#![allow(non_snake_case, non_camel_case_types)]
use super::{assembler::*, instdb::*, operands::*};
use crate::core::globals::CondCode;
use crate::core::operand::*;
pub trait AdcEmitter<T0, T1, T2> {
fn adc(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AdcsEmitter<T0, T1, T2> {
fn adcs(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AddEmitter<T0, T1, T2> {
fn add(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Add4Emitter<T0, T1, T2, T3> {
fn add_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait AddsEmitter<T0, T1, T2> {
fn adds(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Adds4Emitter<T0, T1, T2, T3> {
fn adds_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait AdrEmitter<T0, T1> {
fn adr(&mut self, op0: T0, op1: T1);
}
pub trait AdrpEmitter<T0, T1> {
fn adrp(&mut self, op0: T0, op1: T1);
}
pub trait AndEmitter<T0, T1, T2> {
fn and_(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait And4Emitter<T0, T1, T2, T3> {
fn and__4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait AndsEmitter<T0, T1, T2> {
fn ands(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Ands4Emitter<T0, T1, T2, T3> {
fn ands_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait AsrEmitter<T0, T1, T2> {
fn asr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AsrvEmitter<T0, T1, T2> {
fn asrv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AtEmitter<T0, T1> {
fn at(&mut self, op0: T0, op1: T1);
}
pub trait BfcEmitter<T0, T1, T2> {
fn bfc(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BfiEmitter<T0, T1, T2, T3> {
fn bfi(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait BfmEmitter<T0, T1, T2, T3> {
fn bfm(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait BfxilEmitter<T0, T1, T2, T3> {
fn bfxil(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait BicEmitter<T0, T1, T2> {
fn bic(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Bic4Emitter<T0, T1, T2, T3> {
fn bic_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait BicsEmitter<T0, T1, T2> {
fn bics(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Bics4Emitter<T0, T1, T2, T3> {
fn bics_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait BrkEmitter<T0> {
fn brk(&mut self, op0: T0);
}
pub trait CcmnEmitter<T0, T1, T2, T3> {
fn ccmn(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait CcmpEmitter<T0, T1, T2, T3> {
fn ccmp(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait CincEmitter<T0, T1, T2> {
fn cinc(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CinvEmitter<T0, T1, T2> {
fn cinv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait ClrexEmitter<T0> {
fn clrex(&mut self, op0: T0);
}
pub trait ClsEmitter<T0, T1> {
fn cls(&mut self, op0: T0, op1: T1);
}
pub trait ClzEmitter<T0, T1> {
fn clz(&mut self, op0: T0, op1: T1);
}
pub trait CmnEmitter<T0, T1> {
fn cmn(&mut self, op0: T0, op1: T1);
}
pub trait Cmn3Emitter<T0, T1, T2> {
fn cmn_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmpEmitter<T0, T1> {
fn cmp(&mut self, op0: T0, op1: T1);
}
pub trait Cmp3Emitter<T0, T1, T2> {
fn cmp_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CnegEmitter<T0, T1, T2> {
fn cneg(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CselEmitter<T0, T1, T2, T3> {
fn csel(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait CsetEmitter<T0, T1> {
fn cset(&mut self, op0: T0, op1: T1);
}
pub trait CsetmEmitter<T0, T1> {
fn csetm(&mut self, op0: T0, op1: T1);
}
pub trait CsincEmitter<T0, T1, T2, T3> {
fn csinc(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait CsinvEmitter<T0, T1, T2, T3> {
fn csinv(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait CsnegEmitter<T0, T1, T2, T3> {
fn csneg(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait DcEmitter<T0, T1> {
fn dc(&mut self, op0: T0, op1: T1);
}
pub trait DmbEmitter<T0> {
fn dmb(&mut self, op0: T0);
}
pub trait DsbEmitter<T0> {
fn dsb(&mut self, op0: T0);
}
pub trait DrpsEmitter {
fn drps(&mut self);
}
pub trait EonEmitter<T0, T1, T2> {
fn eon(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Eon4Emitter<T0, T1, T2, T3> {
fn eon_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait EorEmitter<T0, T1, T2> {
fn eor(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Eor4Emitter<T0, T1, T2, T3> {
fn eor_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait EretEmitter {
fn eret(&mut self);
}
pub trait EsbEmitter {
fn esb(&mut self);
}
pub trait ExtrEmitter<T0, T1, T2, T3> {
fn extr(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait HltEmitter<T0> {
fn hlt(&mut self, op0: T0);
}
pub trait HvcEmitter<T0> {
fn hvc(&mut self, op0: T0);
}
pub trait IcEmitter<T0, T1> {
fn ic(&mut self, op0: T0, op1: T1);
}
pub trait IsbEmitter<T0> {
fn isb(&mut self, op0: T0);
}
pub trait LslEmitter<T0, T1, T2> {
fn lsl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LslvEmitter<T0, T1, T2> {
fn lslv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LsrEmitter<T0, T1, T2> {
fn lsr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LsrvEmitter<T0, T1, T2> {
fn lsrv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MaddEmitter<T0, T1, T2, T3> {
fn madd(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait MnegEmitter<T0, T1, T2> {
fn mneg(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MovEmitter<T0, T1> {
fn mov(&mut self, op0: T0, op1: T1);
}
pub trait MovkEmitter<T0, T1> {
fn movk(&mut self, op0: T0, op1: T1);
}
pub trait Movk3Emitter<T0, T1, T2> {
fn movk_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MovnEmitter<T0, T1> {
fn movn(&mut self, op0: T0, op1: T1);
}
pub trait Movn3Emitter<T0, T1, T2> {
fn movn_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MovzEmitter<T0, T1> {
fn movz(&mut self, op0: T0, op1: T1);
}
pub trait Movz3Emitter<T0, T1, T2> {
fn movz_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MrsEmitter<T0, T1> {
fn mrs(&mut self, op0: T0, op1: T1);
}
pub trait MsrEmitter<T0, T1> {
fn msr(&mut self, op0: T0, op1: T1);
}
pub trait MsubEmitter<T0, T1, T2, T3> {
fn msub(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait MulEmitter<T0, T1, T2> {
fn mul(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MvnEmitter<T0, T1> {
fn mvn(&mut self, op0: T0, op1: T1);
}
pub trait Mvn3Emitter<T0, T1, T2> {
fn mvn_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Mvn_Emitter<T0, T1> {
fn mvn_(&mut self, op0: T0, op1: T1);
}
pub trait Mvn_3Emitter<T0, T1, T2> {
fn mvn__3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait NegEmitter<T0, T1> {
fn neg(&mut self, op0: T0, op1: T1);
}
pub trait Neg3Emitter<T0, T1, T2> {
fn neg_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait NegsEmitter<T0, T1> {
fn negs(&mut self, op0: T0, op1: T1);
}
pub trait Negs3Emitter<T0, T1, T2> {
fn negs_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait NgcEmitter<T0, T1> {
fn ngc(&mut self, op0: T0, op1: T1);
}
pub trait NgcsEmitter<T0, T1> {
fn ngcs(&mut self, op0: T0, op1: T1);
}
pub trait OrnEmitter<T0, T1, T2> {
fn orn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Orn4Emitter<T0, T1, T2, T3> {
fn orn_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait OrrEmitter<T0, T1, T2> {
fn orr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Orr4Emitter<T0, T1, T2, T3> {
fn orr_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait RbitEmitter<T0, T1> {
fn rbit(&mut self, op0: T0, op1: T1);
}
pub trait RetEmitter<T0> {
fn ret(&mut self, op0: T0);
}
pub trait RevEmitter<T0, T1> {
fn rev(&mut self, op0: T0, op1: T1);
}
pub trait Rev16Emitter<T0, T1> {
fn rev16(&mut self, op0: T0, op1: T1);
}
pub trait Rev32Emitter<T0, T1> {
fn rev32(&mut self, op0: T0, op1: T1);
}
pub trait Rev64Emitter<T0, T1> {
fn rev64(&mut self, op0: T0, op1: T1);
}
pub trait RorEmitter<T0, T1, T2> {
fn ror(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait RorvEmitter<T0, T1, T2> {
fn rorv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SbcEmitter<T0, T1, T2> {
fn sbc(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SbcsEmitter<T0, T1, T2> {
fn sbcs(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SbfizEmitter<T0, T1, T2, T3> {
fn sbfiz(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait SbfmEmitter<T0, T1, T2, T3> {
fn sbfm(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait SbfxEmitter<T0, T1, T2, T3> {
fn sbfx(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait SdivEmitter<T0, T1, T2> {
fn sdiv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmaddlEmitter<T0, T1, T2, T3> {
fn smaddl(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait SmcEmitter<T0> {
fn smc(&mut self, op0: T0);
}
pub trait SmneglEmitter<T0, T1, T2> {
fn smnegl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmsublEmitter<T0, T1, T2, T3> {
fn smsubl(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait SmulhEmitter<T0, T1, T2> {
fn smulh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmullEmitter<T0, T1, T2> {
fn smull(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SubEmitter<T0, T1, T2> {
fn sub(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sub4Emitter<T0, T1, T2, T3> {
fn sub_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait SubsEmitter<T0, T1, T2> {
fn subs(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Subs4Emitter<T0, T1, T2, T3> {
fn subs_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait SvcEmitter<T0> {
fn svc(&mut self, op0: T0);
}
pub trait SxtbEmitter<T0, T1> {
fn sxtb(&mut self, op0: T0, op1: T1);
}
pub trait SxthEmitter<T0, T1> {
fn sxth(&mut self, op0: T0, op1: T1);
}
pub trait SxtwEmitter<T0, T1> {
fn sxtw(&mut self, op0: T0, op1: T1);
}
pub trait SysEmitter<T0, T1, T2, T3> {
fn sys(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Sys5Emitter<T0, T1, T2, T3, T4> {
fn sys_5(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait TlbiEmitter<T0, T1> {
fn tlbi(&mut self, op0: T0, op1: T1);
}
pub trait TstEmitter<T0, T1> {
fn tst(&mut self, op0: T0, op1: T1);
}
pub trait Tst3Emitter<T0, T1, T2> {
fn tst_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UdivEmitter<T0, T1, T2> {
fn udiv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UbfizEmitter<T0, T1, T2, T3> {
fn ubfiz(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait UbfmEmitter<T0, T1, T2, T3> {
fn ubfm(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait UbfxEmitter<T0, T1, T2, T3> {
fn ubfx(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait UmaddlEmitter<T0, T1, T2, T3> {
fn umaddl(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait UmneglEmitter<T0, T1, T2> {
fn umnegl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmsublEmitter<T0, T1, T2, T3> {
fn umsubl(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait UmullEmitter<T0, T1, T2> {
fn umull(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmulhEmitter<T0, T1, T2> {
fn umulh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UxtbEmitter<T0, T1> {
fn uxtb(&mut self, op0: T0, op1: T1);
}
pub trait UxthEmitter<T0, T1> {
fn uxth(&mut self, op0: T0, op1: T1);
}
pub trait CsdbEmitter {
fn csdb(&mut self);
}
pub trait Dcps1Emitter<T0> {
fn dcps1(&mut self, op0: T0);
}
pub trait Dcps2Emitter<T0> {
fn dcps2(&mut self, op0: T0);
}
pub trait Dcps3Emitter<T0> {
fn dcps3(&mut self, op0: T0);
}
pub trait PssbbEmitter {
fn pssbb(&mut self);
}
pub trait SsbbEmitter {
fn ssbb(&mut self);
}
pub trait UdfEmitter<T0> {
fn udf(&mut self, op0: T0);
}
pub trait BEmitter<T0> {
fn b(&mut self, op0: T0);
fn b_eq(&mut self, op0: T0);
fn b_ne(&mut self, op0: T0);
fn b_cs(&mut self, op0: T0);
fn b_hs(&mut self, op0: T0);
fn b_cc(&mut self, op0: T0);
fn b_lo(&mut self, op0: T0);
fn b_mi(&mut self, op0: T0);
fn b_pl(&mut self, op0: T0);
fn b_vs(&mut self, op0: T0);
fn b_vc(&mut self, op0: T0);
fn b_hi(&mut self, op0: T0);
fn b_ls(&mut self, op0: T0);
fn b_ge(&mut self, op0: T0);
fn b_lt(&mut self, op0: T0);
fn b_gt(&mut self, op0: T0);
fn b_le(&mut self, op0: T0);
fn b_al(&mut self, op0: T0);
}
pub trait BlEmitter<T0> {
fn bl(&mut self, op0: T0);
}
pub trait BlrEmitter<T0> {
fn blr(&mut self, op0: T0);
}
pub trait BrEmitter<T0> {
fn br(&mut self, op0: T0);
}
pub trait CbzEmitter<T0, T1> {
fn cbz(&mut self, op0: T0, op1: T1);
}
pub trait CbnzEmitter<T0, T1> {
fn cbnz(&mut self, op0: T0, op1: T1);
}
pub trait TbnzEmitter<T0, T1, T2> {
fn tbnz(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait TbzEmitter<T0, T1, T2> {
fn tbz(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasEmitter<T0, T1, T2> {
fn cas(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasaEmitter<T0, T1, T2> {
fn casa(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasabEmitter<T0, T1, T2> {
fn casab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasahEmitter<T0, T1, T2> {
fn casah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasalEmitter<T0, T1, T2> {
fn casal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasalbEmitter<T0, T1, T2> {
fn casalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasalhEmitter<T0, T1, T2> {
fn casalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CasbEmitter<T0, T1, T2> {
fn casb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CashEmitter<T0, T1, T2> {
fn cash(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CaslEmitter<T0, T1, T2> {
fn casl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CaslbEmitter<T0, T1, T2> {
fn caslb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CaslhEmitter<T0, T1, T2> {
fn caslh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CaspEmitter<T0, T1, T2, T3, T4> {
fn casp(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait CaspaEmitter<T0, T1, T2, T3, T4> {
fn caspa(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait CaspalEmitter<T0, T1, T2, T3, T4> {
fn caspal(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait CasplEmitter<T0, T1, T2, T3, T4> {
fn caspl(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait LdaddEmitter<T0, T1, T2> {
fn ldadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddaEmitter<T0, T1, T2> {
fn ldadda(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddabEmitter<T0, T1, T2> {
fn ldaddab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddahEmitter<T0, T1, T2> {
fn ldaddah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddalEmitter<T0, T1, T2> {
fn ldaddal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddalbEmitter<T0, T1, T2> {
fn ldaddalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddalhEmitter<T0, T1, T2> {
fn ldaddalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddbEmitter<T0, T1, T2> {
fn ldaddb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddhEmitter<T0, T1, T2> {
fn ldaddh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddlEmitter<T0, T1, T2> {
fn ldaddl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddlbEmitter<T0, T1, T2> {
fn ldaddlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaddlhEmitter<T0, T1, T2> {
fn ldaddlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdarEmitter<T0, T1> {
fn ldar(&mut self, op0: T0, op1: T1);
}
pub trait LdarbEmitter<T0, T1> {
fn ldarb(&mut self, op0: T0, op1: T1);
}
pub trait LdarhEmitter<T0, T1> {
fn ldarh(&mut self, op0: T0, op1: T1);
}
pub trait LdaxrEmitter<T0, T1> {
fn ldaxr(&mut self, op0: T0, op1: T1);
}
pub trait LdaxrbEmitter<T0, T1> {
fn ldaxrb(&mut self, op0: T0, op1: T1);
}
pub trait LdaxrhEmitter<T0, T1> {
fn ldaxrh(&mut self, op0: T0, op1: T1);
}
pub trait LdclrEmitter<T0, T1, T2> {
fn ldclr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclraEmitter<T0, T1, T2> {
fn ldclra(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclrabEmitter<T0, T1, T2> {
fn ldclrab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclrahEmitter<T0, T1, T2> {
fn ldclrah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclralEmitter<T0, T1, T2> {
fn ldclral(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclralbEmitter<T0, T1, T2> {
fn ldclralb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclralhEmitter<T0, T1, T2> {
fn ldclralh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclrbEmitter<T0, T1, T2> {
fn ldclrb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclrhEmitter<T0, T1, T2> {
fn ldclrh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclrlEmitter<T0, T1, T2> {
fn ldclrl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclrlbEmitter<T0, T1, T2> {
fn ldclrlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdclrlhEmitter<T0, T1, T2> {
fn ldclrlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorEmitter<T0, T1, T2> {
fn ldeor(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeoraEmitter<T0, T1, T2> {
fn ldeora(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorabEmitter<T0, T1, T2> {
fn ldeorab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorahEmitter<T0, T1, T2> {
fn ldeorah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeoralEmitter<T0, T1, T2> {
fn ldeoral(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeoralbEmitter<T0, T1, T2> {
fn ldeoralb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeoralhEmitter<T0, T1, T2> {
fn ldeoralh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorbEmitter<T0, T1, T2> {
fn ldeorb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorhEmitter<T0, T1, T2> {
fn ldeorh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorlEmitter<T0, T1, T2> {
fn ldeorl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorlbEmitter<T0, T1, T2> {
fn ldeorlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdeorlhEmitter<T0, T1, T2> {
fn ldeorlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdlarEmitter<T0, T1> {
fn ldlar(&mut self, op0: T0, op1: T1);
}
pub trait LdlarbEmitter<T0, T1> {
fn ldlarb(&mut self, op0: T0, op1: T1);
}
pub trait LdlarhEmitter<T0, T1> {
fn ldlarh(&mut self, op0: T0, op1: T1);
}
pub trait LdnpEmitter<T0, T1, T2> {
fn ldnp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdpEmitter<T0, T1, T2> {
fn ldp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdpswEmitter<T0, T1, T2> {
fn ldpsw(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdrEmitter<T0, T1> {
fn ldr(&mut self, op0: T0, op1: T1);
}
pub trait LdrbEmitter<T0, T1> {
fn ldrb(&mut self, op0: T0, op1: T1);
}
pub trait LdrhEmitter<T0, T1> {
fn ldrh(&mut self, op0: T0, op1: T1);
}
pub trait LdrsbEmitter<T0, T1> {
fn ldrsb(&mut self, op0: T0, op1: T1);
}
pub trait LdrshEmitter<T0, T1> {
fn ldrsh(&mut self, op0: T0, op1: T1);
}
pub trait LdrswEmitter<T0, T1> {
fn ldrsw(&mut self, op0: T0, op1: T1);
}
pub trait LdsetEmitter<T0, T1, T2> {
fn ldset(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetaEmitter<T0, T1, T2> {
fn ldseta(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetabEmitter<T0, T1, T2> {
fn ldsetab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetahEmitter<T0, T1, T2> {
fn ldsetah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetalEmitter<T0, T1, T2> {
fn ldsetal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetalbEmitter<T0, T1, T2> {
fn ldsetalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetalhEmitter<T0, T1, T2> {
fn ldsetalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetbEmitter<T0, T1, T2> {
fn ldsetb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsethEmitter<T0, T1, T2> {
fn ldseth(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetlEmitter<T0, T1, T2> {
fn ldsetl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetlbEmitter<T0, T1, T2> {
fn ldsetlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsetlhEmitter<T0, T1, T2> {
fn ldsetlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxEmitter<T0, T1, T2> {
fn ldsmax(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxaEmitter<T0, T1, T2> {
fn ldsmaxa(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxabEmitter<T0, T1, T2> {
fn ldsmaxab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxahEmitter<T0, T1, T2> {
fn ldsmaxah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxalEmitter<T0, T1, T2> {
fn ldsmaxal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxalbEmitter<T0, T1, T2> {
fn ldsmaxalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxalhEmitter<T0, T1, T2> {
fn ldsmaxalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxbEmitter<T0, T1, T2> {
fn ldsmaxb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxhEmitter<T0, T1, T2> {
fn ldsmaxh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxlEmitter<T0, T1, T2> {
fn ldsmaxl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxlbEmitter<T0, T1, T2> {
fn ldsmaxlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsmaxlhEmitter<T0, T1, T2> {
fn ldsmaxlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminEmitter<T0, T1, T2> {
fn ldsmin(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminaEmitter<T0, T1, T2> {
fn ldsmina(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminabEmitter<T0, T1, T2> {
fn ldsminab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminahEmitter<T0, T1, T2> {
fn ldsminah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminalEmitter<T0, T1, T2> {
fn ldsminal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminalbEmitter<T0, T1, T2> {
fn ldsminalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminalhEmitter<T0, T1, T2> {
fn ldsminalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminbEmitter<T0, T1, T2> {
fn ldsminb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminhEmitter<T0, T1, T2> {
fn ldsminh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminlEmitter<T0, T1, T2> {
fn ldsminl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminlbEmitter<T0, T1, T2> {
fn ldsminlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdsminlhEmitter<T0, T1, T2> {
fn ldsminlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdtrEmitter<T0, T1> {
fn ldtr(&mut self, op0: T0, op1: T1);
}
pub trait LdtrbEmitter<T0, T1> {
fn ldtrb(&mut self, op0: T0, op1: T1);
}
pub trait LdtrhEmitter<T0, T1> {
fn ldtrh(&mut self, op0: T0, op1: T1);
}
pub trait LdtrsbEmitter<T0, T1> {
fn ldtrsb(&mut self, op0: T0, op1: T1);
}
pub trait LdtrshEmitter<T0, T1> {
fn ldtrsh(&mut self, op0: T0, op1: T1);
}
pub trait LdtrswEmitter<T0, T1> {
fn ldtrsw(&mut self, op0: T0, op1: T1);
}
pub trait LdumaxEmitter<T0, T1, T2> {
fn ldumax(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxaEmitter<T0, T1, T2> {
fn ldumaxa(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxabEmitter<T0, T1, T2> {
fn ldumaxab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxahEmitter<T0, T1, T2> {
fn ldumaxah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxalEmitter<T0, T1, T2> {
fn ldumaxal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxalbEmitter<T0, T1, T2> {
fn ldumaxalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxalhEmitter<T0, T1, T2> {
fn ldumaxalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxbEmitter<T0, T1, T2> {
fn ldumaxb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxhEmitter<T0, T1, T2> {
fn ldumaxh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxlEmitter<T0, T1, T2> {
fn ldumaxl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxlbEmitter<T0, T1, T2> {
fn ldumaxlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdumaxlhEmitter<T0, T1, T2> {
fn ldumaxlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminEmitter<T0, T1, T2> {
fn ldumin(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminaEmitter<T0, T1, T2> {
fn ldumina(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminabEmitter<T0, T1, T2> {
fn lduminab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminahEmitter<T0, T1, T2> {
fn lduminah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminalEmitter<T0, T1, T2> {
fn lduminal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminalbEmitter<T0, T1, T2> {
fn lduminalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminalhEmitter<T0, T1, T2> {
fn lduminalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminbEmitter<T0, T1, T2> {
fn lduminb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminhEmitter<T0, T1, T2> {
fn lduminh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminlEmitter<T0, T1, T2> {
fn lduminl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminlbEmitter<T0, T1, T2> {
fn lduminlb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LduminlhEmitter<T0, T1, T2> {
fn lduminlh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdurEmitter<T0, T1> {
fn ldur(&mut self, op0: T0, op1: T1);
}
pub trait LdurbEmitter<T0, T1> {
fn ldurb(&mut self, op0: T0, op1: T1);
}
pub trait LdurhEmitter<T0, T1> {
fn ldurh(&mut self, op0: T0, op1: T1);
}
pub trait LdursbEmitter<T0, T1> {
fn ldursb(&mut self, op0: T0, op1: T1);
}
pub trait LdurshEmitter<T0, T1> {
fn ldursh(&mut self, op0: T0, op1: T1);
}
pub trait LdurswEmitter<T0, T1> {
fn ldursw(&mut self, op0: T0, op1: T1);
}
pub trait LdxpEmitter<T0, T1, T2> {
fn ldxp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdaxpEmitter<T0, T1, T2> {
fn ldaxp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait LdxrEmitter<T0, T1> {
fn ldxr(&mut self, op0: T0, op1: T1);
}
pub trait LdxrbEmitter<T0, T1> {
fn ldxrb(&mut self, op0: T0, op1: T1);
}
pub trait LdxrhEmitter<T0, T1> {
fn ldxrh(&mut self, op0: T0, op1: T1);
}
pub trait PrfmEmitter<T0, T1> {
fn prfm(&mut self, op0: T0, op1: T1);
}
pub trait StaddEmitter<T0, T1> {
fn stadd(&mut self, op0: T0, op1: T1);
}
pub trait StaddbEmitter<T0, T1> {
fn staddb(&mut self, op0: T0, op1: T1);
}
pub trait StaddhEmitter<T0, T1> {
fn staddh(&mut self, op0: T0, op1: T1);
}
pub trait StaddlEmitter<T0, T1> {
fn staddl(&mut self, op0: T0, op1: T1);
}
pub trait StaddlbEmitter<T0, T1> {
fn staddlb(&mut self, op0: T0, op1: T1);
}
pub trait StaddlhEmitter<T0, T1> {
fn staddlh(&mut self, op0: T0, op1: T1);
}
pub trait StclrEmitter<T0, T1> {
fn stclr(&mut self, op0: T0, op1: T1);
}
pub trait StclrbEmitter<T0, T1> {
fn stclrb(&mut self, op0: T0, op1: T1);
}
pub trait StclrhEmitter<T0, T1> {
fn stclrh(&mut self, op0: T0, op1: T1);
}
pub trait StclrlEmitter<T0, T1> {
fn stclrl(&mut self, op0: T0, op1: T1);
}
pub trait StclrlbEmitter<T0, T1> {
fn stclrlb(&mut self, op0: T0, op1: T1);
}
pub trait StclrlhEmitter<T0, T1> {
fn stclrlh(&mut self, op0: T0, op1: T1);
}
pub trait SteorEmitter<T0, T1> {
fn steor(&mut self, op0: T0, op1: T1);
}
pub trait SteorbEmitter<T0, T1> {
fn steorb(&mut self, op0: T0, op1: T1);
}
pub trait SteorhEmitter<T0, T1> {
fn steorh(&mut self, op0: T0, op1: T1);
}
pub trait SteorlEmitter<T0, T1> {
fn steorl(&mut self, op0: T0, op1: T1);
}
pub trait SteorlbEmitter<T0, T1> {
fn steorlb(&mut self, op0: T0, op1: T1);
}
pub trait SteorlhEmitter<T0, T1> {
fn steorlh(&mut self, op0: T0, op1: T1);
}
pub trait StllrEmitter<T0, T1> {
fn stllr(&mut self, op0: T0, op1: T1);
}
pub trait StllrbEmitter<T0, T1> {
fn stllrb(&mut self, op0: T0, op1: T1);
}
pub trait StllrhEmitter<T0, T1> {
fn stllrh(&mut self, op0: T0, op1: T1);
}
pub trait StlrEmitter<T0, T1> {
fn stlr(&mut self, op0: T0, op1: T1);
}
pub trait StlrbEmitter<T0, T1> {
fn stlrb(&mut self, op0: T0, op1: T1);
}
pub trait StlrhEmitter<T0, T1> {
fn stlrh(&mut self, op0: T0, op1: T1);
}
pub trait StlxrEmitter<T0, T1, T2> {
fn stlxr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StlxrbEmitter<T0, T1, T2> {
fn stlxrb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StlxrhEmitter<T0, T1, T2> {
fn stlxrh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StnpEmitter<T0, T1, T2> {
fn stnp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StpEmitter<T0, T1, T2> {
fn stp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StrEmitter<T0, T1> {
fn str(&mut self, op0: T0, op1: T1);
}
pub trait StrbEmitter<T0, T1> {
fn strb(&mut self, op0: T0, op1: T1);
}
pub trait StrhEmitter<T0, T1> {
fn strh(&mut self, op0: T0, op1: T1);
}
pub trait StsetEmitter<T0, T1> {
fn stset(&mut self, op0: T0, op1: T1);
}
pub trait StsetbEmitter<T0, T1> {
fn stsetb(&mut self, op0: T0, op1: T1);
}
pub trait StsethEmitter<T0, T1> {
fn stseth(&mut self, op0: T0, op1: T1);
}
pub trait StsetlEmitter<T0, T1> {
fn stsetl(&mut self, op0: T0, op1: T1);
}
pub trait StsetlbEmitter<T0, T1> {
fn stsetlb(&mut self, op0: T0, op1: T1);
}
pub trait StsetlhEmitter<T0, T1> {
fn stsetlh(&mut self, op0: T0, op1: T1);
}
pub trait StsmaxEmitter<T0, T1> {
fn stsmax(&mut self, op0: T0, op1: T1);
}
pub trait StsmaxbEmitter<T0, T1> {
fn stsmaxb(&mut self, op0: T0, op1: T1);
}
pub trait StsmaxhEmitter<T0, T1> {
fn stsmaxh(&mut self, op0: T0, op1: T1);
}
pub trait StsmaxlEmitter<T0, T1> {
fn stsmaxl(&mut self, op0: T0, op1: T1);
}
pub trait StsmaxlbEmitter<T0, T1> {
fn stsmaxlb(&mut self, op0: T0, op1: T1);
}
pub trait StsmaxlhEmitter<T0, T1> {
fn stsmaxlh(&mut self, op0: T0, op1: T1);
}
pub trait StsminEmitter<T0, T1> {
fn stsmin(&mut self, op0: T0, op1: T1);
}
pub trait StsminbEmitter<T0, T1> {
fn stsminb(&mut self, op0: T0, op1: T1);
}
pub trait StsminhEmitter<T0, T1> {
fn stsminh(&mut self, op0: T0, op1: T1);
}
pub trait StsminlEmitter<T0, T1> {
fn stsminl(&mut self, op0: T0, op1: T1);
}
pub trait StsminlbEmitter<T0, T1> {
fn stsminlb(&mut self, op0: T0, op1: T1);
}
pub trait StsminlhEmitter<T0, T1> {
fn stsminlh(&mut self, op0: T0, op1: T1);
}
pub trait SttrEmitter<T0, T1> {
fn sttr(&mut self, op0: T0, op1: T1);
}
pub trait SttrbEmitter<T0, T1> {
fn sttrb(&mut self, op0: T0, op1: T1);
}
pub trait SttrhEmitter<T0, T1> {
fn sttrh(&mut self, op0: T0, op1: T1);
}
pub trait StumaxEmitter<T0, T1> {
fn stumax(&mut self, op0: T0, op1: T1);
}
pub trait StumaxbEmitter<T0, T1> {
fn stumaxb(&mut self, op0: T0, op1: T1);
}
pub trait StumaxhEmitter<T0, T1> {
fn stumaxh(&mut self, op0: T0, op1: T1);
}
pub trait StumaxlEmitter<T0, T1> {
fn stumaxl(&mut self, op0: T0, op1: T1);
}
pub trait StumaxlbEmitter<T0, T1> {
fn stumaxlb(&mut self, op0: T0, op1: T1);
}
pub trait StumaxlhEmitter<T0, T1> {
fn stumaxlh(&mut self, op0: T0, op1: T1);
}
pub trait StuminEmitter<T0, T1> {
fn stumin(&mut self, op0: T0, op1: T1);
}
pub trait StuminbEmitter<T0, T1> {
fn stuminb(&mut self, op0: T0, op1: T1);
}
pub trait StuminhEmitter<T0, T1> {
fn stuminh(&mut self, op0: T0, op1: T1);
}
pub trait StuminlEmitter<T0, T1> {
fn stuminl(&mut self, op0: T0, op1: T1);
}
pub trait StuminlbEmitter<T0, T1> {
fn stuminlb(&mut self, op0: T0, op1: T1);
}
pub trait StuminlhEmitter<T0, T1> {
fn stuminlh(&mut self, op0: T0, op1: T1);
}
pub trait SturEmitter<T0, T1> {
fn stur(&mut self, op0: T0, op1: T1);
}
pub trait SturbEmitter<T0, T1> {
fn sturb(&mut self, op0: T0, op1: T1);
}
pub trait SturhEmitter<T0, T1> {
fn sturh(&mut self, op0: T0, op1: T1);
}
pub trait StxpEmitter<T0, T1, T2, T3> {
fn stxp(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait StlxpEmitter<T0, T1, T2, T3> {
fn stlxp(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait StxrEmitter<T0, T1, T2> {
fn stxr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StxrbEmitter<T0, T1, T2> {
fn stxrb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StxrhEmitter<T0, T1, T2> {
fn stxrh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpEmitter<T0, T1, T2> {
fn swp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpaEmitter<T0, T1, T2> {
fn swpa(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpabEmitter<T0, T1, T2> {
fn swpab(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpahEmitter<T0, T1, T2> {
fn swpah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpalEmitter<T0, T1, T2> {
fn swpal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpalbEmitter<T0, T1, T2> {
fn swpalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpalhEmitter<T0, T1, T2> {
fn swpalh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwpbEmitter<T0, T1, T2> {
fn swpb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwphEmitter<T0, T1, T2> {
fn swph(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwplEmitter<T0, T1, T2> {
fn swpl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwplbEmitter<T0, T1, T2> {
fn swplb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SwplhEmitter<T0, T1, T2> {
fn swplh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BtiEmitter<T0> {
fn bti(&mut self, op0: T0);
}
pub trait ChkfeatEmitter<T0> {
fn chkfeat(&mut self, op0: T0);
}
pub trait ClrbhbEmitter {
fn clrbhb(&mut self);
}
pub trait Crc32bEmitter<T0, T1, T2> {
fn crc32b(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Crc32hEmitter<T0, T1, T2> {
fn crc32h(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Crc32wEmitter<T0, T1, T2> {
fn crc32w(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Crc32xEmitter<T0, T1, T2> {
fn crc32x(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Crc32cbEmitter<T0, T1, T2> {
fn crc32cb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Crc32chEmitter<T0, T1, T2> {
fn crc32ch(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Crc32cwEmitter<T0, T1, T2> {
fn crc32cw(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Crc32cxEmitter<T0, T1, T2> {
fn crc32cx(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AbsEmitter<T0, T1> {
fn abs(&mut self, op0: T0, op1: T1);
}
pub trait CntEmitter<T0, T1> {
fn cnt(&mut self, op0: T0, op1: T1);
}
pub trait CtzEmitter<T0, T1> {
fn ctz(&mut self, op0: T0, op1: T1);
}
pub trait SmaxEmitter<T0, T1, T2> {
fn smax(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SminEmitter<T0, T1, T2> {
fn smin(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmaxEmitter<T0, T1, T2> {
fn umax(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UminEmitter<T0, T1, T2> {
fn umin(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait DghEmitter {
fn dgh(&mut self);
}
pub trait CfinvEmitter {
fn cfinv(&mut self);
}
pub trait Setf8Emitter<T0> {
fn setf8(&mut self, op0: T0);
}
pub trait Setf16Emitter<T0> {
fn setf16(&mut self, op0: T0);
}
pub trait AxflagEmitter {
fn axflag(&mut self);
}
pub trait XaflagEmitter {
fn xaflag(&mut self);
}
pub trait BcEmitter<T0> {
fn bc_eq(&mut self, op0: T0);
fn bc_ne(&mut self, op0: T0);
fn bc_cs(&mut self, op0: T0);
fn bc_hs(&mut self, op0: T0);
fn bc_cc(&mut self, op0: T0);
fn bc_lo(&mut self, op0: T0);
fn bc_mi(&mut self, op0: T0);
fn bc_pl(&mut self, op0: T0);
fn bc_vs(&mut self, op0: T0);
fn bc_vc(&mut self, op0: T0);
fn bc_hi(&mut self, op0: T0);
fn bc_ls(&mut self, op0: T0);
fn bc_ge(&mut self, op0: T0);
fn bc_lt(&mut self, op0: T0);
fn bc_gt(&mut self, op0: T0);
fn bc_le(&mut self, op0: T0);
fn bc_al(&mut self, op0: T0);
}
pub trait AutdaEmitter<T0, T1> {
fn autda(&mut self, op0: T0, op1: T1);
}
pub trait AutdbEmitter<T0, T1> {
fn autdb(&mut self, op0: T0, op1: T1);
}
pub trait AutdzaEmitter<T0> {
fn autdza(&mut self, op0: T0);
}
pub trait AutdzbEmitter<T0> {
fn autdzb(&mut self, op0: T0);
}
pub trait AutiaEmitter<T0, T1> {
fn autia(&mut self, op0: T0, op1: T1);
}
pub trait Autia1716Emitter {
fn autia1716(&mut self);
}
pub trait AutiaspEmitter {
fn autiasp(&mut self);
}
pub trait AutiazEmitter {
fn autiaz(&mut self);
}
pub trait AutibEmitter<T0, T1> {
fn autib(&mut self, op0: T0, op1: T1);
}
pub trait Autib1716Emitter {
fn autib1716(&mut self);
}
pub trait AutibspEmitter {
fn autibsp(&mut self);
}
pub trait AutibzEmitter {
fn autibz(&mut self);
}
pub trait AutizaEmitter<T0> {
fn autiza(&mut self, op0: T0);
}
pub trait AutizbEmitter<T0> {
fn autizb(&mut self, op0: T0);
}
pub trait GmiEmitter<T0, T1, T2> {
fn gmi(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmppEmitter<T0, T1> {
fn cmpp(&mut self, op0: T0, op1: T1);
}
pub trait AddgEmitter<T0, T1, T2, T3> {
fn addg(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait LdgEmitter<T0, T1> {
fn ldg(&mut self, op0: T0, op1: T1);
}
pub trait LdgmEmitter<T0, T1> {
fn ldgm(&mut self, op0: T0, op1: T1);
}
pub trait LdraaEmitter<T0, T1> {
fn ldraa(&mut self, op0: T0, op1: T1);
}
pub trait LdrabEmitter<T0, T1> {
fn ldrab(&mut self, op0: T0, op1: T1);
}
pub trait PacdaEmitter<T0, T1> {
fn pacda(&mut self, op0: T0, op1: T1);
}
pub trait PacdbEmitter<T0, T1> {
fn pacdb(&mut self, op0: T0, op1: T1);
}
pub trait PacdzaEmitter<T0> {
fn pacdza(&mut self, op0: T0);
}
pub trait PacdzbEmitter<T0> {
fn pacdzb(&mut self, op0: T0);
}
pub trait PacgaEmitter<T0, T1, T2> {
fn pacga(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SubpEmitter<T0, T1, T2> {
fn subp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SubpsEmitter<T0, T1, T2> {
fn subps(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SubgEmitter<T0, T1, T2, T3> {
fn subg(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait St2gEmitter<T0, T1> {
fn st2g(&mut self, op0: T0, op1: T1);
}
pub trait StgEmitter<T0, T1> {
fn stg(&mut self, op0: T0, op1: T1);
}
pub trait StgpEmitter<T0, T1, T2> {
fn stgp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait StgmEmitter<T0, T1> {
fn stgm(&mut self, op0: T0, op1: T1);
}
pub trait StzgEmitter<T0, T1> {
fn stzg(&mut self, op0: T0, op1: T1);
}
pub trait Stz2gEmitter<T0, T1> {
fn stz2g(&mut self, op0: T0, op1: T1);
}
pub trait StzgmEmitter<T0, T1> {
fn stzgm(&mut self, op0: T0, op1: T1);
}
pub trait XpacdEmitter<T0> {
fn xpacd(&mut self, op0: T0);
}
pub trait XpaciEmitter<T0> {
fn xpaci(&mut self, op0: T0);
}
pub trait XpaclriEmitter {
fn xpaclri(&mut self);
}
pub trait HintEmitter<T0> {
fn hint(&mut self, op0: T0);
}
pub trait NopEmitter {
fn nop(&mut self);
}
pub trait SevEmitter {
fn sev(&mut self);
}
pub trait SevlEmitter {
fn sevl(&mut self);
}
pub trait WfeEmitter {
fn wfe(&mut self);
}
pub trait WfiEmitter {
fn wfi(&mut self);
}
pub trait YieldEmitter {
fn r#yield(&mut self);
}
pub trait AddhnEmitter<T0, T1, T2> {
fn addhn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Addhn2Emitter<T0, T1, T2> {
fn addhn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AddpEmitter<T0, T1> {
fn addp(&mut self, op0: T0, op1: T1);
}
pub trait Addp3Emitter<T0, T1, T2> {
fn addp_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AddvEmitter<T0, T1> {
fn addv(&mut self, op0: T0, op1: T1);
}
pub trait Bic2Emitter<T0, T1> {
fn bic_2(&mut self, op0: T0, op1: T1);
}
pub trait BifEmitter<T0, T1, T2> {
fn bif(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BitEmitter<T0, T1, T2> {
fn bit(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BslEmitter<T0, T1, T2> {
fn bsl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmeqEmitter<T0, T1, T2> {
fn cmeq(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmgeEmitter<T0, T1, T2> {
fn cmge(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmgtEmitter<T0, T1, T2> {
fn cmgt(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmhiEmitter<T0, T1, T2> {
fn cmhi(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmhsEmitter<T0, T1, T2> {
fn cmhs(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmleEmitter<T0, T1, T2> {
fn cmle(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmltEmitter<T0, T1, T2> {
fn cmlt(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait CmtstEmitter<T0, T1, T2> {
fn cmtst(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait DupEmitter<T0, T1> {
fn dup(&mut self, op0: T0, op1: T1);
}
pub trait ExtEmitter<T0, T1, T2, T3> {
fn ext(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FabdEmitter<T0, T1, T2> {
fn fabd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FabsEmitter<T0, T1> {
fn fabs(&mut self, op0: T0, op1: T1);
}
pub trait FacgeEmitter<T0, T1, T2> {
fn facge(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FacgtEmitter<T0, T1, T2> {
fn facgt(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FaddEmitter<T0, T1, T2> {
fn fadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FaddpEmitter<T0, T1> {
fn faddp(&mut self, op0: T0, op1: T1);
}
pub trait Faddp3Emitter<T0, T1, T2> {
fn faddp_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FccmpEmitter<T0, T1, T2, T3> {
fn fccmp(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FccmpeEmitter<T0, T1, T2, T3> {
fn fccmpe(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FcmeqEmitter<T0, T1, T2> {
fn fcmeq(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FcmgeEmitter<T0, T1, T2> {
fn fcmge(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FcmgtEmitter<T0, T1, T2> {
fn fcmgt(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FcmleEmitter<T0, T1, T2> {
fn fcmle(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FcmltEmitter<T0, T1, T2> {
fn fcmlt(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FcmpEmitter<T0, T1> {
fn fcmp(&mut self, op0: T0, op1: T1);
}
pub trait FcmpeEmitter<T0, T1> {
fn fcmpe(&mut self, op0: T0, op1: T1);
}
pub trait FcselEmitter<T0, T1, T2, T3> {
fn fcsel(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FcvtEmitter<T0, T1> {
fn fcvt(&mut self, op0: T0, op1: T1);
}
pub trait FcvtasEmitter<T0, T1> {
fn fcvtas(&mut self, op0: T0, op1: T1);
}
pub trait FcvtauEmitter<T0, T1> {
fn fcvtau(&mut self, op0: T0, op1: T1);
}
pub trait FcvtlEmitter<T0, T1> {
fn fcvtl(&mut self, op0: T0, op1: T1);
}
pub trait Fcvtl2Emitter<T0, T1> {
fn fcvtl2(&mut self, op0: T0, op1: T1);
}
pub trait FcvtmsEmitter<T0, T1> {
fn fcvtms(&mut self, op0: T0, op1: T1);
}
pub trait FcvtmuEmitter<T0, T1> {
fn fcvtmu(&mut self, op0: T0, op1: T1);
}
pub trait FcvtnEmitter<T0, T1> {
fn fcvtn(&mut self, op0: T0, op1: T1);
}
pub trait Fcvtn2Emitter<T0, T1> {
fn fcvtn2(&mut self, op0: T0, op1: T1);
}
pub trait FcvtnsEmitter<T0, T1> {
fn fcvtns(&mut self, op0: T0, op1: T1);
}
pub trait FcvtnuEmitter<T0, T1> {
fn fcvtnu(&mut self, op0: T0, op1: T1);
}
pub trait FcvtpsEmitter<T0, T1> {
fn fcvtps(&mut self, op0: T0, op1: T1);
}
pub trait FcvtpuEmitter<T0, T1> {
fn fcvtpu(&mut self, op0: T0, op1: T1);
}
pub trait FcvtxnEmitter<T0, T1> {
fn fcvtxn(&mut self, op0: T0, op1: T1);
}
pub trait Fcvtxn2Emitter<T0, T1> {
fn fcvtxn2(&mut self, op0: T0, op1: T1);
}
pub trait FcvtzsEmitter<T0, T1> {
fn fcvtzs(&mut self, op0: T0, op1: T1);
}
pub trait Fcvtzs3Emitter<T0, T1, T2> {
fn fcvtzs_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FcvtzuEmitter<T0, T1> {
fn fcvtzu(&mut self, op0: T0, op1: T1);
}
pub trait Fcvtzu3Emitter<T0, T1, T2> {
fn fcvtzu_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FdivEmitter<T0, T1, T2> {
fn fdiv(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FmaddEmitter<T0, T1, T2, T3> {
fn fmadd(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FmaxEmitter<T0, T1, T2> {
fn fmax(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FmaxnmEmitter<T0, T1, T2> {
fn fmaxnm(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FmaxnmpEmitter<T0, T1, T2> {
fn fmaxnmp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Fmaxnmp2Emitter<T0, T1> {
fn fmaxnmp_2(&mut self, op0: T0, op1: T1);
}
pub trait FmaxnmvEmitter<T0, T1> {
fn fmaxnmv(&mut self, op0: T0, op1: T1);
}
pub trait FmaxpEmitter<T0, T1, T2> {
fn fmaxp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Fmaxp2Emitter<T0, T1> {
