github.com/bir3/gocompiler@v0.9.2202/src/cmd/internal/obj/ppc64/asm9_gtables.go (about)

     1  // DO NOT EDIT
     2  // generated by: ppc64map -fmt=encoder pp64.csv
     3  
     4  package ppc64
     5  
     6  import (
     7  	"github.com/bir3/gocompiler/src/cmd/internal/obj"
     8  )
     9  
    10  const (
    11  	AXXSETACCZ	= ALASTAOUT + iota
    12  	AXXMTACC
    13  	AXXMFACC
    14  	AXXGENPCVWM
    15  	AXXGENPCVHM
    16  	AXXGENPCVDM
    17  	AXXGENPCVBM
    18  	AXVTLSBB
    19  	AXVI8GER4SPP
    20  	AXVI8GER4PP
    21  	AXVI8GER4
    22  	AXVI4GER8PP
    23  	AXVI4GER8
    24  	AXVI16GER2SPP
    25  	AXVI16GER2S
    26  	AXVI16GER2PP
    27  	AXVI16GER2
    28  	AXVF64GERPP
    29  	AXVF64GERPN
    30  	AXVF64GERNP
    31  	AXVF64GERNN
    32  	AXVF64GER
    33  	AXVF32GERPP
    34  	AXVF32GERPN
    35  	AXVF32GERNP
    36  	AXVF32GERNN
    37  	AXVF32GER
    38  	AXVF16GER2PP
    39  	AXVF16GER2PN
    40  	AXVF16GER2NP
    41  	AXVF16GER2NN
    42  	AXVF16GER2
    43  	AXVCVSPBF16
    44  	AXVCVBF16SPN
    45  	AXVBF16GER2PP
    46  	AXVBF16GER2PN
    47  	AXVBF16GER2NP
    48  	AXVBF16GER2NN
    49  	AXVBF16GER2
    50  	AXSMINCQP
    51  	AXSMAXCQP
    52  	AXSCVUQQP
    53  	AXSCVSQQP
    54  	AXSCVQPUQZ
    55  	AXSCVQPSQZ
    56  	AXSCMPGTQP
    57  	AXSCMPGEQP
    58  	AXSCMPEQQP
    59  	AVSTRIHRCC
    60  	AVSTRIHR
    61  	AVSTRIHLCC
    62  	AVSTRIHL
    63  	AVSTRIBRCC
    64  	AVSTRIBR
    65  	AVSTRIBLCC
    66  	AVSTRIBL
    67  	AVSRQ
    68  	AVSRDBI
    69  	AVSRAQ
    70  	AVSLQ
    71  	AVSLDBI
    72  	AVRLQNM
    73  	AVRLQMI
    74  	AVRLQ
    75  	AVPEXTD
    76  	AVPDEPD
    77  	AVMULOUD
    78  	AVMULOSD
    79  	AVMULLD
    80  	AVMULHUW
    81  	AVMULHUD
    82  	AVMULHSW
    83  	AVMULHSD
    84  	AVMULEUD
    85  	AVMULESD
    86  	AVMSUMCUD
    87  	AVMODUW
    88  	AVMODUQ
    89  	AVMODUD
    90  	AVMODSW
    91  	AVMODSQ
    92  	AVMODSD
    93  	AVINSWVRX
    94  	AVINSWVLX
    95  	AVINSWRX
    96  	AVINSWLX
    97  	AVINSW
    98  	AVINSHVRX
    99  	AVINSHVLX
   100  	AVINSHRX
   101  	AVINSHLX
   102  	AVINSDRX
   103  	AVINSDLX
   104  	AVINSD
   105  	AVINSBVRX
   106  	AVINSBVLX
   107  	AVINSBRX
   108  	AVINSBLX
   109  	AVGNB
   110  	AVEXTSD2Q
   111  	AVEXTRACTWM
   112  	AVEXTRACTQM
   113  	AVEXTRACTHM
   114  	AVEXTRACTDM
   115  	AVEXTRACTBM
   116  	AVEXTDUWVRX
   117  	AVEXTDUWVLX
   118  	AVEXTDUHVRX
   119  	AVEXTDUHVLX
   120  	AVEXTDUBVRX
   121  	AVEXTDUBVLX
   122  	AVEXTDDVRX
   123  	AVEXTDDVLX
   124  	AVEXPANDWM
   125  	AVEXPANDQM
   126  	AVEXPANDHM
   127  	AVEXPANDDM
   128  	AVEXPANDBM
   129  	AVDIVUW
   130  	AVDIVUQ
   131  	AVDIVUD
   132  	AVDIVSW
   133  	AVDIVSQ
   134  	AVDIVSD
   135  	AVDIVEUW
   136  	AVDIVEUQ
   137  	AVDIVEUD
   138  	AVDIVESW
   139  	AVDIVESQ
   140  	AVDIVESD
   141  	AVCTZDM
   142  	AVCNTMBW
   143  	AVCNTMBH
   144  	AVCNTMBD
   145  	AVCNTMBB
   146  	AVCMPUQ
   147  	AVCMPSQ
   148  	AVCMPGTUQCC
   149  	AVCMPGTUQ
   150  	AVCMPGTSQCC
   151  	AVCMPGTSQ
   152  	AVCMPEQUQCC
   153  	AVCMPEQUQ
   154  	AVCLZDM
   155  	AVCLRRB
   156  	AVCLRLB
   157  	AVCFUGED
   158  	ASTXVRWX
   159  	ASTXVRHX
   160  	ASTXVRDX
   161  	ASTXVRBX
   162  	ASTXVPX
   163  	ASTXVP
   164  	ASETNBCR
   165  	ASETNBC
   166  	ASETBCR
   167  	ASETBC
   168  	APEXTD
   169  	APDEPD
   170  	AMTVSRWM
   171  	AMTVSRQM
   172  	AMTVSRHM
   173  	AMTVSRDM
   174  	AMTVSRBMI
   175  	AMTVSRBM
   176  	ALXVRWX
   177  	ALXVRHX
   178  	ALXVRDX
   179  	ALXVRBX
   180  	ALXVPX
   181  	ALXVP
   182  	ALXVKQ
   183  	ADCTFIXQQ
   184  	ADCFFIXQQ
   185  	ACNTTZDM
   186  	ACNTLZDM
   187  	ACFUGED
   188  	ABRW
   189  	ABRH
   190  	ABRD
   191  	AHASHSTP
   192  	AHASHST
   193  	AHASHCHKP
   194  	AHASHCHK
   195  	AXXSPLTIW
   196  	AXXSPLTIDP
   197  	AXXSPLTI32DX
   198  	AXXPERMX
   199  	AXXEVAL
   200  	AXXBLENDVW
   201  	AXXBLENDVH
   202  	AXXBLENDVD
   203  	AXXBLENDVB
   204  	APSTXVP
   205  	APSTXV
   206  	APSTXSSP
   207  	APSTXSD
   208  	APSTW
   209  	APSTQ
   210  	APSTH
   211  	APSTFS
   212  	APSTFD
   213  	APSTD
   214  	APSTB
   215  	APNOP
   216  	APMXVI8GER4SPP
   217  	APMXVI8GER4PP
   218  	APMXVI8GER4
   219  	APMXVI4GER8PP
   220  	APMXVI4GER8
   221  	APMXVI16GER2SPP
   222  	APMXVI16GER2S
   223  	APMXVI16GER2PP
   224  	APMXVI16GER2
   225  	APMXVF64GERPP
   226  	APMXVF64GERPN
   227  	APMXVF64GERNP
   228  	APMXVF64GERNN
   229  	APMXVF64GER
   230  	APMXVF32GERPP
   231  	APMXVF32GERPN
   232  	APMXVF32GERNP
   233  	APMXVF32GERNN
   234  	APMXVF32GER
   235  	APMXVF16GER2PP
   236  	APMXVF16GER2PN
   237  	APMXVF16GER2NP
   238  	APMXVF16GER2NN
   239  	APMXVF16GER2
   240  	APMXVBF16GER2PP
   241  	APMXVBF16GER2PN
   242  	APMXVBF16GER2NP
   243  	APMXVBF16GER2NN
   244  	APMXVBF16GER2
   245  	APLXVP
   246  	APLXV
   247  	APLXSSP
   248  	APLXSD
   249  	APLWZ
   250  	APLWA
   251  	APLQ
   252  	APLHZ
   253  	APLHA
   254  	APLFS
   255  	APLFD
   256  	APLD
   257  	APLBZ
   258  	APADDI
   259  	ALASTGEN
   260  	AFIRSTGEN	= AXXSETACCZ
   261  )
   262  
   263  var GenAnames = []string{
   264  	"XXSETACCZ",
   265  	"XXMTACC",
   266  	"XXMFACC",
   267  	"XXGENPCVWM",
   268  	"XXGENPCVHM",
   269  	"XXGENPCVDM",
   270  	"XXGENPCVBM",
   271  	"XVTLSBB",
   272  	"XVI8GER4SPP",
   273  	"XVI8GER4PP",
   274  	"XVI8GER4",
   275  	"XVI4GER8PP",
   276  	"XVI4GER8",
   277  	"XVI16GER2SPP",
   278  	"XVI16GER2S",
   279  	"XVI16GER2PP",
   280  	"XVI16GER2",
   281  	"XVF64GERPP",
   282  	"XVF64GERPN",
   283  	"XVF64GERNP",
   284  	"XVF64GERNN",
   285  	"XVF64GER",
   286  	"XVF32GERPP",
   287  	"XVF32GERPN",
   288  	"XVF32GERNP",
   289  	"XVF32GERNN",
   290  	"XVF32GER",
   291  	"XVF16GER2PP",
   292  	"XVF16GER2PN",
   293  	"XVF16GER2NP",
   294  	"XVF16GER2NN",
   295  	"XVF16GER2",
   296  	"XVCVSPBF16",
   297  	"XVCVBF16SPN",
   298  	"XVBF16GER2PP",
   299  	"XVBF16GER2PN",
   300  	"XVBF16GER2NP",
   301  	"XVBF16GER2NN",
   302  	"XVBF16GER2",
   303  	"XSMINCQP",
   304  	"XSMAXCQP",
   305  	"XSCVUQQP",
   306  	"XSCVSQQP",
   307  	"XSCVQPUQZ",
   308  	"XSCVQPSQZ",
   309  	"XSCMPGTQP",
   310  	"XSCMPGEQP",
   311  	"XSCMPEQQP",
   312  	"VSTRIHRCC",
   313  	"VSTRIHR",
   314  	"VSTRIHLCC",
   315  	"VSTRIHL",
   316  	"VSTRIBRCC",
   317  	"VSTRIBR",
   318  	"VSTRIBLCC",
   319  	"VSTRIBL",
   320  	"VSRQ",
   321  	"VSRDBI",
   322  	"VSRAQ",
   323  	"VSLQ",
   324  	"VSLDBI",
   325  	"VRLQNM",
   326  	"VRLQMI",
   327  	"VRLQ",
   328  	"VPEXTD",
   329  	"VPDEPD",
   330  	"VMULOUD",
   331  	"VMULOSD",
   332  	"VMULLD",
   333  	"VMULHUW",
   334  	"VMULHUD",
   335  	"VMULHSW",
   336  	"VMULHSD",
   337  	"VMULEUD",
   338  	"VMULESD",
   339  	"VMSUMCUD",
   340  	"VMODUW",
   341  	"VMODUQ",
   342  	"VMODUD",
   343  	"VMODSW",
   344  	"VMODSQ",
   345  	"VMODSD",
   346  	"VINSWVRX",
   347  	"VINSWVLX",
   348  	"VINSWRX",
   349  	"VINSWLX",
   350  	"VINSW",
   351  	"VINSHVRX",
   352  	"VINSHVLX",
   353  	"VINSHRX",
   354  	"VINSHLX",
   355  	"VINSDRX",
   356  	"VINSDLX",
   357  	"VINSD",
