/*
* Copyright (C) 2011 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef ART_COMPILER_DEX_QUICK_ARM_ARM_LIR_H_
#define ART_COMPILER_DEX_QUICK_ARM_ARM_LIR_H_
#include "dex/compiler_internals.h"
namespace art {
/*
* Runtime register usage conventions.
*
* r0-r3: Argument registers in both Dalvik and C/C++ conventions.
* However, for Dalvik->Dalvik calls we'll pass the target's Method*
* pointer in r0 as a hidden arg0. Otherwise used as codegen scratch
* registers.
* r0-r1: As in C/C++ r0 is 32-bit return register and r0/r1 is 64-bit
* r4 : (rARM_SUSPEND) is reserved (suspend check/debugger assist)
* r5 : Callee save (promotion target)
* r6 : Callee save (promotion target)
* r7 : Callee save (promotion target)
* r8 : Callee save (promotion target)
* r9 : (rARM_SELF) is reserved (pointer to thread-local storage)
* r10 : Callee save (promotion target)
* r11 : Callee save (promotion target)
* r12 : Scratch, may be trashed by linkage stubs
* r13 : (sp) is reserved
* r14 : (lr) is reserved
* r15 : (pc) is reserved
*
* 5 core temps that codegen can use (r0, r1, r2, r3, r12)
* 7 core registers that can be used for promotion
*
* Floating pointer registers
* s0-s31
* d0-d15, where d0={s0,s1}, d1={s2,s3}, ... , d15={s30,s31}
*
* s16-s31 (d8-d15) preserved across C calls
* s0-s15 (d0-d7) trashed across C calls
*
* s0-s15/d0-d7 used as codegen temp/scratch
* s16-s31/d8-d31 can be used for promotion.
*
* Calling convention
* o On a call to a Dalvik method, pass target's Method* in r0
* o r1-r3 will be used for up to the first 3 words of arguments
* o Arguments past the first 3 words will be placed in appropriate
* out slots by the caller.
* o If a 64-bit argument would span the register/memory argument
* boundary, it will instead be fully passed in the frame.
* o Maintain a 16-byte stack alignment
*
* Stack frame diagram (stack grows down, higher addresses at top):
*
* +------------------------+
* | IN[ins-1] | {Note: resides in caller's frame}
* | . |
* | IN[0] |
* | caller's Method* |
* +========================+ {Note: start of callee's frame}
* | spill region | {variable sized - will include lr if non-leaf.}
* +------------------------+
* | ...filler word... | {Note: used as 2nd word of V[locals-1] if long]
* +------------------------+
* | V[locals-1] |
* | V[locals-2] |
* | . |
* | . |
* | V[1] |
* | V[0] |
* +------------------------+
* | 0 to 3 words padding |
* +------------------------+
* | OUT[outs-1] |
* | OUT[outs-2] |
* | . |
* | OUT[0] |
* | cur_method* | <<== sp w/ 16-byte alignment
* +========================+
*/
// Offset to distingish FP regs.
#define ARM_FP_REG_OFFSET 32
// Offset to distinguish DP FP regs.
#define ARM_FP_DOUBLE 64
// First FP callee save.
#define ARM_FP_CALLEE_SAVE_BASE 16
// Reg types.
#define ARM_REGTYPE(x) (x & (ARM_FP_REG_OFFSET | ARM_FP_DOUBLE))
#define ARM_FPREG(x) ((x & ARM_FP_REG_OFFSET) == ARM_FP_REG_OFFSET)
#define ARM_LOWREG(x) ((x & 0x7) == x)
#define ARM_DOUBLEREG(x) ((x & ARM_FP_DOUBLE) == ARM_FP_DOUBLE)
#define ARM_SINGLEREG(x) (ARM_FPREG(x) && !ARM_DOUBLEREG(x))
/*
* Note: the low register of a floating point pair is sufficient to
* create the name of a double, but require both names to be passed to
* allow for asserts to verify that the pair is consecutive if significant
* rework is done in this area. Also, it is a good reminder in the calling
* code that reg locations always describe doubles as a pair of singles.
*/
#define ARM_S2D(x, y) ((x) | ARM_FP_DOUBLE)
// Mask to strip off fp flags.