fn fmaxp_2(&mut self, op0: T0, op1: T1);
}
pub trait FmaxvEmitter<T0, T1> {
fn fmaxv(&mut self, op0: T0, op1: T1);
}
pub trait FminEmitter<T0, T1, T2> {
fn fmin(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FminnmEmitter<T0, T1, T2> {
fn fminnm(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FminnmvEmitter<T0, T1> {
fn fminnmv(&mut self, op0: T0, op1: T1);
}
pub trait FminnmpEmitter<T0, T1, T2> {
fn fminnmp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Fminnmp2Emitter<T0, T1> {
fn fminnmp_2(&mut self, op0: T0, op1: T1);
}
pub trait FminpEmitter<T0, T1> {
fn fminp(&mut self, op0: T0, op1: T1);
}
pub trait Fminp3Emitter<T0, T1, T2> {
fn fminp_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FminvEmitter<T0, T1> {
fn fminv(&mut self, op0: T0, op1: T1);
}
pub trait FmlaEmitter<T0, T1, T2> {
fn fmla(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FmlsEmitter<T0, T1, T2> {
fn fmls(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FmovEmitter<T0, T1> {
fn fmov(&mut self, op0: T0, op1: T1);
}
pub trait FmsubEmitter<T0, T1, T2, T3> {
fn fmsub(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FmulEmitter<T0, T1, T2> {
fn fmul(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FmulxEmitter<T0, T1, T2> {
fn fmulx(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FnegEmitter<T0, T1> {
fn fneg(&mut self, op0: T0, op1: T1);
}
pub trait FnmaddEmitter<T0, T1, T2, T3> {
fn fnmadd(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FnmsubEmitter<T0, T1, T2, T3> {
fn fnmsub(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FnmulEmitter<T0, T1, T2> {
fn fnmul(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FrecpeEmitter<T0, T1> {
fn frecpe(&mut self, op0: T0, op1: T1);
}
pub trait FrecpsEmitter<T0, T1, T2> {
fn frecps(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FrecpxEmitter<T0, T1> {
fn frecpx(&mut self, op0: T0, op1: T1);
}
pub trait Frint32xEmitter<T0, T1> {
fn frint32x(&mut self, op0: T0, op1: T1);
}
pub trait Frint32zEmitter<T0, T1> {
fn frint32z(&mut self, op0: T0, op1: T1);
}
pub trait Frint64xEmitter<T0, T1> {
fn frint64x(&mut self, op0: T0, op1: T1);
}
pub trait Frint64zEmitter<T0, T1> {
fn frint64z(&mut self, op0: T0, op1: T1);
}
pub trait FrintaEmitter<T0, T1> {
fn frinta(&mut self, op0: T0, op1: T1);
}
pub trait FrintiEmitter<T0, T1> {
fn frinti(&mut self, op0: T0, op1: T1);
}
pub trait FrintmEmitter<T0, T1> {
fn frintm(&mut self, op0: T0, op1: T1);
}
pub trait FrintnEmitter<T0, T1> {
fn frintn(&mut self, op0: T0, op1: T1);
}
pub trait FrintpEmitter<T0, T1> {
fn frintp(&mut self, op0: T0, op1: T1);
}
pub trait FrintxEmitter<T0, T1> {
fn frintx(&mut self, op0: T0, op1: T1);
}
pub trait FrintzEmitter<T0, T1> {
fn frintz(&mut self, op0: T0, op1: T1);
}
pub trait FrsqrteEmitter<T0, T1> {
fn frsqrte(&mut self, op0: T0, op1: T1);
}
pub trait FrsqrtsEmitter<T0, T1, T2> {
fn frsqrts(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FsqrtEmitter<T0, T1> {
fn fsqrt(&mut self, op0: T0, op1: T1);
}
pub trait FsubEmitter<T0, T1, T2> {
fn fsub(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait InsEmitter<T0, T1> {
fn ins(&mut self, op0: T0, op1: T1);
}
pub trait Ld1Emitter<T0, T1> {
fn ld1(&mut self, op0: T0, op1: T1);
}
pub trait Ld13Emitter<T0, T1, T2> {
fn ld1_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Ld14Emitter<T0, T1, T2, T3> {
fn ld1_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Ld15Emitter<T0, T1, T2, T3, T4> {
fn ld1_5(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait Ld1rEmitter<T0, T1> {
fn ld1r(&mut self, op0: T0, op1: T1);
}
pub trait Ld2Emitter<T0, T1, T2> {
fn ld2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Ld2rEmitter<T0, T1, T2> {
fn ld2r(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Ld3Emitter<T0, T1, T2, T3> {
fn ld3(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Ld3rEmitter<T0, T1, T2, T3> {
fn ld3r(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Ld4Emitter<T0, T1, T2, T3, T4> {
fn ld4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait Ld4rEmitter<T0, T1, T2, T3, T4> {
fn ld4r(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait MlaEmitter<T0, T1, T2> {
fn mla(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MlsEmitter<T0, T1, T2> {
fn mls(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MoviEmitter<T0, T1> {
fn movi(&mut self, op0: T0, op1: T1);
}
pub trait Movi3Emitter<T0, T1, T2> {
fn movi_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait MvniEmitter<T0, T1> {
fn mvni(&mut self, op0: T0, op1: T1);
}
pub trait Mvni3Emitter<T0, T1, T2> {
fn mvni_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait NotEmitter<T0, T1> {
fn not_(&mut self, op0: T0, op1: T1);
}
pub trait Orr2Emitter<T0, T1> {
fn orr_2(&mut self, op0: T0, op1: T1);
}
pub trait PmulEmitter<T0, T1, T2> {
fn pmul(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait PmullEmitter<T0, T1, T2> {
fn pmull(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Pmull2Emitter<T0, T1, T2> {
fn pmull2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait RaddhnEmitter<T0, T1, T2> {
fn raddhn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Raddhn2Emitter<T0, T1, T2> {
fn raddhn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait RshrnEmitter<T0, T1, T2> {
fn rshrn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Rshrn2Emitter<T0, T1, T2> {
fn rshrn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait RsubhnEmitter<T0, T1, T2> {
fn rsubhn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Rsubhn2Emitter<T0, T1, T2> {
fn rsubhn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SabaEmitter<T0, T1, T2> {
fn saba(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SabalEmitter<T0, T1, T2> {
fn sabal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sabal2Emitter<T0, T1, T2> {
fn sabal2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SabdEmitter<T0, T1, T2> {
fn sabd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SabdlEmitter<T0, T1, T2> {
fn sabdl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sabdl2Emitter<T0, T1, T2> {
fn sabdl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SadalpEmitter<T0, T1> {
fn sadalp(&mut self, op0: T0, op1: T1);
}
pub trait SaddlEmitter<T0, T1, T2> {
fn saddl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Saddl2Emitter<T0, T1, T2> {
fn saddl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SaddlpEmitter<T0, T1> {
fn saddlp(&mut self, op0: T0, op1: T1);
}
pub trait SaddlvEmitter<T0, T1> {
fn saddlv(&mut self, op0: T0, op1: T1);
}
pub trait SaddwEmitter<T0, T1, T2> {
fn saddw(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Saddw2Emitter<T0, T1, T2> {
fn saddw2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait ScvtfEmitter<T0, T1> {
fn scvtf(&mut self, op0: T0, op1: T1);
}
pub trait Scvtf3Emitter<T0, T1, T2> {
fn scvtf_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait ShaddEmitter<T0, T1, T2> {
fn shadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait ShlEmitter<T0, T1, T2> {
fn shl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait ShllEmitter<T0, T1, T2> {
fn shll(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Shll2Emitter<T0, T1, T2> {
fn shll2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait ShrnEmitter<T0, T1, T2> {
fn shrn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Shrn2Emitter<T0, T1, T2> {
fn shrn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait ShsubEmitter<T0, T1, T2> {
fn shsub(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SliEmitter<T0, T1, T2> {
fn sli(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmaxpEmitter<T0, T1, T2> {
fn smaxp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmaxvEmitter<T0, T1> {
fn smaxv(&mut self, op0: T0, op1: T1);
}
pub trait SminpEmitter<T0, T1, T2> {
fn sminp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SminvEmitter<T0, T1> {
fn sminv(&mut self, op0: T0, op1: T1);
}
pub trait SmlalEmitter<T0, T1, T2> {
fn smlal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Smlal2Emitter<T0, T1, T2> {
fn smlal2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmlslEmitter<T0, T1, T2> {
fn smlsl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Smlsl2Emitter<T0, T1, T2> {
fn smlsl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmovEmitter<T0, T1> {
fn smov(&mut self, op0: T0, op1: T1);
}
pub trait Smull2Emitter<T0, T1, T2> {
fn smull2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqabsEmitter<T0, T1> {
fn sqabs(&mut self, op0: T0, op1: T1);
}
pub trait SqaddEmitter<T0, T1, T2> {
fn sqadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqdmlalEmitter<T0, T1, T2> {
fn sqdmlal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sqdmlal2Emitter<T0, T1, T2> {
fn sqdmlal2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqdmlslEmitter<T0, T1, T2> {
fn sqdmlsl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sqdmlsl2Emitter<T0, T1, T2> {
fn sqdmlsl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqdmulhEmitter<T0, T1, T2> {
fn sqdmulh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqdmullEmitter<T0, T1, T2> {
fn sqdmull(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sqdmull2Emitter<T0, T1, T2> {
fn sqdmull2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqnegEmitter<T0, T1> {
fn sqneg(&mut self, op0: T0, op1: T1);
}
pub trait SqrdmulhEmitter<T0, T1, T2> {
fn sqrdmulh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqrshlEmitter<T0, T1, T2> {
fn sqrshl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqrshrnEmitter<T0, T1, T2> {
fn sqrshrn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sqrshrn2Emitter<T0, T1, T2> {
fn sqrshrn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqrshrunEmitter<T0, T1, T2> {
fn sqrshrun(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sqrshrun2Emitter<T0, T1, T2> {
fn sqrshrun2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqshlEmitter<T0, T1, T2> {
fn sqshl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqshluEmitter<T0, T1, T2> {
fn sqshlu(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqshrnEmitter<T0, T1, T2> {
fn sqshrn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sqshrn2Emitter<T0, T1, T2> {
fn sqshrn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqshrunEmitter<T0, T1, T2> {
fn sqshrun(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sqshrun2Emitter<T0, T1, T2> {
fn sqshrun2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqsubEmitter<T0, T1, T2> {
fn sqsub(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqxtnEmitter<T0, T1> {
fn sqxtn(&mut self, op0: T0, op1: T1);
}
pub trait Sqxtn2Emitter<T0, T1> {
fn sqxtn2(&mut self, op0: T0, op1: T1);
}
pub trait SqxtunEmitter<T0, T1> {
fn sqxtun(&mut self, op0: T0, op1: T1);
}
pub trait Sqxtun2Emitter<T0, T1> {
fn sqxtun2(&mut self, op0: T0, op1: T1);
}
pub trait SrhaddEmitter<T0, T1, T2> {
fn srhadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SriEmitter<T0, T1, T2> {
fn sri(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SrshlEmitter<T0, T1, T2> {
fn srshl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SrshrEmitter<T0, T1, T2> {
fn srshr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SrsraEmitter<T0, T1, T2> {
fn srsra(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SshlEmitter<T0, T1, T2> {
fn sshl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SshllEmitter<T0, T1, T2> {
fn sshll(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sshll2Emitter<T0, T1, T2> {
fn sshll2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SshrEmitter<T0, T1, T2> {
fn sshr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SsraEmitter<T0, T1, T2> {
fn ssra(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SsublEmitter<T0, T1, T2> {
fn ssubl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Ssubl2Emitter<T0, T1, T2> {
fn ssubl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SsubwEmitter<T0, T1, T2> {
fn ssubw(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Ssubw2Emitter<T0, T1, T2> {
fn ssubw2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait St1Emitter<T0, T1> {
fn st1(&mut self, op0: T0, op1: T1);
}
pub trait St13Emitter<T0, T1, T2> {
fn st1_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait St14Emitter<T0, T1, T2, T3> {
fn st1_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait St15Emitter<T0, T1, T2, T3, T4> {
fn st1_5(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait St2Emitter<T0, T1, T2> {
fn st2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait St3Emitter<T0, T1, T2, T3> {
fn st3(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait St4Emitter<T0, T1, T2, T3, T4> {
fn st4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait SubhnEmitter<T0, T1, T2> {
fn subhn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Subhn2Emitter<T0, T1, T2> {
fn subhn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SuqaddEmitter<T0, T1> {
fn suqadd(&mut self, op0: T0, op1: T1);
}
pub trait SxtlEmitter<T0, T1> {
fn sxtl(&mut self, op0: T0, op1: T1);
}
pub trait Sxtl2Emitter<T0, T1> {
fn sxtl2(&mut self, op0: T0, op1: T1);
}
pub trait TblEmitter<T0, T1, T2> {
fn tbl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Tbl4Emitter<T0, T1, T2, T3> {
fn tbl_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Tbl5Emitter<T0, T1, T2, T3, T4> {
fn tbl_5(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait Tbl6Emitter<T0, T1, T2, T3, T4, T5> {
fn tbl_6(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4, op5: T5);
}
pub trait TbxEmitter<T0, T1, T2> {
fn tbx(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Tbx4Emitter<T0, T1, T2, T3> {
fn tbx_4(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Tbx5Emitter<T0, T1, T2, T3, T4> {
fn tbx_5(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4);
}
pub trait Tbx6Emitter<T0, T1, T2, T3, T4, T5> {
fn tbx_6(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4, op5: T5);
}
pub trait Trn1Emitter<T0, T1, T2> {
fn trn1(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Trn2Emitter<T0, T1, T2> {
fn trn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UabaEmitter<T0, T1, T2> {
fn uaba(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UabalEmitter<T0, T1, T2> {
fn uabal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Uabal2Emitter<T0, T1, T2> {
fn uabal2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UabdEmitter<T0, T1, T2> {
fn uabd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UabdlEmitter<T0, T1, T2> {
fn uabdl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Uabdl2Emitter<T0, T1, T2> {
fn uabdl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UadalpEmitter<T0, T1> {
fn uadalp(&mut self, op0: T0, op1: T1);
}
pub trait UaddlEmitter<T0, T1, T2> {
fn uaddl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Uaddl2Emitter<T0, T1, T2> {
fn uaddl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UaddlpEmitter<T0, T1> {
fn uaddlp(&mut self, op0: T0, op1: T1);
}
pub trait UaddlvEmitter<T0, T1> {
fn uaddlv(&mut self, op0: T0, op1: T1);
}
pub trait UaddwEmitter<T0, T1, T2> {
fn uaddw(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Uaddw2Emitter<T0, T1, T2> {
fn uaddw2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UcvtfEmitter<T0, T1> {
fn ucvtf(&mut self, op0: T0, op1: T1);
}
pub trait Ucvtf3Emitter<T0, T1, T2> {
fn ucvtf_3(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UhaddEmitter<T0, T1, T2> {
fn uhadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UhsubEmitter<T0, T1, T2> {
fn uhsub(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmaxpEmitter<T0, T1, T2> {
fn umaxp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmaxvEmitter<T0, T1> {
fn umaxv(&mut self, op0: T0, op1: T1);
}
pub trait UminpEmitter<T0, T1, T2> {
fn uminp(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UminvEmitter<T0, T1> {
fn uminv(&mut self, op0: T0, op1: T1);
}
pub trait UmlalEmitter<T0, T1, T2> {
fn umlal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Umlal2Emitter<T0, T1, T2> {
fn umlal2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmlslEmitter<T0, T1, T2> {
fn umlsl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Umlsl2Emitter<T0, T1, T2> {
fn umlsl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmovEmitter<T0, T1> {
fn umov(&mut self, op0: T0, op1: T1);
}
pub trait Umull2Emitter<T0, T1, T2> {
fn umull2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UqaddEmitter<T0, T1, T2> {
fn uqadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UqrshlEmitter<T0, T1, T2> {
fn uqrshl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UqrshrnEmitter<T0, T1, T2> {
fn uqrshrn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Uqrshrn2Emitter<T0, T1, T2> {
fn uqrshrn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UqshlEmitter<T0, T1, T2> {
fn uqshl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UqshrnEmitter<T0, T1, T2> {
fn uqshrn(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Uqshrn2Emitter<T0, T1, T2> {
fn uqshrn2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UqsubEmitter<T0, T1, T2> {
fn uqsub(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UqxtnEmitter<T0, T1> {
fn uqxtn(&mut self, op0: T0, op1: T1);
}
pub trait Uqxtn2Emitter<T0, T1> {
fn uqxtn2(&mut self, op0: T0, op1: T1);
}
pub trait UrecpeEmitter<T0, T1> {
fn urecpe(&mut self, op0: T0, op1: T1);
}
pub trait UrhaddEmitter<T0, T1, T2> {
fn urhadd(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UrshlEmitter<T0, T1, T2> {
fn urshl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UrshrEmitter<T0, T1, T2> {
fn urshr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UrsqrteEmitter<T0, T1> {
fn ursqrte(&mut self, op0: T0, op1: T1);
}
pub trait UrsraEmitter<T0, T1, T2> {
fn ursra(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UshlEmitter<T0, T1, T2> {
fn ushl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UshllEmitter<T0, T1, T2> {
fn ushll(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Ushll2Emitter<T0, T1, T2> {
fn ushll2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UshrEmitter<T0, T1, T2> {
fn ushr(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UsqaddEmitter<T0, T1> {
fn usqadd(&mut self, op0: T0, op1: T1);
}
pub trait UsraEmitter<T0, T1, T2> {
fn usra(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UsublEmitter<T0, T1, T2> {
fn usubl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Usubl2Emitter<T0, T1, T2> {
fn usubl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UsubwEmitter<T0, T1, T2> {
fn usubw(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Usubw2Emitter<T0, T1, T2> {
fn usubw2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UxtlEmitter<T0, T1> {
fn uxtl(&mut self, op0: T0, op1: T1);
}
pub trait Uxtl2Emitter<T0, T1> {
fn uxtl2(&mut self, op0: T0, op1: T1);
}
pub trait Uzp1Emitter<T0, T1, T2> {
fn uzp1(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Uzp2Emitter<T0, T1, T2> {
fn uzp2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait XtnEmitter<T0, T1> {
fn xtn(&mut self, op0: T0, op1: T1);
}
pub trait Xtn2Emitter<T0, T1> {
fn xtn2(&mut self, op0: T0, op1: T1);
}
pub trait Zip1Emitter<T0, T1, T2> {
fn zip1(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Zip2Emitter<T0, T1, T2> {
fn zip2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait AesdEmitter<T0, T1> {
fn aesd(&mut self, op0: T0, op1: T1);
}
pub trait AeseEmitter<T0, T1> {
fn aese(&mut self, op0: T0, op1: T1);
}
pub trait AesimcEmitter<T0, T1> {
fn aesimc(&mut self, op0: T0, op1: T1);
}
pub trait AesmcEmitter<T0, T1> {
fn aesmc(&mut self, op0: T0, op1: T1);
}
pub trait Sha1cEmitter<T0, T1, T2> {
fn sha1c(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha1hEmitter<T0, T1> {
fn sha1h(&mut self, op0: T0, op1: T1);
}
pub trait Sha1mEmitter<T0, T1, T2> {
fn sha1m(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha1pEmitter<T0, T1, T2> {
fn sha1p(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha1su0Emitter<T0, T1, T2> {
fn sha1su0(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha1su1Emitter<T0, T1> {
fn sha1su1(&mut self, op0: T0, op1: T1);
}
pub trait Sha256hEmitter<T0, T1, T2> {
fn sha256h(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha256h2Emitter<T0, T1, T2> {
fn sha256h2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha256su0Emitter<T0, T1> {
fn sha256su0(&mut self, op0: T0, op1: T1);
}
pub trait Sha256su1Emitter<T0, T1, T2> {
fn sha256su1(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqrdmlahEmitter<T0, T1, T2> {
fn sqrdmlah(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SqrdmlshEmitter<T0, T1, T2> {
fn sqrdmlsh(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FcaddEmitter<T0, T1, T2, T3> {
fn fcadd(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FcmlaEmitter<T0, T1, T2, T3> {
fn fcmla(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait FjcvtzsEmitter<T0, T1> {
fn fjcvtzs(&mut self, op0: T0, op1: T1);
}
pub trait FmlalEmitter<T0, T1, T2> {
fn fmlal(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Fmlal2Emitter<T0, T1, T2> {
fn fmlal2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait FmlslEmitter<T0, T1, T2> {
fn fmlsl(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Fmlsl2Emitter<T0, T1, T2> {
fn fmlsl2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BcaxEmitter<T0, T1, T2, T3> {
fn bcax(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Eor3Emitter<T0, T1, T2, T3> {
fn eor3(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Rax1Emitter<T0, T1, T2> {
fn rax1(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait XarEmitter<T0, T1, T2, T3> {
fn xar(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Sha512hEmitter<T0, T1, T2> {
fn sha512h(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha512h2Emitter<T0, T1, T2> {
fn sha512h2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sha512su0Emitter<T0, T1> {
fn sha512su0(&mut self, op0: T0, op1: T1);
}
pub trait Sha512su1Emitter<T0, T1, T2> {
fn sha512su1(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sm3partw1Emitter<T0, T1, T2> {
fn sm3partw1(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sm3partw2Emitter<T0, T1, T2> {
fn sm3partw2(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sm3ss1Emitter<T0, T1, T2, T3> {
fn sm3ss1(&mut self, op0: T0, op1: T1, op2: T2, op3: T3);
}
pub trait Sm3tt1aEmitter<T0, T1, T2> {
fn sm3tt1a(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sm3tt1bEmitter<T0, T1, T2> {
fn sm3tt1b(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sm3tt2aEmitter<T0, T1, T2> {
fn sm3tt2a(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sm3tt2bEmitter<T0, T1, T2> {
fn sm3tt2b(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait Sm4eEmitter<T0, T1> {
fn sm4e(&mut self, op0: T0, op1: T1);
}
pub trait Sm4ekeyEmitter<T0, T1, T2> {
fn sm4ekey(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SdotEmitter<T0, T1, T2> {
fn sdot(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UdotEmitter<T0, T1, T2> {
fn udot(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BfcvtEmitter<T0, T1> {
fn bfcvt(&mut self, op0: T0, op1: T1);
}
pub trait BfcvtnEmitter<T0, T1> {
fn bfcvtn(&mut self, op0: T0, op1: T1);
}
pub trait Bfcvtn2Emitter<T0, T1> {
fn bfcvtn2(&mut self, op0: T0, op1: T1);
}
pub trait BfmlalbEmitter<T0, T1, T2> {
fn bfmlalb(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BfmlaltEmitter<T0, T1, T2> {
fn bfmlalt(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BfmmlaEmitter<T0, T1, T2> {
fn bfmmla(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait BfdotEmitter<T0, T1, T2> {
fn bfdot(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SmmlaEmitter<T0, T1, T2> {
fn smmla(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait SudotEmitter<T0, T1, T2> {
fn sudot(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UmmlaEmitter<T0, T1, T2> {
fn ummla(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UsdotEmitter<T0, T1, T2> {
fn usdot(&mut self, op0: T0, op1: T1, op2: T2);
}
pub trait UsmmlaEmitter<T0, T1, T2> {
fn usmmla(&mut self, op0: T0, op1: T1, op2: T2);
}
impl AdcEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn adc(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Adc,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AdcsEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn adcs(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Adcs,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AddEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn add(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Add,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AddEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn add(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Add,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn add(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Add_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Add4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn add_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Add,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Add4Emitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn add_4(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Add,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl AddsEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn adds(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Adds,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AddsEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn adds(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Adds,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Adds4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn adds_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Adds,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Adds4Emitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn adds_4(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Adds,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl AdrEmitter<Gp, Imm> for Assembler<'_> {
fn adr(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Adr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AdrEmitter<Gp, Label> for Assembler<'_> {
fn adr(&mut self, op0: Gp, op1: Label) {
self.emit_n(InstId::Adr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AdrEmitter<Gp, Sym> for Assembler<'_> {
fn adr(&mut self, op0: Gp, op1: Sym) {
self.emit_n(InstId::Adr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AdrpEmitter<Gp, Imm> for Assembler<'_> {
fn adrp(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Adrp, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AdrpEmitter<Gp, Label> for Assembler<'_> {
fn adrp(&mut self, op0: Gp, op1: Label) {
self.emit_n(InstId::Adrp, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AdrpEmitter<Gp, Sym> for Assembler<'_> {
fn adrp(&mut self, op0: Gp, op1: Sym) {
self.emit_n(InstId::Adrp, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AndEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn and_(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::And,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AndEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn and_(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::And,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AndEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn and_(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::And_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl And4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn and__4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::And,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl AndsEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn ands(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Ands,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AndsEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn ands(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Ands,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ands4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn ands_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Ands,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl AsrEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn asr(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Asr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AsrEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn asr(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Asr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AsrvEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn asrv(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Asrv,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AtEmitter<Imm, Gp> for Assembler<'_> {
fn at(&mut self, op0: Imm, op1: Gp) {
self.emit_n(InstId::At, &[op0.as_operand(), op1.as_operand()]);
}
}
impl BfcEmitter<Gp, Imm, Imm> for Assembler<'_> {
fn bfc(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Bfc,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BfiEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn bfi(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Bfi,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl BfmEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn bfm(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Bfm,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl BfxilEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn bfxil(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Bfxil,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl BicEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn bic(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Bic,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BicEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn bic(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Bic,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BicEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bic(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bic_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BicEmitter<Vec, Imm, Imm> for Assembler<'_> {
fn bic(&mut self, op0: Vec, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Bic_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Bic4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn bic_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Bic,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl BicsEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn bics(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Bics,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BicsEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn bics(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Bics,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Bics4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn bics_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Bics,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl BrkEmitter<Imm> for Assembler<'_> {
fn brk(&mut self, op0: Imm) {
self.emit_n(InstId::Brk, &[op0.as_operand()]);
}
}
impl CcmnEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn ccmn(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Ccmn,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl CcmnEmitter<Gp, Imm, Imm, Imm> for Assembler<'_> {
fn ccmn(&mut self, op0: Gp, op1: Imm, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Ccmn,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl CcmpEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn ccmp(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Ccmp,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl CcmpEmitter<Gp, Imm, Imm, Imm> for Assembler<'_> {
fn ccmp(&mut self, op0: Gp, op1: Imm, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Ccmp,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl CincEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn cinc(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Cinc,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CinvEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn cinv(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Cinv,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl ClrexEmitter<Imm> for Assembler<'_> {
fn clrex(&mut self, op0: Imm) {
self.emit_n(InstId::Clrex, &[op0.as_operand()]);
}
}
impl ClsEmitter<Gp, Gp> for Assembler<'_> {
fn cls(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Cls, &[op0.as_operand(), op1.as_operand()]);
}
}
impl ClsEmitter<Vec, Vec> for Assembler<'_> {
fn cls(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Cls_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl ClzEmitter<Gp, Gp> for Assembler<'_> {
fn clz(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Clz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl ClzEmitter<Vec, Vec> for Assembler<'_> {
fn clz(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Clz_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CmnEmitter<Gp, Gp> for Assembler<'_> {
fn cmn(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Cmn, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CmnEmitter<Gp, Imm> for Assembler<'_> {
fn cmn(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Cmn, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Cmn3Emitter<Gp, Gp, Imm> for Assembler<'_> {
fn cmn_3(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Cmn,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Cmn3Emitter<Gp, Imm, Imm> for Assembler<'_> {
fn cmn_3(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Cmn,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmpEmitter<Gp, Gp> for Assembler<'_> {
fn cmp(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Cmp, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CmpEmitter<Gp, Imm> for Assembler<'_> {
fn cmp(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Cmp, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Cmp3Emitter<Gp, Gp, Imm> for Assembler<'_> {
fn cmp_3(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Cmp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Cmp3Emitter<Gp, Imm, Imm> for Assembler<'_> {
fn cmp_3(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Cmp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CnegEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn cneg(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Cneg,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CselEmitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn csel(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Csel,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl CsetEmitter<Gp, Imm> for Assembler<'_> {
fn cset(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Cset, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CsetmEmitter<Gp, Imm> for Assembler<'_> {
fn csetm(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Csetm, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CsincEmitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn csinc(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Csinc,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl CsinvEmitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn csinv(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Csinv,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl CsnegEmitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn csneg(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Csneg,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl DcEmitter<Imm, Gp> for Assembler<'_> {
fn dc(&mut self, op0: Imm, op1: Gp) {
self.emit_n(InstId::Dc, &[op0.as_operand(), op1.as_operand()]);
}
}
impl DmbEmitter<Imm> for Assembler<'_> {
fn dmb(&mut self, op0: Imm) {
self.emit_n(InstId::Dmb, &[op0.as_operand()]);
}
}
impl DsbEmitter<Imm> for Assembler<'_> {
fn dsb(&mut self, op0: Imm) {
self.emit_n(InstId::Dsb, &[op0.as_operand()]);
}
}
impl DrpsEmitter for Assembler<'_> {
fn drps(&mut self) {
self.emit_n(InstId::Drps, &[]);
}
}
impl EonEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn eon(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Eon,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Eon4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn eon_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Eon,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl EorEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn eor(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Eor,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl EorEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn eor(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Eor,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl EorEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn eor(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Eor_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Eor4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn eor_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Eor,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl EretEmitter for Assembler<'_> {
fn eret(&mut self) {
self.emit_n(InstId::Eret, &[]);
}
}
impl EsbEmitter for Assembler<'_> {
fn esb(&mut self) {
self.emit_n(InstId::Esb, &[]);
}
}
impl ExtrEmitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn extr(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Extr,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl HltEmitter<Imm> for Assembler<'_> {
fn hlt(&mut self, op0: Imm) {
self.emit_n(InstId::Hlt, &[op0.as_operand()]);
}
}
impl HvcEmitter<Imm> for Assembler<'_> {
fn hvc(&mut self, op0: Imm) {
self.emit_n(InstId::Hvc, &[op0.as_operand()]);
}
}
impl IcEmitter<Imm, Gp> for Assembler<'_> {
fn ic(&mut self, op0: Imm, op1: Gp) {
self.emit_n(InstId::Ic, &[op0.as_operand(), op1.as_operand()]);
}
}
impl IsbEmitter<Imm> for Assembler<'_> {
fn isb(&mut self, op0: Imm) {
self.emit_n(InstId::Isb, &[op0.as_operand()]);
}
}
impl LslEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn lsl(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Lsl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LslEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn lsl(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Lsl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LslvEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn lslv(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Lslv,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LsrEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn lsr(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Lsr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LsrEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn lsr(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Lsr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LsrvEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn lsrv(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Lsrv,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MaddEmitter<Gp, Gp, Gp, Gp> for Assembler<'_> {
fn madd(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp) {
self.emit_n(
InstId::Madd,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl MnegEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn mneg(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Mneg,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MovEmitter<Gp, Gp> for Assembler<'_> {
fn mov(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Mov, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MovEmitter<Gp, Imm> for Assembler<'_> {
fn mov(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Mov, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MovEmitter<Vec, Vec> for Assembler<'_> {
fn mov(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Mov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MovEmitter<Gp, Vec> for Assembler<'_> {
fn mov(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Mov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MovEmitter<Vec, Gp> for Assembler<'_> {
fn mov(&mut self, op0: Vec, op1: Gp) {
self.emit_n(InstId::Mov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MovkEmitter<Gp, Imm> for Assembler<'_> {
fn movk(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Movk, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Movk3Emitter<Gp, Imm, Imm> for Assembler<'_> {
fn movk_3(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Movk,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MovnEmitter<Gp, Imm> for Assembler<'_> {
fn movn(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Movn, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Movn3Emitter<Gp, Imm, Imm> for Assembler<'_> {
fn movn_3(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Movn,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MovzEmitter<Gp, Imm> for Assembler<'_> {
fn movz(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Movz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Movz3Emitter<Gp, Imm, Imm> for Assembler<'_> {
fn movz_3(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Movz,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MrsEmitter<Gp, Imm> for Assembler<'_> {
fn mrs(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Mrs, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MsrEmitter<Imm, Gp> for Assembler<'_> {
fn msr(&mut self, op0: Imm, op1: Gp) {
self.emit_n(InstId::Msr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MsrEmitter<Imm, Imm> for Assembler<'_> {
fn msr(&mut self, op0: Imm, op1: Imm) {
self.emit_n(InstId::Msr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MsubEmitter<Gp, Gp, Gp, Gp> for Assembler<'_> {
fn msub(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp) {
self.emit_n(
InstId::Msub,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl MulEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn mul(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Mul,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MulEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn mul(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Mul_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MvnEmitter<Gp, Gp> for Assembler<'_> {
fn mvn(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Mvn, &[op0.as_operand(), op1.as_operand()]);
}
}
impl MvnEmitter<Vec, Vec> for Assembler<'_> {
fn mvn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Mvn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Mvn3Emitter<Gp, Gp, Imm> for Assembler<'_> {
fn mvn_3(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Mvn,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Mvn_Emitter<Gp, Gp> for Assembler<'_> {