   358  	"VINSBVRX",
   359  	"VINSBVLX",
   360  	"VINSBRX",
   361  	"VINSBLX",
   362  	"VGNB",
   363  	"VEXTSD2Q",
   364  	"VEXTRACTWM",
   365  	"VEXTRACTQM",
   366  	"VEXTRACTHM",
   367  	"VEXTRACTDM",
   368  	"VEXTRACTBM",
   369  	"VEXTDUWVRX",
   370  	"VEXTDUWVLX",
   371  	"VEXTDUHVRX",
   372  	"VEXTDUHVLX",
   373  	"VEXTDUBVRX",
   374  	"VEXTDUBVLX",
   375  	"VEXTDDVRX",
   376  	"VEXTDDVLX",
   377  	"VEXPANDWM",
   378  	"VEXPANDQM",
   379  	"VEXPANDHM",
   380  	"VEXPANDDM",
   381  	"VEXPANDBM",
   382  	"VDIVUW",
   383  	"VDIVUQ",
   384  	"VDIVUD",
   385  	"VDIVSW",
   386  	"VDIVSQ",
   387  	"VDIVSD",
   388  	"VDIVEUW",
   389  	"VDIVEUQ",
   390  	"VDIVEUD",
   391  	"VDIVESW",
   392  	"VDIVESQ",
   393  	"VDIVESD",
   394  	"VCTZDM",
   395  	"VCNTMBW",
   396  	"VCNTMBH",
   397  	"VCNTMBD",
   398  	"VCNTMBB",
   399  	"VCMPUQ",
   400  	"VCMPSQ",
   401  	"VCMPGTUQCC",
   402  	"VCMPGTUQ",
   403  	"VCMPGTSQCC",
   404  	"VCMPGTSQ",
   405  	"VCMPEQUQCC",
   406  	"VCMPEQUQ",
   407  	"VCLZDM",
   408  	"VCLRRB",
   409  	"VCLRLB",
   410  	"VCFUGED",
   411  	"STXVRWX",
   412  	"STXVRHX",
   413  	"STXVRDX",
   414  	"STXVRBX",
   415  	"STXVPX",
   416  	"STXVP",
   417  	"SETNBCR",
   418  	"SETNBC",
   419  	"SETBCR",
   420  	"SETBC",
   421  	"PEXTD",
   422  	"PDEPD",
   423  	"MTVSRWM",
   424  	"MTVSRQM",
   425  	"MTVSRHM",
   426  	"MTVSRDM",
   427  	"MTVSRBMI",
   428  	"MTVSRBM",
   429  	"LXVRWX",
   430  	"LXVRHX",
   431  	"LXVRDX",
   432  	"LXVRBX",
   433  	"LXVPX",
   434  	"LXVP",
   435  	"LXVKQ",
   436  	"DCTFIXQQ",
   437  	"DCFFIXQQ",
   438  	"CNTTZDM",
   439  	"CNTLZDM",
   440  	"CFUGED",
   441  	"BRW",
   442  	"BRH",
   443  	"BRD",
   444  	"HASHSTP",
   445  	"HASHST",
   446  	"HASHCHKP",
   447  	"HASHCHK",
   448  	"XXSPLTIW",
   449  	"XXSPLTIDP",
   450  	"XXSPLTI32DX",
   451  	"XXPERMX",
   452  	"XXEVAL",
   453  	"XXBLENDVW",
   454  	"XXBLENDVH",
   455  	"XXBLENDVD",
   456  	"XXBLENDVB",
   457  	"PSTXVP",
   458  	"PSTXV",
   459  	"PSTXSSP",
   460  	"PSTXSD",
   461  	"PSTW",
   462  	"PSTQ",
   463  	"PSTH",
   464  	"PSTFS",
   465  	"PSTFD",
   466  	"PSTD",
   467  	"PSTB",
   468  	"PNOP",
   469  	"PMXVI8GER4SPP",
   470  	"PMXVI8GER4PP",
   471  	"PMXVI8GER4",
   472  	"PMXVI4GER8PP",
   473  	"PMXVI4GER8",
   474  	"PMXVI16GER2SPP",
   475  	"PMXVI16GER2S",
   476  	"PMXVI16GER2PP",
   477  	"PMXVI16GER2",
   478  	"PMXVF64GERPP",
   479  	"PMXVF64GERPN",
   480  	"PMXVF64GERNP",
   481  	"PMXVF64GERNN",
   482  	"PMXVF64GER",
   483  	"PMXVF32GERPP",
   484  	"PMXVF32GERPN",
   485  	"PMXVF32GERNP",
   486  	"PMXVF32GERNN",
   487  	"PMXVF32GER",
   488  	"PMXVF16GER2PP",
   489  	"PMXVF16GER2PN",
   490  	"PMXVF16GER2NP",
   491  	"PMXVF16GER2NN",
   492  	"PMXVF16GER2",
   493  	"PMXVBF16GER2PP",
   494  	"PMXVBF16GER2PN",
   495  	"PMXVBF16GER2NP",
   496  	"PMXVBF16GER2NN",
   497  	"PMXVBF16GER2",
   498  	"PLXVP",
   499  	"PLXV",
   500  	"PLXSSP",
   501  	"PLXSD",
   502  	"PLWZ",
   503  	"PLWA",
   504  	"PLQ",
   505  	"PLHZ",
   506  	"PLHA",
   507  	"PLFS",
   508  	"PLFD",
   509  	"PLD",
   510  	"PLBZ",
   511  	"PADDI",
   512  }
   513  
   514  var GenOpcodes = [...]uint32{
   515  	0x7c030162,	// AXXSETACCZ
   516  	0x7c010162,	// AXXMTACC
   517  	0x7c000162,	// AXXMFACC
   518  	0xf0000768,	// AXXGENPCVWM
   519  	0xf000072a,	// AXXGENPCVHM
   520  	0xf000076a,	// AXXGENPCVDM
   521  	0xf0000728,	// AXXGENPCVBM
   522  	0xf002076c,	// AXVTLSBB
   523  	0xec000318,	// AXVI8GER4SPP
   524  	0xec000010,	// AXVI8GER4PP
   525  	0xec000018,	// AXVI8GER4
   526  	0xec000110,	// AXVI4GER8PP
   527  	0xec000118,	// AXVI4GER8
   528  	0xec000150,	// AXVI16GER2SPP
   529  	0xec000158,	// AXVI16GER2S
   530  	0xec000358,	// AXVI16GER2PP
   531  	0xec000258,	// AXVI16GER2
   532  	0xec0001d0,	// AXVF64GERPP
   533  	0xec0005d0,	// AXVF64GERPN
   534  	0xec0003d0,	// AXVF64GERNP
   535  	0xec0007d0,	// AXVF64GERNN
   536  	0xec0001d8,	// AXVF64GER
   537  	0xec0000d0,	// AXVF32GERPP
   538  	0xec0004d0,	// AXVF32GERPN
   539  	0xec0002d0,	// AXVF32GERNP
   540  	0xec0006d0,	// AXVF32GERNN
   541  	0xec0000d8,	// AXVF32GER
   542  	0xec000090,	// AXVF16GER2PP
   543  	0xec000490,	// AXVF16GER2PN
   544  	0xec000290,	// AXVF16GER2NP
   545  	0xec000690,	// AXVF16GER2NN
   546  	0xec000098,	// AXVF16GER2
   547  	0xf011076c,	// AXVCVSPBF16
   548  	0xf010076c,	// AXVCVBF16SPN
   549  	0xec000190,	// AXVBF16GER2PP
   550  	0xec000590,	// AXVBF16GER2PN
   551  	0xec000390,	// AXVBF16GER2NP
   552  	0xec000790,	// AXVBF16GER2NN
   553  	0xec000198,	// AXVBF16GER2
   554  	0xfc0005c8,	// AXSMINCQP
   555  	0xfc000548,	// AXSMAXCQP
   556  	0xfc030688,	// AXSCVUQQP
   557  	0xfc0b0688,	// AXSCVSQQP
   558  	0xfc000688,	// AXSCVQPUQZ
   559  	0xfc080688,	// AXSCVQPSQZ
   560  	0xfc0001c8,	// AXSCMPGTQP
   561  	0xfc000188,	// AXSCMPGEQP
   562  	0xfc000088,	// AXSCMPEQQP
   563  	0x1003040d,	// AVSTRIHRCC
   564  	0x1003000d,	// AVSTRIHR
   565  	0x1002040d,	// AVSTRIHLCC
   566  	0x1002000d,	// AVSTRIHL
   567  	0x1001040d,	// AVSTRIBRCC
   568  	0x1001000d,	// AVSTRIBR
   569  	0x1000040d,	// AVSTRIBLCC
   570  	0x1000000d,	// AVSTRIBL
   571  	0x10000205,	// AVSRQ
   572  	0x10000216,	// AVSRDBI
   573  	0x10000305,	// AVSRAQ
   574  	0x10000105,	// AVSLQ
   575  	0x10000016,	// AVSLDBI
   576  	0x10000145,	// AVRLQNM
   577  	0x10000045,	// AVRLQMI
   578  	0x10000005,	// AVRLQ
   579  	0x1000058d,	// AVPEXTD
   580  	0x100005cd,	// AVPDEPD
   581  	0x100000c8,	// AVMULOUD
   582  	0x100001c8,	// AVMULOSD
   583  	0x100001c9,	// AVMULLD
   584  	0x10000289,	// AVMULHUW
   585  	0x100002c9,	// AVMULHUD
   586  	0x10000389,	// AVMULHSW
   587  	0x100003c9,	// AVMULHSD
   588  	0x100002c8,	// AVMULEUD
   589  	0x100003c8,	// AVMULESD
   590  	0x10000017,	// AVMSUMCUD
   591  	0x1000068b,	// AVMODUW
   592  	0x1000060b,	// AVMODUQ
   593  	0x100006cb,	// AVMODUD
   594  	0x1000078b,	// AVMODSW
   595  	0x1000070b,	// AVMODSQ
   596  	0x100007cb,	// AVMODSD
   597  	0x1000018f,	// AVINSWVRX
   598  	0x1000008f,	// AVINSWVLX
   599  	0x1000038f,	// AVINSWRX
   600  	0x1000028f,	// AVINSWLX
   601  	0x100000cf,	// AVINSW
   602  	0x1000014f,	// AVINSHVRX
   603  	0x1000004f,	// AVINSHVLX
   604  	0x1000034f,	// AVINSHRX
   605  	0x1000024f,	// AVINSHLX
   606  	0x100003cf,	// AVINSDRX
   607  	0x100002cf,	// AVINSDLX
   608  	0x100001cf,	// AVINSD
   609  	0x1000010f,	// AVINSBVRX
   610  	0x1000000f,	// AVINSBVLX
   611  	0x1000030f,	// AVINSBRX
   612  	0x1000020f,	// AVINSBLX
   613  	0x100004cc,	// AVGNB
   614  	0x101b0602,	// AVEXTSD2Q
   615  	0x100a0642,	// AVEXTRACTWM
   616  	0x100c0642,	// AVEXTRACTQM
   617  	0x10090642,	// AVEXTRACTHM
   618  	0x100b0642,	// AVEXTRACTDM
   619  	0x10080642,	// AVEXTRACTBM
   620  	0x1000001d,	// AVEXTDUWVRX
   621  	0x1000001c,	// AVEXTDUWVLX
   622  	0x1000001b,	// AVEXTDUHVRX
   623  	0x1000001a,	// AVEXTDUHVLX
   624  	0x10000019,	// AVEXTDUBVRX
   625  	0x10000018,	// AVEXTDUBVLX
   626  	0x1000001f,	// AVEXTDDVRX