#define ARM_FP_REG_MASK (ARM_FP_REG_OFFSET-1)
// RegisterLocation templates return values (r0, or r0/r1).
#define ARM_LOC_C_RETURN {kLocPhysReg, 0, 0, 0, 0, 0, 0, 0, 1, r0, INVALID_REG, \
INVALID_SREG, INVALID_SREG}
#define ARM_LOC_C_RETURN_WIDE {kLocPhysReg, 1, 0, 0, 0, 0, 0, 0, 1, r0, r1, \
INVALID_SREG, INVALID_SREG}
#define ARM_LOC_C_RETURN_FLOAT ARM_LOC_C_RETURN
#define ARM_LOC_C_RETURN_DOUBLE ARM_LOC_C_RETURN_WIDE
enum ArmResourceEncodingPos {
kArmGPReg0 = 0,
kArmRegSP = 13,
kArmRegLR = 14,
kArmRegPC = 15,
kArmFPReg0 = 16,
kArmFPReg16 = 32,
kArmRegEnd = 48,
};
#define ENCODE_ARM_REG_LIST(N) (static_cast<uint64_t>(N))
#define ENCODE_ARM_REG_SP (1ULL << kArmRegSP)
#define ENCODE_ARM_REG_LR (1ULL << kArmRegLR)
#define ENCODE_ARM_REG_PC (1ULL << kArmRegPC)
#define ENCODE_ARM_REG_FPCS_LIST(N) (static_cast<uint64_t>(N) << kArmFPReg16)
enum ArmNativeRegisterPool {
r0 = 0,
r1 = 1,
r2 = 2,
r3 = 3,
rARM_SUSPEND = 4,
r5 = 5,
r6 = 6,
r7 = 7,
r8 = 8,
rARM_SELF = 9,
r10 = 10,
r11 = 11,
r12 = 12,
r13sp = 13,
rARM_SP = 13,
r14lr = 14,
rARM_LR = 14,
r15pc = 15,
rARM_PC = 15,
fr0 = 0 + ARM_FP_REG_OFFSET,
fr1 = 1 + ARM_FP_REG_OFFSET,
fr2 = 2 + ARM_FP_REG_OFFSET,
fr3 = 3 + ARM_FP_REG_OFFSET,
fr4 = 4 + ARM_FP_REG_OFFSET,
fr5 = 5 + ARM_FP_REG_OFFSET,
fr6 = 6 + ARM_FP_REG_OFFSET,
fr7 = 7 + ARM_FP_REG_OFFSET,
fr8 = 8 + ARM_FP_REG_OFFSET,
fr9 = 9 + ARM_FP_REG_OFFSET,
fr10 = 10 + ARM_FP_REG_OFFSET,
fr11 = 11 + ARM_FP_REG_OFFSET,
fr12 = 12 + ARM_FP_REG_OFFSET,
fr13 = 13 + ARM_FP_REG_OFFSET,
fr14 = 14 + ARM_FP_REG_OFFSET,
fr15 = 15 + ARM_FP_REG_OFFSET,
fr16 = 16 + ARM_FP_REG_OFFSET,
fr17 = 17 + ARM_FP_REG_OFFSET,
fr18 = 18 + ARM_FP_REG_OFFSET,
fr19 = 19 + ARM_FP_REG_OFFSET,
fr20 = 20 + ARM_FP_REG_OFFSET,
fr21 = 21 + ARM_FP_REG_OFFSET,
fr22 = 22 + ARM_FP_REG_OFFSET,
fr23 = 23 + ARM_FP_REG_OFFSET,
fr24 = 24 + ARM_FP_REG_OFFSET,
fr25 = 25 + ARM_FP_REG_OFFSET,
fr26 = 26 + ARM_FP_REG_OFFSET,
fr27 = 27 + ARM_FP_REG_OFFSET,
fr28 = 28 + ARM_FP_REG_OFFSET,
fr29 = 29 + ARM_FP_REG_OFFSET,
fr30 = 30 + ARM_FP_REG_OFFSET,
fr31 = 31 + ARM_FP_REG_OFFSET,
dr0 = fr0 + ARM_FP_DOUBLE,
dr1 = fr2 + ARM_FP_DOUBLE,
dr2 = fr4 + ARM_FP_DOUBLE,
dr3 = fr6 + ARM_FP_DOUBLE,
dr4 = fr8 + ARM_FP_DOUBLE,
dr5 = fr10 + ARM_FP_DOUBLE,
dr6 = fr12 + ARM_FP_DOUBLE,
dr7 = fr14 + ARM_FP_DOUBLE,
dr8 = fr16 + ARM_FP_DOUBLE,
dr9 = fr18 + ARM_FP_DOUBLE,
dr10 = fr20 + ARM_FP_DOUBLE,
dr11 = fr22 + ARM_FP_DOUBLE,
dr12 = fr24 + ARM_FP_DOUBLE,
dr13 = fr26 + ARM_FP_DOUBLE,
dr14 = fr28 + ARM_FP_DOUBLE,
dr15 = fr30 + ARM_FP_DOUBLE,
};
// Target-independent aliases.