fn mvn_(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Mvn, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Mvn_Emitter<Vec, Vec> for Assembler<'_> {
fn mvn_(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Mvn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Mvn_3Emitter<Gp, Gp, Imm> for Assembler<'_> {
fn mvn__3(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Mvn,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl NegEmitter<Gp, Gp> for Assembler<'_> {
fn neg(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Neg, &[op0.as_operand(), op1.as_operand()]);
}
}
impl NegEmitter<Vec, Vec> for Assembler<'_> {
fn neg(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Neg_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Neg3Emitter<Gp, Gp, Imm> for Assembler<'_> {
fn neg_3(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Neg,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl NegsEmitter<Gp, Gp> for Assembler<'_> {
fn negs(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Negs, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Negs3Emitter<Gp, Gp, Imm> for Assembler<'_> {
fn negs_3(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Negs,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl NgcEmitter<Gp, Gp> for Assembler<'_> {
fn ngc(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Ngc, &[op0.as_operand(), op1.as_operand()]);
}
}
impl NgcsEmitter<Gp, Gp> for Assembler<'_> {
fn ngcs(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Ngcs, &[op0.as_operand(), op1.as_operand()]);
}
}
impl OrnEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn orn(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Orn,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl OrnEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn orn(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Orn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Orn4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn orn_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Orn,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl OrrEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn orr(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Orr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl OrrEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn orr(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Orr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl OrrEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn orr(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Orr_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl OrrEmitter<Vec, Imm, Imm> for Assembler<'_> {
fn orr(&mut self, op0: Vec, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Orr_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Orr4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn orr_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Orr,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl RbitEmitter<Gp, Gp> for Assembler<'_> {
fn rbit(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Rbit, &[op0.as_operand(), op1.as_operand()]);
}
}
impl RbitEmitter<Vec, Vec> for Assembler<'_> {
fn rbit(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Rbit_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl RetEmitter<Gp> for Assembler<'_> {
fn ret(&mut self, op0: Gp) {
self.emit_n(InstId::Ret, &[op0.as_operand()]);
}
}
impl RevEmitter<Gp, Gp> for Assembler<'_> {
fn rev(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Rev, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Rev16Emitter<Gp, Gp> for Assembler<'_> {
fn rev16(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Rev16, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Rev16Emitter<Vec, Vec> for Assembler<'_> {
fn rev16(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Rev16_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Rev32Emitter<Gp, Gp> for Assembler<'_> {
fn rev32(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Rev32, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Rev32Emitter<Vec, Vec> for Assembler<'_> {
fn rev32(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Rev32_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Rev64Emitter<Gp, Gp> for Assembler<'_> {
fn rev64(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Rev64, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Rev64Emitter<Vec, Vec> for Assembler<'_> {
fn rev64(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Rev64_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl RorEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn ror(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Ror,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl RorEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn ror(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Ror,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl RorvEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn rorv(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Rorv,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SbcEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn sbc(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Sbc,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SbcsEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn sbcs(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Sbcs,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SbfizEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn sbfiz(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Sbfiz,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl SbfmEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn sbfm(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Sbfm,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl SbfxEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn sbfx(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Sbfx,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl SdivEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn sdiv(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Sdiv,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmaddlEmitter<Gp, Gp, Gp, Gp> for Assembler<'_> {
fn smaddl(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp) {
self.emit_n(
InstId::Smaddl,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl SmcEmitter<Imm> for Assembler<'_> {
fn smc(&mut self, op0: Imm) {
self.emit_n(InstId::Smc, &[op0.as_operand()]);
}
}
impl SmneglEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn smnegl(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Smnegl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmsublEmitter<Gp, Gp, Gp, Gp> for Assembler<'_> {
fn smsubl(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp) {
self.emit_n(
InstId::Smsubl,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl SmulhEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn smulh(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Smulh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmullEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn smull(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Smull,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmullEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn smull(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smull_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SubEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn sub(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Sub,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SubEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn sub(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Sub,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SubEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sub(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sub_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sub4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn sub_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Sub,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Sub4Emitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn sub_4(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Sub,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl SubsEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn subs(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Subs,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SubsEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn subs(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Subs,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Subs4Emitter<Gp, Gp, Gp, Imm> for Assembler<'_> {
fn subs_4(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Imm) {
self.emit_n(
InstId::Subs,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Subs4Emitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn subs_4(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Subs,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl SvcEmitter<Imm> for Assembler<'_> {
fn svc(&mut self, op0: Imm) {
self.emit_n(InstId::Svc, &[op0.as_operand()]);
}
}
impl SxtbEmitter<Gp, Gp> for Assembler<'_> {
fn sxtb(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Sxtb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SxthEmitter<Gp, Gp> for Assembler<'_> {
fn sxth(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Sxth, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SxtwEmitter<Gp, Gp> for Assembler<'_> {
fn sxtw(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Sxtw, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SysEmitter<Imm, Imm, Imm, Imm> for Assembler<'_> {
fn sys(&mut self, op0: Imm, op1: Imm, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Sys,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Sys5Emitter<Imm, Imm, Imm, Imm, Gp> for Assembler<'_> {
fn sys_5(&mut self, op0: Imm, op1: Imm, op2: Imm, op3: Imm, op4: Gp) {
self.emit_n(
InstId::Sys,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl TlbiEmitter<Imm, Gp> for Assembler<'_> {
fn tlbi(&mut self, op0: Imm, op1: Gp) {
self.emit_n(InstId::Tlbi, &[op0.as_operand(), op1.as_operand()]);
}
}
impl TstEmitter<Gp, Imm> for Assembler<'_> {
fn tst(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Tst, &[op0.as_operand(), op1.as_operand()]);
}
}
impl TstEmitter<Gp, Gp> for Assembler<'_> {
fn tst(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Tst, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Tst3Emitter<Gp, Gp, Imm> for Assembler<'_> {
fn tst_3(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Tst,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UdivEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn udiv(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Udiv,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UbfizEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn ubfiz(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Ubfiz,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl UbfmEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn ubfm(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Ubfm,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl UbfxEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn ubfx(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Ubfx,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl UmaddlEmitter<Gp, Gp, Gp, Gp> for Assembler<'_> {
fn umaddl(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp) {
self.emit_n(
InstId::Umaddl,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl UmneglEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn umnegl(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Umnegl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmsublEmitter<Gp, Gp, Gp, Gp> for Assembler<'_> {
fn umsubl(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp) {
self.emit_n(
InstId::Umsubl,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl UmullEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn umull(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Umull,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmullEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn umull(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umull_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmulhEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn umulh(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Umulh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UxtbEmitter<Gp, Gp> for Assembler<'_> {
fn uxtb(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Uxtb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UxthEmitter<Gp, Gp> for Assembler<'_> {
fn uxth(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Uxth, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CsdbEmitter for Assembler<'_> {
fn csdb(&mut self) {
self.emit_n(InstId::Csdb, &[]);
}
}
impl Dcps1Emitter<Imm> for Assembler<'_> {
fn dcps1(&mut self, op0: Imm) {
self.emit_n(InstId::Dcps1, &[op0.as_operand()]);
}
}
impl Dcps2Emitter<Imm> for Assembler<'_> {
fn dcps2(&mut self, op0: Imm) {
self.emit_n(InstId::Dcps2, &[op0.as_operand()]);
}
}
impl Dcps3Emitter<Imm> for Assembler<'_> {
fn dcps3(&mut self, op0: Imm) {
self.emit_n(InstId::Dcps3, &[op0.as_operand()]);
}
}
impl PssbbEmitter for Assembler<'_> {
fn pssbb(&mut self) {
self.emit_n(InstId::Pssbb, &[]);
}
}
impl SsbbEmitter for Assembler<'_> {
fn ssbb(&mut self) {
self.emit_n(InstId::Ssbb, &[]);
}
}
impl UdfEmitter<Imm> for Assembler<'_> {
fn udf(&mut self, op0: Imm) {
self.emit_n(InstId::Udf, &[op0.as_operand()]);
}
}
impl BEmitter<Imm> for Assembler<'_> {
fn b(&mut self, op0: Imm) {
self.emit_n(InstId::B, &[op0.as_operand()]);
}
fn b_eq(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::EQ), &[op0.as_operand()]);
}
fn b_ne(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::NE), &[op0.as_operand()]);
}
fn b_cs(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::CS), &[op0.as_operand()]);
}
fn b_hs(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::HS), &[op0.as_operand()]);
}
fn b_cc(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::CC), &[op0.as_operand()]);
}
fn b_lo(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::LO), &[op0.as_operand()]);
}
fn b_mi(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::MI), &[op0.as_operand()]);
}
fn b_pl(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::PL), &[op0.as_operand()]);
}
fn b_vs(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::VS), &[op0.as_operand()]);
}
fn b_vc(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::VC), &[op0.as_operand()]);
}
fn b_hi(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::HI), &[op0.as_operand()]);
}
fn b_ls(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::LS), &[op0.as_operand()]);
}
fn b_ge(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::GE), &[op0.as_operand()]);
}
fn b_lt(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::LT), &[op0.as_operand()]);
}
fn b_gt(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::GT), &[op0.as_operand()]);
}
fn b_le(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::LE), &[op0.as_operand()]);
}
fn b_al(&mut self, op0: Imm) {
self.emit_n(InstId::B.with_cc(CondCode::AL), &[op0.as_operand()]);
}
}
impl BEmitter<Label> for Assembler<'_> {
fn b(&mut self, op0: Label) {
self.emit_n(InstId::B, &[op0.as_operand()]);
}
fn b_eq(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::EQ), &[op0.as_operand()]);
}
fn b_ne(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::NE), &[op0.as_operand()]);
}
fn b_cs(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::CS), &[op0.as_operand()]);
}
fn b_hs(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::HS), &[op0.as_operand()]);
}
fn b_cc(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::CC), &[op0.as_operand()]);
}
fn b_lo(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::LO), &[op0.as_operand()]);
}
fn b_mi(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::MI), &[op0.as_operand()]);
}
fn b_pl(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::PL), &[op0.as_operand()]);
}
fn b_vs(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::VS), &[op0.as_operand()]);
}
fn b_vc(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::VC), &[op0.as_operand()]);
}
fn b_hi(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::HI), &[op0.as_operand()]);
}
fn b_ls(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::LS), &[op0.as_operand()]);
}
fn b_ge(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::GE), &[op0.as_operand()]);
}
fn b_lt(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::LT), &[op0.as_operand()]);
}
fn b_gt(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::GT), &[op0.as_operand()]);
}
fn b_le(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::LE), &[op0.as_operand()]);
}
fn b_al(&mut self, op0: Label) {
self.emit_n(InstId::B.with_cc(CondCode::AL), &[op0.as_operand()]);
}
}
impl BlEmitter<Imm> for Assembler<'_> {
fn bl(&mut self, op0: Imm) {
self.emit_n(InstId::Bl, &[op0.as_operand()]);
}
}
impl BlEmitter<Label> for Assembler<'_> {
fn bl(&mut self, op0: Label) {
self.emit_n(InstId::Bl, &[op0.as_operand()]);
}
}
impl BlEmitter<Sym> for Assembler<'_> {
fn bl(&mut self, op0: Sym) {
self.emit_n(InstId::Bl, &[op0.as_operand()]);
}
}
impl BlrEmitter<Gp> for Assembler<'_> {
fn blr(&mut self, op0: Gp) {
self.emit_n(InstId::Blr, &[op0.as_operand()]);
}
}
impl BrEmitter<Gp> for Assembler<'_> {
fn br(&mut self, op0: Gp) {
self.emit_n(InstId::Br, &[op0.as_operand()]);
}
}
impl CbzEmitter<Gp, Imm> for Assembler<'_> {
fn cbz(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Cbz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CbzEmitter<Gp, Label> for Assembler<'_> {
fn cbz(&mut self, op0: Gp, op1: Label) {
self.emit_n(InstId::Cbz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CbzEmitter<Gp, Sym> for Assembler<'_> {
fn cbz(&mut self, op0: Gp, op1: Sym) {
self.emit_n(InstId::Cbz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CbnzEmitter<Gp, Imm> for Assembler<'_> {
fn cbnz(&mut self, op0: Gp, op1: Imm) {
self.emit_n(InstId::Cbnz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CbnzEmitter<Gp, Label> for Assembler<'_> {
fn cbnz(&mut self, op0: Gp, op1: Label) {
self.emit_n(InstId::Cbnz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CbnzEmitter<Gp, Sym> for Assembler<'_> {
fn cbnz(&mut self, op0: Gp, op1: Sym) {
self.emit_n(InstId::Cbnz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl TbnzEmitter<Gp, Imm, Imm> for Assembler<'_> {
fn tbnz(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Tbnz,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl TbnzEmitter<Gp, Imm, Label> for Assembler<'_> {
fn tbnz(&mut self, op0: Gp, op1: Imm, op2: Label) {
self.emit_n(
InstId::Tbnz,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl TbnzEmitter<Gp, Imm, Sym> for Assembler<'_> {
fn tbnz(&mut self, op0: Gp, op1: Imm, op2: Sym) {
self.emit_n(
InstId::Tbnz,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl TbzEmitter<Gp, Imm, Imm> for Assembler<'_> {
fn tbz(&mut self, op0: Gp, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Tbz,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl TbzEmitter<Gp, Imm, Label> for Assembler<'_> {
fn tbz(&mut self, op0: Gp, op1: Imm, op2: Label) {
self.emit_n(
InstId::Tbz,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl TbzEmitter<Gp, Imm, Sym> for Assembler<'_> {
fn tbz(&mut self, op0: Gp, op1: Imm, op2: Sym) {
self.emit_n(
InstId::Tbz,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn cas(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Cas,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casa(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casa,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CasbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CashEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn cash(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Cash,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CaslEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn casl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Casl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CaslbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn caslb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Caslb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CaslhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn caslh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Caslh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CaspEmitter<Gp, Gp, Gp, Gp, Mem> for Assembler<'_> {
fn casp(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp, op4: Mem) {
self.emit_n(
InstId::Casp,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl CaspaEmitter<Gp, Gp, Gp, Gp, Mem> for Assembler<'_> {
fn caspa(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp, op4: Mem) {
self.emit_n(
InstId::Caspa,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl CaspalEmitter<Gp, Gp, Gp, Gp, Mem> for Assembler<'_> {
fn caspal(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp, op4: Mem) {
self.emit_n(
InstId::Caspal,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl CasplEmitter<Gp, Gp, Gp, Gp, Mem> for Assembler<'_> {
fn caspl(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Gp, op4: Mem) {
self.emit_n(
InstId::Caspl,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl LdaddEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldadd(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldadd,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldadda(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldadda,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaddlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaddlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaddlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdarEmitter<Gp, Mem> for Assembler<'_> {
fn ldar(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldar, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdarbEmitter<Gp, Mem> for Assembler<'_> {
fn ldarb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldarb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdarhEmitter<Gp, Mem> for Assembler<'_> {
fn ldarh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldarh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdaxrEmitter<Gp, Mem> for Assembler<'_> {
fn ldaxr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldaxr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdaxrbEmitter<Gp, Mem> for Assembler<'_> {
fn ldaxrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldaxrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdaxrhEmitter<Gp, Mem> for Assembler<'_> {
fn ldaxrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldaxrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdclrEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclr(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclraEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclra(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclra,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclrabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclrab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclrab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclrahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclrah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclrah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclralEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclral(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclral,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclralbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclralb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclralb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclralhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclralh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclralh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclrbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclrb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclrb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclrhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclrh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclrh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclrlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclrl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclrl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclrlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclrlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclrlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdclrlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldclrlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldclrlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeor(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeor,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeoraEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeora(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeora,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeorab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeorab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeorah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeorah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeoralEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeoral(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeoral,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeoralbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeoralb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeoralb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeoralhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeoralh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeoralh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeorb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeorb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeorh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeorh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeorl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeorl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeorlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeorlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdeorlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldeorlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldeorlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdlarEmitter<Gp, Mem> for Assembler<'_> {
fn ldlar(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldlar, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdlarbEmitter<Gp, Mem> for Assembler<'_> {
fn ldlarb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldlarb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdlarhEmitter<Gp, Mem> for Assembler<'_> {
fn ldlarh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldlarh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdnpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldnp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldnp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdnpEmitter<Vec, Vec, Mem> for Assembler<'_> {
fn ldnp(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::Ldnp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdpEmitter<Vec, Vec, Mem> for Assembler<'_> {
fn ldp(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::Ldp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdpswEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldpsw(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldpsw,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdrEmitter<Gp, Mem> for Assembler<'_> {
fn ldr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdrEmitter<Vec, Mem> for Assembler<'_> {
fn ldr(&mut self, op0: Vec, op1: Mem) {
self.emit_n(InstId::Ldr_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdrbEmitter<Gp, Mem> for Assembler<'_> {
fn ldrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdrhEmitter<Gp, Mem> for Assembler<'_> {
fn ldrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdrsbEmitter<Gp, Mem> for Assembler<'_> {
fn ldrsb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldrsb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdrshEmitter<Gp, Mem> for Assembler<'_> {
fn ldrsh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldrsh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdrswEmitter<Gp, Mem> for Assembler<'_> {
fn ldrsw(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldrsw, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdsetEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldset(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldset,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldseta(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldseta,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsethEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldseth(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldseth,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsetlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsetlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsetlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmax(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmax,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxa(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxa,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsmaxlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmaxlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmaxlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmin(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmin,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsmina(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsmina,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdsminlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldsminlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldsminlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdtrEmitter<Gp, Mem> for Assembler<'_> {
fn ldtr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldtr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdtrbEmitter<Gp, Mem> for Assembler<'_> {
fn ldtrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldtrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdtrhEmitter<Gp, Mem> for Assembler<'_> {
fn ldtrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldtrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdtrsbEmitter<Gp, Mem> for Assembler<'_> {
fn ldtrsb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldtrsb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdtrshEmitter<Gp, Mem> for Assembler<'_> {
fn ldtrsh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldtrsh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdtrswEmitter<Gp, Mem> for Assembler<'_> {
fn ldtrsw(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldtrsw, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdumaxEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumax(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumax,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxa(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxa,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdumaxlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumaxlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumaxlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumin(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumin,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldumina(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldumina,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminlEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminlbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminlb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminlb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LduminlhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn lduminlh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Lduminlh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdurEmitter<Gp, Mem> for Assembler<'_> {
fn ldur(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldur, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdurEmitter<Vec, Mem> for Assembler<'_> {
fn ldur(&mut self, op0: Vec, op1: Mem) {
self.emit_n(InstId::Ldur_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdurbEmitter<Gp, Mem> for Assembler<'_> {
fn ldurb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldurb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdurhEmitter<Gp, Mem> for Assembler<'_> {
fn ldurh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldurh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdursbEmitter<Gp, Mem> for Assembler<'_> {
fn ldursb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldursb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdurshEmitter<Gp, Mem> for Assembler<'_> {
fn ldursh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldursh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdurswEmitter<Gp, Mem> for Assembler<'_> {
fn ldursw(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldursw, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdxpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldxp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldxp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdaxpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn ldaxp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Ldaxp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl LdxrEmitter<Gp, Mem> for Assembler<'_> {
fn ldxr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldxr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdxrbEmitter<Gp, Mem> for Assembler<'_> {
fn ldxrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldxrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdxrhEmitter<Gp, Mem> for Assembler<'_> {
fn ldxrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldxrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl PrfmEmitter<Imm, Mem> for Assembler<'_> {
fn prfm(&mut self, op0: Imm, op1: Mem) {
self.emit_n(InstId::Prfm, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StaddEmitter<Gp, Mem> for Assembler<'_> {
fn stadd(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stadd, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StaddbEmitter<Gp, Mem> for Assembler<'_> {
fn staddb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Staddb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StaddhEmitter<Gp, Mem> for Assembler<'_> {
fn staddh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Staddh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StaddlEmitter<Gp, Mem> for Assembler<'_> {
fn staddl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Staddl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StaddlbEmitter<Gp, Mem> for Assembler<'_> {
fn staddlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Staddlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StaddlhEmitter<Gp, Mem> for Assembler<'_> {
fn staddlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Staddlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StclrEmitter<Gp, Mem> for Assembler<'_> {
fn stclr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stclr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StclrbEmitter<Gp, Mem> for Assembler<'_> {
fn stclrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stclrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StclrhEmitter<Gp, Mem> for Assembler<'_> {
fn stclrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stclrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StclrlEmitter<Gp, Mem> for Assembler<'_> {
fn stclrl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stclrl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StclrlbEmitter<Gp, Mem> for Assembler<'_> {
fn stclrlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stclrlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StclrlhEmitter<Gp, Mem> for Assembler<'_> {
fn stclrlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stclrlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SteorEmitter<Gp, Mem> for Assembler<'_> {
fn steor(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Steor, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SteorbEmitter<Gp, Mem> for Assembler<'_> {
fn steorb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Steorb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SteorhEmitter<Gp, Mem> for Assembler<'_> {
fn steorh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Steorh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SteorlEmitter<Gp, Mem> for Assembler<'_> {
fn steorl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Steorl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SteorlbEmitter<Gp, Mem> for Assembler<'_> {
fn steorlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Steorlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SteorlhEmitter<Gp, Mem> for Assembler<'_> {
fn steorlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Steorlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StllrEmitter<Gp, Mem> for Assembler<'_> {
fn stllr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stllr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StllrbEmitter<Gp, Mem> for Assembler<'_> {
fn stllrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stllrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StllrhEmitter<Gp, Mem> for Assembler<'_> {
fn stllrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stllrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StlrEmitter<Gp, Mem> for Assembler<'_> {
fn stlr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stllr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StlrbEmitter<Gp, Mem> for Assembler<'_> {
fn stlrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stllrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StlrhEmitter<Gp, Mem> for Assembler<'_> {
fn stlrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stllrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StlxrEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stlxr(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stlxr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StlxrbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stlxrb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stlxrb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StlxrhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stlxrh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stlxrh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StnpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stnp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stnp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StnpEmitter<Vec, Vec, Mem> for Assembler<'_> {
fn stnp(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::Stnp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StpEmitter<Vec, Vec, Mem> for Assembler<'_> {
fn stp(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::Stp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StrEmitter<Gp, Mem> for Assembler<'_> {
fn str(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Str, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StrEmitter<Vec, Mem> for Assembler<'_> {
fn str(&mut self, op0: Vec, op1: Mem) {
self.emit_n(InstId::Str_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StrbEmitter<Gp, Mem> for Assembler<'_> {
fn strb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Strb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StrhEmitter<Gp, Mem> for Assembler<'_> {
fn strh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Strh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsetEmitter<Gp, Mem> for Assembler<'_> {
fn stset(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stset, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsetbEmitter<Gp, Mem> for Assembler<'_> {
fn stsetb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsetb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsethEmitter<Gp, Mem> for Assembler<'_> {
fn stseth(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stseth, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsetlEmitter<Gp, Mem> for Assembler<'_> {
fn stsetl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsetl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsetlbEmitter<Gp, Mem> for Assembler<'_> {
fn stsetlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsetlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsetlhEmitter<Gp, Mem> for Assembler<'_> {
fn stsetlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsetlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsmaxEmitter<Gp, Mem> for Assembler<'_> {
fn stsmax(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsmax, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsmaxbEmitter<Gp, Mem> for Assembler<'_> {
fn stsmaxb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsmaxb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsmaxhEmitter<Gp, Mem> for Assembler<'_> {
fn stsmaxh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsmaxh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsmaxlEmitter<Gp, Mem> for Assembler<'_> {
fn stsmaxl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsmaxl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsmaxlbEmitter<Gp, Mem> for Assembler<'_> {
fn stsmaxlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsmaxlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsmaxlhEmitter<Gp, Mem> for Assembler<'_> {
fn stsmaxlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsmaxlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsminEmitter<Gp, Mem> for Assembler<'_> {
fn stsmin(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsmin, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsminbEmitter<Gp, Mem> for Assembler<'_> {
fn stsminb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsminb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsminhEmitter<Gp, Mem> for Assembler<'_> {
fn stsminh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsminh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsminlEmitter<Gp, Mem> for Assembler<'_> {
fn stsminl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsminl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsminlbEmitter<Gp, Mem> for Assembler<'_> {