   627  	0x1000001e,	// AVEXTDDVLX
   628  	0x10020642,	// AVEXPANDWM
   629  	0x10040642,	// AVEXPANDQM
   630  	0x10010642,	// AVEXPANDHM
   631  	0x10030642,	// AVEXPANDDM
   632  	0x10000642,	// AVEXPANDBM
   633  	0x1000008b,	// AVDIVUW
   634  	0x1000000b,	// AVDIVUQ
   635  	0x100000cb,	// AVDIVUD
   636  	0x1000018b,	// AVDIVSW
   637  	0x1000010b,	// AVDIVSQ
   638  	0x100001cb,	// AVDIVSD
   639  	0x1000028b,	// AVDIVEUW
   640  	0x1000020b,	// AVDIVEUQ
   641  	0x100002cb,	// AVDIVEUD
   642  	0x1000038b,	// AVDIVESW
   643  	0x1000030b,	// AVDIVESQ
   644  	0x100003cb,	// AVDIVESD
   645  	0x100007c4,	// AVCTZDM
   646  	0x101c0642,	// AVCNTMBW
   647  	0x101a0642,	// AVCNTMBH
   648  	0x101e0642,	// AVCNTMBD
   649  	0x10180642,	// AVCNTMBB
   650  	0x10000101,	// AVCMPUQ
   651  	0x10000141,	// AVCMPSQ
   652  	0x10000687,	// AVCMPGTUQCC
   653  	0x10000287,	// AVCMPGTUQ
   654  	0x10000787,	// AVCMPGTSQCC
   655  	0x10000387,	// AVCMPGTSQ
   656  	0x100005c7,	// AVCMPEQUQCC
   657  	0x100001c7,	// AVCMPEQUQ
   658  	0x10000784,	// AVCLZDM
   659  	0x100001cd,	// AVCLRRB
   660  	0x1000018d,	// AVCLRLB
   661  	0x1000054d,	// AVCFUGED
   662  	0x7c00019a,	// ASTXVRWX
   663  	0x7c00015a,	// ASTXVRHX
   664  	0x7c0001da,	// ASTXVRDX
   665  	0x7c00011a,	// ASTXVRBX
   666  	0x7c00039a,	// ASTXVPX
   667  	0x18000001,	// ASTXVP
   668  	0x7c0003c0,	// ASETNBCR
   669  	0x7c000380,	// ASETNBC
   670  	0x7c000340,	// ASETBCR
   671  	0x7c000300,	// ASETBC
   672  	0x7c000178,	// APEXTD
   673  	0x7c000138,	// APDEPD
   674  	0x10120642,	// AMTVSRWM
   675  	0x10140642,	// AMTVSRQM
   676  	0x10110642,	// AMTVSRHM
   677  	0x10130642,	// AMTVSRDM
   678  	0x10000014,	// AMTVSRBMI
   679  	0x10100642,	// AMTVSRBM
   680  	0x7c00009a,	// ALXVRWX
   681  	0x7c00005a,	// ALXVRHX
   682  	0x7c0000da,	// ALXVRDX
   683  	0x7c00001a,	// ALXVRBX
   684  	0x7c00029a,	// ALXVPX
   685  	0x18000000,	// ALXVP
   686  	0xf01f02d0,	// ALXVKQ
   687  	0xfc0107c4,	// ADCTFIXQQ
   688  	0xfc0007c4,	// ADCFFIXQQ
   689  	0x7c000476,	// ACNTTZDM
   690  	0x7c000076,	// ACNTLZDM
   691  	0x7c0001b8,	// ACFUGED
   692  	0x7c000136,	// ABRW
   693  	0x7c0001b6,	// ABRH
   694  	0x7c000176,	// ABRD
   695  	0x7c000524,	// AHASHSTP
   696  	0x7c0005a4,	// AHASHST
   697  	0x7c000564,	// AHASHCHKP
   698  	0x7c0005e4,	// AHASHCHK
   699  	0x80060000,	// AXXSPLTIW
   700  	0x80040000,	// AXXSPLTIDP
   701  	0x80000000,	// AXXSPLTI32DX
   702  	0x88000000,	// AXXPERMX
   703  	0x88000010,	// AXXEVAL
   704  	0x84000020,	// AXXBLENDVW
   705  	0x84000010,	// AXXBLENDVH
   706  	0x84000030,	// AXXBLENDVD
   707  	0x84000000,	// AXXBLENDVB
   708  	0xf8000000,	// APSTXVP
   709  	0xd8000000,	// APSTXV
   710  	0xbc000000,	// APSTXSSP
   711  	0xb8000000,	// APSTXSD
   712  	0x90000000,	// APSTW
   713  	0xf0000000,	// APSTQ
   714  	0xb0000000,	// APSTH
   715  	0xd0000000,	// APSTFS
   716  	0xd8000000,	// APSTFD
   717  	0xf4000000,	// APSTD
   718  	0x98000000,	// APSTB
   719  	0x00000000,	// APNOP
   720  	0xec000318,	// APMXVI8GER4SPP
   721  	0xec000010,	// APMXVI8GER4PP
   722  	0xec000018,	// APMXVI8GER4
   723  	0xec000110,	// APMXVI4GER8PP
   724  	0xec000118,	// APMXVI4GER8
   725  	0xec000150,	// APMXVI16GER2SPP
   726  	0xec000158,	// APMXVI16GER2S
   727  	0xec000358,	// APMXVI16GER2PP
   728  	0xec000258,	// APMXVI16GER2
   729  	0xec0001d0,	// APMXVF64GERPP
   730  	0xec0005d0,	// APMXVF64GERPN
   731  	0xec0003d0,	// APMXVF64GERNP
   732  	0xec0007d0,	// APMXVF64GERNN
   733  	0xec0001d8,	// APMXVF64GER
   734  	0xec0000d0,	// APMXVF32GERPP
   735  	0xec0004d0,	// APMXVF32GERPN
   736  	0xec0002d0,	// APMXVF32GERNP
   737  	0xec0006d0,	// APMXVF32GERNN
   738  	0xec0000d8,	// APMXVF32GER
   739  	0xec000090,	// APMXVF16GER2PP
   740  	0xec000490,	// APMXVF16GER2PN
   741  	0xec000290,	// APMXVF16GER2NP
   742  	0xec000690,	// APMXVF16GER2NN
   743  	0xec000098,	// APMXVF16GER2
   744  	0xec000190,	// APMXVBF16GER2PP
   745  	0xec000590,	// APMXVBF16GER2PN
   746  	0xec000390,	// APMXVBF16GER2NP
   747  	0xec000790,	// APMXVBF16GER2NN
   748  	0xec000198,	// APMXVBF16GER2
   749  	0xe8000000,	// APLXVP
   750  	0xc8000000,	// APLXV
   751  	0xac000000,	// APLXSSP
   752  	0xa8000000,	// APLXSD
   753  	0x80000000,	// APLWZ
   754  	0xa4000000,	// APLWA
   755  	0xe0000000,	// APLQ
   756  	0xa0000000,	// APLHZ
   757  	0xa8000000,	// APLHA
   758  	0xc0000000,	// APLFS
   759  	0xc8000000,	// APLFD
   760  	0xe4000000,	// APLD
   761  	0x88000000,	// APLBZ
   762  	0x38000000,	// APADDI
   763  }
   764  
   765  var GenPfxOpcodes = [...]uint32{
   766  	0x05000000,	// AXXSPLTIW
   767  	0x05000000,	// AXXSPLTIDP
   768  	0x05000000,	// AXXSPLTI32DX
   769  	0x05000000,	// AXXPERMX
   770  	0x05000000,	// AXXEVAL
   771  	0x05000000,	// AXXBLENDVW
   772  	0x05000000,	// AXXBLENDVH
   773  	0x05000000,	// AXXBLENDVD
   774  	0x05000000,	// AXXBLENDVB
   775  	0x04000000,	// APSTXVP
   776  	0x04000000,	// APSTXV
   777  	0x04000000,	// APSTXSSP
   778  	0x04000000,	// APSTXSD
   779  	0x06000000,	// APSTW
   780  	0x04000000,	// APSTQ
   781  	0x06000000,	// APSTH
   782  	0x06000000,	// APSTFS
   783  	0x06000000,	// APSTFD
   784  	0x04000000,	// APSTD
   785  	0x06000000,	// APSTB
   786  	0x07000000,	// APNOP
   787  	0x07900000,	// APMXVI8GER4SPP
   788  	0x07900000,	// APMXVI8GER4PP
   789  	0x07900000,	// APMXVI8GER4
   790  	0x07900000,	// APMXVI4GER8PP
   791  	0x07900000,	// APMXVI4GER8
   792  	0x07900000,	// APMXVI16GER2SPP
   793  	0x07900000,	// APMXVI16GER2S
   794  	0x07900000,	// APMXVI16GER2PP
   795  	0x07900000,	// APMXVI16GER2
   796  	0x07900000,	// APMXVF64GERPP
   797  	0x07900000,	// APMXVF64GERPN
   798  	0x07900000,	// APMXVF64GERNP
   799  	0x07900000,	// APMXVF64GERNN
   800  	0x07900000,	// APMXVF64GER
   801  	0x07900000,	// APMXVF32GERPP
   802  	0x07900000,	// APMXVF32GERPN
   803  	0x07900000,	// APMXVF32GERNP
   804  	0x07900000,	// APMXVF32GERNN
   805  	0x07900000,	// APMXVF32GER
   806  	0x07900000,	// APMXVF16GER2PP
   807  	0x07900000,	// APMXVF16GER2PN
   808  	0x07900000,	// APMXVF16GER2NP
   809  	0x07900000,	// APMXVF16GER2NN
   810  	0x07900000,	// APMXVF16GER2
   811  	0x07900000,	// APMXVBF16GER2PP
   812  	0x07900000,	// APMXVBF16GER2PN
   813  	0x07900000,	// APMXVBF16GER2NP
   814  	0x07900000,	// APMXVBF16GER2NN
   815  	0x07900000,	// APMXVBF16GER2
   816  	0x04000000,	// APLXVP
   817  	0x04000000,	// APLXV
   818  	0x04000000,	// APLXSSP
   819  	0x04000000,	// APLXSD
   820  	0x06000000,	// APLWZ
   821  	0x04000000,	// APLWA
   822  	0x04000000,	// APLQ
   823  	0x06000000,	// APLHZ
   824  	0x06000000,	// APLHA
   825  	0x06000000,	// APLFS
   826  	0x06000000,	// APLFD
   827  	0x04000000,	// APLD
   828  	0x06000000,	// APLBZ
   829  	0x06000000,	// APADDI
   830  }
   831  
   832  var optabGen = []Optab{
   833  	{as: ABRW, a1: C_REG, a6: C_REG, asmout: type_brw, size: 4},
   834  	{as: ADCFFIXQQ, a1: C_VREG, a6: C_FREGP, asmout: type_xscvuqqp, size: 4},
   835  	{as: ADCTFIXQQ, a1: C_FREGP, a6: C_VREG, asmout: type_xscvuqqp, size: 4},