#define rARM_ARG0 r0
#define rARM_ARG1 r1
#define rARM_ARG2 r2
#define rARM_ARG3 r3
#define rARM_FARG0 r0
#define rARM_FARG1 r1
#define rARM_FARG2 r2
#define rARM_FARG3 r3
#define rARM_RET0 r0
#define rARM_RET1 r1
#define rARM_INVOKE_TGT rARM_LR
#define rARM_COUNT INVALID_REG
enum ArmShiftEncodings {
kArmLsl = 0x0,
kArmLsr = 0x1,
kArmAsr = 0x2,
kArmRor = 0x3
};
/*
* The following enum defines the list of supported Thumb instructions by the
* assembler. Their corresponding EncodingMap positions will be defined in
* Assemble.cc.
*/
enum ArmOpcode {
kArmFirst = 0,
kArm16BitData = kArmFirst, // DATA [0] rd[15..0].
kThumbAdcRR, // adc [0100000101] rm[5..3] rd[2..0].
kThumbAddRRI3, // add(1) [0001110] imm_3[8..6] rn[5..3] rd[2..0]*/
kThumbAddRI8, // add(2) [00110] rd[10..8] imm_8[7..0].
kThumbAddRRR, // add(3) [0001100] rm[8..6] rn[5..3] rd[2..0].
kThumbAddRRLH, // add(4) [01000100] H12[01] rm[5..3] rd[2..0].
kThumbAddRRHL, // add(4) [01001000] H12[10] rm[5..3] rd[2..0].
kThumbAddRRHH, // add(4) [01001100] H12[11] rm[5..3] rd[2..0].
kThumbAddPcRel, // add(5) [10100] rd[10..8] imm_8[7..0].
kThumbAddSpRel, // add(6) [10101] rd[10..8] imm_8[7..0].
kThumbAddSpI7, // add(7) [101100000] imm_7[6..0].
kThumbAndRR, // and [0100000000] rm[5..3] rd[2..0].
kThumbAsrRRI5, // asr(1) [00010] imm_5[10..6] rm[5..3] rd[2..0].
kThumbAsrRR, // asr(2) [0100000100] rs[5..3] rd[2..0].
kThumbBCond, // b(1) [1101] cond[11..8] offset_8[7..0].
kThumbBUncond, // b(2) [11100] offset_11[10..0].
kThumbBicRR, // bic [0100001110] rm[5..3] rd[2..0].
kThumbBkpt, // bkpt [10111110] imm_8[7..0].
kThumbBlx1, // blx(1) [111] H[10] offset_11[10..0].
kThumbBlx2, // blx(1) [111] H[01] offset_11[10..0].
kThumbBl1, // blx(1) [111] H[10] offset_11[10..0].
kThumbBl2, // blx(1) [111] H[11] offset_11[10..0].
kThumbBlxR, // blx(2) [010001111] rm[6..3] [000].
kThumbBx, // bx [010001110] H2[6..6] rm[5..3] SBZ[000].
kThumbCmnRR, // cmn [0100001011] rm[5..3] rd[2..0].
kThumbCmpRI8, // cmp(1) [00101] rn[10..8] imm_8[7..0].
kThumbCmpRR, // cmp(2) [0100001010] rm[5..3] rd[2..0].
kThumbCmpLH, // cmp(3) [01000101] H12[01] rm[5..3] rd[2..0].
kThumbCmpHL, // cmp(3) [01000110] H12[10] rm[5..3] rd[2..0].