fn stsminlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsminlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StsminlhEmitter<Gp, Mem> for Assembler<'_> {
fn stsminlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stsminlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SttrEmitter<Gp, Mem> for Assembler<'_> {
fn sttr(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Sttr, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SttrbEmitter<Gp, Mem> for Assembler<'_> {
fn sttrb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Sttrb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SttrhEmitter<Gp, Mem> for Assembler<'_> {
fn sttrh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Sttrh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StumaxEmitter<Gp, Mem> for Assembler<'_> {
fn stumax(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stumax, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StumaxbEmitter<Gp, Mem> for Assembler<'_> {
fn stumaxb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stumaxb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StumaxhEmitter<Gp, Mem> for Assembler<'_> {
fn stumaxh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stumaxh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StumaxlEmitter<Gp, Mem> for Assembler<'_> {
fn stumaxl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stumaxl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StumaxlbEmitter<Gp, Mem> for Assembler<'_> {
fn stumaxlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stumaxlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StumaxlhEmitter<Gp, Mem> for Assembler<'_> {
fn stumaxlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stumaxlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StuminEmitter<Gp, Mem> for Assembler<'_> {
fn stumin(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stumin, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StuminbEmitter<Gp, Mem> for Assembler<'_> {
fn stuminb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stuminb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StuminhEmitter<Gp, Mem> for Assembler<'_> {
fn stuminh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stuminh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StuminlEmitter<Gp, Mem> for Assembler<'_> {
fn stuminl(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stuminl, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StuminlbEmitter<Gp, Mem> for Assembler<'_> {
fn stuminlb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stuminlb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StuminlhEmitter<Gp, Mem> for Assembler<'_> {
fn stuminlh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stuminlh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SturEmitter<Gp, Mem> for Assembler<'_> {
fn stur(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stur, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SturEmitter<Vec, Mem> for Assembler<'_> {
fn stur(&mut self, op0: Vec, op1: Mem) {
self.emit_n(InstId::Stur_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SturbEmitter<Gp, Mem> for Assembler<'_> {
fn sturb(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Sturb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SturhEmitter<Gp, Mem> for Assembler<'_> {
fn sturh(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Sturh, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StxpEmitter<Gp, Gp, Gp, Mem> for Assembler<'_> {
fn stxp(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Mem) {
self.emit_n(
InstId::Stxp,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl StlxpEmitter<Gp, Gp, Gp, Mem> for Assembler<'_> {
fn stlxp(&mut self, op0: Gp, op1: Gp, op2: Gp, op3: Mem) {
self.emit_n(
InstId::Stlxp,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl StxrEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stxr(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stxr,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StxrbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stxrb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stxrb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StxrhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stxrh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stxrh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpaEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpa(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpa,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpabEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpab(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpab,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpahEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpah(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpah,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpalEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpal(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpal,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpalbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpalb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpalb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpalhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpalh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpalh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwpbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwphEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swph(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swph,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwplEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swpl(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swpl,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwplbEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swplb(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swplb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SwplhEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn swplh(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Swplh,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BtiEmitter<Imm> for Assembler<'_> {
fn bti(&mut self, op0: Imm) {
self.emit_n(InstId::Bti, &[op0.as_operand()]);
}
}
impl ChkfeatEmitter<Gp> for Assembler<'_> {
fn chkfeat(&mut self, op0: Gp) {
self.emit_n(InstId::Chkfeat, &[op0.as_operand()]);
}
}
impl ClrbhbEmitter for Assembler<'_> {
fn clrbhb(&mut self) {
self.emit_n(InstId::Clrbhb, &[]);
}
}
impl Crc32bEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32b(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32b,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Crc32hEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32h(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32h,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Crc32wEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32w(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32w,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Crc32xEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32x(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32x,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Crc32cbEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32cb(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32cb,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Crc32chEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32ch(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32ch,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Crc32cwEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32cw(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32cw,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Crc32cxEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn crc32cx(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Crc32cx,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AbsEmitter<Gp, Gp> for Assembler<'_> {
fn abs(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Abs, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AbsEmitter<Vec, Vec> for Assembler<'_> {
fn abs(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Abs_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CntEmitter<Gp, Gp> for Assembler<'_> {
fn cnt(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Cnt, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CntEmitter<Vec, Vec> for Assembler<'_> {
fn cnt(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Cnt_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl CtzEmitter<Gp, Gp> for Assembler<'_> {
fn ctz(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Ctz, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SmaxEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn smax(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Smax,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmaxEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn smax(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Smax,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmaxEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn smax(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smax_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SminEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn smin(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Smin,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SminEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn smin(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Smin,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SminEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn smin(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smin_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmaxEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn umax(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Umax,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmaxEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn umax(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Umax,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmaxEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn umax(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umax_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UminEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn umin(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Umin,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UminEmitter<Gp, Gp, Imm> for Assembler<'_> {
fn umin(&mut self, op0: Gp, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Umin,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UminEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn umin(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umin_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl DghEmitter for Assembler<'_> {
fn dgh(&mut self) {
self.emit_n(InstId::Dgh, &[]);
}
}
impl CfinvEmitter for Assembler<'_> {
fn cfinv(&mut self) {
self.emit_n(InstId::Cfinv, &[]);
}
}
impl Setf8Emitter<Gp> for Assembler<'_> {
fn setf8(&mut self, op0: Gp) {
self.emit_n(InstId::Setf8, &[op0.as_operand()]);
}
}
impl Setf16Emitter<Gp> for Assembler<'_> {
fn setf16(&mut self, op0: Gp) {
self.emit_n(InstId::Setf16, &[op0.as_operand()]);
}
}
impl AxflagEmitter for Assembler<'_> {
fn axflag(&mut self) {
self.emit_n(InstId::Axflag, &[]);
}
}
impl XaflagEmitter for Assembler<'_> {
fn xaflag(&mut self) {
self.emit_n(InstId::Xaflag, &[]);
}
}
impl BcEmitter<Imm> for Assembler<'_> {
fn bc_eq(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::EQ), &[op0.as_operand()]);
}
fn bc_ne(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::NE), &[op0.as_operand()]);
}
fn bc_cs(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::CS), &[op0.as_operand()]);
}
fn bc_hs(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::HS), &[op0.as_operand()]);
}
fn bc_cc(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::CC), &[op0.as_operand()]);
}
fn bc_lo(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::LO), &[op0.as_operand()]);
}
fn bc_mi(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::MI), &[op0.as_operand()]);
}
fn bc_pl(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::PL), &[op0.as_operand()]);
}
fn bc_vs(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::VS), &[op0.as_operand()]);
}
fn bc_vc(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::VC), &[op0.as_operand()]);
}
fn bc_hi(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::HI), &[op0.as_operand()]);
}
fn bc_ls(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::LS), &[op0.as_operand()]);
}
fn bc_ge(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::GE), &[op0.as_operand()]);
}
fn bc_lt(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::LT), &[op0.as_operand()]);
}
fn bc_gt(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::GT), &[op0.as_operand()]);
}
fn bc_le(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::LE), &[op0.as_operand()]);
}
fn bc_al(&mut self, op0: Imm) {
self.emit_n(InstId::Bc.with_cc(CondCode::AL), &[op0.as_operand()]);
}
}
impl BcEmitter<Label> for Assembler<'_> {
fn bc_eq(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::EQ), &[op0.as_operand()]);
}
fn bc_ne(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::NE), &[op0.as_operand()]);
}
fn bc_cs(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::CS), &[op0.as_operand()]);
}
fn bc_hs(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::HS), &[op0.as_operand()]);
}
fn bc_cc(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::CC), &[op0.as_operand()]);
}
fn bc_lo(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::LO), &[op0.as_operand()]);
}
fn bc_mi(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::MI), &[op0.as_operand()]);
}
fn bc_pl(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::PL), &[op0.as_operand()]);
}
fn bc_vs(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::VS), &[op0.as_operand()]);
}
fn bc_vc(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::VC), &[op0.as_operand()]);
}
fn bc_hi(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::HI), &[op0.as_operand()]);
}
fn bc_ls(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::LS), &[op0.as_operand()]);
}
fn bc_ge(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::GE), &[op0.as_operand()]);
}
fn bc_lt(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::LT), &[op0.as_operand()]);
}
fn bc_gt(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::GT), &[op0.as_operand()]);
}
fn bc_le(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::LE), &[op0.as_operand()]);
}
fn bc_al(&mut self, op0: Label) {
self.emit_n(InstId::Bc.with_cc(CondCode::AL), &[op0.as_operand()]);
}
}
impl BcEmitter<Sym> for Assembler<'_> {
fn bc_eq(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::EQ), &[op0.as_operand()]);
}
fn bc_ne(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::NE), &[op0.as_operand()]);
}
fn bc_cs(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::CS), &[op0.as_operand()]);
}
fn bc_hs(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::HS), &[op0.as_operand()]);
}
fn bc_cc(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::CC), &[op0.as_operand()]);
}
fn bc_lo(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::LO), &[op0.as_operand()]);
}
fn bc_mi(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::MI), &[op0.as_operand()]);
}
fn bc_pl(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::PL), &[op0.as_operand()]);
}
fn bc_vs(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::VS), &[op0.as_operand()]);
}
fn bc_vc(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::VC), &[op0.as_operand()]);
}
fn bc_hi(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::HI), &[op0.as_operand()]);
}
fn bc_ls(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::LS), &[op0.as_operand()]);
}
fn bc_ge(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::GE), &[op0.as_operand()]);
}
fn bc_lt(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::LT), &[op0.as_operand()]);
}
fn bc_gt(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::GT), &[op0.as_operand()]);
}
fn bc_le(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::LE), &[op0.as_operand()]);
}
fn bc_al(&mut self, op0: Sym) {
self.emit_n(InstId::Bc.with_cc(CondCode::AL), &[op0.as_operand()]);
}
}
impl AutdaEmitter<Gp, Gp> for Assembler<'_> {
fn autda(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Autda, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AutdbEmitter<Gp, Gp> for Assembler<'_> {
fn autdb(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Autdb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AutdzaEmitter<Gp> for Assembler<'_> {
fn autdza(&mut self, op0: Gp) {
self.emit_n(InstId::Autdza, &[op0.as_operand()]);
}
}
impl AutdzbEmitter<Gp> for Assembler<'_> {
fn autdzb(&mut self, op0: Gp) {
self.emit_n(InstId::Autdzb, &[op0.as_operand()]);
}
}
impl AutiaEmitter<Gp, Gp> for Assembler<'_> {
fn autia(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Autia, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Autia1716Emitter for Assembler<'_> {
fn autia1716(&mut self) {
self.emit_n(InstId::Autia1716, &[]);
}
}
impl AutiaspEmitter for Assembler<'_> {
fn autiasp(&mut self) {
self.emit_n(InstId::Autiasp, &[]);
}
}
impl AutiazEmitter for Assembler<'_> {
fn autiaz(&mut self) {
self.emit_n(InstId::Autiaz, &[]);
}
}
impl AutibEmitter<Gp, Gp> for Assembler<'_> {
fn autib(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Autib, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Autib1716Emitter for Assembler<'_> {
fn autib1716(&mut self) {
self.emit_n(InstId::Autib1716, &[]);
}
}
impl AutibspEmitter for Assembler<'_> {
fn autibsp(&mut self) {
self.emit_n(InstId::Autibsp, &[]);
}
}
impl AutibzEmitter for Assembler<'_> {
fn autibz(&mut self) {
self.emit_n(InstId::Autibz, &[]);
}
}
impl AutizaEmitter<Gp> for Assembler<'_> {
fn autiza(&mut self, op0: Gp) {
self.emit_n(InstId::Autiza, &[op0.as_operand()]);
}
}
impl AutizbEmitter<Gp> for Assembler<'_> {
fn autizb(&mut self, op0: Gp) {
self.emit_n(InstId::Autizb, &[op0.as_operand()]);
}
}
impl GmiEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn gmi(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Gmi,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmppEmitter<Gp, Gp> for Assembler<'_> {
fn cmpp(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Cmpp, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AddgEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn addg(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Addg,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl LdgEmitter<Gp, Mem> for Assembler<'_> {
fn ldg(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldg, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdgmEmitter<Gp, Mem> for Assembler<'_> {
fn ldgm(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldgm, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdraaEmitter<Gp, Mem> for Assembler<'_> {
fn ldraa(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldraa, &[op0.as_operand(), op1.as_operand()]);
}
}
impl LdrabEmitter<Gp, Mem> for Assembler<'_> {
fn ldrab(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Ldrab, &[op0.as_operand(), op1.as_operand()]);
}
}
impl PacdaEmitter<Gp, Gp> for Assembler<'_> {
fn pacda(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Pacda, &[op0.as_operand(), op1.as_operand()]);
}
}
impl PacdbEmitter<Gp, Gp> for Assembler<'_> {
fn pacdb(&mut self, op0: Gp, op1: Gp) {
self.emit_n(InstId::Pacdb, &[op0.as_operand(), op1.as_operand()]);
}
}
impl PacdzaEmitter<Gp> for Assembler<'_> {
fn pacdza(&mut self, op0: Gp) {
self.emit_n(InstId::Pacdza, &[op0.as_operand()]);
}
}
impl PacdzbEmitter<Gp> for Assembler<'_> {
fn pacdzb(&mut self, op0: Gp) {
self.emit_n(InstId::Pacdzb, &[op0.as_operand()]);
}
}
impl PacgaEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn pacga(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Pacga,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SubpEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn subp(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Subp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SubpsEmitter<Gp, Gp, Gp> for Assembler<'_> {
fn subps(&mut self, op0: Gp, op1: Gp, op2: Gp) {
self.emit_n(
InstId::Subps,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SubgEmitter<Gp, Gp, Imm, Imm> for Assembler<'_> {
fn subg(&mut self, op0: Gp, op1: Gp, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Subg,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl St2gEmitter<Gp, Mem> for Assembler<'_> {
fn st2g(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::St2g, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StgEmitter<Gp, Mem> for Assembler<'_> {
fn stg(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stg, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StgpEmitter<Gp, Gp, Mem> for Assembler<'_> {
fn stgp(&mut self, op0: Gp, op1: Gp, op2: Mem) {
self.emit_n(
InstId::Stgp,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl StgmEmitter<Gp, Mem> for Assembler<'_> {
fn stgm(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stgm, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StzgEmitter<Gp, Mem> for Assembler<'_> {
fn stzg(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stzg, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Stz2gEmitter<Gp, Mem> for Assembler<'_> {
fn stz2g(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stz2g, &[op0.as_operand(), op1.as_operand()]);
}
}
impl StzgmEmitter<Gp, Mem> for Assembler<'_> {
fn stzgm(&mut self, op0: Gp, op1: Mem) {
self.emit_n(InstId::Stzgm, &[op0.as_operand(), op1.as_operand()]);
}
}
impl XpacdEmitter<Gp> for Assembler<'_> {
fn xpacd(&mut self, op0: Gp) {
self.emit_n(InstId::Xpacd, &[op0.as_operand()]);
}
}
impl XpaciEmitter<Gp> for Assembler<'_> {
fn xpaci(&mut self, op0: Gp) {
self.emit_n(InstId::Xpaci, &[op0.as_operand()]);
}
}
impl XpaclriEmitter for Assembler<'_> {
fn xpaclri(&mut self) {
self.emit_n(InstId::Xpaclri, &[]);
}
}
impl HintEmitter<Imm> for Assembler<'_> {
fn hint(&mut self, op0: Imm) {
self.emit_n(InstId::Hint, &[op0.as_operand()]);
}
}
impl NopEmitter for Assembler<'_> {
fn nop(&mut self) {
self.emit_n(InstId::Nop, &[]);
}
}
impl SevEmitter for Assembler<'_> {
fn sev(&mut self) {
self.emit_n(InstId::Sev, &[]);
}
}
impl SevlEmitter for Assembler<'_> {
fn sevl(&mut self) {
self.emit_n(InstId::Sevl, &[]);
}
}
impl WfeEmitter for Assembler<'_> {
fn wfe(&mut self) {
self.emit_n(InstId::Wfe, &[]);
}
}
impl WfiEmitter for Assembler<'_> {
fn wfi(&mut self) {
self.emit_n(InstId::Wfi, &[]);
}
}
impl YieldEmitter for Assembler<'_> {
fn r#yield(&mut self) {
self.emit_n(InstId::Yield, &[]);
}
}
impl AddhnEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn addhn(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Addhn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Addhn2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn addhn2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Addhn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AddpEmitter<Vec, Vec> for Assembler<'_> {
fn addp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Addp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Addp3Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn addp_3(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Addp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AddvEmitter<Vec, Vec> for Assembler<'_> {
fn addv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Addv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Bic2Emitter<Vec, Imm> for Assembler<'_> {
fn bic_2(&mut self, op0: Vec, op1: Imm) {
self.emit_n(InstId::Bic_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl BifEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bif(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bif_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BitEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bit(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bit_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BslEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bsl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bsl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmeqEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn cmeq(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Cmeq_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmeqEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn cmeq(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Cmeq_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmgeEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn cmge(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Cmge_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmgeEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn cmge(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Cmge_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmgtEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn cmgt(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Cmgt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmgtEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn cmgt(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Cmgt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmhiEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn cmhi(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Cmhi_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmhsEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn cmhs(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Cmhs_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmleEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn cmle(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Cmle_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmltEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn cmlt(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Cmlt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl CmtstEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn cmtst(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Cmtst_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl DupEmitter<Vec, Gp> for Assembler<'_> {
fn dup(&mut self, op0: Vec, op1: Gp) {
self.emit_n(InstId::Dup_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl DupEmitter<Vec, Vec> for Assembler<'_> {
fn dup(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Dup_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl ExtEmitter<Vec, Vec, Vec, Imm> for Assembler<'_> {
fn ext(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Imm) {
self.emit_n(
InstId::Ext_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FabdEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fabd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fabd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FabsEmitter<Vec, Vec> for Assembler<'_> {
fn fabs(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fabs_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FacgeEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn facge(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Facge_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FacgtEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn facgt(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Facgt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FaddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fadd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fadd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FaddpEmitter<Vec, Vec> for Assembler<'_> {
fn faddp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Faddp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Faddp3Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn faddp_3(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Faddp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FccmpEmitter<Vec, Vec, Imm, Imm> for Assembler<'_> {
fn fccmp(&mut self, op0: Vec, op1: Vec, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Fccmp_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FccmpeEmitter<Vec, Vec, Imm, Imm> for Assembler<'_> {
fn fccmpe(&mut self, op0: Vec, op1: Vec, op2: Imm, op3: Imm) {
self.emit_n(
InstId::Fccmpe_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FcmeqEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fcmeq(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fcmeq_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmeqEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn fcmeq(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcmeq_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmgeEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fcmge(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fcmge_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmgeEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn fcmge(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcmge_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmgtEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fcmgt(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fcmgt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmgtEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn fcmgt(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcmgt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmleEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn fcmle(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcmle_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmltEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn fcmlt(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcmlt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcmpEmitter<Vec, Vec> for Assembler<'_> {
fn fcmp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcmp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcmpEmitter<Vec, Imm> for Assembler<'_> {
fn fcmp(&mut self, op0: Vec, op1: Imm) {
self.emit_n(InstId::Fcmp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcmpeEmitter<Vec, Vec> for Assembler<'_> {
fn fcmpe(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcmpe_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcmpeEmitter<Vec, Imm> for Assembler<'_> {
fn fcmpe(&mut self, op0: Vec, op1: Imm) {
self.emit_n(InstId::Fcmpe_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcselEmitter<Vec, Vec, Vec, Imm> for Assembler<'_> {
fn fcsel(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Imm) {
self.emit_n(
InstId::Fcsel_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FcvtEmitter<Vec, Vec> for Assembler<'_> {
fn fcvt(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvt_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtasEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtas(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtas_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtasEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtas(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtas_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtauEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtau(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtau_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtauEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtau(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtau_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtlEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtl(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtl_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Fcvtl2Emitter<Vec, Vec> for Assembler<'_> {
fn fcvtl2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtl2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtmsEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtms(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtms_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtmsEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtms(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtms_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtmuEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtmu(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtmu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtmuEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtmu(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtmu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtnEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Fcvtn2Emitter<Vec, Vec> for Assembler<'_> {
fn fcvtn2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtn2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtnsEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtns(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtns_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtnsEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtns(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtns_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtnuEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtnu(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtnu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtnuEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtnu(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtnu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtpsEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtps(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtps_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtpsEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtps(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtps_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtpuEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtpu(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtpu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtpuEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtpu(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtpu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtxnEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtxn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtxn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Fcvtxn2Emitter<Vec, Vec> for Assembler<'_> {
fn fcvtxn2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtxn2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtzsEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtzs(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtzs_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtzsEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtzs(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtzs_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Fcvtzs3Emitter<Gp, Vec, Imm> for Assembler<'_> {
fn fcvtzs_3(&mut self, op0: Gp, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcvtzs_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Fcvtzs3Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn fcvtzs_3(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcvtzs_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcvtzuEmitter<Gp, Vec> for Assembler<'_> {
fn fcvtzu(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fcvtzu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FcvtzuEmitter<Vec, Vec> for Assembler<'_> {
fn fcvtzu(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fcvtzu_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Fcvtzu3Emitter<Gp, Vec, Imm> for Assembler<'_> {
fn fcvtzu_3(&mut self, op0: Gp, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcvtzu_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Fcvtzu3Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn fcvtzu_3(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Fcvtzu_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FdivEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fdiv(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fdiv_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FmaddEmitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn fmadd(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Fmadd_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FmaxEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmax(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmax_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FmaxnmEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmaxnm(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmaxnm_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FmaxnmpEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmaxnmp(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmaxnmp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Fmaxnmp2Emitter<Vec, Vec> for Assembler<'_> {
fn fmaxnmp_2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fmaxnmp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmaxnmvEmitter<Vec, Vec> for Assembler<'_> {
fn fmaxnmv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fmaxnmv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmaxpEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmaxp(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmaxp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Fmaxp2Emitter<Vec, Vec> for Assembler<'_> {
fn fmaxp_2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fmaxp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmaxvEmitter<Vec, Vec> for Assembler<'_> {
fn fmaxv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fmaxv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FminEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmin(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmin_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FminnmEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fminnm(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fminnm_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FminnmvEmitter<Vec, Vec> for Assembler<'_> {
fn fminnmv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fminnmv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FminnmpEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fminnmp(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fminnmp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Fminnmp2Emitter<Vec, Vec> for Assembler<'_> {
fn fminnmp_2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fminnmp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FminpEmitter<Vec, Vec> for Assembler<'_> {
fn fminp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fminp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Fminp3Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn fminp_3(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fminp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FminvEmitter<Vec, Vec> for Assembler<'_> {
fn fminv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fminv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmlaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmla(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmla_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FmlsEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmls(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmls_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FmovEmitter<Gp, Vec> for Assembler<'_> {
fn fmov(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fmov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmovEmitter<Vec, Gp> for Assembler<'_> {
fn fmov(&mut self, op0: Vec, op1: Gp) {
self.emit_n(InstId::Fmov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmovEmitter<Vec, Vec> for Assembler<'_> {
fn fmov(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fmov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmovEmitter<Vec, Imm> for Assembler<'_> {
fn fmov(&mut self, op0: Vec, op1: Imm) {
self.emit_n(InstId::Fmov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmsubEmitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn fmsub(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Fmsub_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FmulEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmul(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmul_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FmulxEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmulx(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmulx_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FnegEmitter<Vec, Vec> for Assembler<'_> {
fn fneg(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fneg_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FnmaddEmitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn fnmadd(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Fnmadd_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FnmsubEmitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn fnmsub(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Fnmsub_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FnmulEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fnmul(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fnmul_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FrecpeEmitter<Vec, Vec> for Assembler<'_> {
fn frecpe(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frecpe_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrecpsEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn frecps(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Frecps_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FrecpxEmitter<Vec, Vec> for Assembler<'_> {
fn frecpx(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frecpx_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Frint32xEmitter<Vec, Vec> for Assembler<'_> {
fn frint32x(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frint32x_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Frint32zEmitter<Vec, Vec> for Assembler<'_> {
fn frint32z(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frint32z_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Frint64xEmitter<Vec, Vec> for Assembler<'_> {
fn frint64x(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frint64x_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Frint64zEmitter<Vec, Vec> for Assembler<'_> {
fn frint64z(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frint64z_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrintaEmitter<Vec, Vec> for Assembler<'_> {
fn frinta(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frinta_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrintiEmitter<Vec, Vec> for Assembler<'_> {