   836  	{as: AHASHCHKP, a1: C_SOREG, a6: C_REG, asmout: type_hashchkp, size: 4},
   837  	{as: AHASHSTP, a1: C_REG, a6: C_SOREG, asmout: type_hashstp, size: 4},
   838  	{as: ALXVKQ, a1: C_U5CON, a6: C_VSREG, asmout: type_lxvkq, size: 4},
   839  	{as: ALXVP, a1: C_SOREG, a6: C_VSREGP, asmout: type_lxvp, size: 4},
   840  	{as: ALXVPX, a1: C_XOREG, a6: C_VSREGP, asmout: type_lxvpx, size: 4},
   841  	{as: ALXVRWX, a1: C_XOREG, a6: C_VSREG, asmout: type_lxvrwx, size: 4},
   842  	{as: AMTVSRBMI, a1: C_U16CON, a6: C_VREG, asmout: type_mtvsrbmi, size: 4},
   843  	{as: AMTVSRWM, a1: C_REG, a6: C_VREG, asmout: type_xscvuqqp, size: 4},
   844  	{as: APADDI, a1: C_REG, a3: C_S34CON, a4: C_U1CON, a6: C_REG, asmout: type_paddi, ispfx: true, size: 8},
   845  	{as: APEXTD, a1: C_REG, a2: C_REG, a6: C_REG, asmout: type_pextd, size: 4},
   846  	{as: APLFS, a1: C_LOREG, a3: C_U1CON, a6: C_FREG, asmout: type_plxssp, ispfx: true, size: 8},
   847  	{as: APLQ, a1: C_LOREG, a3: C_U1CON, a6: C_REGP, asmout: type_plxssp, ispfx: true, size: 8},
   848  	{as: APLWZ, a1: C_LOREG, a3: C_U1CON, a6: C_REG, asmout: type_plxssp, ispfx: true, size: 8},
   849  	{as: APLXSSP, a1: C_LOREG, a3: C_U1CON, a6: C_VREG, asmout: type_plxssp, ispfx: true, size: 8},
   850  	{as: APLXV, a1: C_LOREG, a3: C_U1CON, a6: C_VSREG, asmout: type_plxv, ispfx: true, size: 8},
   851  	{as: APLXVP, a1: C_LOREG, a3: C_U1CON, a6: C_VSREGP, asmout: type_plxvp, ispfx: true, size: 8},
   852  	{as: APMXVF32GERPP, a1: C_VSREG, a2: C_VSREG, a3: C_U4CON, a4: C_U4CON, a6: C_AREG, asmout: type_pmxvf32gerpp, ispfx: true, size: 8},
   853  	{as: APMXVF64GERPP, a1: C_VSREGP, a2: C_VSREG, a3: C_U4CON, a4: C_U2CON, a6: C_AREG, asmout: type_pmxvf64gerpp, ispfx: true, size: 8},
   854  	{as: APMXVI16GER2SPP, a1: C_VSREG, a2: C_VSREG, a3: C_U4CON, a4: C_U4CON, a5: C_U2CON, a6: C_AREG, asmout: type_pmxvi16ger2spp, ispfx: true, size: 8},
   855  	{as: APMXVI4GER8PP, a1: C_VSREG, a2: C_VSREG, a3: C_U4CON, a4: C_U4CON, a5: C_U8CON, a6: C_AREG, asmout: type_pmxvi4ger8pp, ispfx: true, size: 8},
   856  	{as: APMXVI8GER4SPP, a1: C_VSREG, a2: C_VSREG, a3: C_U4CON, a4: C_U4CON, a5: C_U4CON, a6: C_AREG, asmout: type_pmxvi8ger4spp, ispfx: true, size: 8},
   857  	{as: APNOP, asmout: type_pnop, ispfx: true, size: 8},
   858  	{as: APSTFS, a1: C_FREG, a3: C_U1CON, a6: C_LOREG, asmout: type_pstxssp, ispfx: true, size: 8},
   859  	{as: APSTQ, a1: C_REGP, a3: C_U1CON, a6: C_LOREG, asmout: type_pstxssp, ispfx: true, size: 8},
   860  	{as: APSTW, a1: C_REG, a3: C_U1CON, a6: C_LOREG, asmout: type_pstxssp, ispfx: true, size: 8},
   861  	{as: APSTXSSP, a1: C_VREG, a3: C_U1CON, a6: C_LOREG, asmout: type_pstxssp, ispfx: true, size: 8},
   862  	{as: APSTXV, a1: C_VSREG, a3: C_U1CON, a6: C_LOREG, asmout: type_pstxv, ispfx: true, size: 8},
   863  	{as: APSTXVP, a1: C_VSREGP, a3: C_U1CON, a6: C_LOREG, asmout: type_pstxvp, ispfx: true, size: 8},
   864  	{as: ASETNBCR, a1: C_CRBIT, a6: C_REG, asmout: type_setnbcr, size: 4},
   865  	{as: ASTXVP, a1: C_VSREGP, a6: C_SOREG, asmout: type_stxvp, size: 4},
   866  	{as: ASTXVPX, a1: C_VSREGP, a6: C_XOREG, asmout: type_stxvpx, size: 4},
   867  	{as: ASTXVRWX, a1: C_VSREG, a6: C_XOREG, asmout: type_stxvrwx, size: 4},
   868  	{as: AVCLRRB, a1: C_VREG, a2: C_REG, a6: C_VREG, asmout: type_xsmincqp, size: 4},
   869  	{as: AVCMPUQ, a1: C_VREG, a2: C_VREG, a6: C_CREG, asmout: type_vcmpuq, size: 4},
   870  	{as: AVCNTMBW, a1: C_VREG, a3: C_U1CON, a6: C_REG, asmout: type_vcntmbw, size: 4},
   871  	{as: AVEXTDUWVRX, a1: C_VREG, a2: C_VREG, a3: C_REG, a6: C_VREG, asmout: type_vmsumcud, size: 4},
   872  	{as: AVEXTRACTWM, a1: C_VREG, a6: C_REG, asmout: type_xscvuqqp, size: 4},
   873  	{as: AVGNB, a1: C_VREG, a3: C_U3CON, a6: C_REG, asmout: type_vgnb, size: 4},
   874  	{as: AVINSW, a1: C_REG, a3: C_U4CON, a6: C_VREG, asmout: type_vinsw, size: 4},
   875  	{as: AVINSWRX, a1: C_REG, a2: C_REG, a6: C_VREG, asmout: type_xsmincqp, size: 4},
   876  	{as: AVINSWVRX, a1: C_REG, a2: C_VREG, a6: C_VREG, asmout: type_xsmincqp, size: 4},
   877  	{as: AVMSUMCUD, a1: C_VREG, a2: C_VREG, a3: C_VREG, a6: C_VREG, asmout: type_vmsumcud, size: 4},
   878  	{as: AVSRDBI, a1: C_VREG, a2: C_VREG, a3: C_U3CON, a6: C_VREG, asmout: type_vsrdbi, size: 4},
   879  	{as: AXSCVUQQP, a1: C_VREG, a6: C_VREG, asmout: type_xscvuqqp, size: 4},
   880  	{as: AXSMINCQP, a1: C_VREG, a2: C_VREG, a6: C_VREG, asmout: type_xsmincqp, size: 4},
   881  	{as: AXVCVSPBF16, a1: C_VSREG, a6: C_VSREG, asmout: type_xvcvspbf16, size: 4},
   882  	{as: AXVI8GER4SPP, a1: C_VSREG, a2: C_VSREG, a6: C_AREG, asmout: type_xvi8ger4spp, size: 4},
   883  	{as: AXVTLSBB, a1: C_VSREG, a6: C_CREG, asmout: type_xvtlsbb, size: 4},
   884  	{as: AXXBLENDVW, a1: C_VSREG, a2: C_VSREG, a3: C_VSREG, a6: C_VSREG, asmout: type_xxblendvw, ispfx: true, size: 8},
   885  	{as: AXXEVAL, a1: C_VSREG, a2: C_VSREG, a3: C_VSREG, a4: C_U8CON, a6: C_VSREG, asmout: type_xxeval, ispfx: true, size: 8},
   886  	{as: AXXGENPCVWM, a1: C_VREG, a3: C_U5CON, a6: C_VSREG, asmout: type_xxgenpcvwm, size: 4},
   887  	{as: AXXPERMX, a1: C_VSREG, a2: C_VSREG, a3: C_VSREG, a4: C_U3CON, a6: C_VSREG, asmout: type_xxpermx, ispfx: true, size: 8},
   888  	{as: AXXSETACCZ, a6: C_AREG, asmout: type_xxsetaccz, size: 4},
   889  	{as: AXXSPLTI32DX, a1: C_U1CON, a3: C_U32CON, a6: C_VSREG, asmout: type_xxsplti32dx, ispfx: true, size: 8},
   890  	{as: AXXSPLTIW, a1: C_U32CON, a6: C_VSREG, asmout: type_xxspltiw, ispfx: true, size: 8},
   891  }
   892  
   893  // brw RA,RS
   894  func type_brw(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   895  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   896  	o0 |= uint32(p.To.Reg&0x1f) << 16	// RA
   897  	o0 |= uint32(p.From.Reg&0x1f) << 21	// RS
   898  	out[0] = o0
   899  }
   900  
   901  // hashchkp RB,offset(RA)
   902  func type_hashchkp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   903  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   904  	o0 |= uint32(p.To.Reg&0x1f) << 11		// RB
   905  	o0 |= uint32((p.From.Offset>>8)&0x1) << 0	// DX
   906  	o0 |= uint32((p.From.Offset>>3)&0x1f) << 21	// D
   907  	o0 |= uint32(p.From.Reg&0x1f) << 16		// RA
   908  	if p.From.Offset&0xfffffe07 != 0xfffffe00 {
   909  		c.ctxt.Diag("Constant(%d) must within the range of [-512,-8] in steps of 8\n%v", p.From.Offset, p)
   910  	}
   911  	out[0] = o0
   912  }
   913  
   914  // hashstp RB,offset(RA)
   915  func type_hashstp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   916  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   917  	o0 |= uint32(p.From.Reg&0x1f) << 11		// RB
   918  	o0 |= uint32((p.To.Offset>>8)&0x1) << 0		// DX
   919  	o0 |= uint32((p.To.Offset>>3)&0x1f) << 21	// D
   920  	o0 |= uint32(p.To.Reg&0x1f) << 16		// RA
   921  	if p.To.Offset&0xfffffe07 != 0xfffffe00 {
   922  		c.ctxt.Diag("Constant(%d) must within the range of [-512,-8] in steps of 8\n%v", p.To.Offset, p)
   923  	}
   924  	out[0] = o0
   925  }
   926  
   927  // lxvkq XT,UIM
   928  func type_lxvkq(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   929  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   930  	o0 |= uint32((p.To.Reg>>5)&0x1) << 0	// TX
