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JIT: ARM64 SVE format encodings, SVE_GP_3A to SVE_HV_4A #98141

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merged 8 commits into from
Feb 10, 2024
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JIT: ARM64 SVE format encodings, SVE_GP_3A to SVE_HV_4A #98141

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a299d60
Added SVE_GP_3A, SVE_GT_4A, SVE_HI_3A, SVE_HM_2A formats
TIHan Feb 7, 2024
40ec094
Minor fix for display
TIHan Feb 7, 2024
5968609
Added more formats
TIHan Feb 8, 2024
7b6063c
Small tweak to test
TIHan Feb 8, 2024
895c2ec
Merged
TIHan Feb 8, 2024
bd12649
Feedback
TIHan Feb 9, 2024
0135f5c
Merged with main
TIHan Feb 9, 2024
92f4cd5
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TIHan Feb 9, 2024
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95 changes: 95 additions & 0 deletions src/coreclr/jit/codegenarm64test.cpp
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Original file line number Diff line number Diff line change
Expand Up @@ -6957,6 +6957,101 @@ void CodeGen::genArm64EmitterUnitTestsSve()
theEmitter->emitIns_R_R_R_R(INS_sve_st1b, EA_SCALABLE, REG_V6, REG_P3, REG_R0, REG_V4,
INS_OPTS_SCALABLE_D); // ST1B {<Zt>.D }, <Pg>, [<Xn|SP>, <Zm>.D]

// IF_SVE_GP_3A
theEmitter->emitIns_R_R_R_I(INS_sve_fcadd, EA_SCALABLE, REG_V0, REG_P1, REG_V2, 90,
INS_OPTS_SCALABLE_H); // FCADD <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <Zm>.<T>, <const>
theEmitter->emitIns_R_R_R_I(INS_sve_fcadd, EA_SCALABLE, REG_V0, REG_P1, REG_V2, 270,
INS_OPTS_SCALABLE_H); // FCADD <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <Zm>.<T>, <const>
theEmitter->emitIns_R_R_R_I(INS_sve_fcadd, EA_SCALABLE, REG_V0, REG_P1, REG_V2, 270,
INS_OPTS_SCALABLE_S); // FCADD <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <Zm>.<T>, <const>
theEmitter->emitIns_R_R_R_I(INS_sve_fcadd, EA_SCALABLE, REG_V0, REG_P1, REG_V2, 270,
INS_OPTS_SCALABLE_D); // FCADD <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <Zm>.<T>, <const>

// IF_SVE_GT_4A
theEmitter->emitIns_R_R_R_R_I(INS_sve_fcmla, EA_SCALABLE, REG_V2, REG_P1, REG_V3, REG_V4, 0,
INS_OPTS_SCALABLE_H); // FCMLA <Zda>.<T>, <Pg>/M, <Zn>.<T>, <Zm>.<T>, <const>
theEmitter->emitIns_R_R_R_R_I(INS_sve_fcmla, EA_SCALABLE, REG_V0, REG_P2, REG_V1, REG_V5, 90,
INS_OPTS_SCALABLE_S); // FCMLA <Zda>.<T>, <Pg>/M, <Zn>.<T>, <Zm>.<T>, <const>
theEmitter->emitIns_R_R_R_R_I(INS_sve_fcmla, EA_SCALABLE, REG_V2, REG_P3, REG_V0, REG_V6, 180,
INS_OPTS_SCALABLE_D); // FCMLA <Zda>.<T>, <Pg>/M, <Zn>.<T>, <Zm>.<T>, <const>
theEmitter->emitIns_R_R_R_R_I(INS_sve_fcmla, EA_SCALABLE, REG_V2, REG_P3, REG_V0, REG_V6, 270,
INS_OPTS_SCALABLE_D); // FCMLA <Zda>.<T>, <Pg>/M, <Zn>.<T>, <Zm>.<T>, <const>