fn frinti(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frinti_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrintmEmitter<Vec, Vec> for Assembler<'_> {
fn frintm(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frintm_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrintnEmitter<Vec, Vec> for Assembler<'_> {
fn frintn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frintn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrintpEmitter<Vec, Vec> for Assembler<'_> {
fn frintp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frintp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrintxEmitter<Vec, Vec> for Assembler<'_> {
fn frintx(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frintx_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrintzEmitter<Vec, Vec> for Assembler<'_> {
fn frintz(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frintz_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrsqrteEmitter<Vec, Vec> for Assembler<'_> {
fn frsqrte(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Frsqrte_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FrsqrtsEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn frsqrts(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Frsqrts_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FsqrtEmitter<Vec, Vec> for Assembler<'_> {
fn fsqrt(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Fsqrt_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FsubEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fsub(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fsub_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl InsEmitter<Vec, Gp> for Assembler<'_> {
fn ins(&mut self, op0: Vec, op1: Gp) {
self.emit_n(InstId::Ins_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl InsEmitter<Vec, Vec> for Assembler<'_> {
fn ins(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Ins_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Ld1Emitter<Vec, Mem> for Assembler<'_> {
fn ld1(&mut self, op0: Vec, op1: Mem) {
self.emit_n(InstId::Ld1_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Ld13Emitter<Vec, Vec, Mem> for Assembler<'_> {
fn ld1_3(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::Ld1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ld14Emitter<Vec, Vec, Vec, Mem> for Assembler<'_> {
fn ld1_4(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Mem) {
self.emit_n(
InstId::Ld1_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Ld15Emitter<Vec, Vec, Vec, Vec, Mem> for Assembler<'_> {
fn ld1_5(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Mem) {
self.emit_n(
InstId::Ld1_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl Ld1rEmitter<Vec, Mem> for Assembler<'_> {
fn ld1r(&mut self, op0: Vec, op1: Mem) {
self.emit_n(InstId::Ld1r_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Ld2Emitter<Vec, Vec, Mem> for Assembler<'_> {
fn ld2(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::Ld2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ld2rEmitter<Vec, Vec, Mem> for Assembler<'_> {
fn ld2r(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::Ld2r_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ld3Emitter<Vec, Vec, Vec, Mem> for Assembler<'_> {
fn ld3(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Mem) {
self.emit_n(
InstId::Ld3_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Ld3rEmitter<Vec, Vec, Vec, Mem> for Assembler<'_> {
fn ld3r(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Mem) {
self.emit_n(
InstId::Ld3r_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Ld4Emitter<Vec, Vec, Vec, Vec, Mem> for Assembler<'_> {
fn ld4(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Mem) {
self.emit_n(
InstId::Ld4_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl Ld4rEmitter<Vec, Vec, Vec, Vec, Mem> for Assembler<'_> {
fn ld4r(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Mem) {
self.emit_n(
InstId::Ld4r_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl MlaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn mla(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Mla_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MlsEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn mls(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Mls_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MoviEmitter<Vec, Imm> for Assembler<'_> {
fn movi(&mut self, op0: Vec, op1: Imm) {
self.emit_n(InstId::Movi_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Movi3Emitter<Vec, Imm, Imm> for Assembler<'_> {
fn movi_3(&mut self, op0: Vec, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Movi_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl MvniEmitter<Vec, Imm> for Assembler<'_> {
fn mvni(&mut self, op0: Vec, op1: Imm) {
self.emit_n(InstId::Mvni_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Mvni3Emitter<Vec, Imm, Imm> for Assembler<'_> {
fn mvni_3(&mut self, op0: Vec, op1: Imm, op2: Imm) {
self.emit_n(
InstId::Mvni_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl NotEmitter<Vec, Vec> for Assembler<'_> {
fn not_(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Not_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Orr2Emitter<Vec, Imm> for Assembler<'_> {
fn orr_2(&mut self, op0: Vec, op1: Imm) {
self.emit_n(InstId::Orr_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl PmulEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn pmul(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Pmul_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl PmullEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn pmull(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Pmull_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Pmull2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn pmull2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Pmull2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl RaddhnEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn raddhn(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Raddhn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Raddhn2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn raddhn2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Raddhn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl RshrnEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn rshrn(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Rshrn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Rshrn2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn rshrn2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Rshrn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl RsubhnEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn rsubhn(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Rsubhn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Rsubhn2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn rsubhn2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Rsubhn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SabaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn saba(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Saba_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SabalEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sabal(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sabal_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sabal2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sabal2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sabal2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SabdEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sabd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sabd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SabdlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sabdl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sabdl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sabdl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sabdl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sabdl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SadalpEmitter<Vec, Vec> for Assembler<'_> {
fn sadalp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sadalp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SaddlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn saddl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Saddl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Saddl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn saddl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Saddl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SaddlpEmitter<Vec, Vec> for Assembler<'_> {
fn saddlp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Saddlp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SaddlvEmitter<Vec, Vec> for Assembler<'_> {
fn saddlv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Saddlv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SaddwEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn saddw(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Saddw_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Saddw2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn saddw2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Saddw2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl ScvtfEmitter<Vec, Gp> for Assembler<'_> {
fn scvtf(&mut self, op0: Vec, op1: Gp) {
self.emit_n(InstId::Scvtf_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl ScvtfEmitter<Vec, Vec> for Assembler<'_> {
fn scvtf(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Scvtf_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Scvtf3Emitter<Vec, Gp, Imm> for Assembler<'_> {
fn scvtf_3(&mut self, op0: Vec, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Scvtf_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Scvtf3Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn scvtf_3(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Scvtf_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl ShaddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn shadd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Shadd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl ShlEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn shl(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Shl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl ShllEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn shll(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Shll_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Shll2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn shll2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Shll2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl ShrnEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn shrn(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Shrn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Shrn2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn shrn2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Shrn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl ShsubEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn shsub(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Shsub_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SliEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sli(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sli_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmaxpEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn smaxp(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smaxp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmaxvEmitter<Vec, Vec> for Assembler<'_> {
fn smaxv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Smaxv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SminpEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sminp(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sminp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SminvEmitter<Vec, Vec> for Assembler<'_> {
fn sminv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sminv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SmlalEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn smlal(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smlal_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Smlal2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn smlal2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smlal2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmlslEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn smlsl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smlsl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Smlsl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn smlsl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smlsl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmovEmitter<Gp, Vec> for Assembler<'_> {
fn smov(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Smov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Smull2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn smull2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smull2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqabsEmitter<Vec, Vec> for Assembler<'_> {
fn sqabs(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sqabs_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SqaddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqadd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqadd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqdmlalEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqdmlal(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqdmlal_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sqdmlal2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqdmlal2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqdmlal2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqdmlslEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqdmlsl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqdmlsl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sqdmlsl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqdmlsl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqdmlsl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqdmulhEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqdmulh(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqdmulh_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqdmullEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqdmull(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqdmull_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sqdmull2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqdmull2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqdmull2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqnegEmitter<Vec, Vec> for Assembler<'_> {
fn sqneg(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sqneg_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SqrdmulhEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqrdmulh(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqrdmulh_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqrshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqrshl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqrshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqrshrnEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqrshrn(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqrshrn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sqrshrn2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqrshrn2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqrshrn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqrshrunEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqrshrun(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqrshrun_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sqrshrun2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqrshrun2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqrshrun2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqshl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqshlEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqshl(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqshluEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqshlu(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqshlu_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqshrnEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqshrn(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqshrn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sqshrn2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqshrn2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqshrn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqshrunEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqshrun(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqshrun_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sqshrun2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn sqshrun2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sqshrun2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqsubEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqsub(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqsub_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqxtnEmitter<Vec, Vec> for Assembler<'_> {
fn sqxtn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sqxtn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sqxtn2Emitter<Vec, Vec> for Assembler<'_> {
fn sqxtn2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sqxtn2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SqxtunEmitter<Vec, Vec> for Assembler<'_> {
fn sqxtun(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sqxtun_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sqxtun2Emitter<Vec, Vec> for Assembler<'_> {
fn sqxtun2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sqxtun2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SrhaddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn srhadd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Srhadd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SriEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sri(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sri_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SrshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn srshl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Srshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SrshrEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn srshr(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Srshr_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SrsraEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn srsra(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Srsra_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sshl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SshllEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sshll(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sshll_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sshll2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn sshll2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sshll2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SshrEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn sshr(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Sshr_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SsraEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn ssra(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Ssra_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SsublEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn ssubl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Ssubl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ssubl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn ssubl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Ssubl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SsubwEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn ssubw(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Ssubw_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ssubw2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn ssubw2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Ssubw2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl St1Emitter<Vec, Mem> for Assembler<'_> {
fn st1(&mut self, op0: Vec, op1: Mem) {
self.emit_n(InstId::St1_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl St13Emitter<Vec, Vec, Mem> for Assembler<'_> {
fn st1_3(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::St1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl St14Emitter<Vec, Vec, Vec, Mem> for Assembler<'_> {
fn st1_4(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Mem) {
self.emit_n(
InstId::St1_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl St15Emitter<Vec, Vec, Vec, Vec, Mem> for Assembler<'_> {
fn st1_5(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Mem) {
self.emit_n(
InstId::St1_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl St2Emitter<Vec, Vec, Mem> for Assembler<'_> {
fn st2(&mut self, op0: Vec, op1: Vec, op2: Mem) {
self.emit_n(
InstId::St2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl St3Emitter<Vec, Vec, Vec, Mem> for Assembler<'_> {
fn st3(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Mem) {
self.emit_n(
InstId::St3_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl St4Emitter<Vec, Vec, Vec, Vec, Mem> for Assembler<'_> {
fn st4(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Mem) {
self.emit_n(
InstId::St4_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl SubhnEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn subhn(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Subhn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Subhn2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn subhn2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Subhn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SuqaddEmitter<Vec, Vec> for Assembler<'_> {
fn suqadd(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Suqadd_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl SxtlEmitter<Vec, Vec> for Assembler<'_> {
fn sxtl(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sxtl_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sxtl2Emitter<Vec, Vec> for Assembler<'_> {
fn sxtl2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sxtl2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl TblEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn tbl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Tbl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Tbl4Emitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn tbl_4(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Tbl_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Tbl5Emitter<Vec, Vec, Vec, Vec, Vec> for Assembler<'_> {
fn tbl_5(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Vec) {
self.emit_n(
InstId::Tbl_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl Tbl6Emitter<Vec, Vec, Vec, Vec, Vec, Vec> for Assembler<'_> {
fn tbl_6(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Vec, op5: Vec) {
self.emit_n(
InstId::Tbl_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
op5.as_operand(),
],
);
}
}
impl TbxEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn tbx(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Tbx_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Tbx4Emitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn tbx_4(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Tbx_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Tbx5Emitter<Vec, Vec, Vec, Vec, Vec> for Assembler<'_> {
fn tbx_5(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Vec) {
self.emit_n(
InstId::Tbx_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
],
);
}
}
impl Tbx6Emitter<Vec, Vec, Vec, Vec, Vec, Vec> for Assembler<'_> {
fn tbx_6(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec, op4: Vec, op5: Vec) {
self.emit_n(
InstId::Tbx_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
op4.as_operand(),
op5.as_operand(),
],
);
}
}
impl Trn1Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn trn1(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Trn1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Trn2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn trn2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Trn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UabaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uaba(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uaba_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UabalEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uabal(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uabal_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Uabal2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn uabal2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uabal2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UabdEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uabd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uabd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UabdlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uabdl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uabdl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Uabdl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn uabdl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uabdl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UadalpEmitter<Vec, Vec> for Assembler<'_> {
fn uadalp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uadalp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UaddlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uaddl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uaddl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Uaddl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn uaddl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uaddl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UaddlpEmitter<Vec, Vec> for Assembler<'_> {
fn uaddlp(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uaddlp_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UaddlvEmitter<Vec, Vec> for Assembler<'_> {
fn uaddlv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uaddlv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UaddwEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uaddw(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uaddw_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Uaddw2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn uaddw2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uaddw2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UcvtfEmitter<Vec, Gp> for Assembler<'_> {
fn ucvtf(&mut self, op0: Vec, op1: Gp) {
self.emit_n(InstId::Ucvtf_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UcvtfEmitter<Vec, Vec> for Assembler<'_> {
fn ucvtf(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Ucvtf_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Ucvtf3Emitter<Vec, Gp, Imm> for Assembler<'_> {
fn ucvtf_3(&mut self, op0: Vec, op1: Gp, op2: Imm) {
self.emit_n(
InstId::Ucvtf_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ucvtf3Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn ucvtf_3(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Ucvtf_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UhaddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uhadd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uhadd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UhsubEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uhsub(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uhsub_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmaxpEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn umaxp(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umaxp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmaxvEmitter<Vec, Vec> for Assembler<'_> {
fn umaxv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Umaxv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UminpEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uminp(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uminp_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UminvEmitter<Vec, Vec> for Assembler<'_> {
fn uminv(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uminv_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UmlalEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn umlal(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umlal_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Umlal2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn umlal2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umlal2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmlslEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn umlsl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umlsl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Umlsl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn umlsl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umlsl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmovEmitter<Gp, Vec> for Assembler<'_> {
fn umov(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Umov_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Umull2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn umull2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Umull2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqaddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uqadd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uqadd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqrshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uqrshl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uqrshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqrshlEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn uqrshl(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Uqrshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqrshrnEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn uqrshrn(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Uqrshrn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Uqrshrn2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn uqrshrn2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Uqrshrn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uqshl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uqshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqshlEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn uqshl(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Uqshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqshrnEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn uqshrn(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Uqshrn_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Uqshrn2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn uqshrn2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Uqshrn2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqsubEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn uqsub(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uqsub_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UqxtnEmitter<Vec, Vec> for Assembler<'_> {
fn uqxtn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uqxtn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Uqxtn2Emitter<Vec, Vec> for Assembler<'_> {
fn uqxtn2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uqxtn2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UrecpeEmitter<Vec, Vec> for Assembler<'_> {
fn urecpe(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Urecpe_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UrhaddEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn urhadd(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Urhadd_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UrshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn urshl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Urshl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UrshrEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn urshr(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Urshr_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UrsqrteEmitter<Vec, Vec> for Assembler<'_> {
fn ursqrte(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Ursqrte_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UrsraEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn ursra(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Ursra_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UshlEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn ushl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Ushl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UshllEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn ushll(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Ushll_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Ushll2Emitter<Vec, Vec, Imm> for Assembler<'_> {
fn ushll2(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Ushll2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UshrEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn ushr(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Ushr_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UsqaddEmitter<Vec, Vec> for Assembler<'_> {
fn usqadd(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Usqadd_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl UsraEmitter<Vec, Vec, Imm> for Assembler<'_> {
fn usra(&mut self, op0: Vec, op1: Vec, op2: Imm) {
self.emit_n(
InstId::Usra_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UsublEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn usubl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Usubl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Usubl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn usubl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Usubl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UsubwEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn usubw(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Usubw_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Usubw2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn usubw2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Usubw2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UxtlEmitter<Vec, Vec> for Assembler<'_> {
fn uxtl(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uxtl_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Uxtl2Emitter<Vec, Vec> for Assembler<'_> {
fn uxtl2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Uxtl2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Uzp1Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn uzp1(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uzp1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Uzp2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn uzp2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Uzp2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl XtnEmitter<Vec, Vec> for Assembler<'_> {
fn xtn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Xtn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Xtn2Emitter<Vec, Vec> for Assembler<'_> {
fn xtn2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Xtn2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Zip1Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn zip1(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Zip1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Zip2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn zip2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Zip2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl AesdEmitter<Vec, Vec> for Assembler<'_> {
fn aesd(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Aesd_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AeseEmitter<Vec, Vec> for Assembler<'_> {
fn aese(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Aese_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AesimcEmitter<Vec, Vec> for Assembler<'_> {
fn aesimc(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Aesimc_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl AesmcEmitter<Vec, Vec> for Assembler<'_> {
fn aesmc(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Aesmc_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sha1cEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha1c(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha1c_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha1hEmitter<Vec, Vec> for Assembler<'_> {
fn sha1h(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sha1h_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sha1mEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha1m(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha1m_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha1pEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha1p(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha1p_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha1su0Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha1su0(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha1su0_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha1su1Emitter<Vec, Vec> for Assembler<'_> {
fn sha1su1(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sha1su1_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sha256hEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha256h(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha256h_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha256h2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha256h2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha256h2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha256su0Emitter<Vec, Vec> for Assembler<'_> {
fn sha256su0(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sha256su0_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sha256su1Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha256su1(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha256su1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqrdmlahEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqrdmlah(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqrdmlah_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SqrdmlshEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sqrdmlsh(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sqrdmlsh_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FcaddEmitter<Vec, Vec, Vec, Imm> for Assembler<'_> {
fn fcadd(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Imm) {
self.emit_n(
InstId::Fcadd_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FcmlaEmitter<Vec, Vec, Vec, Imm> for Assembler<'_> {
fn fcmla(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Imm) {
self.emit_n(
InstId::Fcmla_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl FjcvtzsEmitter<Gp, Vec> for Assembler<'_> {
fn fjcvtzs(&mut self, op0: Gp, op1: Vec) {
self.emit_n(InstId::Fjcvtzs_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl FmlalEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmlal(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmlal_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Fmlal2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmlal2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmlal2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl FmlslEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmlsl(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmlsl_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Fmlsl2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn fmlsl2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Fmlsl2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BcaxEmitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn bcax(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Bcax_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Eor3Emitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn eor3(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Eor3_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Rax1Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn rax1(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Rax1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl XarEmitter<Vec, Vec, Vec, Imm> for Assembler<'_> {
fn xar(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Imm) {
self.emit_n(
InstId::Xar_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Sha512hEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha512h(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha512h_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha512h2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha512h2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha512h2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sha512su0Emitter<Vec, Vec> for Assembler<'_> {
fn sha512su0(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sha512su0_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sha512su1Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sha512su1(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sha512su1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sm3partw1Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sm3partw1(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sm3partw1_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sm3partw2Emitter<Vec, Vec, Vec> for Assembler<'_> {
fn sm3partw2(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sm3partw2_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sm3ss1Emitter<Vec, Vec, Vec, Vec> for Assembler<'_> {
fn sm3ss1(&mut self, op0: Vec, op1: Vec, op2: Vec, op3: Vec) {
self.emit_n(
InstId::Sm3ss1_v,
&[
op0.as_operand(),
op1.as_operand(),
op2.as_operand(),
op3.as_operand(),
],
);
}
}
impl Sm3tt1aEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sm3tt1a(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sm3tt1a_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sm3tt1bEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sm3tt1b(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sm3tt1b_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sm3tt2aEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sm3tt2a(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sm3tt2a_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sm3tt2bEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sm3tt2b(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sm3tt2b_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Sm4eEmitter<Vec, Vec> for Assembler<'_> {