   931  	o0 |= uint32(p.To.Reg&0x1f) << 21	// T
   932  	o0 |= uint32(p.From.Offset&0x1f) << 11	// UIM
   933  	out[0] = o0
   934  }
   935  
   936  // lxvp XTp,DQ(RA)
   937  func type_lxvp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   938  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   939  	o0 |= uint32((p.To.Reg>>5)&0x1) << 21		// TX
   940  	o0 |= uint32((p.To.Reg>>1)&0xf) << 22		// Tp
   941  	o0 |= uint32((p.From.Offset>>4)&0xfff) << 4	// DQ
   942  	o0 |= uint32(p.From.Reg&0x1f) << 16		// RA
   943  	if p.From.Offset&0xf != 0 {
   944  		c.ctxt.Diag("Constant 0x%x (%d) is not a multiple of 16\n%v", p.From.Offset, p.From.Offset, p)
   945  	}
   946  	out[0] = o0
   947  }
   948  
   949  // lxvpx XTp,RA,RB
   950  func type_lxvpx(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   951  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   952  	o0 |= uint32((p.To.Reg>>5)&0x1) << 21	// TX
   953  	o0 |= uint32((p.To.Reg>>1)&0xf) << 22	// Tp
   954  	o0 |= uint32(p.From.Index&0x1f) << 16	// RA
   955  	o0 |= uint32(p.From.Reg&0x1f) << 11	// RB
   956  	out[0] = o0
   957  }
   958  
   959  // lxvrwx XT,RA,RB
   960  func type_lxvrwx(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   961  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   962  	o0 |= uint32((p.To.Reg>>5)&0x1) << 0	// TX
   963  	o0 |= uint32(p.To.Reg&0x1f) << 21	// T
   964  	o0 |= uint32(p.From.Index&0x1f) << 16	// RA
   965  	o0 |= uint32(p.From.Reg&0x1f) << 11	// RB
   966  	out[0] = o0
   967  }
   968  
   969  // mtvsrbmi VRT,bm
   970  func type_mtvsrbmi(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   971  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   972  	o0 |= uint32(p.To.Reg&0x1f) << 21		// VRT
   973  	o0 |= uint32((p.From.Offset>>6)&0x3ff) << 6	// b0
   974  	o0 |= uint32((p.From.Offset>>1)&0x1f) << 16	// b1
   975  	o0 |= uint32(p.From.Offset&0x1) << 0		// b2
   976  	out[0] = o0
   977  }
   978  
   979  // paddi RT,RA,SI,R
   980  func type_paddi(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   981  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
   982  	o1 := GenOpcodes[p.As-AXXSETACCZ]
   983  	o1 |= uint32(p.To.Reg&0x1f) << 21				// RT
   984  	o1 |= uint32(p.From.Reg&0x1f) << 16				// RA
   985  	o0 |= uint32((p.RestArgs[0].Addr.Offset>>16)&0x3ffff) << 0	// si0
   986  	o1 |= uint32(p.RestArgs[0].Addr.Offset&0xffff) << 0		// si1
   987  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0x1) << 20		// R
   988  	out[1] = o1
   989  	out[0] = o0
   990  }
   991  
   992  // pextd RA,RS,RB
   993  func type_pextd(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
   994  	o0 := GenOpcodes[p.As-AXXSETACCZ]
   995  	o0 |= uint32(p.To.Reg&0x1f) << 16	// RA
   996  	o0 |= uint32(p.From.Reg&0x1f) << 21	// RS
   997  	o0 |= uint32(p.Reg&0x1f) << 11		// RB
   998  	out[0] = o0
   999  }
  1000  
  1001  // plxssp VRT,D(RA),R
  1002  func type_plxssp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1003  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1004  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1005  	o1 |= uint32(p.To.Reg&0x1f) << 21			// VRT
  1006  	o0 |= uint32((p.From.Offset>>16)&0x3ffff) << 0		// d0
  1007  	o1 |= uint32(p.From.Offset&0xffff) << 0			// d1
  1008  	o1 |= uint32(p.From.Reg&0x1f) << 16			// RA
  1009  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1) << 20	// R
  1010  	out[1] = o1
  1011  	out[0] = o0
  1012  }
  1013  
  1014  // plxv XT,D(RA),R
  1015  func type_plxv(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1016  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1017  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1018  	o1 |= uint32((p.To.Reg>>5)&0x1) << 26			// TX
  1019  	o1 |= uint32(p.To.Reg&0x1f) << 21			// T
  1020  	o0 |= uint32((p.From.Offset>>16)&0x3ffff) << 0		// d0
  1021  	o1 |= uint32(p.From.Offset&0xffff) << 0			// d1
  1022  	o1 |= uint32(p.From.Reg&0x1f) << 16			// RA
  1023  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1) << 20	// R
  1024  	out[1] = o1
  1025  	out[0] = o0
  1026  }
  1027  
  1028  // plxvp XTp,D(RA),R
  1029  func type_plxvp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1030  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1031  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1032  	o1 |= uint32((p.To.Reg>>5)&0x1) << 21			// TX
  1033  	o1 |= uint32((p.To.Reg>>1)&0xf) << 22			// Tp
  1034  	o0 |= uint32((p.From.Offset>>16)&0x3ffff) << 0		// d0
  1035  	o1 |= uint32(p.From.Offset&0xffff) << 0			// d1
  1036  	o1 |= uint32(p.From.Reg&0x1f) << 16			// RA
  1037  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1) << 20	// R
  1038  	out[1] = o1
  1039  	out[0] = o0
  1040  }
  1041  
  1042  // pmxvf32gerpp AT,XA,XB,XMSK,YMSK
  1043  func type_pmxvf32gerpp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1044  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1045  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1046  	o1 |= uint32(p.To.Reg&0x7) << 23			// AT
  1047  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1048  	o1 |= uint32(p.From.Reg&0x1f) << 16			// A
  1049  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1050  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1051  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0xf) << 4	// XMSK
  1052  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0xf) << 0	// YMSK
  1053  	out[1] = o1
  1054  	out[0] = o0
  1055  }
  1056  
  1057  // pmxvf64gerpp AT,XAp,XB,XMSK,YMSK
  1058  func type_pmxvf64gerpp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1059  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1060  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1061  	o1 |= uint32(p.To.Reg&0x7) << 23			// AT
  1062  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1063  	o1 |= uint32(p.From.Reg&0x1f) << 16			// Ap
  1064  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1065  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1066  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0xf) << 4	// XMSK
  1067  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0x3) << 2	// YMSK
  1068  	out[1] = o1
  1069  	out[0] = o0
  1070  }
  1071  
  1072  // pmxvi16ger2spp AT,XA,XB,XMSK,YMSK,PMSK
  1073  func type_pmxvi16ger2spp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1074  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1075  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1076  	o1 |= uint32(p.To.Reg&0x7) << 23			// AT
  1077  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1078  	o1 |= uint32(p.From.Reg&0x1f) << 16			// A
  1079  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1080  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1081  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0xf) << 4	// XMSK
  1082  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0xf) << 0	// YMSK
  1083  	o0 |= uint32(p.RestArgs[2].Addr.Offset&0x3) << 14	// PMSK
  1084  	out[1] = o1
