1# AArch32 Neon data-processing instruction descriptions 2# 3# Copyright (c) 2020 Linaro, Ltd 4# 5# This library is free software; you can redistribute it and/or 6# modify it under the terms of the GNU Lesser General Public 7# License as published by the Free Software Foundation; either 8# version 2.1 of the License, or (at your option) any later version. 9# 10# This library is distributed in the hope that it will be useful, 11# but WITHOUT ANY WARRANTY; without even the implied warranty of 12# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 13# Lesser General Public License for more details. 14# 15# You should have received a copy of the GNU Lesser General Public 16# License along with this library; if not, see <http://www.gnu.org/licenses/>. 17 18# 19# This file is processed by scripts/decodetree.py 20# 21# VFP/Neon register fields; same as vfp.decode 22%vm_dp 5:1 0:4 23%vn_dp 7:1 16:4 24%vd_dp 22:1 12:4 25 26# Encodings for Neon data processing instructions where the T32 encoding 27# is a simple transformation of the A32 encoding. 28# More specifically, this file covers instructions where the A32 encoding is 29# 0b1111_001p_qqqq_qqqq_qqqq_qqqq_qqqq_qqqq 30# and the T32 encoding is 31# 0b111p_1111_qqqq_qqqq_qqqq_qqqq_qqqq_qqqq 32# This file works on the A32 encoding only; calling code for T32 has to 33# transform the insn into the A32 version first. 34 35###################################################################### 36# 3-reg-same grouping: 37# 1111 001 U 0 D sz:2 Vn:4 Vd:4 opc:4 N Q M op Vm:4 38###################################################################### 39 40&3same vm vn vd q size 41 42@3same .... ... . . . size:2 .... .... .... . q:1 . . .... \ 43 &3same vm=%vm_dp vn=%vn_dp vd=%vd_dp 44 45@3same_q0 .... ... . . . size:2 .... .... .... . 0 . . .... \ 46 &3same vm=%vm_dp vn=%vn_dp vd=%vd_dp q=0 47 48# For FP insns the high bit of 'size' is used as part of opcode decode, 49# and the 'size' bit is 0 for 32-bit float and 1 for 16-bit float. 50# This converts this encoding to the same MO_8/16/32/64 values that the 51# integer neon insns use. 52%3same_fp_size 20:1 !function=neon_3same_fp_size 53 54@3same_fp .... ... . . . . . .... .... .... . q:1 . . .... \ 55 &3same vm=%vm_dp vn=%vn_dp vd=%vd_dp size=%3same_fp_size 56@3same_fp_q0 .... ... . . . . . .... .... .... . 0 . . .... \ 57 &3same vm=%vm_dp vn=%vn_dp vd=%vd_dp q=0 size=%3same_fp_size 58 59VHADD_S_3s 1111 001 0 0 . .. .... .... 0000 . . . 0 .... @3same 60VHADD_U_3s 1111 001 1 0 . .. .... .... 0000 . . . 0 .... @3same 61VQADD_S_3s 1111 001 0 0 . .. .... .... 0000 . . . 1 .... @3same 62VQADD_U_3s 1111 001 1 0 . .. .... .... 0000 . . . 1 .... @3same 63 64VRHADD_S_3s 1111 001 0 0 . .. .... .... 0001 . . . 0 .... @3same 65VRHADD_U_3s 1111 001 1 0 . .. .... .... 0001 . . . 0 .... @3same 66 67@3same_logic .... ... . . . .. .... .... .... . q:1 .. .... \ 68 &3same vm=%vm_dp vn=%vn_dp vd=%vd_dp size=0 69 70VAND_3s 1111 001 0 0 . 00 .... .... 0001 ... 1 .... @3same_logic 71VBIC_3s 1111 001 0 0 . 01 .... .... 0001 ... 1 .... @3same_logic 72VORR_3s 1111 001 0 0 . 10 .... .... 0001 ... 1 .... @3same_logic 73VORN_3s 1111 001 0 0 . 11 .... .... 0001 ... 1 .... @3same_logic 74VEOR_3s 1111 001 1 0 . 00 .... .... 0001 ... 1 .... @3same_logic 75VBSL_3s 1111 001 1 0 . 01 .... .... 0001 ... 1 .... @3same_logic 76VBIT_3s 1111 001 1 0 . 10 .... .... 0001 ... 1 .... @3same_logic 77VBIF_3s 1111 001 1 0 . 11 .... .... 0001 ... 1 .... @3same_logic 78 79VHSUB_S_3s 1111 001 0 0 . .. .... .... 0010 . . . 0 .... @3same 80VHSUB_U_3s 1111 001 1 0 . .. .... .... 0010 . . . 0 .... @3same 81 82VQSUB_S_3s 1111 001 0 0 . .. .... .... 0010 . . . 1 .... @3same 83VQSUB_U_3s 1111 001 1 0 . .. .... .... 0010 . . . 1 .... @3same 84 85VCGT_S_3s 1111 001 0 0 . .. .... .... 0011 . . . 0 .... @3same 86VCGT_U_3s 1111 001 1 0 . .. .... .... 0011 . . . 