fn sm4e(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Sm4e_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Sm4ekeyEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sm4ekey(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sm4ekey_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SdotEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sdot(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sdot_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UdotEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn udot(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Udot_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BfcvtEmitter<Vec, Vec> for Assembler<'_> {
fn bfcvt(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Bfcvt_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl BfcvtnEmitter<Vec, Vec> for Assembler<'_> {
fn bfcvtn(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Bfcvtn_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl Bfcvtn2Emitter<Vec, Vec> for Assembler<'_> {
fn bfcvtn2(&mut self, op0: Vec, op1: Vec) {
self.emit_n(InstId::Bfcvtn2_v, &[op0.as_operand(), op1.as_operand()]);
}
}
impl BfmlalbEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bfmlalb(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bfmlalb_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BfmlaltEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bfmlalt(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bfmlalt_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BfmmlaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bfmmla(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bfmmla_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl BfdotEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn bfdot(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Bfdot_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SmmlaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn smmla(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Smmla_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl SudotEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn sudot(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Sudot_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UmmlaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn ummla(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Ummla_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UsdotEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn usdot(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Usdot_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl UsmmlaEmitter<Vec, Vec, Vec> for Assembler<'_> {
fn usmmla(&mut self, op0: Vec, op1: Vec, op2: Vec) {
self.emit_n(
InstId::Usmmla_v,
&[op0.as_operand(), op1.as_operand(), op2.as_operand()],
);
}
}
impl Assembler<'_> {
pub fn adc<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AdcEmitter<T0, T1, T2>,
{
<Self as AdcEmitter<T0, T1, T2>>::adc(self, op0, op1, op2);
}
pub fn adcs<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AdcsEmitter<T0, T1, T2>,
{
<Self as AdcsEmitter<T0, T1, T2>>::adcs(self, op0, op1, op2);
}
pub fn add<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AddEmitter<T0, T1, T2>,
{
<Self as AddEmitter<T0, T1, T2>>::add(self, op0, op1, op2);
}
pub fn add_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Add4Emitter<T0, T1, T2, T3>,
{
<Self as Add4Emitter<T0, T1, T2, T3>>::add_4(self, op0, op1, op2, op3);
}
pub fn adds<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AddsEmitter<T0, T1, T2>,
{
<Self as AddsEmitter<T0, T1, T2>>::adds(self, op0, op1, op2);
}
pub fn adds_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Adds4Emitter<T0, T1, T2, T3>,
{
<Self as Adds4Emitter<T0, T1, T2, T3>>::adds_4(self, op0, op1, op2, op3);
}
pub fn adr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AdrEmitter<T0, T1>,
{
<Self as AdrEmitter<T0, T1>>::adr(self, op0, op1);
}
pub fn adrp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AdrpEmitter<T0, T1>,
{
<Self as AdrpEmitter<T0, T1>>::adrp(self, op0, op1);
}
pub fn and_<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AndEmitter<T0, T1, T2>,
{
<Self as AndEmitter<T0, T1, T2>>::and_(self, op0, op1, op2);
}
pub fn and__4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: And4Emitter<T0, T1, T2, T3>,
{
<Self as And4Emitter<T0, T1, T2, T3>>::and__4(self, op0, op1, op2, op3);
}
pub fn ands<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AndsEmitter<T0, T1, T2>,
{
<Self as AndsEmitter<T0, T1, T2>>::ands(self, op0, op1, op2);
}
pub fn ands_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Ands4Emitter<T0, T1, T2, T3>,
{
<Self as Ands4Emitter<T0, T1, T2, T3>>::ands_4(self, op0, op1, op2, op3);
}
pub fn asr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AsrEmitter<T0, T1, T2>,
{
<Self as AsrEmitter<T0, T1, T2>>::asr(self, op0, op1, op2);
}
pub fn asrv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AsrvEmitter<T0, T1, T2>,
{
<Self as AsrvEmitter<T0, T1, T2>>::asrv(self, op0, op1, op2);
}
pub fn at<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AtEmitter<T0, T1>,
{
<Self as AtEmitter<T0, T1>>::at(self, op0, op1);
}
pub fn bfc<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BfcEmitter<T0, T1, T2>,
{
<Self as BfcEmitter<T0, T1, T2>>::bfc(self, op0, op1, op2);
}
pub fn bfi<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: BfiEmitter<T0, T1, T2, T3>,
{
<Self as BfiEmitter<T0, T1, T2, T3>>::bfi(self, op0, op1, op2, op3);
}
pub fn bfm<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: BfmEmitter<T0, T1, T2, T3>,
{
<Self as BfmEmitter<T0, T1, T2, T3>>::bfm(self, op0, op1, op2, op3);
}
pub fn bfxil<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: BfxilEmitter<T0, T1, T2, T3>,
{
<Self as BfxilEmitter<T0, T1, T2, T3>>::bfxil(self, op0, op1, op2, op3);
}
pub fn bic<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BicEmitter<T0, T1, T2>,
{
<Self as BicEmitter<T0, T1, T2>>::bic(self, op0, op1, op2);
}
pub fn bic_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Bic4Emitter<T0, T1, T2, T3>,
{
<Self as Bic4Emitter<T0, T1, T2, T3>>::bic_4(self, op0, op1, op2, op3);
}
pub fn bics<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BicsEmitter<T0, T1, T2>,
{
<Self as BicsEmitter<T0, T1, T2>>::bics(self, op0, op1, op2);
}
pub fn bics_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Bics4Emitter<T0, T1, T2, T3>,
{
<Self as Bics4Emitter<T0, T1, T2, T3>>::bics_4(self, op0, op1, op2, op3);
}
pub fn brk<T0>(&mut self, op0: T0)
where
Self: BrkEmitter<T0>,
{
<Self as BrkEmitter<T0>>::brk(self, op0);
}
pub fn ccmn<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: CcmnEmitter<T0, T1, T2, T3>,
{
<Self as CcmnEmitter<T0, T1, T2, T3>>::ccmn(self, op0, op1, op2, op3);
}
pub fn ccmp<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: CcmpEmitter<T0, T1, T2, T3>,
{
<Self as CcmpEmitter<T0, T1, T2, T3>>::ccmp(self, op0, op1, op2, op3);
}
pub fn cinc<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CincEmitter<T0, T1, T2>,
{
<Self as CincEmitter<T0, T1, T2>>::cinc(self, op0, op1, op2);
}
pub fn cinv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CinvEmitter<T0, T1, T2>,
{
<Self as CinvEmitter<T0, T1, T2>>::cinv(self, op0, op1, op2);
}
pub fn clrex<T0>(&mut self, op0: T0)
where
Self: ClrexEmitter<T0>,
{
<Self as ClrexEmitter<T0>>::clrex(self, op0);
}
pub fn cls<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: ClsEmitter<T0, T1>,
{
<Self as ClsEmitter<T0, T1>>::cls(self, op0, op1);
}
pub fn clz<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: ClzEmitter<T0, T1>,
{
<Self as ClzEmitter<T0, T1>>::clz(self, op0, op1);
}
pub fn cmn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CmnEmitter<T0, T1>,
{
<Self as CmnEmitter<T0, T1>>::cmn(self, op0, op1);
}
pub fn cmn_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Cmn3Emitter<T0, T1, T2>,
{
<Self as Cmn3Emitter<T0, T1, T2>>::cmn_3(self, op0, op1, op2);
}
pub fn cmp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CmpEmitter<T0, T1>,
{
<Self as CmpEmitter<T0, T1>>::cmp(self, op0, op1);
}
pub fn cmp_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Cmp3Emitter<T0, T1, T2>,
{
<Self as Cmp3Emitter<T0, T1, T2>>::cmp_3(self, op0, op1, op2);
}
pub fn cneg<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CnegEmitter<T0, T1, T2>,
{
<Self as CnegEmitter<T0, T1, T2>>::cneg(self, op0, op1, op2);
}
pub fn csel<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: CselEmitter<T0, T1, T2, T3>,
{
<Self as CselEmitter<T0, T1, T2, T3>>::csel(self, op0, op1, op2, op3);
}
pub fn cset<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CsetEmitter<T0, T1>,
{
<Self as CsetEmitter<T0, T1>>::cset(self, op0, op1);
}
pub fn csetm<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CsetmEmitter<T0, T1>,
{
<Self as CsetmEmitter<T0, T1>>::csetm(self, op0, op1);
}
pub fn csinc<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: CsincEmitter<T0, T1, T2, T3>,
{
<Self as CsincEmitter<T0, T1, T2, T3>>::csinc(self, op0, op1, op2, op3);
}
pub fn csinv<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: CsinvEmitter<T0, T1, T2, T3>,
{
<Self as CsinvEmitter<T0, T1, T2, T3>>::csinv(self, op0, op1, op2, op3);
}
pub fn csneg<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: CsnegEmitter<T0, T1, T2, T3>,
{
<Self as CsnegEmitter<T0, T1, T2, T3>>::csneg(self, op0, op1, op2, op3);
}
pub fn dc<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: DcEmitter<T0, T1>,
{
<Self as DcEmitter<T0, T1>>::dc(self, op0, op1);
}
pub fn dmb<T0>(&mut self, op0: T0)
where
Self: DmbEmitter<T0>,
{
<Self as DmbEmitter<T0>>::dmb(self, op0);
}
pub fn dsb<T0>(&mut self, op0: T0)
where
Self: DsbEmitter<T0>,
{
<Self as DsbEmitter<T0>>::dsb(self, op0);
}
pub fn drps(&mut self)
where
Self: DrpsEmitter,
{
<Self as DrpsEmitter>::drps(self);
}
pub fn eon<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: EonEmitter<T0, T1, T2>,
{
<Self as EonEmitter<T0, T1, T2>>::eon(self, op0, op1, op2);
}
pub fn eon_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Eon4Emitter<T0, T1, T2, T3>,
{
<Self as Eon4Emitter<T0, T1, T2, T3>>::eon_4(self, op0, op1, op2, op3);
}
pub fn eor<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: EorEmitter<T0, T1, T2>,
{
<Self as EorEmitter<T0, T1, T2>>::eor(self, op0, op1, op2);
}
pub fn eor_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Eor4Emitter<T0, T1, T2, T3>,
{
<Self as Eor4Emitter<T0, T1, T2, T3>>::eor_4(self, op0, op1, op2, op3);
}
pub fn eret(&mut self)
where
Self: EretEmitter,
{
<Self as EretEmitter>::eret(self);
}
pub fn esb(&mut self)
where
Self: EsbEmitter,
{
<Self as EsbEmitter>::esb(self);
}
pub fn extr<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: ExtrEmitter<T0, T1, T2, T3>,
{
<Self as ExtrEmitter<T0, T1, T2, T3>>::extr(self, op0, op1, op2, op3);
}
pub fn hlt<T0>(&mut self, op0: T0)
where
Self: HltEmitter<T0>,
{
<Self as HltEmitter<T0>>::hlt(self, op0);
}
pub fn hvc<T0>(&mut self, op0: T0)
where
Self: HvcEmitter<T0>,
{
<Self as HvcEmitter<T0>>::hvc(self, op0);
}
pub fn ic<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: IcEmitter<T0, T1>,
{
<Self as IcEmitter<T0, T1>>::ic(self, op0, op1);
}
pub fn isb<T0>(&mut self, op0: T0)
where
Self: IsbEmitter<T0>,
{
<Self as IsbEmitter<T0>>::isb(self, op0);
}
pub fn lsl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LslEmitter<T0, T1, T2>,
{
<Self as LslEmitter<T0, T1, T2>>::lsl(self, op0, op1, op2);
}
pub fn lslv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LslvEmitter<T0, T1, T2>,
{
<Self as LslvEmitter<T0, T1, T2>>::lslv(self, op0, op1, op2);
}
pub fn lsr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LsrEmitter<T0, T1, T2>,
{
<Self as LsrEmitter<T0, T1, T2>>::lsr(self, op0, op1, op2);
}
pub fn lsrv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LsrvEmitter<T0, T1, T2>,
{
<Self as LsrvEmitter<T0, T1, T2>>::lsrv(self, op0, op1, op2);
}
pub fn madd<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: MaddEmitter<T0, T1, T2, T3>,
{
<Self as MaddEmitter<T0, T1, T2, T3>>::madd(self, op0, op1, op2, op3);
}
pub fn mneg<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: MnegEmitter<T0, T1, T2>,
{
<Self as MnegEmitter<T0, T1, T2>>::mneg(self, op0, op1, op2);
}
pub fn mov<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MovEmitter<T0, T1>,
{
<Self as MovEmitter<T0, T1>>::mov(self, op0, op1);
}
pub fn movk<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MovkEmitter<T0, T1>,
{
<Self as MovkEmitter<T0, T1>>::movk(self, op0, op1);
}
pub fn movk_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Movk3Emitter<T0, T1, T2>,
{
<Self as Movk3Emitter<T0, T1, T2>>::movk_3(self, op0, op1, op2);
}
pub fn movn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MovnEmitter<T0, T1>,
{
<Self as MovnEmitter<T0, T1>>::movn(self, op0, op1);
}
pub fn movn_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Movn3Emitter<T0, T1, T2>,
{
<Self as Movn3Emitter<T0, T1, T2>>::movn_3(self, op0, op1, op2);
}
pub fn movz<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MovzEmitter<T0, T1>,
{
<Self as MovzEmitter<T0, T1>>::movz(self, op0, op1);
}
pub fn movz_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Movz3Emitter<T0, T1, T2>,
{
<Self as Movz3Emitter<T0, T1, T2>>::movz_3(self, op0, op1, op2);
}
pub fn mrs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MrsEmitter<T0, T1>,
{
<Self as MrsEmitter<T0, T1>>::mrs(self, op0, op1);
}
pub fn msr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MsrEmitter<T0, T1>,
{
<Self as MsrEmitter<T0, T1>>::msr(self, op0, op1);
}
pub fn msub<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: MsubEmitter<T0, T1, T2, T3>,
{
<Self as MsubEmitter<T0, T1, T2, T3>>::msub(self, op0, op1, op2, op3);
}
pub fn mul<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: MulEmitter<T0, T1, T2>,
{
<Self as MulEmitter<T0, T1, T2>>::mul(self, op0, op1, op2);
}
pub fn mvn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MvnEmitter<T0, T1>,
{
<Self as MvnEmitter<T0, T1>>::mvn(self, op0, op1);
}
pub fn mvn_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Mvn3Emitter<T0, T1, T2>,
{
<Self as Mvn3Emitter<T0, T1, T2>>::mvn_3(self, op0, op1, op2);
}
pub fn mvn_<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Mvn_Emitter<T0, T1>,
{
<Self as Mvn_Emitter<T0, T1>>::mvn_(self, op0, op1);
}
pub fn mvn__3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Mvn_3Emitter<T0, T1, T2>,
{
<Self as Mvn_3Emitter<T0, T1, T2>>::mvn__3(self, op0, op1, op2);
}
pub fn neg<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: NegEmitter<T0, T1>,
{
<Self as NegEmitter<T0, T1>>::neg(self, op0, op1);
}
pub fn neg_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Neg3Emitter<T0, T1, T2>,
{
<Self as Neg3Emitter<T0, T1, T2>>::neg_3(self, op0, op1, op2);
}
pub fn negs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: NegsEmitter<T0, T1>,
{
<Self as NegsEmitter<T0, T1>>::negs(self, op0, op1);
}
pub fn negs_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Negs3Emitter<T0, T1, T2>,
{
<Self as Negs3Emitter<T0, T1, T2>>::negs_3(self, op0, op1, op2);
}
pub fn ngc<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: NgcEmitter<T0, T1>,
{
<Self as NgcEmitter<T0, T1>>::ngc(self, op0, op1);
}
pub fn ngcs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: NgcsEmitter<T0, T1>,
{
<Self as NgcsEmitter<T0, T1>>::ngcs(self, op0, op1);
}
pub fn orn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: OrnEmitter<T0, T1, T2>,
{
<Self as OrnEmitter<T0, T1, T2>>::orn(self, op0, op1, op2);
}
pub fn orn_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Orn4Emitter<T0, T1, T2, T3>,
{
<Self as Orn4Emitter<T0, T1, T2, T3>>::orn_4(self, op0, op1, op2, op3);
}
pub fn orr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: OrrEmitter<T0, T1, T2>,
{
<Self as OrrEmitter<T0, T1, T2>>::orr(self, op0, op1, op2);
}
pub fn orr_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Orr4Emitter<T0, T1, T2, T3>,
{
<Self as Orr4Emitter<T0, T1, T2, T3>>::orr_4(self, op0, op1, op2, op3);
}
pub fn rbit<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: RbitEmitter<T0, T1>,
{
<Self as RbitEmitter<T0, T1>>::rbit(self, op0, op1);
}
pub fn ret<T0>(&mut self, op0: T0)
where
Self: RetEmitter<T0>,
{
<Self as RetEmitter<T0>>::ret(self, op0);
}
pub fn rev<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: RevEmitter<T0, T1>,
{
<Self as RevEmitter<T0, T1>>::rev(self, op0, op1);
}
pub fn rev16<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Rev16Emitter<T0, T1>,
{
<Self as Rev16Emitter<T0, T1>>::rev16(self, op0, op1);
}
pub fn rev32<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Rev32Emitter<T0, T1>,
{
<Self as Rev32Emitter<T0, T1>>::rev32(self, op0, op1);
}
pub fn rev64<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Rev64Emitter<T0, T1>,
{
<Self as Rev64Emitter<T0, T1>>::rev64(self, op0, op1);
}
pub fn ror<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: RorEmitter<T0, T1, T2>,
{
<Self as RorEmitter<T0, T1, T2>>::ror(self, op0, op1, op2);
}
pub fn rorv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: RorvEmitter<T0, T1, T2>,
{
<Self as RorvEmitter<T0, T1, T2>>::rorv(self, op0, op1, op2);
}
pub fn sbc<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SbcEmitter<T0, T1, T2>,
{
<Self as SbcEmitter<T0, T1, T2>>::sbc(self, op0, op1, op2);
}
pub fn sbcs<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SbcsEmitter<T0, T1, T2>,
{
<Self as SbcsEmitter<T0, T1, T2>>::sbcs(self, op0, op1, op2);
}
pub fn sbfiz<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: SbfizEmitter<T0, T1, T2, T3>,
{
<Self as SbfizEmitter<T0, T1, T2, T3>>::sbfiz(self, op0, op1, op2, op3);
}
pub fn sbfm<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: SbfmEmitter<T0, T1, T2, T3>,
{
<Self as SbfmEmitter<T0, T1, T2, T3>>::sbfm(self, op0, op1, op2, op3);
}
pub fn sbfx<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: SbfxEmitter<T0, T1, T2, T3>,
{
<Self as SbfxEmitter<T0, T1, T2, T3>>::sbfx(self, op0, op1, op2, op3);
}
pub fn sdiv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SdivEmitter<T0, T1, T2>,
{
<Self as SdivEmitter<T0, T1, T2>>::sdiv(self, op0, op1, op2);
}
pub fn smaddl<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: SmaddlEmitter<T0, T1, T2, T3>,
{
<Self as SmaddlEmitter<T0, T1, T2, T3>>::smaddl(self, op0, op1, op2, op3);
}
pub fn smc<T0>(&mut self, op0: T0)
where
Self: SmcEmitter<T0>,
{
<Self as SmcEmitter<T0>>::smc(self, op0);
}
pub fn smnegl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmneglEmitter<T0, T1, T2>,
{
<Self as SmneglEmitter<T0, T1, T2>>::smnegl(self, op0, op1, op2);
}
pub fn smsubl<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: SmsublEmitter<T0, T1, T2, T3>,
{
<Self as SmsublEmitter<T0, T1, T2, T3>>::smsubl(self, op0, op1, op2, op3);
}
pub fn smulh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmulhEmitter<T0, T1, T2>,
{
<Self as SmulhEmitter<T0, T1, T2>>::smulh(self, op0, op1, op2);
}
pub fn smull<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmullEmitter<T0, T1, T2>,
{
<Self as SmullEmitter<T0, T1, T2>>::smull(self, op0, op1, op2);
}
pub fn sub<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SubEmitter<T0, T1, T2>,
{
<Self as SubEmitter<T0, T1, T2>>::sub(self, op0, op1, op2);
}
pub fn sub_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Sub4Emitter<T0, T1, T2, T3>,
{
<Self as Sub4Emitter<T0, T1, T2, T3>>::sub_4(self, op0, op1, op2, op3);
}
pub fn subs<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SubsEmitter<T0, T1, T2>,
{
<Self as SubsEmitter<T0, T1, T2>>::subs(self, op0, op1, op2);
}
pub fn subs_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Subs4Emitter<T0, T1, T2, T3>,
{
<Self as Subs4Emitter<T0, T1, T2, T3>>::subs_4(self, op0, op1, op2, op3);
}
pub fn svc<T0>(&mut self, op0: T0)
where
Self: SvcEmitter<T0>,
{
<Self as SvcEmitter<T0>>::svc(self, op0);
}
pub fn sxtb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SxtbEmitter<T0, T1>,
{
<Self as SxtbEmitter<T0, T1>>::sxtb(self, op0, op1);
}
pub fn sxth<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SxthEmitter<T0, T1>,
{
<Self as SxthEmitter<T0, T1>>::sxth(self, op0, op1);
}
pub fn sxtw<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SxtwEmitter<T0, T1>,
{
<Self as SxtwEmitter<T0, T1>>::sxtw(self, op0, op1);
}
pub fn sys<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: SysEmitter<T0, T1, T2, T3>,
{
<Self as SysEmitter<T0, T1, T2, T3>>::sys(self, op0, op1, op2, op3);
}
pub fn sys_5<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: Sys5Emitter<T0, T1, T2, T3, T4>,
{
<Self as Sys5Emitter<T0, T1, T2, T3, T4>>::sys_5(self, op0, op1, op2, op3, op4);
}
pub fn tlbi<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: TlbiEmitter<T0, T1>,
{
<Self as TlbiEmitter<T0, T1>>::tlbi(self, op0, op1);
}
pub fn tst<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: TstEmitter<T0, T1>,
{
<Self as TstEmitter<T0, T1>>::tst(self, op0, op1);
}
pub fn tst_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Tst3Emitter<T0, T1, T2>,
{
<Self as Tst3Emitter<T0, T1, T2>>::tst_3(self, op0, op1, op2);
}
pub fn udiv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UdivEmitter<T0, T1, T2>,
{
<Self as UdivEmitter<T0, T1, T2>>::udiv(self, op0, op1, op2);
}
pub fn ubfiz<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: UbfizEmitter<T0, T1, T2, T3>,
{
<Self as UbfizEmitter<T0, T1, T2, T3>>::ubfiz(self, op0, op1, op2, op3);
}
pub fn ubfm<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: UbfmEmitter<T0, T1, T2, T3>,
{
<Self as UbfmEmitter<T0, T1, T2, T3>>::ubfm(self, op0, op1, op2, op3);
}
pub fn ubfx<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: UbfxEmitter<T0, T1, T2, T3>,
{
<Self as UbfxEmitter<T0, T1, T2, T3>>::ubfx(self, op0, op1, op2, op3);
}
pub fn umaddl<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: UmaddlEmitter<T0, T1, T2, T3>,
{
<Self as UmaddlEmitter<T0, T1, T2, T3>>::umaddl(self, op0, op1, op2, op3);
}
pub fn umnegl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmneglEmitter<T0, T1, T2>,
{
<Self as UmneglEmitter<T0, T1, T2>>::umnegl(self, op0, op1, op2);
}
pub fn umsubl<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: UmsublEmitter<T0, T1, T2, T3>,
{
<Self as UmsublEmitter<T0, T1, T2, T3>>::umsubl(self, op0, op1, op2, op3);
}
pub fn umull<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmullEmitter<T0, T1, T2>,
{
<Self as UmullEmitter<T0, T1, T2>>::umull(self, op0, op1, op2);
}
pub fn umulh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmulhEmitter<T0, T1, T2>,
{
<Self as UmulhEmitter<T0, T1, T2>>::umulh(self, op0, op1, op2);
}
pub fn uxtb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UxtbEmitter<T0, T1>,
{
<Self as UxtbEmitter<T0, T1>>::uxtb(self, op0, op1);
}
pub fn uxth<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UxthEmitter<T0, T1>,
{
<Self as UxthEmitter<T0, T1>>::uxth(self, op0, op1);
}
pub fn csdb(&mut self)
where
Self: CsdbEmitter,
{
<Self as CsdbEmitter>::csdb(self);
}
pub fn dcps1<T0>(&mut self, op0: T0)
where
Self: Dcps1Emitter<T0>,
{
<Self as Dcps1Emitter<T0>>::dcps1(self, op0);
}
pub fn dcps2<T0>(&mut self, op0: T0)
where
Self: Dcps2Emitter<T0>,
{
<Self as Dcps2Emitter<T0>>::dcps2(self, op0);
}
pub fn dcps3<T0>(&mut self, op0: T0)
where
Self: Dcps3Emitter<T0>,
{
<Self as Dcps3Emitter<T0>>::dcps3(self, op0);
}
pub fn pssbb(&mut self)
where
Self: PssbbEmitter,
{
<Self as PssbbEmitter>::pssbb(self);
}
pub fn ssbb(&mut self)
where
Self: SsbbEmitter,
{
<Self as SsbbEmitter>::ssbb(self);
}
pub fn udf<T0>(&mut self, op0: T0)
where
Self: UdfEmitter<T0>,
{
<Self as UdfEmitter<T0>>::udf(self, op0);
}
pub fn b<T>(&mut self, op0: T)
where
Self: BEmitter<T>,
{
<Self as BEmitter<T>>::b(self, op0);
}
pub fn b_eq<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_eq(self, op0);
}
pub fn b_ne<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_ne(self, op0);
}
pub fn b_cs<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_cs(self, op0);
}
pub fn b_hs<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_hs(self, op0);
}
pub fn b_cc<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_cc(self, op0);
}
pub fn b_lo<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_lo(self, op0);
}
pub fn b_mi<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_mi(self, op0);
}
pub fn b_pl<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_pl(self, op0);
}
pub fn b_vs<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_vs(self, op0);
}
pub fn b_vc<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_vc(self, op0);
}
pub fn b_hi<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_hi(self, op0);
}
pub fn b_ls<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_ls(self, op0);
}
pub fn b_ge<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_ge(self, op0);
}
pub fn b_lt<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_lt(self, op0);
}
pub fn b_gt<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_gt(self, op0);
}
pub fn b_le<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_le(self, op0);
}
pub fn b_al<T0>(&mut self, op0: T0)
where
Self: BEmitter<T0>,
{
<Self as BEmitter<T0>>::b_al(self, op0);
}
pub fn bl<T0>(&mut self, op0: T0)
where
Self: BlEmitter<T0>,
{
<Self as BlEmitter<T0>>::bl(self, op0);
}
pub fn blr<T0>(&mut self, op0: T0)
where
Self: BlrEmitter<T0>,
{
<Self as BlrEmitter<T0>>::blr(self, op0);
}
pub fn br<T0>(&mut self, op0: T0)
where
Self: BrEmitter<T0>,
{
<Self as BrEmitter<T0>>::br(self, op0);
}
pub fn cbz<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CbzEmitter<T0, T1>,
{
<Self as CbzEmitter<T0, T1>>::cbz(self, op0, op1);
}
pub fn cbnz<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CbnzEmitter<T0, T1>,
{
<Self as CbnzEmitter<T0, T1>>::cbnz(self, op0, op1);
}
pub fn tbnz<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: TbnzEmitter<T0, T1, T2>,
{
<Self as TbnzEmitter<T0, T1, T2>>::tbnz(self, op0, op1, op2);
}
pub fn tbz<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: TbzEmitter<T0, T1, T2>,
{
<Self as TbzEmitter<T0, T1, T2>>::tbz(self, op0, op1, op2);
}
pub fn cas<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasEmitter<T0, T1, T2>,
{
<Self as CasEmitter<T0, T1, T2>>::cas(self, op0, op1, op2);
}
pub fn casa<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasaEmitter<T0, T1, T2>,
{
<Self as CasaEmitter<T0, T1, T2>>::casa(self, op0, op1, op2);
}
pub fn casab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasabEmitter<T0, T1, T2>,
{
<Self as CasabEmitter<T0, T1, T2>>::casab(self, op0, op1, op2);
}
pub fn casah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasahEmitter<T0, T1, T2>,
{
<Self as CasahEmitter<T0, T1, T2>>::casah(self, op0, op1, op2);
}
pub fn casal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasalEmitter<T0, T1, T2>,
{
<Self as CasalEmitter<T0, T1, T2>>::casal(self, op0, op1, op2);
}
pub fn casalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasalbEmitter<T0, T1, T2>,
{
<Self as CasalbEmitter<T0, T1, T2>>::casalb(self, op0, op1, op2);
}
pub fn casalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasalhEmitter<T0, T1, T2>,
{
<Self as CasalhEmitter<T0, T1, T2>>::casalh(self, op0, op1, op2);
}
pub fn casb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CasbEmitter<T0, T1, T2>,
{
<Self as CasbEmitter<T0, T1, T2>>::casb(self, op0, op1, op2);
}
pub fn cash<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CashEmitter<T0, T1, T2>,
{
<Self as CashEmitter<T0, T1, T2>>::cash(self, op0, op1, op2);
}
pub fn casl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CaslEmitter<T0, T1, T2>,
{
<Self as CaslEmitter<T0, T1, T2>>::casl(self, op0, op1, op2);
}
pub fn caslb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CaslbEmitter<T0, T1, T2>,
{
<Self as CaslbEmitter<T0, T1, T2>>::caslb(self, op0, op1, op2);
}
pub fn caslh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CaslhEmitter<T0, T1, T2>,
{
<Self as CaslhEmitter<T0, T1, T2>>::caslh(self, op0, op1, op2);
}
pub fn casp<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: CaspEmitter<T0, T1, T2, T3, T4>,
{
<Self as CaspEmitter<T0, T1, T2, T3, T4>>::casp(self, op0, op1, op2, op3, op4);
}
pub fn caspa<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: CaspaEmitter<T0, T1, T2, T3, T4>,
{
<Self as CaspaEmitter<T0, T1, T2, T3, T4>>::caspa(self, op0, op1, op2, op3, op4);
}
pub fn caspal<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: CaspalEmitter<T0, T1, T2, T3, T4>,
{
<Self as CaspalEmitter<T0, T1, T2, T3, T4>>::caspal(self, op0, op1, op2, op3, op4);
}
pub fn caspl<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: CasplEmitter<T0, T1, T2, T3, T4>,
{
<Self as CasplEmitter<T0, T1, T2, T3, T4>>::caspl(self, op0, op1, op2, op3, op4);
}
pub fn ldadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddEmitter<T0, T1, T2>,
{
<Self as LdaddEmitter<T0, T1, T2>>::ldadd(self, op0, op1, op2);
}
pub fn ldadda<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddaEmitter<T0, T1, T2>,
{
<Self as LdaddaEmitter<T0, T1, T2>>::ldadda(self, op0, op1, op2);
}
pub fn ldaddab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddabEmitter<T0, T1, T2>,
{
<Self as LdaddabEmitter<T0, T1, T2>>::ldaddab(self, op0, op1, op2);
}
pub fn ldaddah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddahEmitter<T0, T1, T2>,
{
<Self as LdaddahEmitter<T0, T1, T2>>::ldaddah(self, op0, op1, op2);
}
pub fn ldaddal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddalEmitter<T0, T1, T2>,
{
<Self as LdaddalEmitter<T0, T1, T2>>::ldaddal(self, op0, op1, op2);
}
pub fn ldaddalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddalbEmitter<T0, T1, T2>,
{
<Self as LdaddalbEmitter<T0, T1, T2>>::ldaddalb(self, op0, op1, op2);
}
pub fn ldaddalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddalhEmitter<T0, T1, T2>,
{
<Self as LdaddalhEmitter<T0, T1, T2>>::ldaddalh(self, op0, op1, op2);
}
pub fn ldaddb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddbEmitter<T0, T1, T2>,
{
<Self as LdaddbEmitter<T0, T1, T2>>::ldaddb(self, op0, op1, op2);
}
pub fn ldaddh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddhEmitter<T0, T1, T2>,
{
<Self as LdaddhEmitter<T0, T1, T2>>::ldaddh(self, op0, op1, op2);
}
pub fn ldaddl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddlEmitter<T0, T1, T2>,
{
<Self as LdaddlEmitter<T0, T1, T2>>::ldaddl(self, op0, op1, op2);
}
pub fn ldaddlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddlbEmitter<T0, T1, T2>,
{
<Self as LdaddlbEmitter<T0, T1, T2>>::ldaddlb(self, op0, op1, op2);
}
pub fn ldaddlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaddlhEmitter<T0, T1, T2>,
{
<Self as LdaddlhEmitter<T0, T1, T2>>::ldaddlh(self, op0, op1, op2);
}
pub fn ldar<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdarEmitter<T0, T1>,
{
<Self as LdarEmitter<T0, T1>>::ldar(self, op0, op1);
}
pub fn ldarb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdarbEmitter<T0, T1>,
{
<Self as LdarbEmitter<T0, T1>>::ldarb(self, op0, op1);
}
pub fn ldarh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdarhEmitter<T0, T1>,
{
<Self as LdarhEmitter<T0, T1>>::ldarh(self, op0, op1);
}
pub fn ldaxr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdaxrEmitter<T0, T1>,
{
<Self as LdaxrEmitter<T0, T1>>::ldaxr(self, op0, op1);
}
pub fn ldaxrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdaxrbEmitter<T0, T1>,
{
<Self as LdaxrbEmitter<T0, T1>>::ldaxrb(self, op0, op1);
}
pub fn ldaxrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdaxrhEmitter<T0, T1>,
{
<Self as LdaxrhEmitter<T0, T1>>::ldaxrh(self, op0, op1);
}
pub fn ldclr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrEmitter<T0, T1, T2>,
{
<Self as LdclrEmitter<T0, T1, T2>>::ldclr(self, op0, op1, op2);
}
pub fn ldclra<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclraEmitter<T0, T1, T2>,
{
<Self as LdclraEmitter<T0, T1, T2>>::ldclra(self, op0, op1, op2);
}
pub fn ldclrab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrabEmitter<T0, T1, T2>,
{
<Self as LdclrabEmitter<T0, T1, T2>>::ldclrab(self, op0, op1, op2);
}
pub fn ldclrah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrahEmitter<T0, T1, T2>,
{
<Self as LdclrahEmitter<T0, T1, T2>>::ldclrah(self, op0, op1, op2);
}
pub fn ldclral<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclralEmitter<T0, T1, T2>,
{
<Self as LdclralEmitter<T0, T1, T2>>::ldclral(self, op0, op1, op2);
}
pub fn ldclralb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclralbEmitter<T0, T1, T2>,
{
<Self as LdclralbEmitter<T0, T1, T2>>::ldclralb(self, op0, op1, op2);
}
pub fn ldclralh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclralhEmitter<T0, T1, T2>,
{
<Self as LdclralhEmitter<T0, T1, T2>>::ldclralh(self, op0, op1, op2);
}
pub fn ldclrb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrbEmitter<T0, T1, T2>,
{
<Self as LdclrbEmitter<T0, T1, T2>>::ldclrb(self, op0, op1, op2);
}
pub fn ldclrh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrhEmitter<T0, T1, T2>,
{
<Self as LdclrhEmitter<T0, T1, T2>>::ldclrh(self, op0, op1, op2);
}
pub fn ldclrl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrlEmitter<T0, T1, T2>,
{
<Self as LdclrlEmitter<T0, T1, T2>>::ldclrl(self, op0, op1, op2);
}
pub fn ldclrlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrlbEmitter<T0, T1, T2>,
{
<Self as LdclrlbEmitter<T0, T1, T2>>::ldclrlb(self, op0, op1, op2);
}
pub fn ldclrlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdclrlhEmitter<T0, T1, T2>,
{
<Self as LdclrlhEmitter<T0, T1, T2>>::ldclrlh(self, op0, op1, op2);
}
pub fn ldeor<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorEmitter<T0, T1, T2>,
{
<Self as LdeorEmitter<T0, T1, T2>>::ldeor(self, op0, op1, op2);
}
pub fn ldeora<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeoraEmitter<T0, T1, T2>,
{
<Self as LdeoraEmitter<T0, T1, T2>>::ldeora(self, op0, op1, op2);
}
pub fn ldeorab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorabEmitter<T0, T1, T2>,
{
<Self as LdeorabEmitter<T0, T1, T2>>::ldeorab(self, op0, op1, op2);
}
pub fn ldeorah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorahEmitter<T0, T1, T2>,
{
<Self as LdeorahEmitter<T0, T1, T2>>::ldeorah(self, op0, op1, op2);
}
pub fn ldeoral<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeoralEmitter<T0, T1, T2>,
{
<Self as LdeoralEmitter<T0, T1, T2>>::ldeoral(self, op0, op1, op2);
}
pub fn ldeoralb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeoralbEmitter<T0, T1, T2>,
{
<Self as LdeoralbEmitter<T0, T1, T2>>::ldeoralb(self, op0, op1, op2);
}
pub fn ldeoralh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeoralhEmitter<T0, T1, T2>,
{
<Self as LdeoralhEmitter<T0, T1, T2>>::ldeoralh(self, op0, op1, op2);
}
pub fn ldeorb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorbEmitter<T0, T1, T2>,
{
<Self as LdeorbEmitter<T0, T1, T2>>::ldeorb(self, op0, op1, op2);
}
pub fn ldeorh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorhEmitter<T0, T1, T2>,
{
<Self as LdeorhEmitter<T0, T1, T2>>::ldeorh(self, op0, op1, op2);
}
pub fn ldeorl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorlEmitter<T0, T1, T2>,
{
<Self as LdeorlEmitter<T0, T1, T2>>::ldeorl(self, op0, op1, op2);
}
pub fn ldeorlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorlbEmitter<T0, T1, T2>,
{
<Self as LdeorlbEmitter<T0, T1, T2>>::ldeorlb(self, op0, op1, op2);
}
pub fn ldeorlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdeorlhEmitter<T0, T1, T2>,
{
<Self as LdeorlhEmitter<T0, T1, T2>>::ldeorlh(self, op0, op1, op2);
}
pub fn ldlar<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdlarEmitter<T0, T1>,
{
<Self as LdlarEmitter<T0, T1>>::ldlar(self, op0, op1);
}
pub fn ldlarb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdlarbEmitter<T0, T1>,
{
<Self as LdlarbEmitter<T0, T1>>::ldlarb(self, op0, op1);
}
pub fn ldlarh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdlarhEmitter<T0, T1>,
{
<Self as LdlarhEmitter<T0, T1>>::ldlarh(self, op0, op1);
}
pub fn ldnp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdnpEmitter<T0, T1, T2>,
{
<Self as LdnpEmitter<T0, T1, T2>>::ldnp(self, op0, op1, op2);
}
pub fn ldp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdpEmitter<T0, T1, T2>,
{
<Self as LdpEmitter<T0, T1, T2>>::ldp(self, op0, op1, op2);
}
pub fn ldpsw<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdpswEmitter<T0, T1, T2>,
{
<Self as LdpswEmitter<T0, T1, T2>>::ldpsw(self, op0, op1, op2);
}
pub fn ldr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdrEmitter<T0, T1>,
{
<Self as LdrEmitter<T0, T1>>::ldr(self, op0, op1);
}
pub fn ldrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdrbEmitter<T0, T1>,
{
<Self as LdrbEmitter<T0, T1>>::ldrb(self, op0, op1);
}
pub fn ldrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdrhEmitter<T0, T1>,
{
<Self as LdrhEmitter<T0, T1>>::ldrh(self, op0, op1);
}
pub fn ldrsb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdrsbEmitter<T0, T1>,
{
<Self as LdrsbEmitter<T0, T1>>::ldrsb(self, op0, op1);
}
pub fn ldrsh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdrshEmitter<T0, T1>,
{
<Self as LdrshEmitter<T0, T1>>::ldrsh(self, op0, op1);
}
pub fn ldrsw<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdrswEmitter<T0, T1>,
{
<Self as LdrswEmitter<T0, T1>>::ldrsw(self, op0, op1);
}
pub fn ldset<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetEmitter<T0, T1, T2>,
{
<Self as LdsetEmitter<T0, T1, T2>>::ldset(self, op0, op1, op2);
}
pub fn ldseta<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetaEmitter<T0, T1, T2>,
{
<Self as LdsetaEmitter<T0, T1, T2>>::ldseta(self, op0, op1, op2);
}
pub fn ldsetab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetabEmitter<T0, T1, T2>,
{
<Self as LdsetabEmitter<T0, T1, T2>>::ldsetab(self, op0, op1, op2);
}
pub fn ldsetah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetahEmitter<T0, T1, T2>,
{
<Self as LdsetahEmitter<T0, T1, T2>>::ldsetah(self, op0, op1, op2);
}
pub fn ldsetal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetalEmitter<T0, T1, T2>,
{
<Self as LdsetalEmitter<T0, T1, T2>>::ldsetal(self, op0, op1, op2);
}
pub fn ldsetalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetalbEmitter<T0, T1, T2>,
{
<Self as LdsetalbEmitter<T0, T1, T2>>::ldsetalb(self, op0, op1, op2);
}
pub fn ldsetalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetalhEmitter<T0, T1, T2>,
{
<Self as LdsetalhEmitter<T0, T1, T2>>::ldsetalh(self, op0, op1, op2);
}
pub fn ldsetb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetbEmitter<T0, T1, T2>,
{
<Self as LdsetbEmitter<T0, T1, T2>>::ldsetb(self, op0, op1, op2);
}
pub fn ldseth<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsethEmitter<T0, T1, T2>,
{
<Self as LdsethEmitter<T0, T1, T2>>::ldseth(self, op0, op1, op2);
}
pub fn ldsetl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetlEmitter<T0, T1, T2>,
{
<Self as LdsetlEmitter<T0, T1, T2>>::ldsetl(self, op0, op1, op2);
}
pub fn ldsetlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetlbEmitter<T0, T1, T2>,
{
<Self as LdsetlbEmitter<T0, T1, T2>>::ldsetlb(self, op0, op1, op2);
}
pub fn ldsetlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsetlhEmitter<T0, T1, T2>,
{
<Self as LdsetlhEmitter<T0, T1, T2>>::ldsetlh(self, op0, op1, op2);
}
pub fn ldsmax<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxEmitter<T0, T1, T2>,
{
<Self as LdsmaxEmitter<T0, T1, T2>>::ldsmax(self, op0, op1, op2);
}
pub fn ldsmaxa<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxaEmitter<T0, T1, T2>,
{
<Self as LdsmaxaEmitter<T0, T1, T2>>::ldsmaxa(self, op0, op1, op2);
}
pub fn ldsmaxab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxabEmitter<T0, T1, T2>,
{
<Self as LdsmaxabEmitter<T0, T1, T2>>::ldsmaxab(self, op0, op1, op2);
}
pub fn ldsmaxah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxahEmitter<T0, T1, T2>,
{
<Self as LdsmaxahEmitter<T0, T1, T2>>::ldsmaxah(self, op0, op1, op2);
}
pub fn ldsmaxal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxalEmitter<T0, T1, T2>,
{
<Self as LdsmaxalEmitter<T0, T1, T2>>::ldsmaxal(self, op0, op1, op2);
}
pub fn ldsmaxalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxalbEmitter<T0, T1, T2>,
{
<Self as LdsmaxalbEmitter<T0, T1, T2>>::ldsmaxalb(self, op0, op1, op2);
}
pub fn ldsmaxalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxalhEmitter<T0, T1, T2>,
{
<Self as LdsmaxalhEmitter<T0, T1, T2>>::ldsmaxalh(self, op0, op1, op2);
}
pub fn ldsmaxb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxbEmitter<T0, T1, T2>,
{
<Self as LdsmaxbEmitter<T0, T1, T2>>::ldsmaxb(self, op0, op1, op2);
}
pub fn ldsmaxh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxhEmitter<T0, T1, T2>,
{
<Self as LdsmaxhEmitter<T0, T1, T2>>::ldsmaxh(self, op0, op1, op2);
}
pub fn ldsmaxl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxlEmitter<T0, T1, T2>,
{
<Self as LdsmaxlEmitter<T0, T1, T2>>::ldsmaxl(self, op0, op1, op2);
}
pub fn ldsmaxlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxlbEmitter<T0, T1, T2>,
{
<Self as LdsmaxlbEmitter<T0, T1, T2>>::ldsmaxlb(self, op0, op1, op2);
}
pub fn ldsmaxlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsmaxlhEmitter<T0, T1, T2>,
{
<Self as LdsmaxlhEmitter<T0, T1, T2>>::ldsmaxlh(self, op0, op1, op2);
}
pub fn ldsmin<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminEmitter<T0, T1, T2>,
{
<Self as LdsminEmitter<T0, T1, T2>>::ldsmin(self, op0, op1, op2);
}
pub fn ldsmina<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminaEmitter<T0, T1, T2>,
{
<Self as LdsminaEmitter<T0, T1, T2>>::ldsmina(self, op0, op1, op2);
}
pub fn ldsminab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminabEmitter<T0, T1, T2>,
{
<Self as LdsminabEmitter<T0, T1, T2>>::ldsminab(self, op0, op1, op2);
}
pub fn ldsminah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminahEmitter<T0, T1, T2>,
{
<Self as LdsminahEmitter<T0, T1, T2>>::ldsminah(self, op0, op1, op2);
}
pub fn ldsminal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminalEmitter<T0, T1, T2>,
{
<Self as LdsminalEmitter<T0, T1, T2>>::ldsminal(self, op0, op1, op2);
}
pub fn ldsminalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminalbEmitter<T0, T1, T2>,
{
<Self as LdsminalbEmitter<T0, T1, T2>>::ldsminalb(self, op0, op1, op2);
}
pub fn ldsminalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminalhEmitter<T0, T1, T2>,
{
<Self as LdsminalhEmitter<T0, T1, T2>>::ldsminalh(self, op0, op1, op2);
}
pub fn ldsminb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminbEmitter<T0, T1, T2>,
{
<Self as LdsminbEmitter<T0, T1, T2>>::ldsminb(self, op0, op1, op2);
}
pub fn ldsminh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminhEmitter<T0, T1, T2>,
{
<Self as LdsminhEmitter<T0, T1, T2>>::ldsminh(self, op0, op1, op2);