kThumbCmpHH, // cmp(3) [01000111] H12[11] rm[5..3] rd[2..0].
kThumbEorRR, // eor [0100000001] rm[5..3] rd[2..0].
kThumbLdmia, // ldmia [11001] rn[10..8] reglist [7..0].
kThumbLdrRRI5, // ldr(1) [01101] imm_5[10..6] rn[5..3] rd[2..0].
kThumbLdrRRR, // ldr(2) [0101100] rm[8..6] rn[5..3] rd[2..0].
kThumbLdrPcRel, // ldr(3) [01001] rd[10..8] imm_8[7..0].
kThumbLdrSpRel, // ldr(4) [10011] rd[10..8] imm_8[7..0].
kThumbLdrbRRI5, // ldrb(1) [01111] imm_5[10..6] rn[5..3] rd[2..0].
kThumbLdrbRRR, // ldrb(2) [0101110] rm[8..6] rn[5..3] rd[2..0].
kThumbLdrhRRI5, // ldrh(1) [10001] imm_5[10..6] rn[5..3] rd[2..0].
kThumbLdrhRRR, // ldrh(2) [0101101] rm[8..6] rn[5..3] rd[2..0].
kThumbLdrsbRRR, // ldrsb [0101011] rm[8..6] rn[5..3] rd[2..0].
kThumbLdrshRRR, // ldrsh [0101111] rm[8..6] rn[5..3] rd[2..0].
kThumbLslRRI5, // lsl(1) [00000] imm_5[10..6] rm[5..3] rd[2..0].
kThumbLslRR, // lsl(2) [0100000010] rs[5..3] rd[2..0].
kThumbLsrRRI5, // lsr(1) [00001] imm_5[10..6] rm[5..3] rd[2..0].
kThumbLsrRR, // lsr(2) [0100000011] rs[5..3] rd[2..0].
kThumbMovImm, // mov(1) [00100] rd[10..8] imm_8[7..0].
kThumbMovRR, // mov(2) [0001110000] rn[5..3] rd[2..0].
kThumbMovRR_H2H, // mov(3) [01000111] H12[11] rm[5..3] rd[2..0].
kThumbMovRR_H2L, // mov(3) [01000110] H12[01] rm[5..3] rd[2..0].
kThumbMovRR_L2H, // mov(3) [01000101] H12[10] rm[5..3] rd[2..0].
kThumbMul, // mul [0100001101] rm[5..3] rd[2..0].
kThumbMvn, // mvn [0100001111] rm[5..3] rd[2..0].
kThumbNeg, // neg [0100001001] rm[5..3] rd[2..0].
kThumbOrr, // orr [0100001100] rm[5..3] rd[2..0].
kThumbPop, // pop [1011110] r[8..8] rl[7..0].
kThumbPush, // push [1011010] r[8..8] rl[7..0].
kThumbRorRR, // ror [0100000111] rs[5..3] rd[2..0].
kThumbSbc, // sbc [0100000110] rm[5..3] rd[2..0].
kThumbStmia, // stmia [11000] rn[10..8] reglist [7.. 0].
kThumbStrRRI5, // str(1) [01100] imm_5[10..6] rn[5..3] rd[2..0].
kThumbStrRRR, // str(2) [0101000] rm[8..6] rn[5..3] rd[2..0].
kThumbStrSpRel, // str(3) [10010] rd[10..8] imm_8[7..0].
kThumbStrbRRI5, // strb(1) [01110] imm_5[10..6] rn[5..3] rd[2..0].
kThumbStrbRRR, // strb(2) [0101010] rm[8..6] rn[5..3] rd[2..0].
kThumbStrhRRI5, // strh(1) [10000] imm_5[10..6] rn[5..3] rd[2..0].
kThumbStrhRRR, // strh(2) [0101001] rm[8..6] rn[5..3] rd[2..0].
kThumbSubRRI3, // sub(1) [0001111] imm_3[8..6] rn[5..3] rd[2..0]*/
kThumbSubRI8, // sub(2) [00111] rd[10..8] imm_8[7..0].
kThumbSubRRR, // sub(3) [0001101] rm[8..6] rn[5..3] rd[2..0].
kThumbSubSpI7, // sub(4) [101100001] imm_7[6..0].
kThumbSwi, // swi [11011111] imm_8[7..0].