  1085  	out[0] = o0
  1086  }
  1087  
  1088  // pmxvi4ger8pp AT,XA,XB,XMSK,YMSK,PMSK
  1089  func type_pmxvi4ger8pp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1090  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1091  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1092  	o1 |= uint32(p.To.Reg&0x7) << 23			// AT
  1093  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1094  	o1 |= uint32(p.From.Reg&0x1f) << 16			// A
  1095  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1096  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1097  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0xf) << 4	// XMSK
  1098  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0xf) << 0	// YMSK
  1099  	o0 |= uint32(p.RestArgs[2].Addr.Offset&0xff) << 8	// PMSK
  1100  	out[1] = o1
  1101  	out[0] = o0
  1102  }
  1103  
  1104  // pmxvi8ger4spp AT,XA,XB,XMSK,YMSK,PMSK
  1105  func type_pmxvi8ger4spp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1106  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1107  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1108  	o1 |= uint32(p.To.Reg&0x7) << 23			// AT
  1109  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1110  	o1 |= uint32(p.From.Reg&0x1f) << 16			// A
  1111  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1112  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1113  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0xf) << 4	// XMSK
  1114  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0xf) << 0	// YMSK
  1115  	o0 |= uint32(p.RestArgs[2].Addr.Offset&0xf) << 12	// PMSK
  1116  	out[1] = o1
  1117  	out[0] = o0
  1118  }
  1119  
  1120  // pnop
  1121  func type_pnop(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1122  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1123  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1124  	out[1] = o1
  1125  	out[0] = o0
  1126  }
  1127  
  1128  // pstxssp VRS,D(RA),R
  1129  func type_pstxssp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1130  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1131  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1132  	o1 |= uint32(p.From.Reg&0x1f) << 21			// VRS
  1133  	o0 |= uint32((p.To.Offset>>16)&0x3ffff) << 0		// d0
  1134  	o1 |= uint32(p.To.Offset&0xffff) << 0			// d1
  1135  	o1 |= uint32(p.To.Reg&0x1f) << 16			// RA
  1136  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1) << 20	// R
  1137  	out[1] = o1
  1138  	out[0] = o0
  1139  }
  1140  
  1141  // pstxv XS,D(RA),R
  1142  func type_pstxv(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1143  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1144  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1145  	o1 |= uint32((p.From.Reg>>5)&0x1) << 26			// SX
  1146  	o1 |= uint32(p.From.Reg&0x1f) << 21			// S
  1147  	o0 |= uint32((p.To.Offset>>16)&0x3ffff) << 0		// d0
  1148  	o1 |= uint32(p.To.Offset&0xffff) << 0			// d1
  1149  	o1 |= uint32(p.To.Reg&0x1f) << 16			// RA
  1150  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1) << 20	// R
  1151  	out[1] = o1
  1152  	out[0] = o0
  1153  }
  1154  
  1155  // pstxvp XSp,D(RA),R
  1156  func type_pstxvp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1157  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1158  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1159  	o1 |= uint32((p.From.Reg>>5)&0x1) << 21			// SX
  1160  	o1 |= uint32((p.From.Reg>>1)&0xf) << 22			// Sp
  1161  	o0 |= uint32((p.To.Offset>>16)&0x3ffff) << 0		// d0
  1162  	o1 |= uint32(p.To.Offset&0xffff) << 0			// d1
  1163  	o1 |= uint32(p.To.Reg&0x1f) << 16			// RA
  1164  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1) << 20	// R
  1165  	out[1] = o1
  1166  	out[0] = o0
  1167  }
  1168  
  1169  // setnbcr RT,BI
  1170  func type_setnbcr(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1171  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1172  	o0 |= uint32(p.To.Reg&0x1f) << 21	// RT
  1173  	o0 |= uint32(p.From.Reg&0x1f) << 16	// BI
  1174  	out[0] = o0
  1175  }
  1176  
  1177  // stxvp XSp,DQ(RA)
  1178  func type_stxvp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1179  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1180  	o0 |= uint32((p.From.Reg>>5)&0x1) << 21		// SX
  1181  	o0 |= uint32((p.From.Reg>>1)&0xf) << 22		// Sp
  1182  	o0 |= uint32((p.To.Offset>>4)&0xfff) << 4	// DQ
  1183  	o0 |= uint32(p.To.Reg&0x1f) << 16		// RA
  1184  	if p.To.Offset&0xf != 0 {
  1185  		c.ctxt.Diag("Constant 0x%x (%d) is not a multiple of 16\n%v", p.To.Offset, p.To.Offset, p)
  1186  	}
  1187  	out[0] = o0
  1188  }
  1189  
  1190  // stxvpx XSp,RA,RB
  1191  func type_stxvpx(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1192  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1193  	o0 |= uint32((p.From.Reg>>5)&0x1) << 21	// SX
  1194  	o0 |= uint32((p.From.Reg>>1)&0xf) << 22	// Sp
  1195  	o0 |= uint32(p.To.Index&0x1f) << 16	// RA
  1196  	o0 |= uint32(p.To.Reg&0x1f) << 11	// RB
  1197  	out[0] = o0
  1198  }
  1199  
  1200  // stxvrwx XS,RA,RB
  1201  func type_stxvrwx(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1202  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1203  	o0 |= uint32((p.From.Reg>>5)&0x1) << 0	// SX
  1204  	o0 |= uint32(p.From.Reg&0x1f) << 21	// S
  1205  	o0 |= uint32(p.To.Index&0x1f) << 16	// RA
  1206  	o0 |= uint32(p.To.Reg&0x1f) << 11	// RB
  1207  	out[0] = o0
  1208  }
  1209  
  1210  // vcmpuq BF,VRA,VRB
  1211  func type_vcmpuq(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1212  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1213  	o0 |= uint32(p.To.Reg&0x7) << 23	// BF
  1214  	o0 |= uint32(p.From.Reg&0x1f) << 16	// VRA
  1215  	o0 |= uint32(p.Reg&0x1f) << 11		// VRB
  1216  	out[0] = o0
  1217  }
  1218  
  1219  // vcntmbw RT,VRB,MP
  1220  func type_vcntmbw(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1221  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1222  	o0 |= uint32(p.To.Reg&0x1f) << 21			// RT
  1223  	o0 |= uint32(p.From.Reg&0x1f) << 11			// VRB
  1224  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1) << 16	// MP
  1225  	out[0] = o0
  1226  }
  1227  
  1228  // vgnb RT,VRB,N
  1229  func type_vgnb(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1230  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1231  	o0 |= uint32(p.To.Reg&0x1f) << 21			// RT
  1232  	o0 |= uint32(p.From.Reg&0x1f) << 11			// VRB
  1233  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x7) << 16	// N
  1234  	out[0] = o0
  1235  }
  1236  
  1237  // vinsw VRT,RB,UIM
  1238  func type_vinsw(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1239  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1240  	o0 |= uint32(p.To.Reg&0x1f) << 21			// VRT
  1241  	o0 |= uint32(p.From.Reg&0x1f) << 11			// RB
  1242  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0xf) << 16	// UIM
  1243  	out[0] = o0
  1244  }
  1245  
  1246  // vmsumcud VRT,VRA,VRB,VRC
  1247  func type_vmsumcud(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1248  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1249  	o0 |= uint32(p.To.Reg&0x1f) << 21		// VRT