0 .... @3same 87VCGE_S_3s 1111 001 0 0 . .. .... .... 0011 . . . 1 .... @3same 88VCGE_U_3s 1111 001 1 0 . .. .... .... 0011 . . . 1 .... @3same 89 90# The _rev suffix indicates that Vn and Vm are reversed. This is 91# the case for shifts. In the Arm ARM these insns are documented 92# with the Vm and Vn fields in their usual places, but in the 93# assembly the operands are listed "backwards", ie in the order 94# Dd, Dm, Dn where other insns use Dd, Dn, Dm. For QEMU we choose 95# to consider Vm and Vn as being in different fields in the insn, 96# which allows us to avoid special-casing shifts in the trans_ 97# function code. We would otherwise need to manually swap the operands 98# over to call Neon helper functions that are shared with AArch64, 99# which does not have this odd reversed-operand situation. 100@3same_rev .... ... . . . size:2 .... .... .... . q:1 . . .... \ 101 &3same vn=%vm_dp vm=%vn_dp vd=%vd_dp 102 103VSHL_S_3s 1111 001 0 0 . .. .... .... 0100 . . . 0 .... @3same_rev 104VSHL_U_3s 1111 001 1 0 . .. .... .... 0100 . . . 0 .... @3same_rev 105VQSHL_S_3s 1111 001 0 0 . .. .... .... 0100 . . . 1 .... @3same_rev 106VQSHL_U_3s 1111 001 1 0 . .. .... .... 0100 . . . 1 .... @3same_rev 107VRSHL_S_3s 1111 001 0 0 . .. .... .... 0101 . . . 0 .... @3same_rev 108VRSHL_U_3s 1111 001 1 0 . .. .... .... 0101 . . . 0 .... @3same_rev 109VQRSHL_S_3s 1111 001 0 0 . .. .... .... 0101 . . . 1 .... @3same_rev 110VQRSHL_U_3s 1111 001 1 0 . .. .... .... 0101 . . . 1 .... @3same_rev 111 112VMAX_S_3s 1111 001 0 0 . .. .... .... 0110 . . . 0 .... @3same 113VMAX_U_3s 1111 001 1 0 . .. .... .... 0110 . . . 0 .... @3same 114VMIN_S_3s 1111 001 0 0 . .. .... .... 0110 . . . 1 .... @3same 115VMIN_U_3s 1111 001 1 0 . .. .... .... 0110 . . . 1 .... @3same 116 117VABD_S_3s 1111 001 0 0 . .. .... .... 0111 . . . 0 .... @3same 118VABD_U_3s 1111 001 1 0 . .. .... .... 0111 . . . 0 .... @3same 119 120VABA_S_3s 1111 001 0 0 . .. .... .... 0111 . . . 1 .... @3same 121VABA_U_3s 1111 001 1 0 . .. .... .... 0111 . . . 1 .... @3same 122 123VADD_3s 1111 001 0 0 . .. .... .... 1000 . . . 0 .... @3same 124VSUB_3s 1111 001 1 0 . .. .... .... 1000 . . . 0 .... @3same 125 126VTST_3s 1111 001 0 0 . .. .... .... 1000 . . . 1 .... @3same 127VCEQ_3s 1111 001 1 0 . .. .... .... 1000 . . . 1 .... @3same 128 129VMLA_3s 1111 001 0 0 . .. .... .... 1001 . . . 0 .... @3same 130VMLS_3s 1111 001 1 0 . .. .... .... 1001 . . . 0 .... @3same 131 132VMUL_3s 1111 001 0 0 . .. .... .... 1001 . . . 1 .... @3same 133VMUL_p_3s 1111 001 1 0 . .. .... .... 1001 . . . 1 .... @3same 134 135VPMAX_S_3s 1111 001 0 0 . .. .... .... 1010 . . . 0 .... @3same_q0 136VPMAX_U_3s 1111 001 1 0 . .. .... .... 1010 . . . 0 .... @3same_q0 137 138VPMIN_S_3s 1111 001 0 0 . .. .... .... 1010 . . . 1 .... @3same_q0 139VPMIN_U_3s 1111 001 1 0 . .. .... .... 1010 . . . 1 .... @3same_q0 140 141VQDMULH_3s 1111 001 0 0 . .. .... .... 1011 . . . 0 .... @3same 142VQRDMULH_3s 1111 001 1 0 . .. .... .... 1011 . . . 0 .... @3same 143 144VPADD_3s 1111 001 0 0 . .. .... .... 1011 . . . 1 .... @3same_q0 145 146VQRDMLAH_3s 1111 001 1 0 . .. .... .... 1011 ... 1 .... @3same 147 148@3same_crypto .... .... .... .... .... .... .... .... \ 149 &3same vm=%vm_dp vn=%vn_dp vd=%vd_dp size=0 q=1 150 151SHA1C_3s 1111 001 0 0 . 00 .... .... 1100 . 1 . 0 .... @3same_crypto 152SHA1P_3s 1111 001 0 0 . 01 .... .... 1100 . 1 . 0 .... @3same_crypto 153SHA1M_3s 1111 001 0 0 . 10 .... .... 1100 . 1 . 0 .... @3same_crypto 154SHA1SU0_3s 1111 001 0 0 . 11 .... .... 1100 . 1 . 0 .... @3same_crypto 155SHA256H_3s 1111 001 1 0 . 00 .... .... 1100 . 1 . 0 .... @3same_crypto 156SHA256H2_3s 1111 001 1 0 . 01 .... .... 1100 . 1 . 0 .... @3same_crypto 157SHA256SU1_3s 1111 001 1 0 . 10 .... .... 1100 . 1 . 0 .... @3same_crypto 158 159VFMA_fp_3s 1111 001 0 0 . 0 . .... .... 1100 ... 1 .... @3same_fp 160VFMS_fp_3s 1111 001 0 0 . 1 . .... .... 