kThumbTst, // tst [0100001000] rm[5..3] rn[2..0].
kThumb2Vldrs, // vldr low sx [111011011001] rn[19..16] rd[15-12] [1010] imm_8[7..0].
kThumb2Vldrd, // vldr low dx [111011011001] rn[19..16] rd[15-12] [1011] imm_8[7..0].
kThumb2Vmuls, // vmul vd, vn, vm [111011100010] rn[19..16] rd[15-12] [10100000] rm[3..0].
kThumb2Vmuld, // vmul vd, vn, vm [111011100010] rn[19..16] rd[15-12] [10110000] rm[3..0].
kThumb2Vstrs, // vstr low sx [111011011000] rn[19..16] rd[15-12] [1010] imm_8[7..0].
kThumb2Vstrd, // vstr low dx [111011011000] rn[19..16] rd[15-12] [1011] imm_8[7..0].
kThumb2Vsubs, // vsub vd, vn, vm [111011100011] rn[19..16] rd[15-12] [10100040] rm[3..0].
kThumb2Vsubd, // vsub vd, vn, vm [111011100011] rn[19..16] rd[15-12] [10110040] rm[3..0].
kThumb2Vadds, // vadd vd, vn, vm [111011100011] rn[19..16] rd[15-12] [10100000] rm[3..0].
kThumb2Vaddd, // vadd vd, vn, vm [111011100011] rn[19..16] rd[15-12] [10110000] rm[3..0].
kThumb2Vdivs, // vdiv vd, vn, vm [111011101000] rn[19..16] rd[15-12] [10100000] rm[3..0].
kThumb2Vdivd, // vdiv vd, vn, vm [111011101000] rn[19..16] rd[15-12] [10110000] rm[3..0].
kThumb2VcvtIF, // vcvt.F32 vd, vm [1110111010111000] vd[15..12] [10101100] vm[3..0].
kThumb2VcvtID, // vcvt.F64 vd, vm [1110111010111000] vd[15..12] [10111100] vm[3..0].
kThumb2VcvtFI, // vcvt.S32.F32 vd, vm [1110111010111101] vd[15..12] [10101100] vm[3..0].
kThumb2VcvtDI, // vcvt.S32.F32 vd, vm [1110111010111101] vd[15..12] [10111100] vm[3..0].
kThumb2VcvtFd, // vcvt.F64.F32 vd, vm [1110111010110111] vd[15..12] [10101100] vm[3..0].
kThumb2VcvtDF, // vcvt.F32.F64 vd, vm [1110111010110111] vd[15..12] [10111100] vm[3..0].
kThumb2Vsqrts, // vsqrt.f32 vd, vm [1110111010110001] vd[15..12] [10101100] vm[3..0].
kThumb2Vsqrtd, // vsqrt.f64 vd, vm [1110111010110001] vd[15..12] [10111100] vm[3..0].
kThumb2MovImmShift, // mov(T2) rd, #<const> [11110] i [00001001111] imm3 rd[11..8] imm8.
kThumb2MovImm16, // mov(T3) rd, #<const> [11110] i [0010100] imm4 [0] imm3 rd[11..8] imm8.
kThumb2StrRRI12, // str(Imm,T3) rd,[rn,#imm12] [111110001100] rn[19..16] rt[15..12] imm12[11..0].
kThumb2LdrRRI12, // str(Imm,T3) rd,[rn,#imm12] [111110001100] rn[19..16] rt[15..12] imm12[11..0].
kThumb2StrRRI8Predec, // str(Imm,T4) rd,[rn,#-imm8] [111110000100] rn[19..16] rt[15..12] [1100] imm[7..0]*/
kThumb2LdrRRI8Predec, // ldr(Imm,T4) rd,[rn,#-imm8] [111110000101] rn[19..16] rt[15..12] [1100] imm[7..0]*/
kThumb2Cbnz, // cbnz rd,<label> [101110] i [1] imm5[7..3] rn[2..0].
kThumb2Cbz, // cbn rd,<label> [101100] i [1] imm5[7..3] rn[2..0].
kThumb2AddRRI12, // add rd, rn, #imm12 [11110] i [100000] rn[19..16] [0] imm3[14..12] rd[11..8] imm8[7..0].
kThumb2MovRR, // mov rd, rm [11101010010011110000] rd[11..8] [0000] rm[3..0].
