or same) */ \ |
| X(CC, 3, CS, "cc") /* carry clear/unsigned (AKA lo: lower) */ \ |
| X(MI, 4, PL, "mi") /* minus/negative */ \ |
| X(PL, 5, MI, "pl") /* plus/positive or zero */ \ |
| X(VS, 6, VC, "vs") /* overflow (float unordered) */ \ |
| X(VC, 7, VS, "vc") /* no overflow (float not unordered) */ \ |
| X(HI, 8, LS, "hi") /* unsigned higher */ \ |
| X(LS, 9, HI, "ls") /* unsigned lower or same */ \ |
| X(GE, 10, LT, "ge") /* signed greater than or equal */ \ |
| X(LT, 11, GE, "lt") /* signed less than */ \ |
| X(GT, 12, LE, "gt") /* signed greater than */ \ |
| X(LE, 13, GT, "le") /* signed less than or equal */ \ |
| X(AL, 14, kNone, "") /* always (unconditional) */ \ |
| X(kNone, 15, kNone, "??") /* special condition / none */ \ |
| //#define(tag, encode, opp, emit) |
| |
| #endif // SUBZERO_SRC_ICEINSTARM32_DEF |