1100 ... 1 .... @3same_fp 161 162VQRDMLSH_3s 1111 001 1 0 . .. .... .... 1100 ... 1 .... @3same 163 164VADD_fp_3s 1111 001 0 0 . 0 . .... .... 1101 ... 0 .... @3same_fp 165VSUB_fp_3s 1111 001 0 0 . 1 . .... .... 1101 ... 0 .... @3same_fp 166VPADD_fp_3s 1111 001 1 0 . 0 . .... .... 1101 ... 0 .... @3same_fp_q0 167VABD_fp_3s 1111 001 1 0 . 1 . .... .... 1101 ... 0 .... @3same_fp 168VMLA_fp_3s 1111 001 0 0 . 0 . .... .... 1101 ... 1 .... @3same_fp 169VMLS_fp_3s 1111 001 0 0 . 1 . .... .... 1101 ... 1 .... @3same_fp 170VMUL_fp_3s 1111 001 1 0 . 0 . .... .... 1101 ... 1 .... @3same_fp 171VCEQ_fp_3s 1111 001 0 0 . 0 . .... .... 1110 ... 0 .... @3same_fp 172VCGE_fp_3s 1111 001 1 0 . 0 . .... .... 1110 ... 0 .... @3same_fp 173VACGE_fp_3s 1111 001 1 0 . 0 . .... .... 1110 ... 1 .... @3same_fp 174VCGT_fp_3s 1111 001 1 0 . 1 . .... .... 1110 ... 0 .... @3same_fp 175VACGT_fp_3s 1111 001 1 0 . 1 . .... .... 1110 ... 1 .... @3same_fp 176VMAX_fp_3s 1111 001 0 0 . 0 . .... .... 1111 ... 0 .... @3same_fp 177VMIN_fp_3s 1111 001 0 0 . 1 . .... .... 1111 ... 0 .... @3same_fp 178VPMAX_fp_3s 1111 001 1 0 . 0 . .... .... 1111 ... 0 .... @3same_fp_q0 179VPMIN_fp_3s 1111 001 1 0 . 1 . .... .... 1111 ... 0 .... @3same_fp_q0 180VRECPS_fp_3s 1111 001 0 0 . 0 . .... .... 1111 ... 1 .... @3same_fp 181VRSQRTS_fp_3s 1111 001 0 0 . 1 . .... .... 1111 ... 1 .... @3same_fp 182VMAXNM_fp_3s 1111 001 1 0 . 0 . .... .... 1111 ... 1 .... @3same_fp 183VMINNM_fp_3s 1111 001 1 0 . 1 . .... .... 1111 ... 1 .... @3same_fp 184 185###################################################################### 186# 2-reg-and-shift grouping: 187# 1111 001 U 1 D immH:3 immL:3 Vd:4 opc:4 L Q M 1 Vm:4 188###################################################################### 189&2reg_shift vm vd q shift size 190 191# Right shifts are encoded as N - shift, where N is the element size in bits. 192%neon_rshift_i6 16:6 !function=rsub_64 193%neon_rshift_i5 16:5 !function=rsub_32 194%neon_rshift_i4 16:4 !function=rsub_16 195%neon_rshift_i3 16:3 !function=rsub_8 196 197@2reg_shr_d .... ... . . . ...... .... .... 1 q:1 . . .... \ 198 &2reg_shift vm=%vm_dp vd=%vd_dp size=3 shift=%neon_rshift_i6 199@2reg_shr_s .... ... . . . 1 ..... .... .... 0 q:1 . . .... \ 200 &2reg_shift vm=%vm_dp vd=%vd_dp size=2 shift=%neon_rshift_i5 201@2reg_shr_h .... ... . . . 01 .... .... .... 0 q:1 . . .... \ 202 &2reg_shift vm=%vm_dp vd=%vd_dp size=1 shift=%neon_rshift_i4 203@2reg_shr_b .... ... . . . 001 ... .... .... 0 q:1 . . .... \ 204 &2reg_shift vm=%vm_dp vd=%vd_dp size=0 shift=%neon_rshift_i3 205 206@2reg_shl_d .... ... . . . shift:6 .... .... 1 q:1 . . .... \ 207 &2reg_shift vm=%vm_dp vd=%vd_dp size=3 208@2reg_shl_s .... ... . . . 1 shift:5 .... .... 0 q:1 . . .... \ 209 &2reg_shift vm=%vm_dp vd=%vd_dp size=2 210@2reg_shl_h .... ... . . . 01 shift:4 .... .... 0 q:1 . . .... \ 211 &2reg_shift vm=%vm_dp vd=%vd_dp size=1 212@2reg_shl_b .... ... . . . 001 shift:3 .... .... 0 q:1 . . .... \ 213 &2reg_shift vm=%vm_dp vd=%vd_dp size=0 214 215# Narrowing right shifts: here the Q bit is part of the opcode decode 216@2reg_shrn_d .... ... . . . 1 ..... .... .... 0 . . . .... \ 217 &2reg_shift vm=%vm_dp vd=%vd_dp size=3 q=0 \ 218 shift=%neon_rshift_i5 219@2reg_shrn_s .... ... . . . 01 .... .... .... 0 . . . .... \ 220 &2reg_shift vm=%vm_dp vd=%vd_dp size=2 q=0 \ 221 shift=%neon_rshift_i4 222@2reg_shrn_h .... ... . . . 001 ... .... .... 0 . . . .... \ 223 &2reg_shift vm=%vm_dp vd=%vd_dp size=1 q=0 \ 224 shift=%neon_rshift_i3 225 226# Long left shifts: again Q is part of opcode decode 227@2reg_shll_s .... ... . . . 1 shift:5 .... .... 0 . . . .... \ 228 &2reg_shift vm=%vm_dp vd=%vd_dp size=2 q=0 229@2reg_shll_h .... ... . . . 01 shift:4 .... .... 0 . . . .... \ 230 &2reg_shift vm=%vm_dp vd=%vd_dp size=1 q=0 231@2reg_shll_b .... ... . . . 001 shift:3 .... .... 