kThumb2Vmovs, // vmov.f32 vd, vm [111011101] D [110000] vd[15..12] 101001] M [0] vm[3..0].
kThumb2Vmovd, // vmov.f64 vd, vm [111011101] D [110000] vd[15..12] 101101] M [0] vm[3..0].
kThumb2Ldmia, // ldmia [111010001001[ rn[19..16] mask[15..0].
kThumb2Stmia, // stmia [111010001000[ rn[19..16] mask[15..0].
kThumb2AddRRR, // add [111010110000] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2SubRRR, // sub [111010111010] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2SbcRRR, // sbc [111010110110] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2CmpRR, // cmp [111010111011] rn[19..16] [0000] [1111] [0000] rm[3..0].
kThumb2SubRRI12, // sub rd, rn, #imm12 [11110] i [01010] rn[19..16] [0] imm3[14..12] rd[11..8] imm8[7..0].
kThumb2MvnImm12, // mov(T2) rd, #<const> [11110] i [00011011110] imm3 rd[11..8] imm8.
kThumb2Sel, // sel rd, rn, rm [111110101010] rn[19-16] rd[11-8] rm[3-0].
kThumb2Ubfx, // ubfx rd,rn,#lsb,#width [111100111100] rn[19..16] [0] imm3[14-12] rd[11-8] w[4-0].
kThumb2Sbfx, // ubfx rd,rn,#lsb,#width [111100110100] rn[19..16] [0] imm3[14-12] rd[11-8] w[4-0].
kThumb2LdrRRR, // ldr rt,[rn,rm,LSL #imm] [111110000101] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2LdrhRRR, // ldrh rt,[rn,rm,LSL #imm] [111110000101] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2LdrshRRR, // ldrsh rt,[rn,rm,LSL #imm] [111110000101] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2LdrbRRR, // ldrb rt,[rn,rm,LSL #imm] [111110000101] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2LdrsbRRR, // ldrsb rt,[rn,rm,LSL #imm] [111110000101] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2StrRRR, // str rt,[rn,rm,LSL #imm] [111110000100] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2StrhRRR, // str rt,[rn,rm,LSL #imm] [111110000010] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2StrbRRR, // str rt,[rn,rm,LSL #imm] [111110000000] rn[19-16] rt[15-12] [000000] imm[5-4] rm[3-0].
kThumb2LdrhRRI12, // ldrh rt,[rn,#imm12] [111110001011] rt[15..12] rn[19..16] imm12[11..0].
kThumb2LdrshRRI12, // ldrsh rt,[rn,#imm12] [111110011011] rt[15..12] rn[19..16] imm12[11..0].
kThumb2LdrbRRI12, // ldrb rt,[rn,#imm12] [111110001001] rt[15..12] rn[19..16] imm12[11..0].
kThumb2LdrsbRRI12, // ldrsb rt,[rn,#imm12] [111110011001] rt[15..12] rn[19..16] imm12[11..0].
kThumb2StrhRRI12, // strh rt,[rn,#imm12] [111110001010] rt[15..12] rn[19..16] imm12[11..0].
kThumb2StrbRRI12, // strb rt,[rn,#imm12] [111110001000] rt[15..12] rn[19..16] imm12[11..0].
kThumb2Pop, // pop [1110100010111101] list[15-0]*/
kThumb2Push, // push [1110100100101101] list[15-0]*/
kThumb2CmpRI12, // cmp rn, #<const> [11110] i [011011] rn[19-16] [0] imm3 [1111] imm8[7..0].
kThumb2AdcRRR, // adc [111010110101] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2AndRRR, // and [111010100000] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2BicRRR, // bic [111010100010] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2CmnRR, // cmn [111010110001] rn[19..16] [0000] [1111] [0000] rm[3..0].
kThumb2EorRRR, // eor [111010101000] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2MulRRR, // mul [111110110000] rn[19..16] [1111] rd[11..8] [0000] rm[3..0].
kThumb2MnvRR, // mvn [11101010011011110] rd[11-8] [0000] rm[3..0].
kThumb2RsubRRI8, // rsub [111100011100] rn[19..16] [0000] rd[11..8] imm8[7..0].
kThumb2NegRR, // actually rsub rd, rn, #0.