// IF_SVE_HI_3A
theEmitter->emitIns_R_R_R(INS_sve_fcmeq, EA_SCALABLE, REG_P2, REG_P3, REG_V4,
INS_OPTS_SCALABLE_H); // FCMEQ <Pd>.<T>, <Pg>/Z, <Zn>.<T>, #0.0
theEmitter->emitIns_R_R_R(INS_sve_fcmge, EA_SCALABLE, REG_P1, REG_P2, REG_V3,
INS_OPTS_SCALABLE_S); // FCMGE <Pd>.<T>, <Pg>/Z, <Zn>.<T>, #0.0
theEmitter->emitIns_R_R_R(INS_sve_fcmgt, EA_SCALABLE, REG_P11, REG_P5, REG_V2,
INS_OPTS_SCALABLE_D); // FCMGT <Pd>.<T>, <Pg>/Z, <Zn>.<T>, #0.0
theEmitter->emitIns_R_R_R(INS_sve_fcmle, EA_SCALABLE, REG_P2, REG_P7, REG_V1,
INS_OPTS_SCALABLE_H); // FCMLE <Pd>.<T>, <Pg>/Z, <Zn>.<T>, #0.0
theEmitter->emitIns_R_R_R(INS_sve_fcmlt, EA_SCALABLE, REG_P3, REG_P1, REG_V0,
INS_OPTS_SCALABLE_S); // FCMLT <Pd>.<T>, <Pg>/Z, <Zn>.<T>, #0.0
theEmitter->emitIns_R_R_R(INS_sve_fcmne, EA_SCALABLE, REG_P1, REG_P0, REG_V5,
INS_OPTS_SCALABLE_D); // FCMNE <Pd>.<T>, <Pg>/Z, <Zn>.<T>, #0.0

// IF_SVE_HM_2A
theEmitter->emitIns_R_R_F(INS_sve_fadd, EA_SCALABLE, REG_V0, REG_P0, 0.5,
INS_OPTS_SCALABLE_H); // FADD <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fadd, EA_SCALABLE, REG_V0, REG_P1, 1.0,
INS_OPTS_SCALABLE_H); // FADD <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmax, EA_SCALABLE, REG_V1, REG_P0, 0.0,
INS_OPTS_SCALABLE_S); // FMAX <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmax, EA_SCALABLE, REG_V1, REG_P0, 1.0,
INS_OPTS_SCALABLE_S); // FMAX <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmaxnm, EA_SCALABLE, REG_V3, REG_P4, 0.0,
INS_OPTS_SCALABLE_D); // FMAXNM <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmaxnm, EA_SCALABLE, REG_V3, REG_P4, 1.0,
INS_OPTS_SCALABLE_D); // FMAXNM <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmin, EA_SCALABLE, REG_V6, REG_P5, 0.0,
INS_OPTS_SCALABLE_H); // FMIN <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmin, EA_SCALABLE, REG_V6, REG_P5, 1.0,
INS_OPTS_SCALABLE_H); // FMIN <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fminnm, EA_SCALABLE, REG_V2, REG_P4, 0.0,
INS_OPTS_SCALABLE_S); // FMINNM <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fminnm, EA_SCALABLE, REG_V2, REG_P4, 1.0,
INS_OPTS_SCALABLE_S); // FMINNM <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmul, EA_SCALABLE, REG_V5, REG_P1, 0.5,
INS_OPTS_SCALABLE_D); // FMUL <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fmul, EA_SCALABLE, REG_V5, REG_P1, 2.0,
INS_OPTS_SCALABLE_D); // FMUL <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fsub, EA_SCALABLE, REG_V7, REG_P2, 0.5,
INS_OPTS_SCALABLE_H); // FSUB <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fsub, EA_SCALABLE, REG_V7, REG_P2, 1.0,
INS_OPTS_SCALABLE_H); // FSUB <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fsubr, EA_SCALABLE, REG_V6, REG_P3, 0.5,
INS_OPTS_SCALABLE_S); // FSUBR <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>
theEmitter->emitIns_R_R_F(INS_sve_fsubr, EA_SCALABLE, REG_V6, REG_P3, 1.0,
INS_OPTS_SCALABLE_S); // FSUBR <Zdn>.<T>, <Pg>/M, <Zdn>.<T>, <const>