0 . . . .... \ 232 &2reg_shift vm=%vm_dp vd=%vd_dp size=0 q=0 233 234@2reg_vcvt .... ... . . . 1 ..... .... .... . q:1 . . .... \ 235 &2reg_shift vm=%vm_dp vd=%vd_dp size=2 shift=%neon_rshift_i5 236@2reg_vcvt_f16 .... ... . . . 11 .... .... .... . q:1 . . .... \ 237 &2reg_shift vm=%vm_dp vd=%vd_dp size=1 shift=%neon_rshift_i4 238 239VSHR_S_2sh 1111 001 0 1 . ...... .... 0000 . . . 1 .... @2reg_shr_d 240VSHR_S_2sh 1111 001 0 1 . ...... .... 0000 . . . 1 .... @2reg_shr_s 241VSHR_S_2sh 1111 001 0 1 . ...... .... 0000 . . . 1 .... @2reg_shr_h 242VSHR_S_2sh 1111 001 0 1 . ...... .... 0000 . . . 1 .... @2reg_shr_b 243 244VSHR_U_2sh 1111 001 1 1 . ...... .... 0000 . . . 1 .... @2reg_shr_d 245VSHR_U_2sh 1111 001 1 1 . ...... .... 0000 . . . 1 .... @2reg_shr_s 246VSHR_U_2sh 1111 001 1 1 . ...... .... 0000 . . . 1 .... @2reg_shr_h 247VSHR_U_2sh 1111 001 1 1 . ...... .... 0000 . . . 1 .... @2reg_shr_b 248 249VSRA_S_2sh 1111 001 0 1 . ...... .... 0001 . . . 1 .... @2reg_shr_d 250VSRA_S_2sh 1111 001 0 1 . ...... .... 0001 . . . 1 .... @2reg_shr_s 251VSRA_S_2sh 1111 001 0 1 . ...... .... 0001 . . . 1 .... @2reg_shr_h 252VSRA_S_2sh 1111 001 0 1 . ...... .... 0001 . . . 1 .... @2reg_shr_b 253 254VSRA_U_2sh 1111 001 1 1 . ...... .... 0001 . . . 1 .... @2reg_shr_d 255VSRA_U_2sh 1111 001 1 1 . ...... .... 0001 . . . 1 .... @2reg_shr_s 256VSRA_U_2sh 1111 001 1 1 . ...... .... 0001 . . . 1 .... @2reg_shr_h 257VSRA_U_2sh 1111 001 1 1 . ...... .... 0001 . . . 1 .... @2reg_shr_b 258 259VRSHR_S_2sh 1111 001 0 1 . ...... .... 0010 . . . 1 .... @2reg_shr_d 260VRSHR_S_2sh 1111 001 0 1 . ...... .... 0010 . . . 1 .... @2reg_shr_s 261VRSHR_S_2sh 1111 001 0 1 . ...... .... 0010 . . . 1 .... @2reg_shr_h 262VRSHR_S_2sh 1111 001 0 1 . ...... .... 0010 . . . 1 .... @2reg_shr_b 263 264VRSHR_U_2sh 1111 001 1 1 . ...... .... 0010 . . . 1 .... @2reg_shr_d 265VRSHR_U_2sh 1111 001 1 1 . ...... .... 0010 . . . 1 .... @2reg_shr_s 266VRSHR_U_2sh 1111 001 1 1 . ...... .... 0010 . . . 1 .... @2reg_shr_h 267VRSHR_U_2sh 1111 001 1 1 . ...... .... 0010 . . . 1 .... @2reg_shr_b 268 269VRSRA_S_2sh 1111 001 0 1 . ...... .... 0011 . . . 1 .... @2reg_shr_d 270VRSRA_S_2sh 1111 001 0 1 . ...... .... 0011 . . . 1 .... @2reg_shr_s 271VRSRA_S_2sh 1111 001 0 1 . ...... .... 0011 . . . 1 .... @2reg_shr_h 272VRSRA_S_2sh 1111 001 0 1 . ...... .... 0011 . . . 1 .... @2reg_shr_b 273 274VRSRA_U_2sh 1111 001 1 1 . ...... .... 0011 . . . 1 .... @2reg_shr_d 275VRSRA_U_2sh 1111 001 1 1 . ...... .... 0011 . . . 1 .... @2reg_shr_s 276VRSRA_U_2sh 1111 001 1 1 . ...... .... 0011 . . . 1 .... @2reg_shr_h 277VRSRA_U_2sh 1111 001 1 1 . ...... .... 0011 . . . 1 .... @2reg_shr_b 278 279VSRI_2sh 1111 001 1 1 . ...... .... 0100 . . . 1 .... @2reg_shr_d 280VSRI_2sh 1111 001 1 1 . ...... .... 0100 . . . 1 .... @2reg_shr_s 281VSRI_2sh 1111 001 1 1 . ...... .... 0100 . . . 1 .... @2reg_shr_h 282VSRI_2sh 1111 001 1 1 . ...... .... 0100 . . . 1 .... @2reg_shr_b 283 284VSHL_2sh 1111 001 0 1 . ...... .... 0101 . . . 1 .... @2reg_shl_d 285VSHL_2sh 1111 001 0 1 . ...... .... 0101 . . . 1 .... @2reg_shl_s 286VSHL_2sh 1111 001 0 1 . ...... .... 0101 . . . 1 .... @2reg_shl_h 287VSHL_2sh 1111 001 0 1 . ...... .... 0101 . . . 1 .... @2reg_shl_b 288 289VSLI_2sh 1111 001 1 1 . ...... .... 0101 . . . 1 .... @2reg_shl_d 290VSLI_2sh 1111 001 1 1 . ...... .... 0101 . . . 1 .... @2reg_shl_s 291VSLI_2sh 1111 001 1 1 . ...... .... 0101 . . . 1 .... @2reg_shl_h 292VSLI_2sh 1111 001 1 1 . ...... .... 0101 . . . 1 .... @2reg_shl_b 293 294VQSHLU_2sh 1111 001 1 1 . ...... .... 0110 . . . 1 .... @2reg_shl_d 295VQSHLU_2sh 1111 001 1 1 . ...... .... 0110 . . . 1 .... @2reg_shl_s 296VQSHLU_2sh 1111 001 1 1 . ...... .... 0110 . . . 1 .... @2reg_shl_h 297VQSHLU_2sh 1111 001 1 1 . ...... .... 0110 . . . 1 .... @2reg_shl_b 298 299VQSHL_S_2sh 1111 001 0 1 . ...... .... 0111 . . . 1 .... @2reg_shl_d 300VQSHL_S_2sh 1111 001 0 1 . ...... .... 