kThumb2OrrRRR, // orr [111010100100] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2TstRR, // tst [111010100001] rn[19..16] [0000] [1111] [0000] rm[3..0].
kThumb2LslRRR, // lsl [111110100000] rn[19..16] [1111] rd[11..8] [0000] rm[3..0].
kThumb2LsrRRR, // lsr [111110100010] rn[19..16] [1111] rd[11..8] [0000] rm[3..0].
kThumb2AsrRRR, // asr [111110100100] rn[19..16] [1111] rd[11..8] [0000] rm[3..0].
kThumb2RorRRR, // ror [111110100110] rn[19..16] [1111] rd[11..8] [0000] rm[3..0].
kThumb2LslRRI5, // lsl [11101010010011110] imm[14.12] rd[11..8] [00] rm[3..0].
kThumb2LsrRRI5, // lsr [11101010010011110] imm[14.12] rd[11..8] [01] rm[3..0].
kThumb2AsrRRI5, // asr [11101010010011110] imm[14.12] rd[11..8] [10] rm[3..0].
kThumb2RorRRI5, // ror [11101010010011110] imm[14.12] rd[11..8] [11] rm[3..0].
kThumb2BicRRI8, // bic [111100000010] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2AndRRI8, // bic [111100000000] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2OrrRRI8, // orr [111100000100] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2EorRRI8, // eor [111100001000] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2AddRRI8, // add [111100001000] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2AdcRRI8, // adc [111100010101] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2SubRRI8, // sub [111100011011] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2SbcRRI8, // sbc [111100010111] rn[19..16] [0] imm3 rd[11..8] imm8.
kThumb2It, // it [10111111] firstcond[7-4] mask[3-0].
kThumb2Fmstat, // fmstat [11101110111100011111101000010000].
kThumb2Vcmpd, // vcmp [111011101] D [11011] rd[15-12] [1011] E [1] M [0] rm[3-0].
kThumb2Vcmps, // vcmp [111011101] D [11010] rd[15-12] [1011] E [1] M [0] rm[3-0].
kThumb2LdrPcRel12, // ldr rd,[pc,#imm12] [1111100011011111] rt[15-12] imm12[11-0].
kThumb2BCond, // b<c> [1110] S cond[25-22] imm6[21-16] [10] J1 [0] J2 imm11[10..0].
kThumb2Vmovd_RR, // vmov [111011101] D [110000] vd[15-12 [101101] M [0] vm[3-0].
kThumb2Vmovs_RR, // vmov [111011101] D [110000] vd[15-12 [101001] M [0] vm[3-0].
kThumb2Fmrs, // vmov [111011100000] vn[19-16] rt[15-12] [1010] N [0010000].
kThumb2Fmsr, // vmov [111011100001] vn[19-16] rt[15-12] [1010] N [0010000].
kThumb2Fmrrd, // vmov [111011000100] rt2[19-16] rt[15-12] [101100] M [1] vm[3-0].
kThumb2Fmdrr, // vmov [111011000101] rt2[19-16] rt[15-12] [101100] M [1] vm[3-0].
kThumb2Vabsd, // vabs.f64 [111011101] D [110000] rd[15-12] [1011110] M [0] vm[3-0].
kThumb2Vabss, // vabs.f32 [111011101] D [110000] rd[15-12] [1010110] M [0] vm[3-0].
kThumb2Vnegd, // vneg.f64 [111011101] D [110000] rd[15-12] [1011110] M [0] vm[3-0].
kThumb2Vnegs, // vneg.f32 [111011101] D [110000] rd[15-12] [1010110] M [0] vm[3-0].
kThumb2Vmovs_IMM8, // vmov.f32 [111011101] D [11] imm4h[19-16] vd[15-12] [10100000] imm4l[3-0].
kThumb2Vmovd_IMM8, // vmov.f64 [111011101] D [11] imm4h[19-16] vd[15-12] [10110000] imm4l[3-0].
kThumb2Mla, // mla [111110110000] rn[19-16] ra[15-12] rd[7-4] [0000] rm[3-0].
kThumb2Umull, // umull [111110111010] rn[19-16], rdlo[15-12] rdhi[11-8] [0000] rm[3-0].
kThumb2Ldrex, // ldrex [111010000101] rn[19-16] rt[11-8] [1111] imm8[7-0].