  1250  	o0 |= uint32(p.From.Reg&0x1f) << 16		// VRA
  1251  	o0 |= uint32(p.Reg&0x1f) << 11			// VRB
  1252  	o0 |= uint32(p.RestArgs[0].Addr.Reg&0x1f) << 6	// VRC
  1253  	out[0] = o0
  1254  }
  1255  
  1256  // vsrdbi VRT,VRA,VRB,SH
  1257  func type_vsrdbi(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1258  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1259  	o0 |= uint32(p.To.Reg&0x1f) << 21			// VRT
  1260  	o0 |= uint32(p.From.Reg&0x1f) << 16			// VRA
  1261  	o0 |= uint32(p.Reg&0x1f) << 11				// VRB
  1262  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x7) << 6	// SH
  1263  	out[0] = o0
  1264  }
  1265  
  1266  // xscvuqqp VRT,VRB
  1267  func type_xscvuqqp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1268  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1269  	o0 |= uint32(p.To.Reg&0x1f) << 21	// VRT
  1270  	o0 |= uint32(p.From.Reg&0x1f) << 11	// VRB
  1271  	out[0] = o0
  1272  }
  1273  
  1274  // xsmincqp VRT,VRA,VRB
  1275  func type_xsmincqp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1276  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1277  	o0 |= uint32(p.To.Reg&0x1f) << 21	// VRT
  1278  	o0 |= uint32(p.From.Reg&0x1f) << 16	// VRA
  1279  	o0 |= uint32(p.Reg&0x1f) << 11		// VRB
  1280  	out[0] = o0
  1281  }
  1282  
  1283  // xvcvspbf16 XT,XB
  1284  func type_xvcvspbf16(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1285  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1286  	o0 |= uint32((p.To.Reg>>5)&0x1) << 0	// TX
  1287  	o0 |= uint32(p.To.Reg&0x1f) << 21	// T
  1288  	o0 |= uint32((p.From.Reg>>5)&0x1) << 1	// BX
  1289  	o0 |= uint32(p.From.Reg&0x1f) << 11	// B
  1290  	out[0] = o0
  1291  }
  1292  
  1293  // xvi8ger4spp AT,XA,XB
  1294  func type_xvi8ger4spp(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1295  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1296  	o0 |= uint32(p.To.Reg&0x7) << 23	// AT
  1297  	o0 |= uint32((p.From.Reg>>5)&0x1) << 2	// AX
  1298  	o0 |= uint32(p.From.Reg&0x1f) << 16	// A
  1299  	o0 |= uint32((p.Reg>>5)&0x1) << 1	// BX
  1300  	o0 |= uint32(p.Reg&0x1f) << 11		// B
  1301  	out[0] = o0
  1302  }
  1303  
  1304  // xvtlsbb BF,XB
  1305  func type_xvtlsbb(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1306  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1307  	o0 |= uint32(p.To.Reg&0x7) << 23	// BF
  1308  	o0 |= uint32((p.From.Reg>>5)&0x1) << 1	// BX
  1309  	o0 |= uint32(p.From.Reg&0x1f) << 11	// B
  1310  	out[0] = o0
  1311  }
  1312  
  1313  // xxblendvw XT,XA,XB,XC
  1314  func type_xxblendvw(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1315  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1316  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1317  	o1 |= uint32((p.To.Reg>>5)&0x1) << 0			// TX
  1318  	o1 |= uint32(p.To.Reg&0x1f) << 21			// T
  1319  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1320  	o1 |= uint32(p.From.Reg&0x1f) << 16			// A
  1321  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1322  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1323  	o1 |= uint32((p.RestArgs[0].Addr.Reg>>5)&0x1) << 3	// CX
  1324  	o1 |= uint32(p.RestArgs[0].Addr.Reg&0x1f) << 6		// C
  1325  	out[1] = o1
  1326  	out[0] = o0
  1327  }
  1328  
  1329  // xxeval XT,XA,XB,XC,IMM
  1330  func type_xxeval(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1331  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1332  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1333  	o1 |= uint32((p.To.Reg>>5)&0x1) << 0			// TX
  1334  	o1 |= uint32(p.To.Reg&0x1f) << 21			// T
  1335  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1336  	o1 |= uint32(p.From.Reg&0x1f) << 16			// A
  1337  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1338  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1339  	o1 |= uint32((p.RestArgs[0].Addr.Reg>>5)&0x1) << 3	// CX
  1340  	o1 |= uint32(p.RestArgs[0].Addr.Reg&0x1f) << 6		// C
  1341  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0xff) << 0	// IMM
  1342  	out[1] = o1
  1343  	out[0] = o0
  1344  }
  1345  
  1346  // xxgenpcvwm XT,VRB,IMM
  1347  func type_xxgenpcvwm(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1348  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1349  	o0 |= uint32((p.To.Reg>>5)&0x1) << 0			// TX
  1350  	o0 |= uint32(p.To.Reg&0x1f) << 21			// T
  1351  	o0 |= uint32(p.From.Reg&0x1f) << 11			// VRB
  1352  	o0 |= uint32(p.RestArgs[0].Addr.Offset&0x1f) << 16	// IMM
  1353  	out[0] = o0
  1354  }
  1355  
  1356  // xxpermx XT,XA,XB,XC,UIM
  1357  func type_xxpermx(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1358  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1359  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1360  	o1 |= uint32((p.To.Reg>>5)&0x1) << 0			// TX
  1361  	o1 |= uint32(p.To.Reg&0x1f) << 21			// T
  1362  	o1 |= uint32((p.From.Reg>>5)&0x1) << 2			// AX
  1363  	o1 |= uint32(p.From.Reg&0x1f) << 16			// A
  1364  	o1 |= uint32((p.Reg>>5)&0x1) << 1			// BX
  1365  	o1 |= uint32(p.Reg&0x1f) << 11				// B
  1366  	o1 |= uint32((p.RestArgs[0].Addr.Reg>>5)&0x1) << 3	// CX
  1367  	o1 |= uint32(p.RestArgs[0].Addr.Reg&0x1f) << 6		// C
  1368  	o0 |= uint32(p.RestArgs[1].Addr.Offset&0x7) << 0	// UIM
  1369  	out[1] = o1
  1370  	out[0] = o0
  1371  }
  1372  
  1373  // xxsetaccz AT
  1374  func type_xxsetaccz(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1375  	o0 := GenOpcodes[p.As-AXXSETACCZ]
  1376  	o0 |= uint32(p.To.Reg&0x7) << 23	// AT
  1377  	out[0] = o0
  1378  }
  1379  
  1380  // xxsplti32dx XT,IX,IMM32
  1381  func type_xxsplti32dx(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1382  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1383  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1384  	o1 |= uint32((p.To.Reg>>5)&0x1) << 16				// TX
  1385  	o1 |= uint32(p.To.Reg&0x1f) << 21				// T
  1386  	o1 |= uint32(p.From.Offset&0x1) << 17				// IX
  1387  	o0 |= uint32((p.RestArgs[0].Addr.Offset>>16)&0xffff) << 0	// imm0
  1388  	o1 |= uint32(p.RestArgs[0].Addr.Offset&0xffff) << 0		// imm1
  1389  	out[1] = o1
  1390  	out[0] = o0
  1391  }
  1392  
  1393  // xxspltiw XT,IMM32
  1394  func type_xxspltiw(c *ctxt9, p *obj.Prog, t *Optab, out *[5]uint32) {
  1395  	o0 := GenPfxOpcodes[p.As-AXXSPLTIW]
  1396  	o1 := GenOpcodes[p.As-AXXSETACCZ]
  1397  	o1 |= uint32((p.To.Reg>>5)&0x1) << 16		// TX
  1398  	o1 |= uint32(p.To.Reg&0x1f) << 21		// T
  1399  	o0 |= uint32((p.From.Offset>>16)&0xffff) << 0	// imm0
  1400  	o1 |= uint32(p.From.Offset&0xffff) << 0		// imm1
  1401  	out[1] = o1
  1402  	out[0] = o0
  1403  }
  1404  
  1405  func opsetGen(from obj.As) bool {
  1406  	r0 := from & obj.AMask
  1407  	switch from {
  1408  	case ABRW:
  1409  		opset(ABRH, r0)
  1410  		opset(ABRD, r0)
  1411  	case ADCFFIXQQ:
  1412  	case ADCTFIXQQ:
  1413  	case AHASHCHKP:
  1414  		opset(AHASHCHK, r0)
  1415  	case AHASHSTP:
  1416  		opset(AHASHST, r0)
  1417  	case ALXVKQ:
  1418  	case ALXVP:
  1419  	case ALXVPX:
  1420  	case ALXVRWX:
  1421  		opset(ALXVRHX, r0)
  1422  		opset(ALXVRDX, r0)
  1423  		opset(ALXVRBX, r0)
  1424  	case AMTVSRBMI:
  1425  	case AMTVSRWM:
  1426  		opset(AMTVSRQM, r0)
  1427  		opset(AMTVSRHM, r0)
  1428  		opset(AMTVSRDM, r0)
  1429  		opset(AMTVSRBM, r0)
  1430  	case APADDI:
  1431  	case APEXTD:
  1432  		opset(APDEPD, r0)
  1433  		opset(ACNTTZDM, r0)
  1434  		opset(ACNTLZDM, r0)
  1435  		opset(ACFUGED, r0)
  1436  	case APLFS:
  1437  		opset(APLFD, r0)
  1438  	case APLQ:
  1439  	case APLWZ:
  1440  		opset(APLWA, r0)
  1441  		opset(APLHZ, r0)
  1442  		opset(APLHA, r0)
  1443  		opset(APLD, r0)
  1444  		opset(APLBZ, r0)
  1445  	case APLXSSP:
  1446  		opset(APLXSD, r0)
  1447  	case APLXV:
  1448  	case APLXVP:
  1449  	case APMXVF32GERPP:
  1450  		opset(APMXVF32GERPN, r0)
  1451  		opset(APMXVF32GERNP, r0)
  1452  		opset(APMXVF32GERNN, r0)
  1453  		opset(APMXVF32GER, r0)
  1454  	case APMXVF64GERPP:
  1455  		opset(APMXVF64GERPN, r0)
  1456  		opset(APMXVF64GERNP, r0)
  1457  		opset(APMXVF64GERNN, r0)
  1458  		opset(APMXVF64GER, r0)
  1459  	case APMXVI16GER2SPP:
  1460  		opset(APMXVI16GER2S, r0)
  1461  		opset(APMXVI16GER2PP, r0)
  1462  		opset(APMXVI16GER2, r0)
  1463  		opset(APMXVF16GER2PP, r0)
  1464  		opset(APMXVF16GER2PN, r0)
  1465  		opset(APMXVF16GER2NP, r0)
  1466  		opset(APMXVF16GER2NN, r0)
  1467  		opset(APMXVF16GER2, r0)
  1468  		opset(APMXVBF16GER2PP, r0)
  1469  		opset(APMXVBF16GER2PN, r0)
  1470  		opset(APMXVBF16GER2NP, r0)
  1471  		opset(APMXVBF16GER2NN, r0)
  1472  		opset(APMXVBF16GER2, r0)
  1473  	case APMXVI4GER8PP:
  1474  		opset(APMXVI4GER8, r0)
  1475  	case APMXVI8GER4SPP:
  1476  		opset(APMXVI8GER4PP, r0)
  1477  		opset(APMXVI8GER4, r0)
  1478  	case APNOP:
  1479  	case APSTFS:
  1480  		opset(APSTFD, r0)
  1481  	case APSTQ:
  1482  	case APSTW:
  1483  		opset(APSTH, r0)
  1484  		opset(APSTD, r0)
  1485  		opset(APSTB, r0)
  1486  	case APSTXSSP:
  1487  		opset(APSTXSD, r0)
  1488  	case APSTXV:
  1489  	case APSTXVP:
  1490  	case ASETNBCR:
  1491  		opset(ASETNBC, r0)
  1492  		opset(ASETBCR, r0)
  1493  		opset(ASETBC, r0)
  1494  	case ASTXVP:
  1495  	case ASTXVPX:
  1496  	case ASTXVRWX:
  1497  		opset(ASTXVRHX, r0)
  1498  		opset(ASTXVRDX, r0)
  1499  		opset(ASTXVRBX, r0)
  1500  	case AVCLRRB:
  1501  		opset(AVCLRLB, r0)
  1502  	case AVCMPUQ:
  1503  		opset(AVCMPSQ, r0)
  1504  	case AVCNTMBW:
  1505  		opset(AVCNTMBH, r0)
  1506  		opset(AVCNTMBD, r0)
  1507  		opset(AVCNTMBB, r0)
  1508  	case AVEXTDUWVRX:
  1509  		opset(AVEXTDUWVLX, r0)
  1510  		opset(AVEXTDUHVRX, r0)
  1511  		opset(AVEXTDUHVLX, r0)
  1512  		opset(AVEXTDUBVRX, r0)
  1513  		opset(AVEXTDUBVLX, r0)
  1514  		opset(AVEXTDDVRX, r0)
  1515  		opset(AVEXTDDVLX, r0)
  1516  	case AVEXTRACTWM:
  1517  		opset(AVEXTRACTQM, r0)
  1518  		opset(AVEXTRACTHM, r0)
  1519  		opset(AVEXTRACTDM, r0)
  1520  		opset(AVEXTRACTBM, r0)
  1521  	case AVGNB:
  1522  	case AVINSW:
  1523  		opset(AVINSD, r0)
  1524  	case AVINSWRX:
  1525  		opset(AVINSWLX, r0)
  1526  		opset(AVINSHRX, r0)
  1527  		opset(AVINSHLX, r0)
  1528  		opset(AVINSDRX, r0)
  1529  		opset(AVINSDLX, r0)
  1530  		opset(AVINSBRX, r0)
  1531  		opset(AVINSBLX, r0)
  1532  	case AVINSWVRX:
  1533  		opset(AVINSWVLX, r0)
  1534  		opset(AVINSHVRX, r0)
  1535  		opset(AVINSHVLX, r0)
  1536  		opset(AVINSBVRX, r0)
  1537  		opset(AVINSBVLX, r0)
  1538  	case AVMSUMCUD:
  1539  	case AVSRDBI:
  1540  		opset(AVSLDBI, r0)
  1541  	case AXSCVUQQP:
  1542  		opset(AXSCVSQQP, r0)
  1543  		opset(AXSCVQPUQZ, r0)
  1544  		opset(AXSCVQPSQZ, r0)
  1545  		opset(AVSTRIHRCC, r0)
  1546  		opset(AVSTRIHR, r0)
  1547  		opset(AVSTRIHLCC, r0)
  1548  		opset(AVSTRIHL, r0)
  1549  		opset(AVSTRIBRCC, r0)
  1550  		opset(AVSTRIBR, r0)
  1551  		opset(AVSTRIBLCC, r0)
  1552  		opset(AVSTRIBL, r0)
  1553  		opset(AVEXTSD2Q, r0)
  1554  		opset(AVEXPANDWM, r0)
  1555  		opset(AVEXPANDQM, r0)
  1556  		opset(AVEXPANDHM, r0)
  1557  		opset(AVEXPANDDM, r0)
  1558  		opset(AVEXPANDBM, r0)
  1559  	case AXSMINCQP:
  1560  		opset(AXSMAXCQP, r0)
  1561  		opset(AXSCMPGTQP, r0)
  1562  		opset(AXSCMPGEQP, r0)
  1563  		opset(AXSCMPEQQP, r0)
  1564  		opset(AVSRQ, r0)
  1565  		opset(AVSRAQ, r0)
  1566  		opset(AVSLQ, r0)
  1567  		opset(AVRLQNM, r0)
  1568  		opset(AVRLQMI, r0)
  1569  		opset(AVRLQ, r0)
  1570  		opset(AVPEXTD, r0)
  1571  		opset(AVPDEPD, r0)
  1572  		opset(AVMULOUD, r0)
  1573  		opset(AVMULOSD, r0)
  1574  		opset(AVMULLD, r0)
  1575  		opset(AVMULHUW, r0)
  1576  		opset(AVMULHUD, r0)
  1577  		opset(AVMULHSW, r0)
  1578  		opset(AVMULHSD, r0)
  1579  		opset(AVMULEUD, r0)
  1580  		opset(AVMULESD, r0)
  1581  		opset(AVMODUW, r0)
  1582  		opset(AVMODUQ, r0)
  1583  		opset(AVMODUD, r0)
  1584  		opset(AVMODSW, r0)
  1585  		opset(AVMODSQ, r0)
  1586  		opset(AVMODSD, r0)
  1587  		opset(AVDIVUW, r0)
  1588  		opset(AVDIVUQ, r0)
  1589  		opset(AVDIVUD, r0)
  1590  		opset(AVDIVSW, r0)
  1591  		opset(AVDIVSQ, r0)
  1592  		opset(AVDIVSD, r0)
  1593  		opset(AVDIVEUW, r0)
  1594  		opset(AVDIVEUQ, r0)
  1595  		opset(AVDIVEUD, r0)
  1596  		opset(AVDIVESW, r0)
  1597  		opset(AVDIVESQ, r0)
  1598  		opset(AVDIVESD, r0)
  1599  		opset(AVCTZDM, r0)
  1600  		opset(AVCMPGTUQCC, r0)
  1601  		opset(AVCMPGTUQ, r0)
  1602  		opset(AVCMPGTSQCC, r0)
  1603  		opset(AVCMPGTSQ, r0)
  1604  		opset(AVCMPEQUQCC, r0)
  1605  		opset(AVCMPEQUQ, r0)
  1606  		opset(AVCLZDM, r0)
  1607  		opset(AVCFUGED, r0)
  1608  	case AXVCVSPBF16:
  1609  		opset(AXVCVBF16SPN, r0)
  1610  	case AXVI8GER4SPP:
  1611  		opset(AXVI8GER4PP, r0)
  1612  		opset(AXVI8GER4, r0)
  1613  		opset(AXVI4GER8PP, r0)
  1614  		opset(AXVI4GER8, r0)
  1615  		opset(AXVI16GER2SPP, r0)
  1616  		opset(AXVI16GER2S, r0)
  1617  		opset(AXVI16GER2PP, r0)
  1618  		opset(AXVI16GER2, r0)
  1619  		opset(AXVF64GERPP, r0)
  1620  		opset(AXVF64GERPN, r0)
  1621  		opset(AXVF64GERNP, r0)
  1622  		opset(AXVF64GERNN, r0)
  1623  		opset(AXVF64GER, r0)
  1624  		opset(AXVF32GERPP, r0)
  1625  		opset(AXVF32GERPN, r0)
  1626  		opset(AXVF32GERNP, r0)
  1627  		opset(AXVF32GERNN, r0)
  1628  		opset(AXVF32GER, r0)
  1629  		opset(AXVF16GER2PP, r0)
  1630  		opset(AXVF16GER2PN, r0)
  1631  		opset(AXVF16GER2NP, r0)
  1632  		opset(AXVF16GER2NN, r0)
  1633  		opset(AXVF16GER2, r0)
  1634  		opset(AXVBF16GER2PP, r0)
  1635  		opset(AXVBF16GER2PN, r0)
  1636  		opset(AXVBF16GER2NP, r0)
  1637  		opset(AXVBF16GER2NN, r0)
  1638  		opset(AXVBF16GER2, r0)
  1639  	case AXVTLSBB:
  1640  	case AXXBLENDVW:
  1641  		opset(AXXBLENDVH, r0)
  1642  		opset(AXXBLENDVD, r0)
  1643  		opset(AXXBLENDVB, r0)
  1644  	case AXXEVAL:
  1645  	case AXXGENPCVWM:
  1646  		opset(AXXGENPCVHM, r0)
  1647  		opset(AXXGENPCVDM, r0)
  1648  		opset(AXXGENPCVBM, r0)
  1649  	case AXXPERMX:
  1650  	case AXXSETACCZ:
  1651  		opset(AXXMTACC, r0)
  1652  		opset(AXXMFACC, r0)
  1653  	case AXXSPLTI32DX:
  1654  	case AXXSPLTIW:
  1655  		opset(AXXSPLTIDP, r0)
  1656  	default:
  1657  		return false
  1658  	}
  1659  	return true
  1660  }