0111 . . . 1 .... @2reg_shl_s 301VQSHL_S_2sh 1111 001 0 1 . ...... .... 0111 . . . 1 .... @2reg_shl_h 302VQSHL_S_2sh 1111 001 0 1 . ...... .... 0111 . . . 1 .... @2reg_shl_b 303 304VQSHL_U_2sh 1111 001 1 1 . ...... .... 0111 . . . 1 .... @2reg_shl_d 305VQSHL_U_2sh 1111 001 1 1 . ...... .... 0111 . . . 1 .... @2reg_shl_s 306VQSHL_U_2sh 1111 001 1 1 . ...... .... 0111 . . . 1 .... @2reg_shl_h 307VQSHL_U_2sh 1111 001 1 1 . ...... .... 0111 . . . 1 .... @2reg_shl_b 308 309VSHRN_64_2sh 1111 001 0 1 . ...... .... 1000 . 0 . 1 .... @2reg_shrn_d 310VSHRN_32_2sh 1111 001 0 1 . ...... .... 1000 . 0 . 1 .... @2reg_shrn_s 311VSHRN_16_2sh 1111 001 0 1 . ...... .... 1000 . 0 . 1 .... @2reg_shrn_h 312 313VRSHRN_64_2sh 1111 001 0 1 . ...... .... 1000 . 1 . 1 .... @2reg_shrn_d 314VRSHRN_32_2sh 1111 001 0 1 . ...... .... 1000 . 1 . 1 .... @2reg_shrn_s 315VRSHRN_16_2sh 1111 001 0 1 . ...... .... 1000 . 1 . 1 .... @2reg_shrn_h 316 317VQSHRUN_64_2sh 1111 001 1 1 . ...... .... 1000 . 0 . 1 .... @2reg_shrn_d 318VQSHRUN_32_2sh 1111 001 1 1 . ...... .... 1000 . 0 . 1 .... @2reg_shrn_s 319VQSHRUN_16_2sh 1111 001 1 1 . ...... .... 1000 . 0 . 1 .... @2reg_shrn_h 320 321VQRSHRUN_64_2sh 1111 001 1 1 . ...... .... 1000 . 1 . 1 .... @2reg_shrn_d 322VQRSHRUN_32_2sh 1111 001 1 1 . ...... .... 1000 . 1 . 1 .... @2reg_shrn_s 323VQRSHRUN_16_2sh 1111 001 1 1 . ...... .... 1000 . 1 . 1 .... @2reg_shrn_h 324 325# VQSHRN with signed input 326VQSHRN_S64_2sh 1111 001 0 1 . ...... .... 1001 . 0 . 1 .... @2reg_shrn_d 327VQSHRN_S32_2sh 1111 001 0 1 . ...... .... 1001 . 0 . 1 .... @2reg_shrn_s 328VQSHRN_S16_2sh 1111 001 0 1 . ...... .... 1001 . 0 . 1 .... @2reg_shrn_h 329 330# VQRSHRN with signed input 331VQRSHRN_S64_2sh 1111 001 0 1 . ...... .... 1001 . 1 . 1 .... @2reg_shrn_d 332VQRSHRN_S32_2sh 1111 001 0 1 . ...... .... 1001 . 1 . 1 .... @2reg_shrn_s 333VQRSHRN_S16_2sh 1111 001 0 1 . ...... .... 1001 . 1 . 1 .... @2reg_shrn_h 334 335# VQSHRN with unsigned input 336VQSHRN_U64_2sh 1111 001 1 1 . ...... .... 1001 . 0 . 1 .... @2reg_shrn_d 337VQSHRN_U32_2sh 1111 001 1 1 . ...... .... 1001 . 0 . 1 .... @2reg_shrn_s 338VQSHRN_U16_2sh 1111 001 1 1 . ...... .... 1001 . 0 . 1 .... @2reg_shrn_h 339 340# VQRSHRN with unsigned input 341VQRSHRN_U64_2sh 1111 001 1 1 . ...... .... 1001 . 1 . 1 .... @2reg_shrn_d 342VQRSHRN_U32_2sh 1111 001 1 1 . ...... .... 1001 . 1 . 1 .... @2reg_shrn_s 343VQRSHRN_U16_2sh 1111 001 1 1 . ...... .... 1001 . 1 . 1 .... @2reg_shrn_h 344 345VSHLL_S_2sh 1111 001 0 1 . ...... .... 1010 . 0 . 1 .... @2reg_shll_s 346VSHLL_S_2sh 1111 001 0 1 . ...... .... 1010 . 0 . 1 .... @2reg_shll_h 347VSHLL_S_2sh 1111 001 0 1 . ...... .... 1010 . 0 . 1 .... @2reg_shll_b 348 349VSHLL_U_2sh 1111 001 1 1 . ...... .... 1010 . 0 . 1 .... @2reg_shll_s 350VSHLL_U_2sh 1111 001 1 1 . ...... .... 1010 . 0 . 1 .... @2reg_shll_h 351VSHLL_U_2sh 1111 001 1 1 . ...... .... 1010 . 0 . 1 .... @2reg_shll_b 352 353# VCVT fixed<->float conversions 354VCVT_SH_2sh 1111 001 0 1 . ...... .... 1100 0 . . 1 .... @2reg_vcvt_f16 355VCVT_UH_2sh 1111 001 1 1 . ...... .... 1100 0 . . 1 .... @2reg_vcvt_f16 356VCVT_HS_2sh 1111 001 0 1 . ...... .... 1101 0 . . 1 .... @2reg_vcvt_f16 357VCVT_HU_2sh 1111 001 1 1 . ...... .... 1101 0 . . 1 .... @2reg_vcvt_f16 358 359VCVT_SF_2sh 1111 001 0 1 . ...... .... 1110 0 . . 1 .... @2reg_vcvt 360VCVT_UF_2sh 1111 001 1 1 . ...... .... 1110 0 . . 1 .... @2reg_vcvt 361VCVT_FS_2sh 1111 001 0 1 . ...... .... 1111 0 . . 1 .... @2reg_vcvt 362VCVT_FU_2sh 1111 001 1 1 . ...... .... 1111 0 . . 