// IF_SVE_HN_2A
// FTMAD <Zdn>.<T>, <Zdn>.<T>, <Zm>.<T>, #<imm>
theEmitter->emitIns_R_R_I(INS_sve_ftmad, EA_SCALABLE, REG_V0, REG_V2, 0, INS_OPTS_SCALABLE_H);
theEmitter->emitIns_R_R_I(INS_sve_ftmad, EA_SCALABLE, REG_V3, REG_V5, 1, INS_OPTS_SCALABLE_S);
theEmitter->emitIns_R_R_I(INS_sve_ftmad, EA_SCALABLE, REG_V4, REG_V2, 7, INS_OPTS_SCALABLE_D);

// IF_SVE_HP_3A
// FLOGB <Zd>.<T>, <Pg>/M, <Zn>.<T>
theEmitter->emitIns_R_R_R(INS_sve_flogb, EA_SCALABLE, REG_V31, REG_P7, REG_V31, INS_OPTS_SCALABLE_H);
theEmitter->emitIns_R_R_R(INS_sve_flogb, EA_SCALABLE, REG_V31, REG_P7, REG_V31, INS_OPTS_SCALABLE_S);
theEmitter->emitIns_R_R_R(INS_sve_flogb, EA_SCALABLE, REG_V31, REG_P7, REG_V31, INS_OPTS_SCALABLE_D);

// IF_SVE_HU_4B
theEmitter->emitIns_R_R_R_R(INS_sve_bfmla, EA_SCALABLE, REG_V1, REG_P5, REG_V4, REG_V3,
INS_OPTS_SCALABLE_H); // BFMLA <Zda>.H, <Pg>/M, <Zn>.H, <Zm>.H
theEmitter->emitIns_R_R_R_R(INS_sve_bfmls, EA_SCALABLE, REG_V0, REG_P6, REG_V1, REG_V2,
INS_OPTS_SCALABLE_H); // BFMLS <Zda>.H, <Pg>/M, <Zn>.H, <Zm>.H

// IF_SVE_HV_4A
theEmitter->emitIns_R_R_R_R(INS_sve_fmad, EA_SCALABLE, REG_V3, REG_P4, REG_V5, REG_V6,
INS_OPTS_SCALABLE_H); // FMAD <Zdn>.<T>, <Pg>/M, <Zm>.<T>, <Za>.<T>
theEmitter->emitIns_R_R_R_R(INS_sve_fmsb, EA_SCALABLE, REG_V1, REG_P2, REG_V3, REG_V7,
INS_OPTS_SCALABLE_S); // FMSB <Zdn>.<T>, <Pg>/M, <Zm>.<T>, <Za>.<T>
theEmitter->emitIns_R_R_R_R(INS_sve_fnmad, EA_SCALABLE, REG_V0, REG_P5, REG_V4, REG_V3,
INS_OPTS_SCALABLE_D); // FNMAD <Zdn>.<T>, <Pg>/M, <Zm>.<T>, <Za>.<T>
theEmitter->emitIns_R_R_R_R(INS_sve_fnmsb, EA_SCALABLE, REG_V5, REG_P3, REG_V1, REG_V2,
INS_OPTS_SCALABLE_S); // FNMSB <Zdn>.<T>, <Pg>/M, <Zm>.<T>, <Za>.<T>
// IF_SVE_ID_2A
// LDR <Pt>, [<Xn|SP>{, #<imm>, MUL VL}]
theEmitter->emitIns_R_R_I(INS_sve_ldr, EA_SCALABLE, REG_P1, REG_R5, 0);
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