// Copyright 2017 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package arm64asm import ( "encoding/binary" "fmt" ) type instArgs [5]instArg // An instFormat describes the format of an instruction encoding. // An instruction with 32-bit value x matches the format if x&mask == value // and the predicator: canDecode(x) return true. type instFormat struct { mask uint32 value uint32 op Op // args describe how to decode the instruction arguments. // args is stored as a fixed-size array. // if there are fewer than len(args) arguments, args[i] == 0 marks // the end of the argument list. args instArgs canDecode func(instr uint32) bool } var ( errShort = fmt.Errorf("truncated instruction") errUnknown = fmt.Errorf("unknown instruction") ) var decoderCover []bool func init() { decoderCover = make([]bool, len(instFormats)) } // Decode decodes the 4 bytes in src as a single instruction. func Decode(src []byte) (inst Inst, err error) { if len(src) < 4 { return Inst{}, errShort } x := binary.LittleEndian.Uint32(src) Search: for i := range instFormats { f := &instFormats[i] if x&f.mask != f.value { continue } if f.canDecode != nil && !f.canDecode(x) { continue } // Decode args. var args Args for j, aop := range f.args { if aop == 0 { break } arg := decodeArg(aop, x) if arg == nil { // Cannot decode argument continue Search } args[j] = arg } decoderCover[i] = true inst = Inst{ Op: f.op, Args: args, Enc: x, } return inst, nil } return Inst{}, errUnknown } // decodeArg decodes the arg described by aop from the instruction bits x. // It returns nil if x cannot be decoded according to aop. func decodeArg(aop instArg, x uint32) Arg { switch aop { default: return nil case arg_Da: return D0 + Reg((x>>10)&(1<<5-1)) case arg_Dd: return D0 + Reg(x&(1<<5-1)) case arg_Dm: return D0 + Reg((x>>16)&(1<<5-1)) case arg_Dn: return D0 + Reg((x>>5)&(1<<5-1)) case arg_Hd: return H0 + Reg(x&(1<<5-1)) case arg_Hn: return H0 + Reg((x>>5)&(1<<5-1)) case arg_IAddSub: imm12 := (x >> 10) & (1<<12 - 1) shift := (x >> 22) & (1<<2 - 1) if shift > 1 { return nil } shift = shift * 12 return ImmShift{uint16(imm12), uint8(shift)} case arg_Sa: return S0 + Reg((x>>10)&(1<<5-1)) case arg_Sd: return S0 + Reg(x&(1<<5-1)) case arg_Sm: return S0 + Reg((x>>16)&(1<<5-1)) case arg_Sn: return S0 + Reg((x>>5)&(1<<5-1)) case arg_Wa: return W0 + Reg((x>>10)&(1<<5-1)) case arg_Wd: return W0 + Reg(x&(1<<5-1)) case arg_Wds: return RegSP(W0) + RegSP(x&(1<<5-1)) case arg_Wm: return W0 + Reg((x>>16)&(1<<5-1)) case arg_Rm_extend__UXTB_0__UXTH_1__UXTW_2__LSL_UXTX_3__SXTB_4__SXTH_5__SXTW_6__SXTX_7__0_4: return handle_ExtendedRegister(x, true) case arg_Wm_extend__UXTB_0__UXTH_1__LSL_UXTW_2__UXTX_3__SXTB_4__SXTH_5__SXTW_6__SXTX_7__0_4: return handle_ExtendedRegister(x, false) case arg_Wn: return W0 + Reg((x>>5)&(1<<5-1)) case arg_Wns: return RegSP(W0) + RegSP((x>>5)&(1<<5-1)) case arg_Xa: return X0 + Reg((x>>10)&(1<<5-1)) case arg_Xd: return X0 + Reg(x&(1<<5-1)) case arg_Xds: return RegSP(X0) + RegSP(x&(1<<5-1)) case arg_Xm: return X0 + Reg((x>>16)&(1<<5-1)) case arg_Wm_shift__LSL_0__LSR_1__ASR_2__0_31: return handle_ImmediateShiftedRegister(x, 31, true, false) case arg_Wm_shift__LSL_0__LSR_1__ASR_2__ROR_3__0_31: return handle_ImmediateShiftedRegister(x, 31, true, true) case arg_Xm_shift__LSL_0__LSR_1__ASR_2__0_63: return handle_ImmediateShiftedRegister(x, 63, false, false) case arg_Xm_shift__LSL_0__LSR_1__ASR_2__ROR_3__0_63: return handle_ImmediateShiftedRegister(x, 63, false, true) case arg_Xn: return X0 + Reg((x>>5)&(1<<5-1)) case arg_Xns: return RegSP(X0) + RegSP((x>>5)&(1<<5-1)) case arg_slabel_imm14_2: imm14 := ((x >> 5) & (1<<14 - 1)) return PCRel(((int64(imm14) << 2) << 48) >> 48) case arg_slabel_imm19_2: imm19 := ((x >> 5) & (1<<19 - 1)) return PCRel(((int64(imm19) << 2) << 43) >> 43) case arg_slabel_imm26_2: imm26 := (x & (1<<26 - 1)) return PCRel(((int64(imm26) << 2) << 36) >> 36) case arg_slabel_immhi_immlo_0: immhi := ((x >> 5) & (1<<19 - 1)) immlo := ((x >> 29) & (1<<2 - 1)) immhilo := (immhi)<<2 | immlo return PCRel((int64(immhilo) << 43) >> 43) case arg_slabel_immhi_immlo_12: immhi := ((x >> 5) & (1<<19 - 1)) immlo := ((x >> 29) & (1<<2 - 1)) immhilo := (immhi)<<2 | immlo return PCRel(((int64(immhilo) << 12) << 31) >> 31) case arg_Xns_mem: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrOffset, 0} case arg_Xns_mem_extend_m__UXTW_2__LSL_3__SXTW_6__SXTX_7__0_0__1_1: return handle_MemExtend(x, 1, false) case arg_Xns_mem_extend_m__UXTW_2__LSL_3__SXTW_6__SXTX_7__0_0__2_1: return handle_MemExtend(x, 2, false) case arg_Xns_mem_extend_m__UXTW_2__LSL_3__SXTW_6__SXTX_7__0_0__3_1: return handle_MemExtend(x, 3, false) case arg_Xns_mem_extend_m__UXTW_2__LSL_3__SXTW_6__SXTX_7__absent_0__0_1: return handle_MemExtend(x, 1, true) case arg_Xns_mem_optional_imm12_1_unsigned: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm12 := (x >> 10) & (1<<12 - 1) return MemImmediate{Rn, AddrOffset, int32(imm12)} case arg_Xns_mem_optional_imm12_2_unsigned: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm12 := (x >> 10) & (1<<12 - 1) return MemImmediate{Rn, AddrOffset, int32(imm12 << 1)} case arg_Xns_mem_optional_imm12_4_unsigned: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm12 := (x >> 10) & (1<<12 - 1) return MemImmediate{Rn, AddrOffset, int32(imm12 << 2)} case arg_Xns_mem_optional_imm12_8_unsigned: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm12 := (x >> 10) & (1<<12 - 1) return MemImmediate{Rn, AddrOffset, int32(imm12 << 3)} case arg_Xns_mem_optional_imm7_4_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrOffset, ((int32(imm7 << 2)) << 23) >> 23} case arg_Xns_mem_optional_imm7_8_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrOffset, ((int32(imm7 << 3)) << 22) >> 22} case arg_Xns_mem_optional_imm9_1_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm9 := (x >> 12) & (1<<9 - 1) return MemImmediate{Rn, AddrOffset, (int32(imm9) << 23) >> 23} case arg_Xns_mem_post_imm7_4_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrPostIndex, ((int32(imm7 << 2)) << 23) >> 23} case arg_Xns_mem_post_imm7_8_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrPostIndex, ((int32(imm7 << 3)) << 22) >> 22} case arg_Xns_mem_post_imm9_1_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm9 := (x >> 12) & (1<<9 - 1) return MemImmediate{Rn, AddrPostIndex, ((int32(imm9)) << 23) >> 23} case arg_Xns_mem_wb_imm7_4_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrPreIndex, ((int32(imm7 << 2)) << 23) >> 23} case arg_Xns_mem_wb_imm7_8_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrPreIndex, ((int32(imm7 << 3)) << 22) >> 22} case arg_Xns_mem_wb_imm9_1_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm9 := (x >> 12) & (1<<9 - 1) return MemImmediate{Rn, AddrPreIndex, ((int32(imm9)) << 23) >> 23} case arg_Ws: return W0 + Reg((x>>16)&(1<<5-1)) case arg_Wt: return W0 + Reg(x&(1<<5-1)) case arg_Wt2: return W0 + Reg((x>>10)&(1<<5-1)) case arg_Xs: return X0 + Reg((x>>16)&(1<<5-1)) case arg_Xt: return X0 + Reg(x&(1<<5-1)) case arg_Xt2: return X0 + Reg((x>>10)&(1<<5-1)) case arg_immediate_0_127_CRm_op2: crm_op2 := (x >> 5) & (1<<7 - 1) return Imm_hint(crm_op2) case arg_immediate_0_15_CRm: crm := (x >> 8) & (1<<4 - 1) return Imm{crm, false} case arg_immediate_0_15_nzcv: nzcv := x & (1<<4 - 1) return Imm{nzcv, false} case arg_immediate_0_31_imm5: imm5 := (x >> 16) & (1<<5 - 1) return Imm{imm5, false} case arg_immediate_0_31_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{immr, false} case arg_immediate_0_31_imms: imms := (x >> 10) & (1<<6 - 1) if imms > 31 { return nil } return Imm{imms, true} case arg_immediate_0_63_b5_b40: b5 := (x >> 31) & 1 b40 := (x >> 19) & (1<<5 - 1) return Imm{(b5 << 5) | b40, true} case arg_immediate_0_63_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{immr, false} case arg_immediate_0_63_imms: imms := (x >> 10) & (1<<6 - 1) return Imm{imms, true} case arg_immediate_0_65535_imm16: imm16 := (x >> 5) & (1<<16 - 1) return Imm{imm16, false} case arg_immediate_0_7_op1: op1 := (x >> 16) & (1<<3 - 1) return Imm{op1, true} case arg_immediate_0_7_op2: op2 := (x >> 5) & (1<<3 - 1) return Imm{op2, true} case arg_immediate_ASR_SBFM_32M_bitfield_0_31_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{immr, true} case arg_immediate_ASR_SBFM_64M_bitfield_0_63_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{immr, true} case arg_immediate_BFI_BFM_32M_bitfield_lsb_32_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{32 - immr, true} case arg_immediate_BFI_BFM_32M_bitfield_width_32_imms: imms := (x >> 10) & (1<<6 - 1) if imms > 31 { return nil } return Imm{imms + 1, true} case arg_immediate_BFI_BFM_64M_bitfield_lsb_64_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{64 - immr, true} case arg_immediate_BFI_BFM_64M_bitfield_width_64_imms: imms := (x >> 10) & (1<<6 - 1) return Imm{imms + 1, true} case arg_immediate_BFXIL_BFM_32M_bitfield_lsb_32_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{immr, true} case arg_immediate_BFXIL_BFM_32M_bitfield_width_32_imms: immr := (x >> 16) & (1<<6 - 1) imms := (x >> 10) & (1<<6 - 1) width := imms - immr + 1 if width < 1 || width > 32-immr { return nil } return Imm{width, true} case arg_immediate_BFXIL_BFM_64M_bitfield_lsb_64_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{immr, true} case arg_immediate_BFXIL_BFM_64M_bitfield_width_64_imms: immr := (x >> 16) & (1<<6 - 1) imms := (x >> 10) & (1<<6 - 1) width := imms - immr + 1 if width < 1 || width > 64-immr { return nil } return Imm{width, true} case arg_immediate_bitmask_32_imms_immr: return handle_bitmasks(x, 32) case arg_immediate_bitmask_64_N_imms_immr: return handle_bitmasks(x, 64) case arg_immediate_LSL_UBFM_32M_bitfield_0_31_immr: imms := (x >> 10) & (1<<6 - 1) shift := 31 - imms if shift > 31 { return nil } return Imm{shift, true} case arg_immediate_LSL_UBFM_64M_bitfield_0_63_immr: imms := (x >> 10) & (1<<6 - 1) shift := 63 - imms if shift > 63 { return nil } return Imm{shift, true} case arg_immediate_LSR_UBFM_32M_bitfield_0_31_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{immr, true} case arg_immediate_LSR_UBFM_64M_bitfield_0_63_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{immr, true} case arg_immediate_optional_0_15_CRm: crm := (x >> 8) & (1<<4 - 1) return Imm_clrex(crm) case arg_immediate_optional_0_65535_imm16: imm16 := (x >> 5) & (1<<16 - 1) return Imm_dcps(imm16) case arg_immediate_OptLSL_amount_16_0_16: imm16 := (x >> 5) & (1<<16 - 1) hw := (x >> 21) & (1<<2 - 1) shift := hw * 16 if shift > 16 { return nil } return ImmShift{uint16(imm16), uint8(shift)} case arg_immediate_OptLSL_amount_16_0_48: imm16 := (x >> 5) & (1<<16 - 1) hw := (x >> 21) & (1<<2 - 1) shift := hw * 16 return ImmShift{uint16(imm16), uint8(shift)} case arg_immediate_SBFIZ_SBFM_32M_bitfield_lsb_32_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{32 - immr, true} case arg_immediate_SBFIZ_SBFM_32M_bitfield_width_32_imms: imms := (x >> 10) & (1<<6 - 1) if imms > 31 { return nil } return Imm{imms + 1, true} case arg_immediate_SBFIZ_SBFM_64M_bitfield_lsb_64_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{64 - immr, true} case arg_immediate_SBFIZ_SBFM_64M_bitfield_width_64_imms: imms := (x >> 10) & (1<<6 - 1) return Imm{imms + 1, true} case arg_immediate_SBFX_SBFM_32M_bitfield_lsb_32_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{immr, true} case arg_immediate_SBFX_SBFM_32M_bitfield_width_32_imms: immr := (x >> 16) & (1<<6 - 1) imms := (x >> 10) & (1<<6 - 1) width := imms - immr + 1 if width < 1 || width > 32-immr { return nil } return Imm{width, true} case arg_immediate_SBFX_SBFM_64M_bitfield_lsb_64_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{immr, true} case arg_immediate_SBFX_SBFM_64M_bitfield_width_64_imms: immr := (x >> 16) & (1<<6 - 1) imms := (x >> 10) & (1<<6 - 1) width := imms - immr + 1 if width < 1 || width > 64-immr { return nil } return Imm{width, true} case arg_immediate_shift_32_implicit_imm16_hw: imm16 := (x >> 5) & (1<<16 - 1) hw := (x >> 21) & (1<<2 - 1) shift := hw * 16 if shift > 16 { return nil } result := uint32(imm16) << shift return Imm{result, false} case arg_immediate_shift_32_implicit_inverse_imm16_hw: imm16 := (x >> 5) & (1<<16 - 1) hw := (x >> 21) & (1<<2 - 1) shift := hw * 16 if shift > 16 { return nil } result := uint32(imm16) << shift return Imm{^result, false} case arg_immediate_shift_64_implicit_imm16_hw: imm16 := (x >> 5) & (1<<16 - 1) hw := (x >> 21) & (1<<2 - 1) shift := hw * 16 result := uint64(imm16) << shift return Imm64{result, false} case arg_immediate_shift_64_implicit_inverse_imm16_hw: imm16 := (x >> 5) & (1<<16 - 1) hw := (x >> 21) & (1<<2 - 1) shift := hw * 16 result := uint64(imm16) << shift return Imm64{^result, false} case arg_immediate_UBFIZ_UBFM_32M_bitfield_lsb_32_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{32 - immr, true} case arg_immediate_UBFIZ_UBFM_32M_bitfield_width_32_imms: imms := (x >> 10) & (1<<6 - 1) if imms > 31 { return nil } return Imm{imms + 1, true} case arg_immediate_UBFIZ_UBFM_64M_bitfield_lsb_64_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{64 - immr, true} case arg_immediate_UBFIZ_UBFM_64M_bitfield_width_64_imms: imms := (x >> 10) & (1<<6 - 1) return Imm{imms + 1, true} case arg_immediate_UBFX_UBFM_32M_bitfield_lsb_32_immr: immr := (x >> 16) & (1<<6 - 1) if immr > 31 { return nil } return Imm{immr, true} case arg_immediate_UBFX_UBFM_32M_bitfield_width_32_imms: immr := (x >> 16) & (1<<6 - 1) imms := (x >> 10) & (1<<6 - 1) width := imms - immr + 1 if width < 1 || width > 32-immr { return nil } return Imm{width, true} case arg_immediate_UBFX_UBFM_64M_bitfield_lsb_64_immr: immr := (x >> 16) & (1<<6 - 1) return Imm{immr, true} case arg_immediate_UBFX_UBFM_64M_bitfield_width_64_imms: immr := (x >> 16) & (1<<6 - 1) imms := (x >> 10) & (1<<6 - 1) width := imms - immr + 1 if width < 1 || width > 64-immr { return nil } return Imm{width, true} case arg_Rt_31_1__W_0__X_1: b5 := (x >> 31) & 1 Rt := x & (1<<5 - 1) if b5 == 0 { return W0 + Reg(Rt) } else { return X0 + Reg(Rt) } case arg_cond_AllowALNV_Normal: cond := (x >> 12) & (1<<4 - 1) return Cond{uint8(cond), false} case arg_conditional: cond := x & (1<<4 - 1) return Cond{uint8(cond), false} case arg_cond_NotAllowALNV_Invert: cond := (x >> 12) & (1<<4 - 1) if (cond >> 1) == 7 { return nil } return Cond{uint8(cond), true} case arg_Cm: CRm := (x >> 8) & (1<<4 - 1) return Imm_c(CRm) case arg_Cn: CRn := (x >> 12) & (1<<4 - 1) return Imm_c(CRn) case arg_option_DMB_BO_system_CRm: CRm := (x >> 8) & (1<<4 - 1) return Imm_option(CRm) case arg_option_DSB_BO_system_CRm: CRm := (x >> 8) & (1<<4 - 1) return Imm_option(CRm) case arg_option_ISB_BI_system_CRm: CRm := (x >> 8) & (1<<4 - 1) if CRm == 15 { return Imm_option(CRm) } return Imm{CRm, false} case arg_prfop_Rt: Rt := x & (1<<5 - 1) return Imm_prfop(Rt) case arg_pstatefield_op1_op2__SPSel_05__DAIFSet_36__DAIFClr_37: op1 := (x >> 16) & (1<<3 - 1) op2 := (x >> 5) & (1<<3 - 1) if (op1 == 0) && (op2 == 5) { return SPSel } else if (op1 == 3) && (op2 == 6) { return DAIFSet } else if (op1 == 3) && (op2 == 7) { return DAIFClr } return nil case arg_sysreg_o0_op1_CRn_CRm_op2: op0 := (x >> 19) & (1<<2 - 1) op1 := (x >> 16) & (1<<3 - 1) CRn := (x >> 12) & (1<<4 - 1) CRm := (x >> 8) & (1<<4 - 1) op2 := (x >> 5) & (1<<3 - 1) return Systemreg{uint8(op0), uint8(op1), uint8(CRn), uint8(CRm), uint8(op2)} case arg_sysop_AT_SYS_CR_system: //TODO: system instruction return nil case arg_sysop_SYS_CR_system: //TODO: system instruction return nil case arg_sysop_DC_SYS_CR_system, arg_sysop_TLBI_SYS_CR_system: op1 := (x >> 16) & 7 cn := (x >> 12) & 15 cm := (x >> 8) & 15 op2 := (x >> 5) & 7 sysInst := sysInstFields{uint8(op1), uint8(cn), uint8(cm), uint8(op2)} attrs := sysInst.getAttrs() reg := int(x & 31) if !attrs.hasOperand2 { if reg == 31 { return sysOp{sysInst, 0, false} } // This instruction is undefined if the Rt field is not set to 31. return nil } return sysOp{sysInst, X0 + Reg(reg), true} case arg_Bt: return B0 + Reg(x&(1<<5-1)) case arg_Dt: return D0 + Reg(x&(1<<5-1)) case arg_Dt2: return D0 + Reg((x>>10)&(1<<5-1)) case arg_Ht: return H0 + Reg(x&(1<<5-1)) case arg_immediate_0_63_immh_immb__UIntimmhimmb64_8: immh := (x >> 19) & (1<<4 - 1) if (immh & 8) == 0 { return nil } immb := (x >> 16) & (1<<3 - 1) return Imm{(immh << 3) + immb - 64, true} case arg_immediate_0_width_immh_immb__SEEAdvancedSIMDmodifiedimmediate_0__UIntimmhimmb8_1__UIntimmhimmb16_2__UIntimmhimmb32_4: immh := (x >> 19) & (1<<4 - 1) immb := (x >> 16) & (1<<3 - 1) if immh == 1 { return Imm{(immh << 3) + immb - 8, true} } else if (immh >> 1) == 1 { return Imm{(immh << 3) + immb - 16, true} } else if (immh >> 2) == 1 { return Imm{(immh << 3) + immb - 32, true} } else { return nil } case arg_immediate_0_width_immh_immb__SEEAdvancedSIMDmodifiedimmediate_0__UIntimmhimmb8_1__UIntimmhimmb16_2__UIntimmhimmb32_4__UIntimmhimmb64_8: fallthrough case arg_immediate_0_width_m1_immh_immb__UIntimmhimmb8_1__UIntimmhimmb16_2__UIntimmhimmb32_4__UIntimmhimmb64_8: immh := (x >> 19) & (1<<4 - 1) immb := (x >> 16) & (1<<3 - 1) if immh == 1 { return Imm{(immh << 3) + immb - 8, true} } else if (immh >> 1) == 1 { return Imm{(immh << 3) + immb - 16, true} } else if (immh >> 2) == 1 { return Imm{(immh << 3) + immb - 32, true} } else if (immh >> 3) == 1 { return Imm{(immh << 3) + immb - 64, true} } else { return nil } case arg_immediate_0_width_size__8_0__16_1__32_2: size := (x >> 22) & (1<<2 - 1) switch size { case 0: return Imm{8, true} case 1: return Imm{16, true} case 2: return Imm{32, true} default: return nil } case arg_immediate_1_64_immh_immb__128UIntimmhimmb_8: immh := (x >> 19) & (1<<4 - 1) if (immh & 8) == 0 { return nil } immb := (x >> 16) & (1<<3 - 1) return Imm{128 - ((immh << 3) + immb), true} case arg_immediate_1_width_immh_immb__16UIntimmhimmb_1__32UIntimmhimmb_2__64UIntimmhimmb_4: fallthrough case arg_immediate_1_width_immh_immb__SEEAdvancedSIMDmodifiedimmediate_0__16UIntimmhimmb_1__32UIntimmhimmb_2__64UIntimmhimmb_4: immh := (x >> 19) & (1<<4 - 1) immb := (x >> 16) & (1<<3 - 1) if immh == 1 { return Imm{16 - ((immh << 3) + immb), true} } else if (immh >> 1) == 1 { return Imm{32 - ((immh << 3) + immb), true} } else if (immh >> 2) == 1 { return Imm{64 - ((immh << 3) + immb), true} } else { return nil } case arg_immediate_1_width_immh_immb__SEEAdvancedSIMDmodifiedimmediate_0__16UIntimmhimmb_1__32UIntimmhimmb_2__64UIntimmhimmb_4__128UIntimmhimmb_8: immh := (x >> 19) & (1<<4 - 1) immb := (x >> 16) & (1<<3 - 1) if immh == 1 { return Imm{16 - ((immh << 3) + immb), true} } else if (immh >> 1) == 1 { return Imm{32 - ((immh << 3) + immb), true} } else if (immh >> 2) == 1 { return Imm{64 - ((immh << 3) + immb), true} } else if (immh >> 3) == 1 { return Imm{128 - ((immh << 3) + immb), true} } else { return nil } case arg_immediate_8x8_a_b_c_d_e_f_g_h: var imm uint64 if x&(1<<5) != 0 { imm = (1 << 8) - 1 } else { imm = 0 } if x&(1<<6) != 0 { imm += ((1 << 8) - 1) << 8 } if x&(1<<7) != 0 { imm += ((1 << 8) - 1) << 16 } if x&(1<<8) != 0 { imm += ((1 << 8) - 1) << 24 } if x&(1<<9) != 0 { imm += ((1 << 8) - 1) << 32 } if x&(1<<16) != 0 { imm += ((1 << 8) - 1) << 40 } if x&(1<<17) != 0 { imm += ((1 << 8) - 1) << 48 } if x&(1<<18) != 0 { imm += ((1 << 8) - 1) << 56 } return Imm64{imm, false} case arg_immediate_exp_3_pre_4_a_b_c_d_e_f_g_h: pre := (x >> 5) & (1<<4 - 1) exp := 1 - ((x >> 17) & 1) exp = (exp << 2) + (((x >> 16) & 1) << 1) + ((x >> 9) & 1) s := ((x >> 18) & 1) return Imm_fp{uint8(s), int8(exp) - 3, uint8(pre)} case arg_immediate_exp_3_pre_4_imm8: pre := (x >> 13) & (1<<4 - 1) exp := 1 - ((x >> 19) & 1) exp = (exp << 2) + ((x >> 17) & (1<<2 - 1)) s := ((x >> 20) & 1) return Imm_fp{uint8(s), int8(exp) - 3, uint8(pre)} case arg_immediate_fbits_min_1_max_0_sub_0_immh_immb__64UIntimmhimmb_4__128UIntimmhimmb_8: fallthrough case arg_immediate_fbits_min_1_max_0_sub_0_immh_immb__SEEAdvancedSIMDmodifiedimmediate_0__64UIntimmhimmb_4__128UIntimmhimmb_8: immh := (x >> 19) & (1<<4 - 1) immb := (x >> 16) & (1<<3 - 1) if (immh >> 2) == 1 { return Imm{64 - ((immh << 3) + immb), true} } else if (immh >> 3) == 1 { return Imm{128 - ((immh << 3) + immb), true} } else { return nil } case arg_immediate_fbits_min_1_max_32_sub_64_scale: scale := (x >> 10) & (1<<6 - 1) fbits := 64 - scale if fbits > 32 { return nil } return Imm{fbits, true} case arg_immediate_fbits_min_1_max_64_sub_64_scale: scale := (x >> 10) & (1<<6 - 1) fbits := 64 - scale return Imm{fbits, true} case arg_immediate_floatzero: return Imm{0, true} case arg_immediate_index_Q_imm4__imm4lt20gt_00__imm4_10: Q := (x >> 30) & 1 imm4 := (x >> 11) & (1<<4 - 1) if Q == 1 || (imm4>>3) == 0 { return Imm{imm4, true} } else { return nil } case arg_immediate_MSL__a_b_c_d_e_f_g_h_cmode__8_0__16_1: var shift uint8 imm8 := (x >> 16) & (1<<3 - 1) imm8 = (imm8 << 5) | ((x >> 5) & (1<<5 - 1)) if (x>>12)&1 == 0 { shift = 8 + 128 } else { shift = 16 + 128 } return ImmShift{uint16(imm8), shift} case arg_immediate_OptLSL__a_b_c_d_e_f_g_h_cmode__0_0__8_1: imm8 := (x >> 16) & (1<<3 - 1) imm8 = (imm8 << 5) | ((x >> 5) & (1<<5 - 1)) cmode1 := (x >> 13) & 1 shift := 8 * cmode1 return ImmShift{uint16(imm8), uint8(shift)} case arg_immediate_OptLSL__a_b_c_d_e_f_g_h_cmode__0_0__8_1__16_2__24_3: imm8 := (x >> 16) & (1<<3 - 1) imm8 = (imm8 << 5) | ((x >> 5) & (1<<5 - 1)) cmode1 := (x >> 13) & (1<<2 - 1) shift := 8 * cmode1 return ImmShift{uint16(imm8), uint8(shift)} case arg_immediate_OptLSLZero__a_b_c_d_e_f_g_h: imm8 := (x >> 16) & (1<<3 - 1) imm8 = (imm8 << 5) | ((x >> 5) & (1<<5 - 1)) return ImmShift{uint16(imm8), 0} case arg_immediate_zero: return Imm{0, true} case arg_Qd: return Q0 + Reg(x&(1<<5-1)) case arg_Qn: return Q0 + Reg((x>>5)&(1<<5-1)) case arg_Qt: return Q0 + Reg(x&(1<<5-1)) case arg_Qt2: return Q0 + Reg((x>>10)&(1<<5-1)) case arg_Rn_16_5__W_1__W_2__W_4__X_8: imm5 := (x >> 16) & (1<<5 - 1) if ((imm5 & 1) == 1) || ((imm5 & 2) == 2) || ((imm5 & 4) == 4) { return W0 + Reg((x>>5)&(1<<5-1)) } else if (imm5 & 8) == 8 { return X0 + Reg((x>>5)&(1<<5-1)) } else { return nil } case arg_St: return S0 + Reg(x&(1<<5-1)) case arg_St2: return S0 + Reg((x>>10)&(1<<5-1)) case arg_Vd_16_5__B_1__H_2__S_4__D_8: imm5 := (x >> 16) & (1<<5 - 1) Rd := x & (1<<5 - 1) if imm5&1 == 1 { return B0 + Reg(Rd) } else if imm5&2 == 2 { return H0 + Reg(Rd) } else if imm5&4 == 4 { return S0 + Reg(Rd) } else if imm5&8 == 8 { return D0 + Reg(Rd) } else { return nil } case arg_Vd_19_4__B_1__H_2__S_4: immh := (x >> 19) & (1<<4 - 1) Rd := x & (1<<5 - 1) if immh == 1 { return B0 + Reg(Rd) } else if immh>>1 == 1 { return H0 + Reg(Rd) } else if immh>>2 == 1 { return S0 + Reg(Rd) } else { return nil } case arg_Vd_19_4__B_1__H_2__S_4__D_8: immh := (x >> 19) & (1<<4 - 1) Rd := x & (1<<5 - 1) if immh == 1 { return B0 + Reg(Rd) } else if immh>>1 == 1 { return H0 + Reg(Rd) } else if immh>>2 == 1 { return S0 + Reg(Rd) } else if immh>>3 == 1 { return D0 + Reg(Rd) } else { return nil } case arg_Vd_19_4__D_8: immh := (x >> 19) & (1<<4 - 1) Rd := x & (1<<5 - 1) if immh>>3 == 1 { return D0 + Reg(Rd) } else { return nil } case arg_Vd_19_4__S_4__D_8: immh := (x >> 19) & (1<<4 - 1) Rd := x & (1<<5 - 1) if immh>>2 == 1 { return S0 + Reg(Rd) } else if immh>>3 == 1 { return D0 + Reg(Rd) } else { return nil } case arg_Vd_22_1__S_0: sz := (x >> 22) & 1 Rd := x & (1<<5 - 1) if sz == 0 { return S0 + Reg(Rd) } else { return nil } case arg_Vd_22_1__S_0__D_1: sz := (x >> 22) & 1 Rd := x & (1<<5 - 1) if sz == 0 { return S0 + Reg(Rd) } else { return D0 + Reg(Rd) } case arg_Vd_22_1__S_1: sz := (x >> 22) & 1 Rd := x & (1<<5 - 1) if sz == 1 { return S0 + Reg(Rd) } else { return nil } case arg_Vd_22_2__B_0__H_1__S_2: size := (x >> 22) & (1<<2 - 1) Rd := x & (1<<5 - 1) if size == 0 { return B0 + Reg(Rd) } else if size == 1 { return H0 + Reg(Rd) } else if size == 2 { return S0 + Reg(Rd) } else { return nil } case arg_Vd_22_2__B_0__H_1__S_2__D_3: size := (x >> 22) & (1<<2 - 1) Rd := x & (1<<5 - 1) if size == 0 { return B0 + Reg(Rd) } else if size == 1 { return H0 + Reg(Rd) } else if size == 2 { return S0 + Reg(Rd) } else { return D0 + Reg(Rd) } case arg_Vd_22_2__D_3: size := (x >> 22) & (1<<2 - 1) Rd := x & (1<<5 - 1) if size == 3 { return D0 + Reg(Rd) } else { return nil } case arg_Vd_22_2__H_0__S_1__D_2: size := (x >> 22) & (1<<2 - 1) Rd := x & (1<<5 - 1) if size == 0 { return H0 + Reg(Rd) } else if size == 1 { return S0 + Reg(Rd) } else if size == 2 { return D0 + Reg(Rd) } else { return nil } case arg_Vd_22_2__H_1__S_2: size := (x >> 22) & (1<<2 - 1) Rd := x & (1<<5 - 1) if size == 1 { return H0 + Reg(Rd) } else if size == 2 { return S0 + Reg(Rd) } else { return nil } case arg_Vd_22_2__S_1__D_2: size := (x >> 22) & (1<<2 - 1) Rd := x & (1<<5 - 1) if size == 1 { return S0 + Reg(Rd) } else if size == 2 { return D0 + Reg(Rd) } else { return nil } case arg_Vd_arrangement_16B: Rd := x & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} case arg_Vd_arrangement_2D: Rd := x & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} case arg_Vd_arrangement_4S: Rd := x & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} case arg_Vd_arrangement_D_index__1: Rd := x & (1<<5 - 1) return RegisterWithArrangementAndIndex{V0 + Reg(Rd), ArrangementD, 1, 0} case arg_Vd_arrangement_imm5___B_1__H_2__S_4__D_8_index__imm5__imm5lt41gt_1__imm5lt42gt_2__imm5lt43gt_4__imm5lt4gt_8_1: var a Arrangement var index uint32 Rd := x & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) if imm5&1 == 1 { a = ArrangementB index = imm5 >> 1 } else if imm5&2 == 2 { a = ArrangementH index = imm5 >> 2 } else if imm5&4 == 4 { a = ArrangementS index = imm5 >> 3 } else if imm5&8 == 8 { a = ArrangementD index = imm5 >> 4 } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(Rd), a, uint8(index), 0} case arg_Vd_arrangement_imm5_Q___8B_10__16B_11__4H_20__8H_21__2S_40__4S_41__2D_81: Rd := x & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) Q := (x >> 30) & 1 if imm5&1 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } } else if imm5&2 == 2 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } } else if imm5&4 == 4 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } } else if (imm5&8 == 8) && (Q == 1) { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } else { return nil } case arg_Vd_arrangement_immh_Q___SEEAdvancedSIMDmodifiedimmediate_00__2S_40__4S_41__2D_81: Rd := x & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) Q := (x >> 30) & 1 if immh>>2 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } } else if immh>>3 == 1 { if Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } } return nil case arg_Vd_arrangement_immh_Q___SEEAdvancedSIMDmodifiedimmediate_00__8B_10__16B_11__4H_20__8H_21__2S_40__4S_41: Rd := x & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) Q := (x >> 30) & 1 if immh == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } } else if immh>>1 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } } else if immh>>2 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } } return nil case arg_Vd_arrangement_immh_Q___SEEAdvancedSIMDmodifiedimmediate_00__8B_10__16B_11__4H_20__8H_21__2S_40__4S_41__2D_81: Rd := x & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) Q := (x >> 30) & 1 if immh == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } } else if immh>>1 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } } else if immh>>2 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } } else if immh>>3 == 1 { if Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } } return nil case arg_Vd_arrangement_immh___SEEAdvancedSIMDmodifiedimmediate_0__8H_1__4S_2__2D_4: Rd := x & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) if immh == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if immh>>1 == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else if immh>>2 == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } return nil case arg_Vd_arrangement_Q___2S_0__4S_1: Rd := x & (1<<5 - 1) Q := (x >> 30) & 1 if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } case arg_Vd_arrangement_Q___4H_0__8H_1: Rd := x & (1<<5 - 1) Q := (x >> 30) & 1 if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } case arg_Vd_arrangement_Q___8B_0__16B_1: Rd := x & (1<<5 - 1) Q := (x >> 30) & 1 if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } case arg_Vd_arrangement_Q_sz___2S_00__4S_10__2D_11: Rd := x & (1<<5 - 1) Q := (x >> 30) & 1 sz := (x >> 22) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else if sz == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } return nil case arg_Vd_arrangement_size___4S_1__2D_2: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 if size == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else if size == 2 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } return nil case arg_Vd_arrangement_size___8H_0__1Q_3: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 if size == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if size == 3 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement1Q, 0} } return nil case arg_Vd_arrangement_size___8H_0__4S_1__2D_2: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 if size == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if size == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else if size == 2 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } return nil case arg_Vd_arrangement_size_Q___4H_00__8H_01__2S_10__4S_11__1D_20__2D_21: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement1D, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } return nil case arg_Vd_arrangement_size_Q___4H_10__8H_11__2S_20__4S_21: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } return nil case arg_Vd_arrangement_size_Q___8B_00__16B_01: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } return nil case arg_Vd_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } return nil case arg_Vd_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } return nil case arg_Vd_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__2D_31: Rd := x & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } return nil case arg_Vd_arrangement_sz___4S_0__2D_1: Rd := x & (1<<5 - 1) sz := (x >> 22) & 1 if sz == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } case arg_Vd_arrangement_sz_Q___2S_00__4S_01: Rd := x & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } return nil case arg_Vd_arrangement_sz_Q___2S_00__4S_01__2D_11: Rd := x & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } else if sz == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2D, 0} } return nil case arg_Vd_arrangement_sz_Q___2S_10__4S_11: Rd := x & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else if sz == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } return nil case arg_Vd_arrangement_sz_Q___4H_00__8H_01__2S_10__4S_11: Rd := x & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4H, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement8H, 0} } else if sz == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement2S, 0} } else /* sz == 1 && Q == 1 */ { return RegisterWithArrangement{V0 + Reg(Rd), Arrangement4S, 0} } case arg_Vm_22_1__S_0__D_1: sz := (x >> 22) & 1 Rm := (x >> 16) & (1<<5 - 1) if sz == 0 { return S0 + Reg(Rm) } else { return D0 + Reg(Rm) } case arg_Vm_22_2__B_0__H_1__S_2__D_3: size := (x >> 22) & (1<<2 - 1) Rm := (x >> 16) & (1<<5 - 1) if size == 0 { return B0 + Reg(Rm) } else if size == 1 { return H0 + Reg(Rm) } else if size == 2 { return S0 + Reg(Rm) } else { return D0 + Reg(Rm) } case arg_Vm_22_2__D_3: size := (x >> 22) & (1<<2 - 1) Rm := (x >> 16) & (1<<5 - 1) if size == 3 { return D0 + Reg(Rm) } else { return nil } case arg_Vm_22_2__H_1__S_2: size := (x >> 22) & (1<<2 - 1) Rm := (x >> 16) & (1<<5 - 1) if size == 1 { return H0 + Reg(Rm) } else if size == 2 { return S0 + Reg(Rm) } else { return nil } case arg_Vm_arrangement_4S: Rm := (x >> 16) & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4S, 0} case arg_Vm_arrangement_Q___8B_0__16B_1: Rm := (x >> 16) & (1<<5 - 1) Q := (x >> 30) & 1 if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement16B, 0} } case arg_Vm_arrangement_size___8H_0__4S_1__2D_2: Rm := (x >> 16) & (1<<5 - 1) size := (x >> 22) & 3 if size == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8H, 0} } else if size == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4S, 0} } else if size == 2 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2D, 0} } return nil case arg_Vm_arrangement_size___H_1__S_2_index__size_L_H_M__HLM_1__HL_2_1: var a Arrangement var index uint32 var vm uint32 Rm := (x >> 16) & (1<<4 - 1) size := (x >> 22) & 3 H := (x >> 11) & 1 L := (x >> 21) & 1 M := (x >> 20) & 1 if size == 1 { a = ArrangementH index = (H << 2) | (L << 1) | M vm = Rm } else if size == 2 { a = ArrangementS index = (H << 1) | L vm = (M << 4) | Rm } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(vm), a, uint8(index), 0} case arg_Vm_arrangement_size_Q___4H_10__8H_11__2S_20__4S_21: Rm := (x >> 16) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4S, 0} } return nil case arg_Vm_arrangement_size_Q___8B_00__16B_01: Rm := (x >> 16) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement16B, 0} } return nil case arg_Vm_arrangement_size_Q___8B_00__16B_01__1D_30__2D_31: Rm := (x >> 16) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement16B, 0} } else if size == 3 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement1D, 0} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2D, 0} } return nil case arg_Vm_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21: Rm := (x >> 16) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4S, 0} } return nil case arg_Vm_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__2D_31: Rm := (x >> 16) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4S, 0} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2D, 0} } return nil case arg_Vm_arrangement_sz_Q___2S_00__4S_01__2D_11: Rm := (x >> 16) & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2S, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement4S, 0} } else if sz == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rm), Arrangement2D, 0} } return nil case arg_Vm_arrangement_sz___S_0__D_1_index__sz_L_H__HL_00__H_10_1: var a Arrangement var index uint32 Rm := (x >> 16) & (1<<5 - 1) sz := (x >> 22) & 1 H := (x >> 11) & 1 L := (x >> 21) & 1 if sz == 0 { a = ArrangementS index = (H << 1) | L } else if sz == 1 && L == 0 { a = ArrangementD index = H } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(Rm), a, uint8(index), 0} case arg_Vn_19_4__B_1__H_2__S_4__D_8: immh := (x >> 19) & (1<<4 - 1) Rn := (x >> 5) & (1<<5 - 1) if immh == 1 { return B0 + Reg(Rn) } else if immh>>1 == 1 { return H0 + Reg(Rn) } else if immh>>2 == 1 { return S0 + Reg(Rn) } else if immh>>3 == 1 { return D0 + Reg(Rn) } else { return nil } case arg_Vn_19_4__D_8: immh := (x >> 19) & (1<<4 - 1) Rn := (x >> 5) & (1<<5 - 1) if immh>>3 == 1 { return D0 + Reg(Rn) } else { return nil } case arg_Vn_19_4__H_1__S_2__D_4: immh := (x >> 19) & (1<<4 - 1) Rn := (x >> 5) & (1<<5 - 1) if immh == 1 { return H0 + Reg(Rn) } else if immh>>1 == 1 { return S0 + Reg(Rn) } else if immh>>2 == 1 { return D0 + Reg(Rn) } else { return nil } case arg_Vn_19_4__S_4__D_8: immh := (x >> 19) & (1<<4 - 1) Rn := (x >> 5) & (1<<5 - 1) if immh>>2 == 1 { return S0 + Reg(Rn) } else if immh>>3 == 1 { return D0 + Reg(Rn) } else { return nil } case arg_Vn_1_arrangement_16B: Rn := (x >> 5) & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 1} case arg_Vn_22_1__D_1: sz := (x >> 22) & 1 Rn := (x >> 5) & (1<<5 - 1) if sz == 1 { return D0 + Reg(Rn) } return nil case arg_Vn_22_1__S_0__D_1: sz := (x >> 22) & 1 Rn := (x >> 5) & (1<<5 - 1) if sz == 0 { return S0 + Reg(Rn) } else { return D0 + Reg(Rn) } case arg_Vn_22_2__B_0__H_1__S_2__D_3: size := (x >> 22) & (1<<2 - 1) Rn := (x >> 5) & (1<<5 - 1) if size == 0 { return B0 + Reg(Rn) } else if size == 1 { return H0 + Reg(Rn) } else if size == 2 { return S0 + Reg(Rn) } else { return D0 + Reg(Rn) } case arg_Vn_22_2__D_3: size := (x >> 22) & (1<<2 - 1) Rn := (x >> 5) & (1<<5 - 1) if size == 3 { return D0 + Reg(Rn) } else { return nil } case arg_Vn_22_2__H_0__S_1__D_2: size := (x >> 22) & (1<<2 - 1) Rn := (x >> 5) & (1<<5 - 1) if size == 0 { return H0 + Reg(Rn) } else if size == 1 { return S0 + Reg(Rn) } else if size == 2 { return D0 + Reg(Rn) } else { return nil } case arg_Vn_22_2__H_1__S_2: size := (x >> 22) & (1<<2 - 1) Rn := (x >> 5) & (1<<5 - 1) if size == 1 { return H0 + Reg(Rn) } else if size == 2 { return S0 + Reg(Rn) } else { return nil } case arg_Vn_2_arrangement_16B: Rn := (x >> 5) & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 