1 .... @2reg_vcvt 363 364###################################################################### 365# 1-reg-and-modified-immediate grouping: 366# 1111 001 i 1 D 000 imm:3 Vd:4 cmode:4 0 Q op 1 Vm:4 367###################################################################### 368 369&1reg_imm vd q imm cmode op 370 371%asimd_imm_value 24:1 16:3 0:4 372 373@1reg_imm .... ... . . . ... ... .... .... . q:1 . . .... \ 374 &1reg_imm imm=%asimd_imm_value vd=%vd_dp 375 376# The cmode/op bits here decode VORR/VBIC/VMOV/VMNV, but 377# not in a way we can conveniently represent in decodetree without 378# a lot of repetition: 379# VORR: op=0, (cmode & 1) && cmode < 12 380# VBIC: op=1, (cmode & 1) && cmode < 12 381# VMOV: everything else 382# So we have a single decode line and check the cmode/op in the 383# trans function. 384Vimm_1r 1111 001 . 1 . 000 ... .... cmode:4 0 . op:1 1 .... @1reg_imm 385 386###################################################################### 387# Within the "two registers, or three registers of different lengths" 388# grouping ([23,4]=0b10), bits [21:20] are either part of the opcode 389# decode: 0b11 for VEXT, two-reg-misc, VTBL, and duplicate-scalar; 390# or they are a size field for the three-reg-different-lengths and 391# two-reg-and-scalar insn groups (where size cannot be 0b11). This 392# is slightly awkward for decodetree: we handle it with this 393# non-exclusive group which contains within it two exclusive groups: 394# one for the size=0b11 patterns, and one for the size-not-0b11 395# patterns. This allows us to check that none of the insns within 396# each subgroup accidentally overlap each other. Note that all the 397# trans functions for the size-not-0b11 patterns must check and 398# return false for size==3. 399###################################################################### 400{ 401 [ 402 ################################################################## 403 # Miscellaneous size=0b11 insns 404 ################################################################## 405 VEXT 1111 001 0 1 . 11 .... .... imm:4 . q:1 . 0 .... \ 406 vm=%vm_dp vn=%vn_dp vd=%vd_dp 407 408 VTBL 1111 001 1 1 . 11 .... .... 10 len:2 . op:1 . 0 .... \ 409 vm=%vm_dp vn=%vn_dp vd=%vd_dp 410 411 VDUP_scalar 1111 001 1 1 . 11 index:3 1 .... 11 000 q:1 . 0 .... \ 412 vm=%vm_dp vd=%vd_dp size=0 413 VDUP_scalar 1111 001 1 1 . 11 index:2 10 .... 11 000 q:1 . 0 .... \ 414 vm=%vm_dp vd=%vd_dp size=1 415 VDUP_scalar 1111 001 1 1 . 11 index:1 100 .... 11 000 q:1 . 0 .... \ 416 vm=%vm_dp vd=%vd_dp size=2 417 418 ################################################################## 419 # 2-reg-misc grouping: 420 # 1111 001 11 D 11 size:2 opc1:2 Vd:4 0 opc2:4 q:1 M 0 Vm:4 421 ################################################################## 422 423 &2misc vd vm q size 424 425 @2misc .... ... .. . .. size:2 .. .... . .... q:1 . . .... \ 426 &2misc vm=%vm_dp vd=%vd_dp 427 @2misc_q0 .... ... .. . .. size:2 .. .... . .... . . . .... \ 428 &2misc vm=%vm_dp vd=%vd_dp q=0 429 @2misc_q1 .... ... .. . .. size:2 .. .... . .... . . . .... \ 430 &2misc vm=%vm_dp vd=%vd_dp q=1 431 432 VREV64 1111 001 11 . 11 .. 00 .... 0 0000 . . 0 .... @2misc 433 VREV32 1111 001 11 . 11 .. 00 .... 0 0001 . . 0 .... @2misc 434 VREV16 1111 001 11 . 11 .. 00 .... 0 0010 . . 0 .... @2misc 435 436 VPADDL_S 1111 001 11 . 11 .. 00 .... 0 0100 . . 0 .... @2misc 437 VPADDL_U 1111 001 11 . 11 .. 00 .... 0 0101 . . 0 .... @2misc 438 439 AESE 1111 001 11 . 11 .. 00 .... 0 0110 0 . 0 .... @2misc_q1 440 AESD 1111 001 11 . 11 .. 00 .... 0 0110 1 . 0 .... @2misc_q1 441 AESMC 1111 001 11 . 11 .. 00 .... 0 0111 0 . 0 .... @2misc_q1 442 AESIMC 1111 001 11 . 11 .. 00 .... 0 0111 1 . 0 .... @2misc_q1 443 444 VCLS 1111 001 11 . 11 .. 00 .... 0 1000 . . 0 .... @2misc 445 VCLZ 1111 001 11 . 11 .. 00 .... 0 1001 . . 0 .... @2misc 446 VCNT 1111 001 11 . 11 .. 00 .... 0 1010 . . 0 .... @2misc 447 448 VMVN 1111 001 11 . 11 .. 00 .... 0 1011 . . 0 .... @2misc 449 450 VPADAL_S 1111 001 11 . 11 .. 00 .... 0 1100 . . 0 .... @2misc 451 VPADAL_U 1111 001 11 . 11 .. 00 .... 0 1101 . . 0 .... @2misc 452 453 VQABS 1111 001 11 . 11 .. 00 .... 0 1110 . . 0 .... @2misc 454 VQNEG 1111 001 11 . 11 .. 00 .... 0 1111 . . 0 .... @2misc 455 456 VCGT0 1111 001 11 . 