}
pub fn ldsminl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminlEmitter<T0, T1, T2>,
{
<Self as LdsminlEmitter<T0, T1, T2>>::ldsminl(self, op0, op1, op2);
}
pub fn ldsminlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminlbEmitter<T0, T1, T2>,
{
<Self as LdsminlbEmitter<T0, T1, T2>>::ldsminlb(self, op0, op1, op2);
}
pub fn ldsminlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdsminlhEmitter<T0, T1, T2>,
{
<Self as LdsminlhEmitter<T0, T1, T2>>::ldsminlh(self, op0, op1, op2);
}
pub fn ldtr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdtrEmitter<T0, T1>,
{
<Self as LdtrEmitter<T0, T1>>::ldtr(self, op0, op1);
}
pub fn ldtrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdtrbEmitter<T0, T1>,
{
<Self as LdtrbEmitter<T0, T1>>::ldtrb(self, op0, op1);
}
pub fn ldtrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdtrhEmitter<T0, T1>,
{
<Self as LdtrhEmitter<T0, T1>>::ldtrh(self, op0, op1);
}
pub fn ldtrsb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdtrsbEmitter<T0, T1>,
{
<Self as LdtrsbEmitter<T0, T1>>::ldtrsb(self, op0, op1);
}
pub fn ldtrsh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdtrshEmitter<T0, T1>,
{
<Self as LdtrshEmitter<T0, T1>>::ldtrsh(self, op0, op1);
}
pub fn ldtrsw<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdtrswEmitter<T0, T1>,
{
<Self as LdtrswEmitter<T0, T1>>::ldtrsw(self, op0, op1);
}
pub fn ldumax<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxEmitter<T0, T1, T2>,
{
<Self as LdumaxEmitter<T0, T1, T2>>::ldumax(self, op0, op1, op2);
}
pub fn ldumaxa<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxaEmitter<T0, T1, T2>,
{
<Self as LdumaxaEmitter<T0, T1, T2>>::ldumaxa(self, op0, op1, op2);
}
pub fn ldumaxab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxabEmitter<T0, T1, T2>,
{
<Self as LdumaxabEmitter<T0, T1, T2>>::ldumaxab(self, op0, op1, op2);
}
pub fn ldumaxah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxahEmitter<T0, T1, T2>,
{
<Self as LdumaxahEmitter<T0, T1, T2>>::ldumaxah(self, op0, op1, op2);
}
pub fn ldumaxal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxalEmitter<T0, T1, T2>,
{
<Self as LdumaxalEmitter<T0, T1, T2>>::ldumaxal(self, op0, op1, op2);
}
pub fn ldumaxalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxalbEmitter<T0, T1, T2>,
{
<Self as LdumaxalbEmitter<T0, T1, T2>>::ldumaxalb(self, op0, op1, op2);
}
pub fn ldumaxalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxalhEmitter<T0, T1, T2>,
{
<Self as LdumaxalhEmitter<T0, T1, T2>>::ldumaxalh(self, op0, op1, op2);
}
pub fn ldumaxb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxbEmitter<T0, T1, T2>,
{
<Self as LdumaxbEmitter<T0, T1, T2>>::ldumaxb(self, op0, op1, op2);
}
pub fn ldumaxh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxhEmitter<T0, T1, T2>,
{
<Self as LdumaxhEmitter<T0, T1, T2>>::ldumaxh(self, op0, op1, op2);
}
pub fn ldumaxl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxlEmitter<T0, T1, T2>,
{
<Self as LdumaxlEmitter<T0, T1, T2>>::ldumaxl(self, op0, op1, op2);
}
pub fn ldumaxlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxlbEmitter<T0, T1, T2>,
{
<Self as LdumaxlbEmitter<T0, T1, T2>>::ldumaxlb(self, op0, op1, op2);
}
pub fn ldumaxlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdumaxlhEmitter<T0, T1, T2>,
{
<Self as LdumaxlhEmitter<T0, T1, T2>>::ldumaxlh(self, op0, op1, op2);
}
pub fn ldumin<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminEmitter<T0, T1, T2>,
{
<Self as LduminEmitter<T0, T1, T2>>::ldumin(self, op0, op1, op2);
}
pub fn ldumina<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminaEmitter<T0, T1, T2>,
{
<Self as LduminaEmitter<T0, T1, T2>>::ldumina(self, op0, op1, op2);
}
pub fn lduminab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminabEmitter<T0, T1, T2>,
{
<Self as LduminabEmitter<T0, T1, T2>>::lduminab(self, op0, op1, op2);
}
pub fn lduminah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminahEmitter<T0, T1, T2>,
{
<Self as LduminahEmitter<T0, T1, T2>>::lduminah(self, op0, op1, op2);
}
pub fn lduminal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminalEmitter<T0, T1, T2>,
{
<Self as LduminalEmitter<T0, T1, T2>>::lduminal(self, op0, op1, op2);
}
pub fn lduminalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminalbEmitter<T0, T1, T2>,
{
<Self as LduminalbEmitter<T0, T1, T2>>::lduminalb(self, op0, op1, op2);
}
pub fn lduminalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminalhEmitter<T0, T1, T2>,
{
<Self as LduminalhEmitter<T0, T1, T2>>::lduminalh(self, op0, op1, op2);
}
pub fn lduminb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminbEmitter<T0, T1, T2>,
{
<Self as LduminbEmitter<T0, T1, T2>>::lduminb(self, op0, op1, op2);
}
pub fn lduminh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminhEmitter<T0, T1, T2>,
{
<Self as LduminhEmitter<T0, T1, T2>>::lduminh(self, op0, op1, op2);
}
pub fn lduminl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminlEmitter<T0, T1, T2>,
{
<Self as LduminlEmitter<T0, T1, T2>>::lduminl(self, op0, op1, op2);
}
pub fn lduminlb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminlbEmitter<T0, T1, T2>,
{
<Self as LduminlbEmitter<T0, T1, T2>>::lduminlb(self, op0, op1, op2);
}
pub fn lduminlh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LduminlhEmitter<T0, T1, T2>,
{
<Self as LduminlhEmitter<T0, T1, T2>>::lduminlh(self, op0, op1, op2);
}
pub fn ldur<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdurEmitter<T0, T1>,
{
<Self as LdurEmitter<T0, T1>>::ldur(self, op0, op1);
}
pub fn ldurb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdurbEmitter<T0, T1>,
{
<Self as LdurbEmitter<T0, T1>>::ldurb(self, op0, op1);
}
pub fn ldurh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdurhEmitter<T0, T1>,
{
<Self as LdurhEmitter<T0, T1>>::ldurh(self, op0, op1);
}
pub fn ldursb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdursbEmitter<T0, T1>,
{
<Self as LdursbEmitter<T0, T1>>::ldursb(self, op0, op1);
}
pub fn ldursh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdurshEmitter<T0, T1>,
{
<Self as LdurshEmitter<T0, T1>>::ldursh(self, op0, op1);
}
pub fn ldursw<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdurswEmitter<T0, T1>,
{
<Self as LdurswEmitter<T0, T1>>::ldursw(self, op0, op1);
}
pub fn ldxp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdxpEmitter<T0, T1, T2>,
{
<Self as LdxpEmitter<T0, T1, T2>>::ldxp(self, op0, op1, op2);
}
pub fn ldaxp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: LdaxpEmitter<T0, T1, T2>,
{
<Self as LdaxpEmitter<T0, T1, T2>>::ldaxp(self, op0, op1, op2);
}
pub fn ldxr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdxrEmitter<T0, T1>,
{
<Self as LdxrEmitter<T0, T1>>::ldxr(self, op0, op1);
}
pub fn ldxrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdxrbEmitter<T0, T1>,
{
<Self as LdxrbEmitter<T0, T1>>::ldxrb(self, op0, op1);
}
pub fn ldxrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdxrhEmitter<T0, T1>,
{
<Self as LdxrhEmitter<T0, T1>>::ldxrh(self, op0, op1);
}
pub fn prfm<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: PrfmEmitter<T0, T1>,
{
<Self as PrfmEmitter<T0, T1>>::prfm(self, op0, op1);
}
pub fn stadd<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StaddEmitter<T0, T1>,
{
<Self as StaddEmitter<T0, T1>>::stadd(self, op0, op1);
}
pub fn staddb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StaddbEmitter<T0, T1>,
{
<Self as StaddbEmitter<T0, T1>>::staddb(self, op0, op1);
}
pub fn staddh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StaddhEmitter<T0, T1>,
{
<Self as StaddhEmitter<T0, T1>>::staddh(self, op0, op1);
}
pub fn staddl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StaddlEmitter<T0, T1>,
{
<Self as StaddlEmitter<T0, T1>>::staddl(self, op0, op1);
}
pub fn staddlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StaddlbEmitter<T0, T1>,
{
<Self as StaddlbEmitter<T0, T1>>::staddlb(self, op0, op1);
}
pub fn staddlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StaddlhEmitter<T0, T1>,
{
<Self as StaddlhEmitter<T0, T1>>::staddlh(self, op0, op1);
}
pub fn stclr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StclrEmitter<T0, T1>,
{
<Self as StclrEmitter<T0, T1>>::stclr(self, op0, op1);
}
pub fn stclrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StclrbEmitter<T0, T1>,
{
<Self as StclrbEmitter<T0, T1>>::stclrb(self, op0, op1);
}
pub fn stclrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StclrhEmitter<T0, T1>,
{
<Self as StclrhEmitter<T0, T1>>::stclrh(self, op0, op1);
}
pub fn stclrl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StclrlEmitter<T0, T1>,
{
<Self as StclrlEmitter<T0, T1>>::stclrl(self, op0, op1);
}
pub fn stclrlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StclrlbEmitter<T0, T1>,
{
<Self as StclrlbEmitter<T0, T1>>::stclrlb(self, op0, op1);
}
pub fn stclrlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StclrlhEmitter<T0, T1>,
{
<Self as StclrlhEmitter<T0, T1>>::stclrlh(self, op0, op1);
}
pub fn steor<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SteorEmitter<T0, T1>,
{
<Self as SteorEmitter<T0, T1>>::steor(self, op0, op1);
}
pub fn steorb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SteorbEmitter<T0, T1>,
{
<Self as SteorbEmitter<T0, T1>>::steorb(self, op0, op1);
}
pub fn steorh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SteorhEmitter<T0, T1>,
{
<Self as SteorhEmitter<T0, T1>>::steorh(self, op0, op1);
}
pub fn steorl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SteorlEmitter<T0, T1>,
{
<Self as SteorlEmitter<T0, T1>>::steorl(self, op0, op1);
}
pub fn steorlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SteorlbEmitter<T0, T1>,
{
<Self as SteorlbEmitter<T0, T1>>::steorlb(self, op0, op1);
}
pub fn steorlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SteorlhEmitter<T0, T1>,
{
<Self as SteorlhEmitter<T0, T1>>::steorlh(self, op0, op1);
}
pub fn stllr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StllrEmitter<T0, T1>,
{
<Self as StllrEmitter<T0, T1>>::stllr(self, op0, op1);
}
pub fn stllrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StllrbEmitter<T0, T1>,
{
<Self as StllrbEmitter<T0, T1>>::stllrb(self, op0, op1);
}
pub fn stllrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StllrhEmitter<T0, T1>,
{
<Self as StllrhEmitter<T0, T1>>::stllrh(self, op0, op1);
}
pub fn stlr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StlrEmitter<T0, T1>,
{
<Self as StlrEmitter<T0, T1>>::stlr(self, op0, op1);
}
pub fn stlrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StlrbEmitter<T0, T1>,
{
<Self as StlrbEmitter<T0, T1>>::stlrb(self, op0, op1);
}
pub fn stlrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StlrhEmitter<T0, T1>,
{
<Self as StlrhEmitter<T0, T1>>::stlrh(self, op0, op1);
}
pub fn stlxr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StlxrEmitter<T0, T1, T2>,
{
<Self as StlxrEmitter<T0, T1, T2>>::stlxr(self, op0, op1, op2);
}
pub fn stlxrb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StlxrbEmitter<T0, T1, T2>,
{
<Self as StlxrbEmitter<T0, T1, T2>>::stlxrb(self, op0, op1, op2);
}
pub fn stlxrh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StlxrhEmitter<T0, T1, T2>,
{
<Self as StlxrhEmitter<T0, T1, T2>>::stlxrh(self, op0, op1, op2);
}
pub fn stnp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StnpEmitter<T0, T1, T2>,
{
<Self as StnpEmitter<T0, T1, T2>>::stnp(self, op0, op1, op2);
}
pub fn stp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StpEmitter<T0, T1, T2>,
{
<Self as StpEmitter<T0, T1, T2>>::stp(self, op0, op1, op2);
}
pub fn str<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StrEmitter<T0, T1>,
{
<Self as StrEmitter<T0, T1>>::str(self, op0, op1);
}
pub fn strb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StrbEmitter<T0, T1>,
{
<Self as StrbEmitter<T0, T1>>::strb(self, op0, op1);
}
pub fn strh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StrhEmitter<T0, T1>,
{
<Self as StrhEmitter<T0, T1>>::strh(self, op0, op1);
}
pub fn stset<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsetEmitter<T0, T1>,
{
<Self as StsetEmitter<T0, T1>>::stset(self, op0, op1);
}
pub fn stsetb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsetbEmitter<T0, T1>,
{
<Self as StsetbEmitter<T0, T1>>::stsetb(self, op0, op1);
}
pub fn stseth<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsethEmitter<T0, T1>,
{
<Self as StsethEmitter<T0, T1>>::stseth(self, op0, op1);
}
pub fn stsetl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsetlEmitter<T0, T1>,
{
<Self as StsetlEmitter<T0, T1>>::stsetl(self, op0, op1);
}
pub fn stsetlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsetlbEmitter<T0, T1>,
{
<Self as StsetlbEmitter<T0, T1>>::stsetlb(self, op0, op1);
}
pub fn stsetlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsetlhEmitter<T0, T1>,
{
<Self as StsetlhEmitter<T0, T1>>::stsetlh(self, op0, op1);
}
pub fn stsmax<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsmaxEmitter<T0, T1>,
{
<Self as StsmaxEmitter<T0, T1>>::stsmax(self, op0, op1);
}
pub fn stsmaxb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsmaxbEmitter<T0, T1>,
{
<Self as StsmaxbEmitter<T0, T1>>::stsmaxb(self, op0, op1);
}
pub fn stsmaxh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsmaxhEmitter<T0, T1>,
{
<Self as StsmaxhEmitter<T0, T1>>::stsmaxh(self, op0, op1);
}
pub fn stsmaxl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsmaxlEmitter<T0, T1>,
{
<Self as StsmaxlEmitter<T0, T1>>::stsmaxl(self, op0, op1);
}
pub fn stsmaxlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsmaxlbEmitter<T0, T1>,
{
<Self as StsmaxlbEmitter<T0, T1>>::stsmaxlb(self, op0, op1);
}
pub fn stsmaxlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsmaxlhEmitter<T0, T1>,
{
<Self as StsmaxlhEmitter<T0, T1>>::stsmaxlh(self, op0, op1);
}
pub fn stsmin<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsminEmitter<T0, T1>,
{
<Self as StsminEmitter<T0, T1>>::stsmin(self, op0, op1);
}
pub fn stsminb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsminbEmitter<T0, T1>,
{
<Self as StsminbEmitter<T0, T1>>::stsminb(self, op0, op1);
}
pub fn stsminh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsminhEmitter<T0, T1>,
{
<Self as StsminhEmitter<T0, T1>>::stsminh(self, op0, op1);
}
pub fn stsminl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsminlEmitter<T0, T1>,
{
<Self as StsminlEmitter<T0, T1>>::stsminl(self, op0, op1);
}
pub fn stsminlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsminlbEmitter<T0, T1>,
{
<Self as StsminlbEmitter<T0, T1>>::stsminlb(self, op0, op1);
}
pub fn stsminlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StsminlhEmitter<T0, T1>,
{
<Self as StsminlhEmitter<T0, T1>>::stsminlh(self, op0, op1);
}
pub fn sttr<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SttrEmitter<T0, T1>,
{
<Self as SttrEmitter<T0, T1>>::sttr(self, op0, op1);
}
pub fn sttrb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SttrbEmitter<T0, T1>,
{
<Self as SttrbEmitter<T0, T1>>::sttrb(self, op0, op1);
}
pub fn sttrh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SttrhEmitter<T0, T1>,
{
<Self as SttrhEmitter<T0, T1>>::sttrh(self, op0, op1);
}
pub fn stumax<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StumaxEmitter<T0, T1>,
{
<Self as StumaxEmitter<T0, T1>>::stumax(self, op0, op1);
}
pub fn stumaxb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StumaxbEmitter<T0, T1>,
{
<Self as StumaxbEmitter<T0, T1>>::stumaxb(self, op0, op1);
}
pub fn stumaxh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StumaxhEmitter<T0, T1>,
{
<Self as StumaxhEmitter<T0, T1>>::stumaxh(self, op0, op1);
}
pub fn stumaxl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StumaxlEmitter<T0, T1>,
{
<Self as StumaxlEmitter<T0, T1>>::stumaxl(self, op0, op1);
}
pub fn stumaxlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StumaxlbEmitter<T0, T1>,
{
<Self as StumaxlbEmitter<T0, T1>>::stumaxlb(self, op0, op1);
}
pub fn stumaxlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StumaxlhEmitter<T0, T1>,
{
<Self as StumaxlhEmitter<T0, T1>>::stumaxlh(self, op0, op1);
}
pub fn stumin<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StuminEmitter<T0, T1>,
{
<Self as StuminEmitter<T0, T1>>::stumin(self, op0, op1);
}
pub fn stuminb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StuminbEmitter<T0, T1>,
{
<Self as StuminbEmitter<T0, T1>>::stuminb(self, op0, op1);
}
pub fn stuminh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StuminhEmitter<T0, T1>,
{
<Self as StuminhEmitter<T0, T1>>::stuminh(self, op0, op1);
}
pub fn stuminl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StuminlEmitter<T0, T1>,
{
<Self as StuminlEmitter<T0, T1>>::stuminl(self, op0, op1);
}
pub fn stuminlb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StuminlbEmitter<T0, T1>,
{
<Self as StuminlbEmitter<T0, T1>>::stuminlb(self, op0, op1);
}
pub fn stuminlh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StuminlhEmitter<T0, T1>,
{
<Self as StuminlhEmitter<T0, T1>>::stuminlh(self, op0, op1);
}
pub fn stur<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SturEmitter<T0, T1>,
{
<Self as SturEmitter<T0, T1>>::stur(self, op0, op1);
}
pub fn sturb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SturbEmitter<T0, T1>,
{
<Self as SturbEmitter<T0, T1>>::sturb(self, op0, op1);
}
pub fn sturh<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SturhEmitter<T0, T1>,
{
<Self as SturhEmitter<T0, T1>>::sturh(self, op0, op1);
}
pub fn stxp<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: StxpEmitter<T0, T1, T2, T3>,
{
<Self as StxpEmitter<T0, T1, T2, T3>>::stxp(self, op0, op1, op2, op3);
}
pub fn stlxp<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: StlxpEmitter<T0, T1, T2, T3>,
{
<Self as StlxpEmitter<T0, T1, T2, T3>>::stlxp(self, op0, op1, op2, op3);
}
pub fn stxr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StxrEmitter<T0, T1, T2>,
{
<Self as StxrEmitter<T0, T1, T2>>::stxr(self, op0, op1, op2);
}
pub fn stxrb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StxrbEmitter<T0, T1, T2>,
{
<Self as StxrbEmitter<T0, T1, T2>>::stxrb(self, op0, op1, op2);
}
pub fn stxrh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StxrhEmitter<T0, T1, T2>,
{
<Self as StxrhEmitter<T0, T1, T2>>::stxrh(self, op0, op1, op2);
}
pub fn swp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpEmitter<T0, T1, T2>,
{
<Self as SwpEmitter<T0, T1, T2>>::swp(self, op0, op1, op2);
}
pub fn swpa<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpaEmitter<T0, T1, T2>,
{
<Self as SwpaEmitter<T0, T1, T2>>::swpa(self, op0, op1, op2);
}
pub fn swpab<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpabEmitter<T0, T1, T2>,
{
<Self as SwpabEmitter<T0, T1, T2>>::swpab(self, op0, op1, op2);
}
pub fn swpah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpahEmitter<T0, T1, T2>,
{
<Self as SwpahEmitter<T0, T1, T2>>::swpah(self, op0, op1, op2);
}
pub fn swpal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpalEmitter<T0, T1, T2>,
{
<Self as SwpalEmitter<T0, T1, T2>>::swpal(self, op0, op1, op2);
}
pub fn swpalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpalbEmitter<T0, T1, T2>,
{
<Self as SwpalbEmitter<T0, T1, T2>>::swpalb(self, op0, op1, op2);
}
pub fn swpalh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpalhEmitter<T0, T1, T2>,
{
<Self as SwpalhEmitter<T0, T1, T2>>::swpalh(self, op0, op1, op2);
}
pub fn swpb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwpbEmitter<T0, T1, T2>,
{
<Self as SwpbEmitter<T0, T1, T2>>::swpb(self, op0, op1, op2);
}
pub fn swph<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwphEmitter<T0, T1, T2>,
{
<Self as SwphEmitter<T0, T1, T2>>::swph(self, op0, op1, op2);
}
pub fn swpl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwplEmitter<T0, T1, T2>,
{
<Self as SwplEmitter<T0, T1, T2>>::swpl(self, op0, op1, op2);
}
pub fn swplb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwplbEmitter<T0, T1, T2>,
{
<Self as SwplbEmitter<T0, T1, T2>>::swplb(self, op0, op1, op2);
}
pub fn swplh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SwplhEmitter<T0, T1, T2>,
{
<Self as SwplhEmitter<T0, T1, T2>>::swplh(self, op0, op1, op2);
}
pub fn bti<T0>(&mut self, op0: T0)
where
Self: BtiEmitter<T0>,
{
<Self as BtiEmitter<T0>>::bti(self, op0);
}
pub fn chkfeat<T0>(&mut self, op0: T0)
where
Self: ChkfeatEmitter<T0>,
{
<Self as ChkfeatEmitter<T0>>::chkfeat(self, op0);
}
pub fn clrbhb(&mut self)
where
Self: ClrbhbEmitter,
{
<Self as ClrbhbEmitter>::clrbhb(self);
}
pub fn crc32b<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32bEmitter<T0, T1, T2>,
{
<Self as Crc32bEmitter<T0, T1, T2>>::crc32b(self, op0, op1, op2);
}
pub fn crc32h<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32hEmitter<T0, T1, T2>,
{
<Self as Crc32hEmitter<T0, T1, T2>>::crc32h(self, op0, op1, op2);
}
pub fn crc32w<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32wEmitter<T0, T1, T2>,
{
<Self as Crc32wEmitter<T0, T1, T2>>::crc32w(self, op0, op1, op2);
}
pub fn crc32x<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32xEmitter<T0, T1, T2>,
{
<Self as Crc32xEmitter<T0, T1, T2>>::crc32x(self, op0, op1, op2);
}
pub fn crc32cb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32cbEmitter<T0, T1, T2>,
{
<Self as Crc32cbEmitter<T0, T1, T2>>::crc32cb(self, op0, op1, op2);
}
pub fn crc32ch<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32chEmitter<T0, T1, T2>,
{
<Self as Crc32chEmitter<T0, T1, T2>>::crc32ch(self, op0, op1, op2);
}
pub fn crc32cw<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32cwEmitter<T0, T1, T2>,
{
<Self as Crc32cwEmitter<T0, T1, T2>>::crc32cw(self, op0, op1, op2);
}
pub fn crc32cx<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Crc32cxEmitter<T0, T1, T2>,
{
<Self as Crc32cxEmitter<T0, T1, T2>>::crc32cx(self, op0, op1, op2);
}
pub fn abs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AbsEmitter<T0, T1>,
{
<Self as AbsEmitter<T0, T1>>::abs(self, op0, op1);
}
pub fn cnt<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CntEmitter<T0, T1>,
{
<Self as CntEmitter<T0, T1>>::cnt(self, op0, op1);
}
pub fn ctz<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CtzEmitter<T0, T1>,
{
<Self as CtzEmitter<T0, T1>>::ctz(self, op0, op1);
}
pub fn smax<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmaxEmitter<T0, T1, T2>,
{
<Self as SmaxEmitter<T0, T1, T2>>::smax(self, op0, op1, op2);
}
pub fn smin<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SminEmitter<T0, T1, T2>,
{
<Self as SminEmitter<T0, T1, T2>>::smin(self, op0, op1, op2);
}
pub fn umax<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmaxEmitter<T0, T1, T2>,
{
<Self as UmaxEmitter<T0, T1, T2>>::umax(self, op0, op1, op2);
}
pub fn umin<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UminEmitter<T0, T1, T2>,
{
<Self as UminEmitter<T0, T1, T2>>::umin(self, op0, op1, op2);
}
pub fn dgh(&mut self)
where
Self: DghEmitter,
{
<Self as DghEmitter>::dgh(self);
}
pub fn cfinv(&mut self)
where
Self: CfinvEmitter,
{
<Self as CfinvEmitter>::cfinv(self);
}
pub fn setf8<T0>(&mut self, op0: T0)
where
Self: Setf8Emitter<T0>,
{
<Self as Setf8Emitter<T0>>::setf8(self, op0);
}
pub fn setf16<T0>(&mut self, op0: T0)
where
Self: Setf16Emitter<T0>,
{
<Self as Setf16Emitter<T0>>::setf16(self, op0);
}
pub fn axflag(&mut self)
where
Self: AxflagEmitter,
{
<Self as AxflagEmitter>::axflag(self);
}
pub fn xaflag(&mut self)
where
Self: XaflagEmitter,
{
<Self as XaflagEmitter>::xaflag(self);
}
pub fn bc_eq<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_eq(self, op0);
}
pub fn bc_ne<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_ne(self, op0);
}
pub fn bc_cs<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_cs(self, op0);
}
pub fn bc_hs<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_hs(self, op0);
}
pub fn bc_cc<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_cc(self, op0);
}
pub fn bc_lo<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_lo(self, op0);
}
pub fn bc_mi<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_mi(self, op0);
}
pub fn bc_pl<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_pl(self, op0);
}
pub fn bc_vs<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_vs(self, op0);
}
pub fn bc_vc<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_vc(self, op0);
}
pub fn bc_hi<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_hi(self, op0);
}
pub fn bc_ls<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_ls(self, op0);
}
pub fn bc_ge<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_ge(self, op0);
}
pub fn bc_lt<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_lt(self, op0);
}
pub fn bc_gt<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_gt(self, op0);
}
pub fn bc_le<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_le(self, op0);
}
pub fn bc_al<T0>(&mut self, op0: T0)
where
Self: BcEmitter<T0>,
{
<Self as BcEmitter<T0>>::bc_al(self, op0);
}
pub fn autda<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AutdaEmitter<T0, T1>,
{
<Self as AutdaEmitter<T0, T1>>::autda(self, op0, op1);
}
pub fn autdb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AutdbEmitter<T0, T1>,
{
<Self as AutdbEmitter<T0, T1>>::autdb(self, op0, op1);
}
pub fn autdza<T0>(&mut self, op0: T0)
where
Self: AutdzaEmitter<T0>,
{
<Self as AutdzaEmitter<T0>>::autdza(self, op0);
}
pub fn autdzb<T0>(&mut self, op0: T0)
where
Self: AutdzbEmitter<T0>,
{
<Self as AutdzbEmitter<T0>>::autdzb(self, op0);
}
pub fn autia<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AutiaEmitter<T0, T1>,
{
<Self as AutiaEmitter<T0, T1>>::autia(self, op0, op1);
}
pub fn autia1716(&mut self)
where
Self: Autia1716Emitter,
{
<Self as Autia1716Emitter>::autia1716(self);
}
pub fn autiasp(&mut self)
where
Self: AutiaspEmitter,
{
<Self as AutiaspEmitter>::autiasp(self);
}
pub fn autiaz(&mut self)
where
Self: AutiazEmitter,
{
<Self as AutiazEmitter>::autiaz(self);
}
pub fn autib<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AutibEmitter<T0, T1>,
{
<Self as AutibEmitter<T0, T1>>::autib(self, op0, op1);
}
pub fn autib1716(&mut self)
where
Self: Autib1716Emitter,
{
<Self as Autib1716Emitter>::autib1716(self);
}
pub fn autibsp(&mut self)
where
Self: AutibspEmitter,
{
<Self as AutibspEmitter>::autibsp(self);
}
pub fn autibz(&mut self)
where
Self: AutibzEmitter,
{
<Self as AutibzEmitter>::autibz(self);
}
pub fn autiza<T0>(&mut self, op0: T0)
where
Self: AutizaEmitter<T0>,
{
<Self as AutizaEmitter<T0>>::autiza(self, op0);
}
pub fn autizb<T0>(&mut self, op0: T0)
where
Self: AutizbEmitter<T0>,
{
<Self as AutizbEmitter<T0>>::autizb(self, op0);
}
pub fn gmi<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: GmiEmitter<T0, T1, T2>,
{
<Self as GmiEmitter<T0, T1, T2>>::gmi(self, op0, op1, op2);
}
pub fn cmpp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: CmppEmitter<T0, T1>,
{
<Self as CmppEmitter<T0, T1>>::cmpp(self, op0, op1);
}
pub fn addg<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: AddgEmitter<T0, T1, T2, T3>,
{
<Self as AddgEmitter<T0, T1, T2, T3>>::addg(self, op0, op1, op2, op3);
}
pub fn ldg<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdgEmitter<T0, T1>,
{
<Self as LdgEmitter<T0, T1>>::ldg(self, op0, op1);
}
pub fn ldgm<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdgmEmitter<T0, T1>,
{
<Self as LdgmEmitter<T0, T1>>::ldgm(self, op0, op1);
}
pub fn ldraa<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdraaEmitter<T0, T1>,
{
<Self as LdraaEmitter<T0, T1>>::ldraa(self, op0, op1);
}
pub fn ldrab<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: LdrabEmitter<T0, T1>,
{
<Self as LdrabEmitter<T0, T1>>::ldrab(self, op0, op1);
}
pub fn pacda<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: PacdaEmitter<T0, T1>,
{
<Self as PacdaEmitter<T0, T1>>::pacda(self, op0, op1);
}
pub fn pacdb<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: PacdbEmitter<T0, T1>,
{
<Self as PacdbEmitter<T0, T1>>::pacdb(self, op0, op1);
}
pub fn pacdza<T0>(&mut self, op0: T0)
where
Self: PacdzaEmitter<T0>,
{
<Self as PacdzaEmitter<T0>>::pacdza(self, op0);
}
pub fn pacdzb<T0>(&mut self, op0: T0)
where
Self: PacdzbEmitter<T0>,
{
<Self as PacdzbEmitter<T0>>::pacdzb(self, op0);
}
pub fn pacga<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: PacgaEmitter<T0, T1, T2>,
{
<Self as PacgaEmitter<T0, T1, T2>>::pacga(self, op0, op1, op2);
}
pub fn subp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SubpEmitter<T0, T1, T2>,
{
<Self as SubpEmitter<T0, T1, T2>>::subp(self, op0, op1, op2);
}
pub fn subps<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SubpsEmitter<T0, T1, T2>,
{
<Self as SubpsEmitter<T0, T1, T2>>::subps(self, op0, op1, op2);
}
pub fn subg<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: SubgEmitter<T0, T1, T2, T3>,
{
<Self as SubgEmitter<T0, T1, T2, T3>>::subg(self, op0, op1, op2, op3);
}
pub fn st2g<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: St2gEmitter<T0, T1>,
{
<Self as St2gEmitter<T0, T1>>::st2g(self, op0, op1);
}
pub fn stg<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StgEmitter<T0, T1>,
{
<Self as StgEmitter<T0, T1>>::stg(self, op0, op1);
}
pub fn stgp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: StgpEmitter<T0, T1, T2>,
{
<Self as StgpEmitter<T0, T1, T2>>::stgp(self, op0, op1, op2);
}
pub fn stgm<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StgmEmitter<T0, T1>,
{
<Self as StgmEmitter<T0, T1>>::stgm(self, op0, op1);
}
pub fn stzg<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StzgEmitter<T0, T1>,
{
<Self as StzgEmitter<T0, T1>>::stzg(self, op0, op1);
}
pub fn stz2g<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Stz2gEmitter<T0, T1>,
{
<Self as Stz2gEmitter<T0, T1>>::stz2g(self, op0, op1);
}
pub fn stzgm<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: StzgmEmitter<T0, T1>,
{
<Self as StzgmEmitter<T0, T1>>::stzgm(self, op0, op1);
}
pub fn xpacd<T0>(&mut self, op0: T0)
where
Self: XpacdEmitter<T0>,
{
<Self as XpacdEmitter<T0>>::xpacd(self, op0);
}
pub fn xpaci<T0>(&mut self, op0: T0)
where
Self: XpaciEmitter<T0>,
{
<Self as XpaciEmitter<T0>>::xpaci(self, op0);
}
pub fn xpaclri(&mut self)
where
Self: XpaclriEmitter,
{
<Self as XpaclriEmitter>::xpaclri(self);
}
pub fn hint<T0>(&mut self, op0: T0)
where
Self: HintEmitter<T0>,
{
<Self as HintEmitter<T0>>::hint(self, op0);
}
pub fn nop(&mut self)
where
Self: NopEmitter,
{
<Self as NopEmitter>::nop(self);
}
pub fn sev(&mut self)
where
Self: SevEmitter,
{
<Self as SevEmitter>::sev(self);
}
pub fn sevl(&mut self)
where
Self: SevlEmitter,
{
<Self as SevlEmitter>::sevl(self);
}
pub fn wfe(&mut self)
where
Self: WfeEmitter,
{
<Self as WfeEmitter>::wfe(self);
}
pub fn wfi(&mut self)
where
Self: WfiEmitter,
{
<Self as WfiEmitter>::wfi(self);
}
pub fn r#yield(&mut self)
where
Self: YieldEmitter,
{
<Self as YieldEmitter>::r#yield(self);
}
pub fn addhn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: AddhnEmitter<T0, T1, T2>,
{
<Self as AddhnEmitter<T0, T1, T2>>::addhn(self, op0, op1, op2);
}
pub fn addhn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Addhn2Emitter<T0, T1, T2>,
{
<Self as Addhn2Emitter<T0, T1, T2>>::addhn2(self, op0, op1, op2);
}
pub fn addp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AddpEmitter<T0, T1>,
{
<Self as AddpEmitter<T0, T1>>::addp(self, op0, op1);
}
pub fn addp_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Addp3Emitter<T0, T1, T2>,
{
<Self as Addp3Emitter<T0, T1, T2>>::addp_3(self, op0, op1, op2);
}
pub fn addv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AddvEmitter<T0, T1>,
{
<Self as AddvEmitter<T0, T1>>::addv(self, op0, op1);
}
pub fn bic_2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Bic2Emitter<T0, T1>,
{
<Self as Bic2Emitter<T0, T1>>::bic_2(self, op0, op1);
}
pub fn bif<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BifEmitter<T0, T1, T2>,
{
<Self as BifEmitter<T0, T1, T2>>::bif(self, op0, op1, op2);
}
pub fn bit<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BitEmitter<T0, T1, T2>,
{
<Self as BitEmitter<T0, T1, T2>>::bit(self, op0, op1, op2);
}
pub fn bsl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BslEmitter<T0, T1, T2>,
{
<Self as BslEmitter<T0, T1, T2>>::bsl(self, op0, op1, op2);
}
pub fn cmeq<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmeqEmitter<T0, T1, T2>,
{
<Self as CmeqEmitter<T0, T1, T2>>::cmeq(self, op0, op1, op2);
}
pub fn cmge<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmgeEmitter<T0, T1, T2>,
{
<Self as CmgeEmitter<T0, T1, T2>>::cmge(self, op0, op1, op2);
}
pub fn cmgt<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmgtEmitter<T0, T1, T2>,
{
<Self as CmgtEmitter<T0, T1, T2>>::cmgt(self, op0, op1, op2);
}
pub fn cmhi<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmhiEmitter<T0, T1, T2>,
{
<Self as CmhiEmitter<T0, T1, T2>>::cmhi(self, op0, op1, op2);
}
pub fn cmhs<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmhsEmitter<T0, T1, T2>,
{
<Self as CmhsEmitter<T0, T1, T2>>::cmhs(self, op0, op1, op2);
}
pub fn cmle<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmleEmitter<T0, T1, T2>,
{
<Self as CmleEmitter<T0, T1, T2>>::cmle(self, op0, op1, op2);
}
pub fn cmlt<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmltEmitter<T0, T1, T2>,
{
<Self as CmltEmitter<T0, T1, T2>>::cmlt(self, op0, op1, op2);
}
pub fn cmtst<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: CmtstEmitter<T0, T1, T2>,
{
<Self as CmtstEmitter<T0, T1, T2>>::cmtst(self, op0, op1, op2);
}
pub fn dup<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: DupEmitter<T0, T1>,
{
<Self as DupEmitter<T0, T1>>::dup(self, op0, op1);
}
pub fn ext<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: ExtEmitter<T0, T1, T2, T3>,
{
<Self as ExtEmitter<T0, T1, T2, T3>>::ext(self, op0, op1, op2, op3);
}
pub fn fabd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FabdEmitter<T0, T1, T2>,
{
<Self as FabdEmitter<T0, T1, T2>>::fabd(self, op0, op1, op2);
}
pub fn fabs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FabsEmitter<T0, T1>,
{
<Self as FabsEmitter<T0, T1>>::fabs(self, op0, op1);
}
pub fn facge<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FacgeEmitter<T0, T1, T2>,
{
<Self as FacgeEmitter<T0, T1, T2>>::facge(self, op0, op1, op2);
}
pub fn facgt<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FacgtEmitter<T0, T1, T2>,
{
<Self as FacgtEmitter<T0, T1, T2>>::facgt(self, op0, op1, op2);
}
pub fn fadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FaddEmitter<T0, T1, T2>,
{
<Self as FaddEmitter<T0, T1, T2>>::fadd(self, op0, op1, op2);
}
pub fn faddp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FaddpEmitter<T0, T1>,
{
<Self as FaddpEmitter<T0, T1>>::faddp(self, op0, op1);
}
pub fn faddp_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Faddp3Emitter<T0, T1, T2>,
{
<Self as Faddp3Emitter<T0, T1, T2>>::faddp_3(self, op0, op1, op2);
}
pub fn fccmp<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FccmpEmitter<T0, T1, T2, T3>,
{
<Self as FccmpEmitter<T0, T1, T2, T3>>::fccmp(self, op0, op1, op2, op3);
}
pub fn fccmpe<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FccmpeEmitter<T0, T1, T2, T3>,
{
<Self as FccmpeEmitter<T0, T1, T2, T3>>::fccmpe(self, op0, op1, op2, op3);
}
pub fn fcmeq<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FcmeqEmitter<T0, T1, T2>,
{
<Self as FcmeqEmitter<T0, T1, T2>>::fcmeq(self, op0, op1, op2);
}
pub fn fcmge<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FcmgeEmitter<T0, T1, T2>,
{
<Self as FcmgeEmitter<T0, T1, T2>>::fcmge(self, op0, op1, op2);
}
pub fn fcmgt<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FcmgtEmitter<T0, T1, T2>,
{
<Self as FcmgtEmitter<T0, T1, T2>>::fcmgt(self, op0, op1, op2);
}
pub fn fcmle<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FcmleEmitter<T0, T1, T2>,
{
<Self as FcmleEmitter<T0, T1, T2>>::fcmle(self, op0, op1, op2);
}
pub fn fcmlt<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FcmltEmitter<T0, T1, T2>,
{
<Self as FcmltEmitter<T0, T1, T2>>::fcmlt(self, op0, op1, op2);
}
pub fn fcmp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcmpEmitter<T0, T1>,
{
<Self as FcmpEmitter<T0, T1>>::fcmp(self, op0, op1);
}
pub fn fcmpe<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcmpeEmitter<T0, T1>,
{
<Self as FcmpeEmitter<T0, T1>>::fcmpe(self, op0, op1);
}
pub fn fcsel<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FcselEmitter<T0, T1, T2, T3>,
{
<Self as FcselEmitter<T0, T1, T2, T3>>::fcsel(self, op0, op1, op2, op3);
}
pub fn fcvt<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtEmitter<T0, T1>,
{
<Self as FcvtEmitter<T0, T1>>::fcvt(self, op0, op1);
}
pub fn fcvtas<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtasEmitter<T0, T1>,
{
<Self as FcvtasEmitter<T0, T1>>::fcvtas(self, op0, op1);
}
pub fn fcvtau<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtauEmitter<T0, T1>,
{
<Self as FcvtauEmitter<T0, T1>>::fcvtau(self, op0, op1);
}
pub fn fcvtl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtlEmitter<T0, T1>,
{
<Self as FcvtlEmitter<T0, T1>>::fcvtl(self, op0, op1);
}
pub fn fcvtl2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Fcvtl2Emitter<T0, T1>,
{
<Self as Fcvtl2Emitter<T0, T1>>::fcvtl2(self, op0, op1);
}
pub fn fcvtms<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtmsEmitter<T0, T1>,
{
<Self as FcvtmsEmitter<T0, T1>>::fcvtms(self, op0, op1);
}
pub fn fcvtmu<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtmuEmitter<T0, T1>,
{
<Self as FcvtmuEmitter<T0, T1>>::fcvtmu(self, op0, op1);
}
pub fn fcvtn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtnEmitter<T0, T1>,
{
<Self as FcvtnEmitter<T0, T1>>::fcvtn(self, op0, op1);
}
pub fn fcvtn2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Fcvtn2Emitter<T0, T1>,
{
<Self as Fcvtn2Emitter<T0, T1>>::fcvtn2(self, op0, op1);
}
pub fn fcvtns<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtnsEmitter<T0, T1>,
{
<Self as FcvtnsEmitter<T0, T1>>::fcvtns(self, op0, op1);
}
pub fn fcvtnu<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtnuEmitter<T0, T1>,
{
<Self as FcvtnuEmitter<T0, T1>>::fcvtnu(self, op0, op1);
}
pub fn fcvtps<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtpsEmitter<T0, T1>,
{
<Self as FcvtpsEmitter<T0, T1>>::fcvtps(self, op0, op1);
}
pub fn fcvtpu<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtpuEmitter<T0, T1>,
{
<Self as FcvtpuEmitter<T0, T1>>::fcvtpu(self, op0, op1);
}
pub fn fcvtxn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtxnEmitter<T0, T1>,
{
<Self as FcvtxnEmitter<T0, T1>>::fcvtxn(self, op0, op1);
}
pub fn fcvtxn2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Fcvtxn2Emitter<T0, T1>,
{
<Self as Fcvtxn2Emitter<T0, T1>>::fcvtxn2(self, op0, op1);
}
pub fn fcvtzs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtzsEmitter<T0, T1>,
{
<Self as FcvtzsEmitter<T0, T1>>::fcvtzs(self, op0, op1);
}
pub fn fcvtzs_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Fcvtzs3Emitter<T0, T1, T2>,
{
<Self as Fcvtzs3Emitter<T0, T1, T2>>::fcvtzs_3(self, op0, op1, op2);
}
pub fn fcvtzu<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FcvtzuEmitter<T0, T1>,
{
<Self as FcvtzuEmitter<T0, T1>>::fcvtzu(self, op0, op1);
}
pub fn fcvtzu_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Fcvtzu3Emitter<T0, T1, T2>,
{
<Self as Fcvtzu3Emitter<T0, T1, T2>>::fcvtzu_3(self, op0, op1, op2);
}
pub fn fdiv<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FdivEmitter<T0, T1, T2>,
{
<Self as FdivEmitter<T0, T1, T2>>::fdiv(self, op0, op1, op2);
}
pub fn fmadd<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FmaddEmitter<T0, T1, T2, T3>,
{
<Self as FmaddEmitter<T0, T1, T2, T3>>::fmadd(self, op0, op1, op2, op3);
}
pub fn fmax<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmaxEmitter<T0, T1, T2>,
{
<Self as FmaxEmitter<T0, T1, T2>>::fmax(self, op0, op1, op2);
}
pub fn fmaxnm<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmaxnmEmitter<T0, T1, T2>,
{
<Self as FmaxnmEmitter<T0, T1, T2>>::fmaxnm(self, op0, op1, op2);
}
pub fn fmaxnmp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmaxnmpEmitter<T0, T1, T2>,
{
<Self as FmaxnmpEmitter<T0, T1, T2>>::fmaxnmp(self, op0, op1, op2);
}
pub fn fmaxnmp_2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Fmaxnmp2Emitter<T0, T1>,
{
<Self as Fmaxnmp2Emitter<T0, T1>>::fmaxnmp_2(self, op0, op1);
}
pub fn fmaxnmv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FmaxnmvEmitter<T0, T1>,
{
<Self as FmaxnmvEmitter<T0, T1>>::fmaxnmv(self, op0, op1);
}
pub fn fmaxp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmaxpEmitter<T0, T1, T2>,
{
<Self as FmaxpEmitter<T0, T1, T2>>::fmaxp(self, op0, op1, op2);
}
pub fn fmaxp_2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Fmaxp2Emitter<T0, T1>,
{
<Self as Fmaxp2Emitter<T0, T1>>::fmaxp_2(self, op0, op1);
}
pub fn fmaxv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FmaxvEmitter<T0, T1>,
{
<Self as FmaxvEmitter<T0, T1>>::fmaxv(self, op0, op1);
}
pub fn fmin<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FminEmitter<T0, T1, T2>,
{
<Self as FminEmitter<T0, T1, T2>>::fmin(self, op0, op1, op2);
}
pub fn fminnm<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FminnmEmitter<T0, T1, T2>,
{
<Self as FminnmEmitter<T0, T1, T2>>::fminnm(self, op0, op1, op2);
}
pub fn fminnmv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FminnmvEmitter<T0, T1>,
{
<Self as FminnmvEmitter<T0, T1>>::fminnmv(self, op0, op1);
}
pub fn fminnmp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FminnmpEmitter<T0, T1, T2>,
{
<Self as FminnmpEmitter<T0, T1, T2>>::fminnmp(self, op0, op1, op2);
}
pub fn fminnmp_2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Fminnmp2Emitter<T0, T1>,
{
<Self as Fminnmp2Emitter<T0, T1>>::fminnmp_2(self, op0, op1);
}
pub fn fminp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FminpEmitter<T0, T1>,
{
<Self as FminpEmitter<T0, T1>>::fminp(self, op0, op1);
}
pub fn fminp_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Fminp3Emitter<T0, T1, T2>,
{
<Self as Fminp3Emitter<T0, T1, T2>>::fminp_3(self, op0, op1, op2);
}
pub fn fminv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FminvEmitter<T0, T1>,
{
<Self as FminvEmitter<T0, T1>>::fminv(self, op0, op1);
}
pub fn fmla<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmlaEmitter<T0, T1, T2>,
{
<Self as FmlaEmitter<T0, T1, T2>>::fmla(self, op0, op1, op2);
}
pub fn fmls<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmlsEmitter<T0, T1, T2>,
{
<Self as FmlsEmitter<T0, T1, T2>>::fmls(self, op0, op1, op2);
}
pub fn fmov<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FmovEmitter<T0, T1>,
{
<Self as FmovEmitter<T0, T1>>::fmov(self, op0, op1);
}