2} case arg_Vn_3_arrangement_16B: Rn := (x >> 5) & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 3} case arg_Vn_4_arrangement_16B: Rn := (x >> 5) & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 4} case arg_Vn_arrangement_16B: Rn := (x >> 5) & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} case arg_Vn_arrangement_4S: Rn := (x >> 5) & (1<<5 - 1) return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} case arg_Vn_arrangement_D_index__1: Rn := (x >> 5) & (1<<5 - 1) return RegisterWithArrangementAndIndex{V0 + Reg(Rn), ArrangementD, 1, 0} case arg_Vn_arrangement_D_index__imm5_1: Rn := (x >> 5) & (1<<5 - 1) index := (x >> 20) & 1 return RegisterWithArrangementAndIndex{V0 + Reg(Rn), ArrangementD, uint8(index), 0} case arg_Vn_arrangement_imm5___B_1__H_2_index__imm5__imm5lt41gt_1__imm5lt42gt_2_1: var a Arrangement var index uint32 Rn := (x >> 5) & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) if imm5&1 == 1 { a = ArrangementB index = imm5 >> 1 } else if imm5&2 == 2 { a = ArrangementH index = imm5 >> 2 } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(Rn), a, uint8(index), 0} case arg_Vn_arrangement_imm5___B_1__H_2__S_4__D_8_index__imm5_imm4__imm4lt30gt_1__imm4lt31gt_2__imm4lt32gt_4__imm4lt3gt_8_1: var a Arrangement var index uint32 Rn := (x >> 5) & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) imm4 := (x >> 11) & (1<<4 - 1) if imm5&1 == 1 { a = ArrangementB index = imm4 } else if imm5&2 == 2 { a = ArrangementH index = imm4 >> 1 } else if imm5&4 == 4 { a = ArrangementS index = imm4 >> 2 } else if imm5&8 == 8 { a = ArrangementD index = imm4 >> 3 } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(Rn), a, uint8(index), 0} case arg_Vn_arrangement_imm5___B_1__H_2__S_4__D_8_index__imm5__imm5lt41gt_1__imm5lt42gt_2__imm5lt43gt_4__imm5lt4gt_8_1: var a Arrangement var index uint32 Rn := (x >> 5) & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) if imm5&1 == 1 { a = ArrangementB index = imm5 >> 1 } else if imm5&2 == 2 { a = ArrangementH index = imm5 >> 2 } else if imm5&4 == 4 { a = ArrangementS index = imm5 >> 3 } else if imm5&8 == 8 { a = ArrangementD index = imm5 >> 4 } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(Rn), a, uint8(index), 0} case arg_Vn_arrangement_imm5___B_1__H_2__S_4_index__imm5__imm5lt41gt_1__imm5lt42gt_2__imm5lt43gt_4_1: var a Arrangement var index uint32 Rn := (x >> 5) & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) if imm5&1 == 1 { a = ArrangementB index = imm5 >> 1 } else if imm5&2 == 2 { a = ArrangementH index = imm5 >> 2 } else if imm5&4 == 4 { a = ArrangementS index = imm5 >> 3 } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(Rn), a, uint8(index), 0} case arg_Vn_arrangement_imm5___D_8_index__imm5_1: var a Arrangement var index uint32 Rn := (x >> 5) & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) if imm5&15 == 8 { a = ArrangementD index = imm5 >> 4 } else { return nil } return RegisterWithArrangementAndIndex{V0 + Reg(Rn), a, uint8(index), 0} case arg_Vn_arrangement_immh_Q___SEEAdvancedSIMDmodifiedimmediate_00__2S_40__4S_41__2D_81: Rn := (x >> 5) & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) Q := (x >> 30) & 1 if immh>>2 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } } else if immh>>3 == 1 { if Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } } return nil case arg_Vn_arrangement_immh_Q___SEEAdvancedSIMDmodifiedimmediate_00__8B_10__16B_11__4H_20__8H_21__2S_40__4S_41: Rn := (x >> 5) & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) Q := (x >> 30) & 1 if immh == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } } else if immh>>1 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } } else if immh>>2 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } } return nil case arg_Vn_arrangement_immh_Q___SEEAdvancedSIMDmodifiedimmediate_00__8B_10__16B_11__4H_20__8H_21__2S_40__4S_41__2D_81: Rn := (x >> 5) & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) Q := (x >> 30) & 1 if immh == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } } else if immh>>1 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } } else if immh>>2 == 1 { if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } } else if immh>>3 == 1 { if Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } } return nil case arg_Vn_arrangement_immh___SEEAdvancedSIMDmodifiedimmediate_0__8H_1__4S_2__2D_4: Rn := (x >> 5) & (1<<5 - 1) immh := (x >> 19) & (1<<4 - 1) if immh == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } else if immh>>1 == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } else if immh>>2 == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_Q___8B_0__16B_1: Rn := (x >> 5) & (1<<5 - 1) Q := (x >> 30) & 1 if Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } case arg_Vn_arrangement_Q_sz___2S_00__4S_10__2D_11: Rn := (x >> 5) & (1<<5 - 1) Q := (x >> 30) & 1 sz := (x >> 22) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } else if sz == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_Q_sz___4S_10: Rn := (x >> 5) & (1<<5 - 1) Q := (x >> 30) & 1 sz := (x >> 22) & 1 if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } return nil case arg_Vn_arrangement_S_index__imm5__imm5lt41gt_1__imm5lt42gt_2__imm5lt43gt_4_1: var index uint32 Rn := (x >> 5) & (1<<5 - 1) imm5 := (x >> 16) & (1<<5 - 1) index = imm5 >> 3 return RegisterWithArrangementAndIndex{V0 + Reg(Rn), ArrangementS, uint8(index), 0} case arg_Vn_arrangement_size___2D_3: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 if size == 3 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_size___8H_0__4S_1__2D_2: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 if size == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } else if size == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } else if size == 2 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_size_Q___4H_10__8H_11__2S_20__4S_21: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } return nil case arg_Vn_arrangement_size_Q___8B_00__16B_01: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } return nil case arg_Vn_arrangement_size_Q___8B_00__16B_01__1D_30__2D_31: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } else if size == 3 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement1D, 0} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } return nil case arg_Vn_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } return nil case arg_Vn_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__2D_31: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__4S_21: Rn := (x >> 5) & (1<<5 - 1) size := (x >> 22) & 3 Q := (x >> 30) & 1 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8B, 0} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement16B, 0} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } return nil case arg_Vn_arrangement_sz___2D_1: Rn := (x >> 5) & (1<<5 - 1) sz := (x >> 22) & 1 if sz == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_sz___2S_0__2D_1: Rn := (x >> 5) & (1<<5 - 1) sz := (x >> 22) & 1 if sz == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } case arg_Vn_arrangement_sz___4S_0__2D_1: Rn := (x >> 5) & (1<<5 - 1) sz := (x >> 22) & 1 if sz == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } else { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } case arg_Vn_arrangement_sz_Q___2S_00__4S_01: Rn := (x >> 5) & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } return nil case arg_Vn_arrangement_sz_Q___2S_00__4S_01__2D_11: Rn := (x >> 5) & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } else if sz == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2D, 0} } return nil case arg_Vn_arrangement_sz_Q___4H_00__8H_01__2S_10__4S_11: Rn := (x >> 5) & (1<<5 - 1) sz := (x >> 22) & 1 Q := (x >> 30) & 1 if sz == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4H, 0} } else if sz == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement8H, 0} } else if sz == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement2S, 0} } else /* sz == 1 && Q == 1 */ { return RegisterWithArrangement{V0 + Reg(Rn), Arrangement4S, 0} } case arg_Vt_1_arrangement_B_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 10) & 3 index := (Q << 3) | (S << 2) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementB, uint8(index), 1} case arg_Vt_1_arrangement_D_index__Q_1: Rt := x & (1<<5 - 1) index := (x >> 30) & 1 return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementD, uint8(index), 1} case arg_Vt_1_arrangement_H_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 11) & 1 index := (Q << 2) | (S << 1) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementH, uint8(index), 1} case arg_Vt_1_arrangement_S_index__Q_S_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 index := (Q << 1) | S return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementS, uint8(index), 1} case arg_Vt_1_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__1D_30__2D_31: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 size := (x >> 10) & 3 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8B, 1} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement16B, 1} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4H, 1} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8H, 1} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2S, 1} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4S, 1} } else if size == 3 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement1D, 1} } else /* size == 3 && Q == 1 */ { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2D, 1} } case arg_Vt_2_arrangement_B_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 10) & 3 index := (Q << 3) | (S << 2) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementB, uint8(index), 2} case arg_Vt_2_arrangement_D_index__Q_1: Rt := x & (1<<5 - 1) index := (x >> 30) & 1 return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementD, uint8(index), 2} case arg_Vt_2_arrangement_H_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 11) & 1 index := (Q << 2) | (S << 1) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementH, uint8(index), 2} case arg_Vt_2_arrangement_S_index__Q_S_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 index := (Q << 1) | S return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementS, uint8(index), 2} case arg_Vt_2_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__1D_30__2D_31: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 size := (x >> 10) & 3 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8B, 2} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement16B, 2} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4H, 2} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8H, 2} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2S, 2} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4S, 2} } else if size == 3 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement1D, 2} } else /* size == 3 && Q == 1 */ { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2D, 2} } case arg_Vt_2_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__2D_31: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 size := (x >> 10) & 3 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8B, 2} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement16B, 2} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4H, 2} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8H, 2} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2S, 2} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4S, 2} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2D, 2} } return nil case arg_Vt_3_arrangement_B_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 10) & 3 index := (Q << 3) | (S << 2) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementB, uint8(index), 3} case arg_Vt_3_arrangement_D_index__Q_1: Rt := x & (1<<5 - 1) index := (x >> 30) & 1 return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementD, uint8(index), 3} case arg_Vt_3_arrangement_H_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 11) & 1 index := (Q << 2) | (S << 1) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementH, uint8(index), 3} case arg_Vt_3_arrangement_S_index__Q_S_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 index := (Q << 1) | S return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementS, uint8(index), 3} case arg_Vt_3_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__1D_30__2D_31: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 size := (x >> 10) & 3 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8B, 3} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement16B, 3} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4H, 3} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8H, 3} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2S, 3} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4S, 3} } else if size == 3 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement1D, 3} } else /* size == 3 && Q == 1 */ { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2D, 3} } case arg_Vt_3_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__2D_31: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 size := (x >> 10) & 3 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8B, 3} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement16B, 3} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4H, 3} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8H, 3} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2S, 3} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4S, 3} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2D, 3} } return nil case arg_Vt_4_arrangement_B_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 10) & 3 index := (Q << 3) | (S << 2) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementB, uint8(index), 4} case arg_Vt_4_arrangement_D_index__Q_1: Rt := x & (1<<5 - 1) index := (x >> 30) & 1 return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementD, uint8(index), 4} case arg_Vt_4_arrangement_H_index__Q_S_size_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 size := (x >> 11) & 1 index := (Q << 2) | (S << 1) | (size) return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementH, uint8(index), 4} case arg_Vt_4_arrangement_S_index__Q_S_1: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 S := (x >> 12) & 1 index := (Q << 1) | S return RegisterWithArrangementAndIndex{V0 + Reg(Rt), ArrangementS, uint8(index), 4} case arg_Vt_4_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__1D_30__2D_31: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 size := (x >> 10) & 3 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8B, 4} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement16B, 4} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4H, 4} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8H, 4} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2S, 4} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4S, 4} } else if size == 3 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement1D, 4} } else /* size == 3 && Q == 1 */ { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2D, 4} } case arg_Vt_4_arrangement_size_Q___8B_00__16B_01__4H_10__8H_11__2S_20__4S_21__2D_31: Rt := x & (1<<5 - 1) Q := (x >> 30) & 1 size := (x >> 10) & 3 if size == 0 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8B, 4} } else if size == 0 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement16B, 4} } else if size == 1 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4H, 4} } else if size == 1 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement8H, 4} } else if size == 2 && Q == 0 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2S, 4} } else if size == 2 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement4S, 4} } else if size == 3 && Q == 1 { return RegisterWithArrangement{V0 + Reg(Rt), Arrangement2D, 4} } return nil case arg_Xns_mem_extend_m__UXTW_2__LSL_3__SXTW_6__SXTX_7__0_0__4_1: return handle_MemExtend(x, 4, false) case arg_Xns_mem_offset: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrOffset, 0} case arg_Xns_mem_optional_imm12_16_unsigned: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm12 := (x >> 10) & (1<<12 - 1) return MemImmediate{Rn, AddrOffset, int32(imm12 << 4)} case arg_Xns_mem_optional_imm7_16_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrOffset, ((int32(imm7 << 4)) << 21) >> 21} case arg_Xns_mem_post_fixedimm_1: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 1} case arg_Xns_mem_post_fixedimm_12: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 12} case arg_Xns_mem_post_fixedimm_16: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 16} case arg_Xns_mem_post_fixedimm_2: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 2} case arg_Xns_mem_post_fixedimm_24: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 24} case arg_Xns_mem_post_fixedimm_3: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 3} case arg_Xns_mem_post_fixedimm_32: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 32} case arg_Xns_mem_post_fixedimm_4: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 4} case arg_Xns_mem_post_fixedimm_6: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 6} case arg_Xns_mem_post_fixedimm_8: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) return MemImmediate{Rn, AddrPostIndex, 8} case arg_Xns_mem_post_imm7_16_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrPostIndex, ((int32(imm7 << 4)) << 21) >> 21} case arg_Xns_mem_post_Q__16_0__32_1: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) Q := (x >> 30) & 1 return MemImmediate{Rn, AddrPostIndex, int32((Q + 1) * 16)} case arg_Xns_mem_post_Q__24_0__48_1: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) Q := (x >> 30) & 1 return MemImmediate{Rn, AddrPostIndex, int32((Q + 1) * 24)} case arg_Xns_mem_post_Q__32_0__64_1: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) Q := (x >> 30) & 1 return MemImmediate{Rn, AddrPostIndex, int32((Q + 1) * 32)} case arg_Xns_mem_post_Q__8_0__16_1: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) Q := (x >> 30) & 1 return MemImmediate{Rn, AddrPostIndex, int32((Q + 1) * 8)} case arg_Xns_mem_post_size__1_0__2_1__4_2__8_3: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) size := (x >> 10) & 3 return MemImmediate{Rn, AddrPostIndex, int32(1 << size)} case arg_Xns_mem_post_size__2_0__4_1__8_2__16_3: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) size := (x >> 10) & 3 return MemImmediate{Rn, AddrPostIndex, int32(2 << size)} case arg_Xns_mem_post_size__3_0__6_1__12_2__24_3: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) size := (x >> 10) & 3 return MemImmediate{Rn, AddrPostIndex, int32(3 << size)} case arg_Xns_mem_post_size__4_0__8_1__16_2__32_3: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) size := (x >> 10) & 3 return MemImmediate{Rn, AddrPostIndex, int32(4 << size)} case arg_Xns_mem_post_Xm: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) Rm := (x >> 16) & (1<<5 - 1) return MemImmediate{Rn, AddrPostReg, int32(Rm)} case arg_Xns_mem_wb_imm7_16_signed: Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) imm7 := (x >> 15) & (1<<7 - 1) return MemImmediate{Rn, AddrPreIndex, ((int32(imm7 << 4)) << 21) >> 21} } } func handle_ExtendedRegister(x uint32, has_width bool) Arg { s := (x >> 29) & 1 rm := (x >> 16) & (1<<5 - 1) option := (x >> 13) & (1<<3 - 1) imm3 := (x >> 10) & (1<<3 - 1) rn := (x >> 5) & (1<<5 - 1) rd := x & (1<<5 - 1) is_32bit := !has_width var rea RegExtshiftAmount if has_width { if option&0x3 != 0x3 { rea.reg = W0 + Reg(rm) } else { rea.reg = X0 + Reg(rm) } } else { rea.reg = W0 + Reg(rm) } switch option { case 0: rea.extShift = uxtb case 1: rea.extShift = uxth case 2: if is_32bit && (rn == 31 || (s == 0 && rd == 31)) { if imm3 != 0 { rea.extShift = lsl } else { rea.extShift = ExtShift(0) } } else { rea.extShift = uxtw } case 3: if !is_32bit && (rn == 31 || (s == 0 && rd == 31)) { if imm3 != 0 { rea.extShift = lsl } else { rea.extShift = ExtShift(0) } } else { rea.extShift = uxtx } case 4: rea.extShift = sxtb case 5: rea.extShift = sxth case 6: rea.extShift = sxtw case 7: rea.extShift = sxtx } rea.show_zero = false rea.amount = uint8(imm3) return rea } func handle_ImmediateShiftedRegister(x uint32, max uint8, is_w, has_ror bool) Arg { var rsa RegExtshiftAmount if is_w { rsa.reg = W0 + Reg((x>>16)&(1<<5-1)) } else { rsa.reg = X0 + Reg((x>>16)&(1<<5-1)) } switch (x >> 22) & 0x3 { case 0: rsa.extShift = lsl case 1: rsa.extShift = lsr case 2: rsa.extShift = asr case 3: if has_ror { rsa.extShift = ror } else { return nil } } rsa.show_zero = true rsa.amount = uint8((x >> 10) & (1<<6 - 1)) if rsa.amount == 0 && rsa.extShift == lsl { rsa.extShift = ExtShift(0) } else if rsa.amount > max { return nil } return rsa } func handle_MemExtend(x uint32, mult uint8, absent bool) Arg { var extend ExtShift var Rm Reg option := (x >> 13) & (1<<3 - 1) Rn := RegSP(X0) + RegSP(x>>5&(1<<5-1)) if (option & 1) != 0 { Rm = Reg(X0) + Reg(x>>16&(1<<5-1)) } else { Rm = Reg(W0) + Reg(x>>16&(1<<5-1)) } switch option { default: return nil case 2: extend = uxtw case 3: extend = lsl case 6: extend = sxtw case 7: extend = sxtx } amount := (uint8((x >> 12) & 1)) * mult return MemExtend{Rn, Rm, extend, amount, absent} } func handle_bitmasks(x uint32, datasize uint8) Arg { var length, levels, esize, i uint8 var welem, wmask uint64 n := (x >> 22) & 1 imms := uint8((x >> 10) & (1<<6 - 1)) immr := uint8((x >> 16) & (1<<6 - 1)) if n != 0 { length = 6 } else if (imms & 32) == 0 { length = 5 } else if (imms & 16) == 0 { length = 4 } else if (imms & 8) == 0 { length = 3 } else if (imms & 4) == 0 { length = 2 } else if (imms & 2) == 0 { length = 1 } else { return nil } levels = 1< datasize { return nil } welem = 1<<(s+1) - 1 ror := (welem >> r) | (welem << (esize - r)) ror &= ((1 << esize) - 1) wmask = 0 for i = 0; i < datasize; i += esize { wmask = (wmask << esize) | ror } return Imm64{wmask, false} }