11 .. 01 .... 0 0000 . . 0 .... @2misc 457 VCGE0 1111 001 11 . 11 .. 01 .... 0 0001 . . 0 .... @2misc 458 VCEQ0 1111 001 11 . 11 .. 01 .... 0 0010 . . 0 .... @2misc 459 VCLE0 1111 001 11 . 11 .. 01 .... 0 0011 . . 0 .... @2misc 460 VCLT0 1111 001 11 . 11 .. 01 .... 0 0100 . . 0 .... @2misc 461 462 SHA1H 1111 001 11 . 11 .. 01 .... 0 0101 1 . 0 .... @2misc_q1 463 464 VABS 1111 001 11 . 11 .. 01 .... 0 0110 . . 0 .... @2misc 465 VNEG 1111 001 11 . 11 .. 01 .... 0 0111 . . 0 .... @2misc 466 467 VCGT0_F 1111 001 11 . 11 .. 01 .... 0 1000 . . 0 .... @2misc 468 VCGE0_F 1111 001 11 . 11 .. 01 .... 0 1001 . . 0 .... @2misc 469 VCEQ0_F 1111 001 11 . 11 .. 01 .... 0 1010 . . 0 .... @2misc 470 VCLE0_F 1111 001 11 . 11 .. 01 .... 0 1011 . . 0 .... @2misc 471 VCLT0_F 1111 001 11 . 11 .. 01 .... 0 1100 . . 0 .... @2misc 472 473 VABS_F 1111 001 11 . 11 .. 01 .... 0 1110 . . 0 .... @2misc 474 VNEG_F 1111 001 11 . 11 .. 01 .... 0 1111 . . 0 .... @2misc 475 476 VSWP 1111 001 11 . 11 .. 10 .... 0 0000 . . 0 .... @2misc 477 VTRN 1111 001 11 . 11 .. 10 .... 0 0001 . . 0 .... @2misc 478 VUZP 1111 001 11 . 11 .. 10 .... 0 0010 . . 0 .... @2misc 479 VZIP 1111 001 11 . 11 .. 10 .... 0 0011 . . 0 .... @2misc 480 481 VMOVN 1111 001 11 . 11 .. 10 .... 0 0100 0 . 0 .... @2misc_q0 482 # VQMOVUN: unsigned result (source is always signed) 483 VQMOVUN 1111 001 11 . 11 .. 10 .... 0 0100 1 . 0 .... @2misc_q0 484 # VQMOVN: signed result, source may be signed (_S) or unsigned (_U) 485 VQMOVN_S 1111 001 11 . 11 .. 10 .... 0 0101 0 . 0 .... @2misc_q0 486 VQMOVN_U 1111 001 11 . 11 .. 10 .... 0 0101 1 . 0 .... @2misc_q0 487 488 VSHLL 1111 001 11 . 11 .. 10 .... 0 0110 0 . 0 .... @2misc_q0 489 490 SHA1SU1 1111 001 11 . 11 .. 10 .... 0 0111 0 . 0 .... @2misc_q1 491 SHA256SU0 1111 001 11 . 11 .. 10 .... 0 0111 1 . 0 .... @2misc_q1 492 493 VRINTN 1111 001 11 . 11 .. 10 .... 0 1000 . . 0 .... @2misc 494 VRINTX 1111 001 11 . 11 .. 10 .... 0 1001 . . 0 .... @2misc 495 VRINTA 1111 001 11 . 11 .. 10 .... 0 1010 . . 0 .... @2misc 496 VRINTZ 1111 001 11 . 11 .. 10 .... 0 1011 . . 0 .... @2misc 497 498 VCVT_F16_F32 1111 001 11 . 11 .. 10 .... 0 1100 0 . 0 .... @2misc_q0 499 VCVT_B16_F32 1111 001 11 . 11 .. 10 .... 0 1100 1 . 0 .... @2misc_q0 500 501 VRINTM 1111 001 11 . 11 .. 10 .... 0 1101 . . 0 .... @2misc 502 503 VCVT_F32_F16 1111 001 11 . 11 .. 10 .... 0 1110 0 . 0 .... @2misc_q0 504 505 VRINTP 1111 001 11 . 11 .. 10 .... 0 1111 . . 0 .... @2misc 506 507 VCVTAS 1111 001 11 . 11 .. 11 .... 0 0000 . . 0 .... @2misc 508 VCVTAU 1111 001 11 . 11 .. 11 .... 0 0001 . . 0 .... @2misc 509 VCVTNS 1111 001 11 . 11 .. 11 .... 0 0010 . . 0 .... @2misc 510 VCVTNU 1111 001 11 . 11 .. 11 .... 0 0011 . . 0 .... @2misc 511 VCVTPS 1111 001 11 . 11 .. 11 .... 0 0100 . . 0 .... @2misc 512 VCVTPU 1111 001 11 . 11 .. 11 .... 0 0101 . . 0 .... @2misc 513 VCVTMS 1111 001 11 . 11 .. 11 .... 0 0110 . . 0 .... @2misc 514 VCVTMU 1111 001 11 . 11 .. 11 .... 0 0111 . . 0 .... @2misc 515 516 VRECPE 1111 001 11 . 11 .. 11 .... 0 1000 . . 0 .... @2misc 517 VRSQRTE 1111 001 11 . 11 .. 11 .... 0 1001 . . 0 .... @2misc 518 VRECPE_F 1111 001 11 . 11 .. 11 .... 0 1010 . . 0 .... @2misc 519 VRSQRTE_F 1111 001 11 . 11 .. 11 .... 0 1011 . . 0 .... @2misc 520 VCVT_FS 1111 001 11 . 11 .. 11 .... 0 1100 . . 0 .... @2misc 521 VCVT_FU 1111 001 11 . 11 .. 11 .... 0 1101 . . 0 .... @2misc 522 VCVT_SF 1111 001 11 . 11 .. 11 .... 0 1110 . . 0 .... @2misc 523 VCVT_UF 1111 001 11 . 11 .. 11 .... 0 1111 . . 0 .... @2misc 524 ] 525 526 # Subgroup for size != 0b11 527 [ 528 ################################################################## 529 # 3-reg-different-length grouping: 530 # 1111 001 U 1 D sz!=11 Vn:4 Vd:4 opc:4 N 0 M 0 Vm:4 531 ################################################################## 532 533 &3diff vm vn vd size 534 535 @3diff .... ... . . . size:2 .... .... .... . . . . .... \ 536 &3diff vm=%vm_dp vn=%vn_dp vd=%vd_dp 537 538 VADDL_S_3d 1111 001 0 1 . .. .... .... 