kThumb2Strex, // strex [111010000100] rn[19-16] rt[11-8] rd[11-8] imm8[7-0].
kThumb2Clrex, // clrex [111100111011111110000111100101111].
kThumb2Bfi, // bfi [111100110110] rn[19-16] [0] imm3[14-12] rd[11-8] imm2[7-6] [0] msb[4-0].
kThumb2Bfc, // bfc [11110011011011110] [0] imm3[14-12] rd[11-8] imm2[7-6] [0] msb[4-0].
kThumb2Dmb, // dmb [1111001110111111100011110101] option[3-0].
kThumb2LdrPcReln12, // ldr rd,[pc,-#imm12] [1111100011011111] rt[15-12] imm12[11-0].
kThumb2Stm, // stm <list> [111010010000] rn[19-16] 000 rl[12-0].
kThumbUndefined, // undefined [11011110xxxxxxxx].
kThumb2VPopCS, // vpop <list of callee save fp singles (s16+).
kThumb2VPushCS, // vpush <list callee save fp singles (s16+).
kThumb2Vldms, // vldms rd, <list>.
kThumb2Vstms, // vstms rd, <list>.
kThumb2BUncond, // b <label>.
kThumb2MovImm16H, // similar to kThumb2MovImm16, but target high hw.
kThumb2AddPCR, // Thumb2 2-operand add with hard-coded PC target.
kThumb2Adr, // Special purpose encoding of ADR for switch tables.
kThumb2MovImm16LST, // Special purpose version for switch table use.
kThumb2MovImm16HST, // Special purpose version for switch table use.
kThumb2LdmiaWB, // ldmia [111010011001[ rn[19..16] mask[15..0].
kThumb2SubsRRI12, // setflags encoding.
kThumb2OrrRRRs, // orrx [111010100101] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2Push1, // t3 encoding of push.
kThumb2Pop1, // t3 encoding of pop.
kThumb2RsubRRR, // rsb [111010111101] rn[19..16] [0000] rd[11..8] [0000] rm[3..0].
kThumb2Smull, // smull [111110111000] rn[19-16], rdlo[15-12] rdhi[11-8] [0000] rm[3-0].
kThumb2LdrdPcRel8, // ldrd rt, rt2, pc +-/1024.
kThumb2LdrdI8, // ldrd rt, rt2, [rn +-/1024].
kThumb2StrdI8, // strd rt, rt2, [rn +-/1024].
kArmLast,
};
enum ArmOpDmbOptions {
kSY = 0xf,
kST = 0xe,
kISH = 0xb,
kISHST = 0xa,
kNSH = 0x7,
kNSHST = 0x6
};
// Instruction assembly field_loc kind.
enum ArmEncodingKind {
kFmtUnused,
kFmtBitBlt, // Bit string using end/start.
kFmtDfp, // Double FP reg.
kFmtSfp, // Single FP reg.
kFmtModImm, // Shifted 8-bit immed using [26,14..12,7..0].
kFmtImm16, // Zero-extended immed using [26,19..16,14..12,7..0].
kFmtImm6, // Encoded branch target using [9,7..3]0.
kFmtImm12, // Zero-extended immediate using [26,14..12,7..0].
kFmtShift, // Shift descriptor, [14..12,7..4].
kFmtLsb, // least significant bit using [14..12][7..6].
kFmtBWidth, // bit-field width, encoded as width-1.
kFmtShift5, // Shift count, [14..12,7..6].
kFmtBrOffset, // Signed extended [26,11,13,21-16,10-0]:0.
kFmtFPImm, // Encoded floating point immediate.
kFmtOff24, // 24-bit Thumb2 unconditional branch encoding.
};
// Struct used to define the snippet positions for each Thumb opcode.
struct ArmEncodingMap {
uint32_t skeleton;
struct {
ArmEncodingKind kind;
int end; // end for kFmtBitBlt, 1-bit slice end for FP regs.
int start; // start for kFmtBitBlt, 4-bit slice end for FP regs.
} field_loc[4];
ArmOpcode opcode;
uint64_t flags;
const char* name;
const char* fmt;
int size; // Note: size is in bytes.
};
} // namespace art
#endif // ART_COMPILER_DEX_QUICK_ARM_ARM_LIR_H_