pub fn fmsub<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FmsubEmitter<T0, T1, T2, T3>,
{
<Self as FmsubEmitter<T0, T1, T2, T3>>::fmsub(self, op0, op1, op2, op3);
}
pub fn fmul<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmulEmitter<T0, T1, T2>,
{
<Self as FmulEmitter<T0, T1, T2>>::fmul(self, op0, op1, op2);
}
pub fn fmulx<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmulxEmitter<T0, T1, T2>,
{
<Self as FmulxEmitter<T0, T1, T2>>::fmulx(self, op0, op1, op2);
}
pub fn fneg<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FnegEmitter<T0, T1>,
{
<Self as FnegEmitter<T0, T1>>::fneg(self, op0, op1);
}
pub fn fnmadd<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FnmaddEmitter<T0, T1, T2, T3>,
{
<Self as FnmaddEmitter<T0, T1, T2, T3>>::fnmadd(self, op0, op1, op2, op3);
}
pub fn fnmsub<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FnmsubEmitter<T0, T1, T2, T3>,
{
<Self as FnmsubEmitter<T0, T1, T2, T3>>::fnmsub(self, op0, op1, op2, op3);
}
pub fn fnmul<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FnmulEmitter<T0, T1, T2>,
{
<Self as FnmulEmitter<T0, T1, T2>>::fnmul(self, op0, op1, op2);
}
pub fn frecpe<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrecpeEmitter<T0, T1>,
{
<Self as FrecpeEmitter<T0, T1>>::frecpe(self, op0, op1);
}
pub fn frecps<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FrecpsEmitter<T0, T1, T2>,
{
<Self as FrecpsEmitter<T0, T1, T2>>::frecps(self, op0, op1, op2);
}
pub fn frecpx<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrecpxEmitter<T0, T1>,
{
<Self as FrecpxEmitter<T0, T1>>::frecpx(self, op0, op1);
}
pub fn frint32x<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Frint32xEmitter<T0, T1>,
{
<Self as Frint32xEmitter<T0, T1>>::frint32x(self, op0, op1);
}
pub fn frint32z<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Frint32zEmitter<T0, T1>,
{
<Self as Frint32zEmitter<T0, T1>>::frint32z(self, op0, op1);
}
pub fn frint64x<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Frint64xEmitter<T0, T1>,
{
<Self as Frint64xEmitter<T0, T1>>::frint64x(self, op0, op1);
}
pub fn frint64z<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Frint64zEmitter<T0, T1>,
{
<Self as Frint64zEmitter<T0, T1>>::frint64z(self, op0, op1);
}
pub fn frinta<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrintaEmitter<T0, T1>,
{
<Self as FrintaEmitter<T0, T1>>::frinta(self, op0, op1);
}
pub fn frinti<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrintiEmitter<T0, T1>,
{
<Self as FrintiEmitter<T0, T1>>::frinti(self, op0, op1);
}
pub fn frintm<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrintmEmitter<T0, T1>,
{
<Self as FrintmEmitter<T0, T1>>::frintm(self, op0, op1);
}
pub fn frintn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrintnEmitter<T0, T1>,
{
<Self as FrintnEmitter<T0, T1>>::frintn(self, op0, op1);
}
pub fn frintp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrintpEmitter<T0, T1>,
{
<Self as FrintpEmitter<T0, T1>>::frintp(self, op0, op1);
}
pub fn frintx<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrintxEmitter<T0, T1>,
{
<Self as FrintxEmitter<T0, T1>>::frintx(self, op0, op1);
}
pub fn frintz<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrintzEmitter<T0, T1>,
{
<Self as FrintzEmitter<T0, T1>>::frintz(self, op0, op1);
}
pub fn frsqrte<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FrsqrteEmitter<T0, T1>,
{
<Self as FrsqrteEmitter<T0, T1>>::frsqrte(self, op0, op1);
}
pub fn frsqrts<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FrsqrtsEmitter<T0, T1, T2>,
{
<Self as FrsqrtsEmitter<T0, T1, T2>>::frsqrts(self, op0, op1, op2);
}
pub fn fsqrt<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FsqrtEmitter<T0, T1>,
{
<Self as FsqrtEmitter<T0, T1>>::fsqrt(self, op0, op1);
}
pub fn fsub<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FsubEmitter<T0, T1, T2>,
{
<Self as FsubEmitter<T0, T1, T2>>::fsub(self, op0, op1, op2);
}
pub fn ins<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: InsEmitter<T0, T1>,
{
<Self as InsEmitter<T0, T1>>::ins(self, op0, op1);
}
pub fn ld1<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Ld1Emitter<T0, T1>,
{
<Self as Ld1Emitter<T0, T1>>::ld1(self, op0, op1);
}
pub fn ld1_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Ld13Emitter<T0, T1, T2>,
{
<Self as Ld13Emitter<T0, T1, T2>>::ld1_3(self, op0, op1, op2);
}
pub fn ld1_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Ld14Emitter<T0, T1, T2, T3>,
{
<Self as Ld14Emitter<T0, T1, T2, T3>>::ld1_4(self, op0, op1, op2, op3);
}
pub fn ld1_5<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: Ld15Emitter<T0, T1, T2, T3, T4>,
{
<Self as Ld15Emitter<T0, T1, T2, T3, T4>>::ld1_5(self, op0, op1, op2, op3, op4);
}
pub fn ld1r<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Ld1rEmitter<T0, T1>,
{
<Self as Ld1rEmitter<T0, T1>>::ld1r(self, op0, op1);
}
pub fn ld2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Ld2Emitter<T0, T1, T2>,
{
<Self as Ld2Emitter<T0, T1, T2>>::ld2(self, op0, op1, op2);
}
pub fn ld2r<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Ld2rEmitter<T0, T1, T2>,
{
<Self as Ld2rEmitter<T0, T1, T2>>::ld2r(self, op0, op1, op2);
}
pub fn ld3<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Ld3Emitter<T0, T1, T2, T3>,
{
<Self as Ld3Emitter<T0, T1, T2, T3>>::ld3(self, op0, op1, op2, op3);
}
pub fn ld3r<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Ld3rEmitter<T0, T1, T2, T3>,
{
<Self as Ld3rEmitter<T0, T1, T2, T3>>::ld3r(self, op0, op1, op2, op3);
}
pub fn ld4<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: Ld4Emitter<T0, T1, T2, T3, T4>,
{
<Self as Ld4Emitter<T0, T1, T2, T3, T4>>::ld4(self, op0, op1, op2, op3, op4);
}
pub fn ld4r<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: Ld4rEmitter<T0, T1, T2, T3, T4>,
{
<Self as Ld4rEmitter<T0, T1, T2, T3, T4>>::ld4r(self, op0, op1, op2, op3, op4);
}
pub fn mla<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: MlaEmitter<T0, T1, T2>,
{
<Self as MlaEmitter<T0, T1, T2>>::mla(self, op0, op1, op2);
}
pub fn mls<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: MlsEmitter<T0, T1, T2>,
{
<Self as MlsEmitter<T0, T1, T2>>::mls(self, op0, op1, op2);
}
pub fn movi<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MoviEmitter<T0, T1>,
{
<Self as MoviEmitter<T0, T1>>::movi(self, op0, op1);
}
pub fn movi_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Movi3Emitter<T0, T1, T2>,
{
<Self as Movi3Emitter<T0, T1, T2>>::movi_3(self, op0, op1, op2);
}
pub fn mvni<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: MvniEmitter<T0, T1>,
{
<Self as MvniEmitter<T0, T1>>::mvni(self, op0, op1);
}
pub fn mvni_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Mvni3Emitter<T0, T1, T2>,
{
<Self as Mvni3Emitter<T0, T1, T2>>::mvni_3(self, op0, op1, op2);
}
pub fn not_<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: NotEmitter<T0, T1>,
{
<Self as NotEmitter<T0, T1>>::not_(self, op0, op1);
}
pub fn orr_2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Orr2Emitter<T0, T1>,
{
<Self as Orr2Emitter<T0, T1>>::orr_2(self, op0, op1);
}
pub fn pmul<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: PmulEmitter<T0, T1, T2>,
{
<Self as PmulEmitter<T0, T1, T2>>::pmul(self, op0, op1, op2);
}
pub fn pmull<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: PmullEmitter<T0, T1, T2>,
{
<Self as PmullEmitter<T0, T1, T2>>::pmull(self, op0, op1, op2);
}
pub fn pmull2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Pmull2Emitter<T0, T1, T2>,
{
<Self as Pmull2Emitter<T0, T1, T2>>::pmull2(self, op0, op1, op2);
}
pub fn raddhn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: RaddhnEmitter<T0, T1, T2>,
{
<Self as RaddhnEmitter<T0, T1, T2>>::raddhn(self, op0, op1, op2);
}
pub fn raddhn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Raddhn2Emitter<T0, T1, T2>,
{
<Self as Raddhn2Emitter<T0, T1, T2>>::raddhn2(self, op0, op1, op2);
}
pub fn rshrn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: RshrnEmitter<T0, T1, T2>,
{
<Self as RshrnEmitter<T0, T1, T2>>::rshrn(self, op0, op1, op2);
}
pub fn rshrn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Rshrn2Emitter<T0, T1, T2>,
{
<Self as Rshrn2Emitter<T0, T1, T2>>::rshrn2(self, op0, op1, op2);
}
pub fn rsubhn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: RsubhnEmitter<T0, T1, T2>,
{
<Self as RsubhnEmitter<T0, T1, T2>>::rsubhn(self, op0, op1, op2);
}
pub fn rsubhn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Rsubhn2Emitter<T0, T1, T2>,
{
<Self as Rsubhn2Emitter<T0, T1, T2>>::rsubhn2(self, op0, op1, op2);
}
pub fn saba<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SabaEmitter<T0, T1, T2>,
{
<Self as SabaEmitter<T0, T1, T2>>::saba(self, op0, op1, op2);
}
pub fn sabal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SabalEmitter<T0, T1, T2>,
{
<Self as SabalEmitter<T0, T1, T2>>::sabal(self, op0, op1, op2);
}
pub fn sabal2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sabal2Emitter<T0, T1, T2>,
{
<Self as Sabal2Emitter<T0, T1, T2>>::sabal2(self, op0, op1, op2);
}
pub fn sabd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SabdEmitter<T0, T1, T2>,
{
<Self as SabdEmitter<T0, T1, T2>>::sabd(self, op0, op1, op2);
}
pub fn sabdl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SabdlEmitter<T0, T1, T2>,
{
<Self as SabdlEmitter<T0, T1, T2>>::sabdl(self, op0, op1, op2);
}
pub fn sabdl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sabdl2Emitter<T0, T1, T2>,
{
<Self as Sabdl2Emitter<T0, T1, T2>>::sabdl2(self, op0, op1, op2);
}
pub fn sadalp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SadalpEmitter<T0, T1>,
{
<Self as SadalpEmitter<T0, T1>>::sadalp(self, op0, op1);
}
pub fn saddl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SaddlEmitter<T0, T1, T2>,
{
<Self as SaddlEmitter<T0, T1, T2>>::saddl(self, op0, op1, op2);
}
pub fn saddl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Saddl2Emitter<T0, T1, T2>,
{
<Self as Saddl2Emitter<T0, T1, T2>>::saddl2(self, op0, op1, op2);
}
pub fn saddlp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SaddlpEmitter<T0, T1>,
{
<Self as SaddlpEmitter<T0, T1>>::saddlp(self, op0, op1);
}
pub fn saddlv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SaddlvEmitter<T0, T1>,
{
<Self as SaddlvEmitter<T0, T1>>::saddlv(self, op0, op1);
}
pub fn saddw<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SaddwEmitter<T0, T1, T2>,
{
<Self as SaddwEmitter<T0, T1, T2>>::saddw(self, op0, op1, op2);
}
pub fn saddw2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Saddw2Emitter<T0, T1, T2>,
{
<Self as Saddw2Emitter<T0, T1, T2>>::saddw2(self, op0, op1, op2);
}
pub fn scvtf<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: ScvtfEmitter<T0, T1>,
{
<Self as ScvtfEmitter<T0, T1>>::scvtf(self, op0, op1);
}
pub fn scvtf_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Scvtf3Emitter<T0, T1, T2>,
{
<Self as Scvtf3Emitter<T0, T1, T2>>::scvtf_3(self, op0, op1, op2);
}
pub fn shadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: ShaddEmitter<T0, T1, T2>,
{
<Self as ShaddEmitter<T0, T1, T2>>::shadd(self, op0, op1, op2);
}
pub fn shl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: ShlEmitter<T0, T1, T2>,
{
<Self as ShlEmitter<T0, T1, T2>>::shl(self, op0, op1, op2);
}
pub fn shll<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: ShllEmitter<T0, T1, T2>,
{
<Self as ShllEmitter<T0, T1, T2>>::shll(self, op0, op1, op2);
}
pub fn shll2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Shll2Emitter<T0, T1, T2>,
{
<Self as Shll2Emitter<T0, T1, T2>>::shll2(self, op0, op1, op2);
}
pub fn shrn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: ShrnEmitter<T0, T1, T2>,
{
<Self as ShrnEmitter<T0, T1, T2>>::shrn(self, op0, op1, op2);
}
pub fn shrn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Shrn2Emitter<T0, T1, T2>,
{
<Self as Shrn2Emitter<T0, T1, T2>>::shrn2(self, op0, op1, op2);
}
pub fn shsub<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: ShsubEmitter<T0, T1, T2>,
{
<Self as ShsubEmitter<T0, T1, T2>>::shsub(self, op0, op1, op2);
}
pub fn sli<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SliEmitter<T0, T1, T2>,
{
<Self as SliEmitter<T0, T1, T2>>::sli(self, op0, op1, op2);
}
pub fn smaxp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmaxpEmitter<T0, T1, T2>,
{
<Self as SmaxpEmitter<T0, T1, T2>>::smaxp(self, op0, op1, op2);
}
pub fn smaxv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SmaxvEmitter<T0, T1>,
{
<Self as SmaxvEmitter<T0, T1>>::smaxv(self, op0, op1);
}
pub fn sminp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SminpEmitter<T0, T1, T2>,
{
<Self as SminpEmitter<T0, T1, T2>>::sminp(self, op0, op1, op2);
}
pub fn sminv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SminvEmitter<T0, T1>,
{
<Self as SminvEmitter<T0, T1>>::sminv(self, op0, op1);
}
pub fn smlal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmlalEmitter<T0, T1, T2>,
{
<Self as SmlalEmitter<T0, T1, T2>>::smlal(self, op0, op1, op2);
}
pub fn smlal2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Smlal2Emitter<T0, T1, T2>,
{
<Self as Smlal2Emitter<T0, T1, T2>>::smlal2(self, op0, op1, op2);
}
pub fn smlsl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmlslEmitter<T0, T1, T2>,
{
<Self as SmlslEmitter<T0, T1, T2>>::smlsl(self, op0, op1, op2);
}
pub fn smlsl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Smlsl2Emitter<T0, T1, T2>,
{
<Self as Smlsl2Emitter<T0, T1, T2>>::smlsl2(self, op0, op1, op2);
}
pub fn smov<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SmovEmitter<T0, T1>,
{
<Self as SmovEmitter<T0, T1>>::smov(self, op0, op1);
}
pub fn smull2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Smull2Emitter<T0, T1, T2>,
{
<Self as Smull2Emitter<T0, T1, T2>>::smull2(self, op0, op1, op2);
}
pub fn sqabs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SqabsEmitter<T0, T1>,
{
<Self as SqabsEmitter<T0, T1>>::sqabs(self, op0, op1);
}
pub fn sqadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqaddEmitter<T0, T1, T2>,
{
<Self as SqaddEmitter<T0, T1, T2>>::sqadd(self, op0, op1, op2);
}
pub fn sqdmlal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqdmlalEmitter<T0, T1, T2>,
{
<Self as SqdmlalEmitter<T0, T1, T2>>::sqdmlal(self, op0, op1, op2);
}
pub fn sqdmlal2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sqdmlal2Emitter<T0, T1, T2>,
{
<Self as Sqdmlal2Emitter<T0, T1, T2>>::sqdmlal2(self, op0, op1, op2);
}
pub fn sqdmlsl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqdmlslEmitter<T0, T1, T2>,
{
<Self as SqdmlslEmitter<T0, T1, T2>>::sqdmlsl(self, op0, op1, op2);
}
pub fn sqdmlsl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sqdmlsl2Emitter<T0, T1, T2>,
{
<Self as Sqdmlsl2Emitter<T0, T1, T2>>::sqdmlsl2(self, op0, op1, op2);
}
pub fn sqdmulh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqdmulhEmitter<T0, T1, T2>,
{
<Self as SqdmulhEmitter<T0, T1, T2>>::sqdmulh(self, op0, op1, op2);
}
pub fn sqdmull<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqdmullEmitter<T0, T1, T2>,
{
<Self as SqdmullEmitter<T0, T1, T2>>::sqdmull(self, op0, op1, op2);
}
pub fn sqdmull2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sqdmull2Emitter<T0, T1, T2>,
{
<Self as Sqdmull2Emitter<T0, T1, T2>>::sqdmull2(self, op0, op1, op2);
}
pub fn sqneg<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SqnegEmitter<T0, T1>,
{
<Self as SqnegEmitter<T0, T1>>::sqneg(self, op0, op1);
}
pub fn sqrdmulh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqrdmulhEmitter<T0, T1, T2>,
{
<Self as SqrdmulhEmitter<T0, T1, T2>>::sqrdmulh(self, op0, op1, op2);
}
pub fn sqrshl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqrshlEmitter<T0, T1, T2>,
{
<Self as SqrshlEmitter<T0, T1, T2>>::sqrshl(self, op0, op1, op2);
}
pub fn sqrshrn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqrshrnEmitter<T0, T1, T2>,
{
<Self as SqrshrnEmitter<T0, T1, T2>>::sqrshrn(self, op0, op1, op2);
}
pub fn sqrshrn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sqrshrn2Emitter<T0, T1, T2>,
{
<Self as Sqrshrn2Emitter<T0, T1, T2>>::sqrshrn2(self, op0, op1, op2);
}
pub fn sqrshrun<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqrshrunEmitter<T0, T1, T2>,
{
<Self as SqrshrunEmitter<T0, T1, T2>>::sqrshrun(self, op0, op1, op2);
}
pub fn sqrshrun2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sqrshrun2Emitter<T0, T1, T2>,
{
<Self as Sqrshrun2Emitter<T0, T1, T2>>::sqrshrun2(self, op0, op1, op2);
}
pub fn sqshl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqshlEmitter<T0, T1, T2>,
{
<Self as SqshlEmitter<T0, T1, T2>>::sqshl(self, op0, op1, op2);
}
pub fn sqshlu<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqshluEmitter<T0, T1, T2>,
{
<Self as SqshluEmitter<T0, T1, T2>>::sqshlu(self, op0, op1, op2);
}
pub fn sqshrn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqshrnEmitter<T0, T1, T2>,
{
<Self as SqshrnEmitter<T0, T1, T2>>::sqshrn(self, op0, op1, op2);
}
pub fn sqshrn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sqshrn2Emitter<T0, T1, T2>,
{
<Self as Sqshrn2Emitter<T0, T1, T2>>::sqshrn2(self, op0, op1, op2);
}
pub fn sqshrun<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqshrunEmitter<T0, T1, T2>,
{
<Self as SqshrunEmitter<T0, T1, T2>>::sqshrun(self, op0, op1, op2);
}
pub fn sqshrun2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sqshrun2Emitter<T0, T1, T2>,
{
<Self as Sqshrun2Emitter<T0, T1, T2>>::sqshrun2(self, op0, op1, op2);
}
pub fn sqsub<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqsubEmitter<T0, T1, T2>,
{
<Self as SqsubEmitter<T0, T1, T2>>::sqsub(self, op0, op1, op2);
}
pub fn sqxtn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SqxtnEmitter<T0, T1>,
{
<Self as SqxtnEmitter<T0, T1>>::sqxtn(self, op0, op1);
}
pub fn sqxtn2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sqxtn2Emitter<T0, T1>,
{
<Self as Sqxtn2Emitter<T0, T1>>::sqxtn2(self, op0, op1);
}
pub fn sqxtun<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SqxtunEmitter<T0, T1>,
{
<Self as SqxtunEmitter<T0, T1>>::sqxtun(self, op0, op1);
}
pub fn sqxtun2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sqxtun2Emitter<T0, T1>,
{
<Self as Sqxtun2Emitter<T0, T1>>::sqxtun2(self, op0, op1);
}
pub fn srhadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SrhaddEmitter<T0, T1, T2>,
{
<Self as SrhaddEmitter<T0, T1, T2>>::srhadd(self, op0, op1, op2);
}
pub fn sri<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SriEmitter<T0, T1, T2>,
{
<Self as SriEmitter<T0, T1, T2>>::sri(self, op0, op1, op2);
}
pub fn srshl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SrshlEmitter<T0, T1, T2>,
{
<Self as SrshlEmitter<T0, T1, T2>>::srshl(self, op0, op1, op2);
}
pub fn srshr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SrshrEmitter<T0, T1, T2>,
{
<Self as SrshrEmitter<T0, T1, T2>>::srshr(self, op0, op1, op2);
}
pub fn srsra<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SrsraEmitter<T0, T1, T2>,
{
<Self as SrsraEmitter<T0, T1, T2>>::srsra(self, op0, op1, op2);
}
pub fn sshl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SshlEmitter<T0, T1, T2>,
{
<Self as SshlEmitter<T0, T1, T2>>::sshl(self, op0, op1, op2);
}
pub fn sshll<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SshllEmitter<T0, T1, T2>,
{
<Self as SshllEmitter<T0, T1, T2>>::sshll(self, op0, op1, op2);
}
pub fn sshll2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sshll2Emitter<T0, T1, T2>,
{
<Self as Sshll2Emitter<T0, T1, T2>>::sshll2(self, op0, op1, op2);
}
pub fn sshr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SshrEmitter<T0, T1, T2>,
{
<Self as SshrEmitter<T0, T1, T2>>::sshr(self, op0, op1, op2);
}
pub fn ssra<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SsraEmitter<T0, T1, T2>,
{
<Self as SsraEmitter<T0, T1, T2>>::ssra(self, op0, op1, op2);
}
pub fn ssubl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SsublEmitter<T0, T1, T2>,
{
<Self as SsublEmitter<T0, T1, T2>>::ssubl(self, op0, op1, op2);
}
pub fn ssubl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Ssubl2Emitter<T0, T1, T2>,
{
<Self as Ssubl2Emitter<T0, T1, T2>>::ssubl2(self, op0, op1, op2);
}
pub fn ssubw<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SsubwEmitter<T0, T1, T2>,
{
<Self as SsubwEmitter<T0, T1, T2>>::ssubw(self, op0, op1, op2);
}
pub fn ssubw2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Ssubw2Emitter<T0, T1, T2>,
{
<Self as Ssubw2Emitter<T0, T1, T2>>::ssubw2(self, op0, op1, op2);
}
pub fn st1<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: St1Emitter<T0, T1>,
{
<Self as St1Emitter<T0, T1>>::st1(self, op0, op1);
}
pub fn st1_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: St13Emitter<T0, T1, T2>,
{
<Self as St13Emitter<T0, T1, T2>>::st1_3(self, op0, op1, op2);
}
pub fn st1_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: St14Emitter<T0, T1, T2, T3>,
{
<Self as St14Emitter<T0, T1, T2, T3>>::st1_4(self, op0, op1, op2, op3);
}
pub fn st1_5<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: St15Emitter<T0, T1, T2, T3, T4>,
{
<Self as St15Emitter<T0, T1, T2, T3, T4>>::st1_5(self, op0, op1, op2, op3, op4);
}
pub fn st2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: St2Emitter<T0, T1, T2>,
{
<Self as St2Emitter<T0, T1, T2>>::st2(self, op0, op1, op2);
}
pub fn st3<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: St3Emitter<T0, T1, T2, T3>,
{
<Self as St3Emitter<T0, T1, T2, T3>>::st3(self, op0, op1, op2, op3);
}
pub fn st4<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: St4Emitter<T0, T1, T2, T3, T4>,
{
<Self as St4Emitter<T0, T1, T2, T3, T4>>::st4(self, op0, op1, op2, op3, op4);
}
pub fn subhn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SubhnEmitter<T0, T1, T2>,
{
<Self as SubhnEmitter<T0, T1, T2>>::subhn(self, op0, op1, op2);
}
pub fn subhn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Subhn2Emitter<T0, T1, T2>,
{
<Self as Subhn2Emitter<T0, T1, T2>>::subhn2(self, op0, op1, op2);
}
pub fn suqadd<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SuqaddEmitter<T0, T1>,
{
<Self as SuqaddEmitter<T0, T1>>::suqadd(self, op0, op1);
}
pub fn sxtl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: SxtlEmitter<T0, T1>,
{
<Self as SxtlEmitter<T0, T1>>::sxtl(self, op0, op1);
}
pub fn sxtl2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sxtl2Emitter<T0, T1>,
{
<Self as Sxtl2Emitter<T0, T1>>::sxtl2(self, op0, op1);
}
pub fn tbl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: TblEmitter<T0, T1, T2>,
{
<Self as TblEmitter<T0, T1, T2>>::tbl(self, op0, op1, op2);
}
pub fn tbl_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Tbl4Emitter<T0, T1, T2, T3>,
{
<Self as Tbl4Emitter<T0, T1, T2, T3>>::tbl_4(self, op0, op1, op2, op3);
}
pub fn tbl_5<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: Tbl5Emitter<T0, T1, T2, T3, T4>,
{
<Self as Tbl5Emitter<T0, T1, T2, T3, T4>>::tbl_5(self, op0, op1, op2, op3, op4);
}
pub fn tbl_6<T0, T1, T2, T3, T4, T5>(
&mut self,
op0: T0,
op1: T1,
op2: T2,
op3: T3,
op4: T4,
op5: T5,
) where
Self: Tbl6Emitter<T0, T1, T2, T3, T4, T5>,
{
<Self as Tbl6Emitter<T0, T1, T2, T3, T4, T5>>::tbl_6(self, op0, op1, op2, op3, op4, op5);
}
pub fn tbx<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: TbxEmitter<T0, T1, T2>,
{
<Self as TbxEmitter<T0, T1, T2>>::tbx(self, op0, op1, op2);
}
pub fn tbx_4<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Tbx4Emitter<T0, T1, T2, T3>,
{
<Self as Tbx4Emitter<T0, T1, T2, T3>>::tbx_4(self, op0, op1, op2, op3);
}
pub fn tbx_5<T0, T1, T2, T3, T4>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3, op4: T4)
where
Self: Tbx5Emitter<T0, T1, T2, T3, T4>,
{
<Self as Tbx5Emitter<T0, T1, T2, T3, T4>>::tbx_5(self, op0, op1, op2, op3, op4);
}
pub fn tbx_6<T0, T1, T2, T3, T4, T5>(
&mut self,
op0: T0,
op1: T1,
op2: T2,
op3: T3,
op4: T4,
op5: T5,
) where
Self: Tbx6Emitter<T0, T1, T2, T3, T4, T5>,
{
<Self as Tbx6Emitter<T0, T1, T2, T3, T4, T5>>::tbx_6(self, op0, op1, op2, op3, op4, op5);
}
pub fn trn1<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Trn1Emitter<T0, T1, T2>,
{
<Self as Trn1Emitter<T0, T1, T2>>::trn1(self, op0, op1, op2);
}
pub fn trn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Trn2Emitter<T0, T1, T2>,
{
<Self as Trn2Emitter<T0, T1, T2>>::trn2(self, op0, op1, op2);
}
pub fn uaba<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UabaEmitter<T0, T1, T2>,
{
<Self as UabaEmitter<T0, T1, T2>>::uaba(self, op0, op1, op2);
}
pub fn uabal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UabalEmitter<T0, T1, T2>,
{
<Self as UabalEmitter<T0, T1, T2>>::uabal(self, op0, op1, op2);
}
pub fn uabal2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uabal2Emitter<T0, T1, T2>,
{
<Self as Uabal2Emitter<T0, T1, T2>>::uabal2(self, op0, op1, op2);
}
pub fn uabd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UabdEmitter<T0, T1, T2>,
{
<Self as UabdEmitter<T0, T1, T2>>::uabd(self, op0, op1, op2);
}
pub fn uabdl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UabdlEmitter<T0, T1, T2>,
{
<Self as UabdlEmitter<T0, T1, T2>>::uabdl(self, op0, op1, op2);
}
pub fn uabdl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uabdl2Emitter<T0, T1, T2>,
{
<Self as Uabdl2Emitter<T0, T1, T2>>::uabdl2(self, op0, op1, op2);
}
pub fn uadalp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UadalpEmitter<T0, T1>,
{
<Self as UadalpEmitter<T0, T1>>::uadalp(self, op0, op1);
}
pub fn uaddl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UaddlEmitter<T0, T1, T2>,
{
<Self as UaddlEmitter<T0, T1, T2>>::uaddl(self, op0, op1, op2);
}
pub fn uaddl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uaddl2Emitter<T0, T1, T2>,
{
<Self as Uaddl2Emitter<T0, T1, T2>>::uaddl2(self, op0, op1, op2);
}
pub fn uaddlp<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UaddlpEmitter<T0, T1>,
{
<Self as UaddlpEmitter<T0, T1>>::uaddlp(self, op0, op1);
}
pub fn uaddlv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UaddlvEmitter<T0, T1>,
{
<Self as UaddlvEmitter<T0, T1>>::uaddlv(self, op0, op1);
}
pub fn uaddw<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UaddwEmitter<T0, T1, T2>,
{
<Self as UaddwEmitter<T0, T1, T2>>::uaddw(self, op0, op1, op2);
}
pub fn uaddw2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uaddw2Emitter<T0, T1, T2>,
{
<Self as Uaddw2Emitter<T0, T1, T2>>::uaddw2(self, op0, op1, op2);
}
pub fn ucvtf<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UcvtfEmitter<T0, T1>,
{
<Self as UcvtfEmitter<T0, T1>>::ucvtf(self, op0, op1);
}
pub fn ucvtf_3<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Ucvtf3Emitter<T0, T1, T2>,
{
<Self as Ucvtf3Emitter<T0, T1, T2>>::ucvtf_3(self, op0, op1, op2);
}
pub fn uhadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UhaddEmitter<T0, T1, T2>,
{
<Self as UhaddEmitter<T0, T1, T2>>::uhadd(self, op0, op1, op2);
}
pub fn uhsub<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UhsubEmitter<T0, T1, T2>,
{
<Self as UhsubEmitter<T0, T1, T2>>::uhsub(self, op0, op1, op2);
}
pub fn umaxp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmaxpEmitter<T0, T1, T2>,
{
<Self as UmaxpEmitter<T0, T1, T2>>::umaxp(self, op0, op1, op2);
}
pub fn umaxv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UmaxvEmitter<T0, T1>,
{
<Self as UmaxvEmitter<T0, T1>>::umaxv(self, op0, op1);
}
pub fn uminp<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UminpEmitter<T0, T1, T2>,
{
<Self as UminpEmitter<T0, T1, T2>>::uminp(self, op0, op1, op2);
}
pub fn uminv<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UminvEmitter<T0, T1>,
{
<Self as UminvEmitter<T0, T1>>::uminv(self, op0, op1);
}
pub fn umlal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmlalEmitter<T0, T1, T2>,
{
<Self as UmlalEmitter<T0, T1, T2>>::umlal(self, op0, op1, op2);
}
pub fn umlal2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Umlal2Emitter<T0, T1, T2>,
{
<Self as Umlal2Emitter<T0, T1, T2>>::umlal2(self, op0, op1, op2);
}
pub fn umlsl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmlslEmitter<T0, T1, T2>,
{
<Self as UmlslEmitter<T0, T1, T2>>::umlsl(self, op0, op1, op2);
}
pub fn umlsl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Umlsl2Emitter<T0, T1, T2>,
{
<Self as Umlsl2Emitter<T0, T1, T2>>::umlsl2(self, op0, op1, op2);
}
pub fn umov<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UmovEmitter<T0, T1>,
{
<Self as UmovEmitter<T0, T1>>::umov(self, op0, op1);
}
pub fn umull2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Umull2Emitter<T0, T1, T2>,
{
<Self as Umull2Emitter<T0, T1, T2>>::umull2(self, op0, op1, op2);
}
pub fn uqadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UqaddEmitter<T0, T1, T2>,
{
<Self as UqaddEmitter<T0, T1, T2>>::uqadd(self, op0, op1, op2);
}
pub fn uqrshl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UqrshlEmitter<T0, T1, T2>,
{
<Self as UqrshlEmitter<T0, T1, T2>>::uqrshl(self, op0, op1, op2);
}
pub fn uqrshrn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UqrshrnEmitter<T0, T1, T2>,
{
<Self as UqrshrnEmitter<T0, T1, T2>>::uqrshrn(self, op0, op1, op2);
}
pub fn uqrshrn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uqrshrn2Emitter<T0, T1, T2>,
{
<Self as Uqrshrn2Emitter<T0, T1, T2>>::uqrshrn2(self, op0, op1, op2);
}
pub fn uqshl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UqshlEmitter<T0, T1, T2>,
{
<Self as UqshlEmitter<T0, T1, T2>>::uqshl(self, op0, op1, op2);
}
pub fn uqshrn<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UqshrnEmitter<T0, T1, T2>,
{
<Self as UqshrnEmitter<T0, T1, T2>>::uqshrn(self, op0, op1, op2);
}
pub fn uqshrn2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uqshrn2Emitter<T0, T1, T2>,
{
<Self as Uqshrn2Emitter<T0, T1, T2>>::uqshrn2(self, op0, op1, op2);
}
pub fn uqsub<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UqsubEmitter<T0, T1, T2>,
{
<Self as UqsubEmitter<T0, T1, T2>>::uqsub(self, op0, op1, op2);
}
pub fn uqxtn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UqxtnEmitter<T0, T1>,
{
<Self as UqxtnEmitter<T0, T1>>::uqxtn(self, op0, op1);
}
pub fn uqxtn2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Uqxtn2Emitter<T0, T1>,
{
<Self as Uqxtn2Emitter<T0, T1>>::uqxtn2(self, op0, op1);
}
pub fn urecpe<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UrecpeEmitter<T0, T1>,
{
<Self as UrecpeEmitter<T0, T1>>::urecpe(self, op0, op1);
}
pub fn urhadd<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UrhaddEmitter<T0, T1, T2>,
{
<Self as UrhaddEmitter<T0, T1, T2>>::urhadd(self, op0, op1, op2);
}
pub fn urshl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UrshlEmitter<T0, T1, T2>,
{
<Self as UrshlEmitter<T0, T1, T2>>::urshl(self, op0, op1, op2);
}
pub fn urshr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UrshrEmitter<T0, T1, T2>,
{
<Self as UrshrEmitter<T0, T1, T2>>::urshr(self, op0, op1, op2);
}
pub fn ursqrte<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UrsqrteEmitter<T0, T1>,
{
<Self as UrsqrteEmitter<T0, T1>>::ursqrte(self, op0, op1);
}
pub fn ursra<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UrsraEmitter<T0, T1, T2>,
{
<Self as UrsraEmitter<T0, T1, T2>>::ursra(self, op0, op1, op2);
}
pub fn ushl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UshlEmitter<T0, T1, T2>,
{
<Self as UshlEmitter<T0, T1, T2>>::ushl(self, op0, op1, op2);
}
pub fn ushll<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UshllEmitter<T0, T1, T2>,
{
<Self as UshllEmitter<T0, T1, T2>>::ushll(self, op0, op1, op2);
}
pub fn ushll2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Ushll2Emitter<T0, T1, T2>,
{
<Self as Ushll2Emitter<T0, T1, T2>>::ushll2(self, op0, op1, op2);
}
pub fn ushr<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UshrEmitter<T0, T1, T2>,
{
<Self as UshrEmitter<T0, T1, T2>>::ushr(self, op0, op1, op2);
}
pub fn usqadd<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UsqaddEmitter<T0, T1>,
{
<Self as UsqaddEmitter<T0, T1>>::usqadd(self, op0, op1);
}
pub fn usra<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UsraEmitter<T0, T1, T2>,
{
<Self as UsraEmitter<T0, T1, T2>>::usra(self, op0, op1, op2);
}
pub fn usubl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UsublEmitter<T0, T1, T2>,
{
<Self as UsublEmitter<T0, T1, T2>>::usubl(self, op0, op1, op2);
}
pub fn usubl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Usubl2Emitter<T0, T1, T2>,
{
<Self as Usubl2Emitter<T0, T1, T2>>::usubl2(self, op0, op1, op2);
}
pub fn usubw<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UsubwEmitter<T0, T1, T2>,
{
<Self as UsubwEmitter<T0, T1, T2>>::usubw(self, op0, op1, op2);
}
pub fn usubw2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Usubw2Emitter<T0, T1, T2>,
{
<Self as Usubw2Emitter<T0, T1, T2>>::usubw2(self, op0, op1, op2);
}
pub fn uxtl<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: UxtlEmitter<T0, T1>,
{
<Self as UxtlEmitter<T0, T1>>::uxtl(self, op0, op1);
}
pub fn uxtl2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Uxtl2Emitter<T0, T1>,
{
<Self as Uxtl2Emitter<T0, T1>>::uxtl2(self, op0, op1);
}
pub fn uzp1<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uzp1Emitter<T0, T1, T2>,
{
<Self as Uzp1Emitter<T0, T1, T2>>::uzp1(self, op0, op1, op2);
}
pub fn uzp2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Uzp2Emitter<T0, T1, T2>,
{
<Self as Uzp2Emitter<T0, T1, T2>>::uzp2(self, op0, op1, op2);
}
pub fn xtn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: XtnEmitter<T0, T1>,
{
<Self as XtnEmitter<T0, T1>>::xtn(self, op0, op1);
}
pub fn xtn2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Xtn2Emitter<T0, T1>,
{
<Self as Xtn2Emitter<T0, T1>>::xtn2(self, op0, op1);
}
pub fn zip1<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Zip1Emitter<T0, T1, T2>,
{
<Self as Zip1Emitter<T0, T1, T2>>::zip1(self, op0, op1, op2);
}
pub fn zip2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Zip2Emitter<T0, T1, T2>,
{
<Self as Zip2Emitter<T0, T1, T2>>::zip2(self, op0, op1, op2);
}
pub fn aesd<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AesdEmitter<T0, T1>,
{
<Self as AesdEmitter<T0, T1>>::aesd(self, op0, op1);
}
pub fn aese<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AeseEmitter<T0, T1>,
{
<Self as AeseEmitter<T0, T1>>::aese(self, op0, op1);
}
pub fn aesimc<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AesimcEmitter<T0, T1>,
{
<Self as AesimcEmitter<T0, T1>>::aesimc(self, op0, op1);
}
pub fn aesmc<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: AesmcEmitter<T0, T1>,
{
<Self as AesmcEmitter<T0, T1>>::aesmc(self, op0, op1);
}
pub fn sha1c<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha1cEmitter<T0, T1, T2>,
{
<Self as Sha1cEmitter<T0, T1, T2>>::sha1c(self, op0, op1, op2);
}
pub fn sha1h<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sha1hEmitter<T0, T1>,
{
<Self as Sha1hEmitter<T0, T1>>::sha1h(self, op0, op1);
}
pub fn sha1m<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha1mEmitter<T0, T1, T2>,
{
<Self as Sha1mEmitter<T0, T1, T2>>::sha1m(self, op0, op1, op2);
}
pub fn sha1p<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha1pEmitter<T0, T1, T2>,
{
<Self as Sha1pEmitter<T0, T1, T2>>::sha1p(self, op0, op1, op2);
}
pub fn sha1su0<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha1su0Emitter<T0, T1, T2>,
{
<Self as Sha1su0Emitter<T0, T1, T2>>::sha1su0(self, op0, op1, op2);
}
pub fn sha1su1<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sha1su1Emitter<T0, T1>,
{
<Self as Sha1su1Emitter<T0, T1>>::sha1su1(self, op0, op1);
}
pub fn sha256h<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha256hEmitter<T0, T1, T2>,
{
<Self as Sha256hEmitter<T0, T1, T2>>::sha256h(self, op0, op1, op2);
}
pub fn sha256h2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha256h2Emitter<T0, T1, T2>,
{
<Self as Sha256h2Emitter<T0, T1, T2>>::sha256h2(self, op0, op1, op2);
}
pub fn sha256su0<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sha256su0Emitter<T0, T1>,
{
<Self as Sha256su0Emitter<T0, T1>>::sha256su0(self, op0, op1);
}
pub fn sha256su1<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha256su1Emitter<T0, T1, T2>,
{
<Self as Sha256su1Emitter<T0, T1, T2>>::sha256su1(self, op0, op1, op2);
}
pub fn sqrdmlah<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqrdmlahEmitter<T0, T1, T2>,
{
<Self as SqrdmlahEmitter<T0, T1, T2>>::sqrdmlah(self, op0, op1, op2);
}
pub fn sqrdmlsh<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SqrdmlshEmitter<T0, T1, T2>,
{
<Self as SqrdmlshEmitter<T0, T1, T2>>::sqrdmlsh(self, op0, op1, op2);
}
pub fn fcadd<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FcaddEmitter<T0, T1, T2, T3>,
{
<Self as FcaddEmitter<T0, T1, T2, T3>>::fcadd(self, op0, op1, op2, op3);
}
pub fn fcmla<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: FcmlaEmitter<T0, T1, T2, T3>,
{
<Self as FcmlaEmitter<T0, T1, T2, T3>>::fcmla(self, op0, op1, op2, op3);
}
pub fn fjcvtzs<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: FjcvtzsEmitter<T0, T1>,
{
<Self as FjcvtzsEmitter<T0, T1>>::fjcvtzs(self, op0, op1);
}
pub fn fmlal<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmlalEmitter<T0, T1, T2>,
{
<Self as FmlalEmitter<T0, T1, T2>>::fmlal(self, op0, op1, op2);
}
pub fn fmlal2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Fmlal2Emitter<T0, T1, T2>,
{
<Self as Fmlal2Emitter<T0, T1, T2>>::fmlal2(self, op0, op1, op2);
}
pub fn fmlsl<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: FmlslEmitter<T0, T1, T2>,
{
<Self as FmlslEmitter<T0, T1, T2>>::fmlsl(self, op0, op1, op2);
}
pub fn fmlsl2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Fmlsl2Emitter<T0, T1, T2>,
{
<Self as Fmlsl2Emitter<T0, T1, T2>>::fmlsl2(self, op0, op1, op2);
}
pub fn bcax<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: BcaxEmitter<T0, T1, T2, T3>,
{
<Self as BcaxEmitter<T0, T1, T2, T3>>::bcax(self, op0, op1, op2, op3);
}
pub fn eor3<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Eor3Emitter<T0, T1, T2, T3>,
{
<Self as Eor3Emitter<T0, T1, T2, T3>>::eor3(self, op0, op1, op2, op3);
}
pub fn rax1<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Rax1Emitter<T0, T1, T2>,
{
<Self as Rax1Emitter<T0, T1, T2>>::rax1(self, op0, op1, op2);
}
pub fn xar<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: XarEmitter<T0, T1, T2, T3>,
{
<Self as XarEmitter<T0, T1, T2, T3>>::xar(self, op0, op1, op2, op3);
}
pub fn sha512h<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha512hEmitter<T0, T1, T2>,
{
<Self as Sha512hEmitter<T0, T1, T2>>::sha512h(self, op0, op1, op2);
}
pub fn sha512h2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha512h2Emitter<T0, T1, T2>,
{
<Self as Sha512h2Emitter<T0, T1, T2>>::sha512h2(self, op0, op1, op2);
}
pub fn sha512su0<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sha512su0Emitter<T0, T1>,
{
<Self as Sha512su0Emitter<T0, T1>>::sha512su0(self, op0, op1);
}
pub fn sha512su1<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sha512su1Emitter<T0, T1, T2>,
{
<Self as Sha512su1Emitter<T0, T1, T2>>::sha512su1(self, op0, op1, op2);
}
pub fn sm3partw1<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sm3partw1Emitter<T0, T1, T2>,
{
<Self as Sm3partw1Emitter<T0, T1, T2>>::sm3partw1(self, op0, op1, op2);
}
pub fn sm3partw2<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sm3partw2Emitter<T0, T1, T2>,
{
<Self as Sm3partw2Emitter<T0, T1, T2>>::sm3partw2(self, op0, op1, op2);
}
pub fn sm3ss1<T0, T1, T2, T3>(&mut self, op0: T0, op1: T1, op2: T2, op3: T3)
where
Self: Sm3ss1Emitter<T0, T1, T2, T3>,
{
<Self as Sm3ss1Emitter<T0, T1, T2, T3>>::sm3ss1(self, op0, op1, op2, op3);
}
pub fn sm3tt1a<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sm3tt1aEmitter<T0, T1, T2>,
{
<Self as Sm3tt1aEmitter<T0, T1, T2>>::sm3tt1a(self, op0, op1, op2);
}
pub fn sm3tt1b<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sm3tt1bEmitter<T0, T1, T2>,
{
<Self as Sm3tt1bEmitter<T0, T1, T2>>::sm3tt1b(self, op0, op1, op2);
}
pub fn sm3tt2a<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sm3tt2aEmitter<T0, T1, T2>,
{
<Self as Sm3tt2aEmitter<T0, T1, T2>>::sm3tt2a(self, op0, op1, op2);
}
pub fn sm3tt2b<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sm3tt2bEmitter<T0, T1, T2>,
{
<Self as Sm3tt2bEmitter<T0, T1, T2>>::sm3tt2b(self, op0, op1, op2);
}
pub fn sm4e<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Sm4eEmitter<T0, T1>,
{
<Self as Sm4eEmitter<T0, T1>>::sm4e(self, op0, op1);
}
pub fn sm4ekey<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: Sm4ekeyEmitter<T0, T1, T2>,
{
<Self as Sm4ekeyEmitter<T0, T1, T2>>::sm4ekey(self, op0, op1, op2);
}
pub fn sdot<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SdotEmitter<T0, T1, T2>,
{
<Self as SdotEmitter<T0, T1, T2>>::sdot(self, op0, op1, op2);
}
pub fn udot<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UdotEmitter<T0, T1, T2>,
{
<Self as UdotEmitter<T0, T1, T2>>::udot(self, op0, op1, op2);
}
pub fn bfcvt<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: BfcvtEmitter<T0, T1>,
{
<Self as BfcvtEmitter<T0, T1>>::bfcvt(self, op0, op1);
}
pub fn bfcvtn<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: BfcvtnEmitter<T0, T1>,
{
<Self as BfcvtnEmitter<T0, T1>>::bfcvtn(self, op0, op1);
}
pub fn bfcvtn2<T0, T1>(&mut self, op0: T0, op1: T1)
where
Self: Bfcvtn2Emitter<T0, T1>,
{
<Self as Bfcvtn2Emitter<T0, T1>>::bfcvtn2(self, op0, op1);
}
pub fn bfmlalb<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BfmlalbEmitter<T0, T1, T2>,
{
<Self as BfmlalbEmitter<T0, T1, T2>>::bfmlalb(self, op0, op1, op2);
}
pub fn bfmlalt<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BfmlaltEmitter<T0, T1, T2>,
{
<Self as BfmlaltEmitter<T0, T1, T2>>::bfmlalt(self, op0, op1, op2);
}
pub fn bfmmla<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BfmmlaEmitter<T0, T1, T2>,
{
<Self as BfmmlaEmitter<T0, T1, T2>>::bfmmla(self, op0, op1, op2);
}
pub fn bfdot<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: BfdotEmitter<T0, T1, T2>,
{
<Self as BfdotEmitter<T0, T1, T2>>::bfdot(self, op0, op1, op2);
}
pub fn smmla<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SmmlaEmitter<T0, T1, T2>,
{
<Self as SmmlaEmitter<T0, T1, T2>>::smmla(self, op0, op1, op2);
}
pub fn sudot<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: SudotEmitter<T0, T1, T2>,
{
<Self as SudotEmitter<T0, T1, T2>>::sudot(self, op0, op1, op2);
}
pub fn ummla<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UmmlaEmitter<T0, T1, T2>,
{
<Self as UmmlaEmitter<T0, T1, T2>>::ummla(self, op0, op1, op2);
}
pub fn usdot<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UsdotEmitter<T0, T1, T2>,
{
<Self as UsdotEmitter<T0, T1, T2>>::usdot(self, op0, op1, op2);
}
pub fn usmmla<T0, T1, T2>(&mut self, op0: T0, op1: T1, op2: T2)
where
Self: UsmmlaEmitter<T0, T1, T2>,
{
<Self as UsmmlaEmitter<T0, T1, T2>>::usmmla(self, op0, op1, op2);
}
}