0000 . 0 . 0 .... @3diff 539 VADDL_U_3d 1111 001 1 1 . .. .... .... 0000 . 0 . 0 .... @3diff 540 541 VADDW_S_3d 1111 001 0 1 . .. .... .... 0001 . 0 . 0 .... @3diff 542 VADDW_U_3d 1111 001 1 1 . .. .... .... 0001 . 0 . 0 .... @3diff 543 544 VSUBL_S_3d 1111 001 0 1 . .. .... .... 0010 . 0 . 0 .... @3diff 545 VSUBL_U_3d 1111 001 1 1 . .. .... .... 0010 . 0 . 0 .... @3diff 546 547 VSUBW_S_3d 1111 001 0 1 . .. .... .... 0011 . 0 . 0 .... @3diff 548 VSUBW_U_3d 1111 001 1 1 . .. .... .... 0011 . 0 . 0 .... @3diff 549 550 VADDHN_3d 1111 001 0 1 . .. .... .... 0100 . 0 . 0 .... @3diff 551 VRADDHN_3d 1111 001 1 1 . .. .... .... 0100 . 0 . 0 .... @3diff 552 553 VABAL_S_3d 1111 001 0 1 . .. .... .... 0101 . 0 . 0 .... @3diff 554 VABAL_U_3d 1111 001 1 1 . .. .... .... 0101 . 0 . 0 .... @3diff 555 556 VSUBHN_3d 1111 001 0 1 . .. .... .... 0110 . 0 . 0 .... @3diff 557 VRSUBHN_3d 1111 001 1 1 . .. .... .... 0110 . 0 . 0 .... @3diff 558 559 VABDL_S_3d 1111 001 0 1 . .. .... .... 0111 . 0 . 0 .... @3diff 560 VABDL_U_3d 1111 001 1 1 . .. .... .... 0111 . 0 . 0 .... @3diff 561 562 VMLAL_S_3d 1111 001 0 1 . .. .... .... 1000 . 0 . 0 .... @3diff 563 VMLAL_U_3d 1111 001 1 1 . .. .... .... 1000 . 0 . 0 .... @3diff 564 565 VQDMLAL_3d 1111 001 0 1 . .. .... .... 1001 . 0 . 0 .... @3diff 566 567 VMLSL_S_3d 1111 001 0 1 . .. .... .... 1010 . 0 . 0 .... @3diff 568 VMLSL_U_3d 1111 001 1 1 . .. .... .... 1010 . 0 . 0 .... @3diff 569 570 VQDMLSL_3d 1111 001 0 1 . .. .... .... 1011 . 0 . 0 .... @3diff 571 572 VMULL_S_3d 1111 001 0 1 . .. .... .... 1100 . 0 . 0 .... @3diff 573 VMULL_U_3d 1111 001 1 1 . .. .... .... 1100 . 0 . 0 .... @3diff 574 575 VQDMULL_3d 1111 001 0 1 . .. .... .... 1101 . 0 . 0 .... @3diff 576 577 VMULL_P_3d 1111 001 0 1 . .. .... .... 1110 . 0 . 0 .... @3diff 578 579 ################################################################## 580 # 2-regs-plus-scalar grouping: 581 # 1111 001 Q 1 D sz!=11 Vn:4 Vd:4 opc:4 N 1 M 0 Vm:4 582 ################################################################## 583 &2scalar vm vn vd size q 584 585 @2scalar .... ... q:1 . . size:2 .... .... .... . . . . .... \ 586 &2scalar vm=%vm_dp vn=%vn_dp vd=%vd_dp 587 # For the 'long' ops the Q bit is part of insn decode 588 @2scalar_q0 .... ... . . . size:2 .... .... .... . . . . .... \ 589 &2scalar vm=%vm_dp vn=%vn_dp vd=%vd_dp q=0 590 591 VMLA_2sc 1111 001 . 1 . .. .... .... 0000 . 1 . 0 .... @2scalar 592 VMLA_F_2sc 1111 001 . 1 . .. .... .... 0001 . 1 . 0 .... @2scalar 593 594 VMLAL_S_2sc 1111 001 0 1 . .. .... .... 0010 . 1 . 0 .... @2scalar_q0 595 VMLAL_U_2sc 1111 001 1 1 . .. .... .... 0010 . 1 . 0 .... @2scalar_q0 596 597 VQDMLAL_2sc 1111 001 0 1 . .. .... .... 0011 . 1 . 0 .... @2scalar_q0 598 599 VMLS_2sc 1111 001 . 1 . .. .... .... 0100 . 1 . 0 .... @2scalar 600 VMLS_F_2sc 1111 001 . 1 . .. .... .... 0101 . 1 . 0 .... @2scalar 601 602 VMLSL_S_2sc 1111 001 0 1 . .. .... .... 0110 . 1 . 0 .... @2scalar_q0 603 VMLSL_U_2sc 1111 001 1 1 . .. .... .... 0110 . 1 . 0 .... @2scalar_q0 604 605 VQDMLSL_2sc 1111 001 0 1 . .. .... .... 0111 . 1 . 0 .... @2scalar_q0 606 607 VMUL_2sc 1111 001 . 1 . .. .... .... 1000 . 1 . 0 .... @2scalar 608 VMUL_F_2sc 1111 001 . 1 . .. .... .... 1001 . 1 . 0 .... @2scalar 609 610 VMULL_S_2sc 1111 001 0 1 . .. .... .... 1010 . 1 . 0 .... @2scalar_q0 611 VMULL_U_2sc 1111 001 1 1 . .. .... .... 1010 . 1 . 0 .... @2scalar_q0 612 613 VQDMULL_2sc 1111 001 0 1 . .. .... .... 1011 . 1 . 0 .... @2scalar_q0 614 615 VQDMULH_2sc 1111 001 . 1 . .. .... .... 1100 . 1 . 0 .... @2scalar 616 VQRDMULH_2sc 1111 001 . 1 . .. .... .... 1101 . 1 . 0 .... @2scalar 617 618 VQRDMLAH_2sc 1111 001 . 1 . .. .... .... 1110 . 1 . 0 .... @2scalar 619 VQRDMLSH_2sc 1111 001 . 1 . .. .... .... 1111 . 1 . 0 .... @2scalar 620 ] 621} 622