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374 lines
11 KiB
C
374 lines
11 KiB
C
/*
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* AArch64 SME translation
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*
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* Copyright (c) 2022 Linaro, Ltd
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, see <http://www.gnu.org/licenses/>.
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*/
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#include "qemu/osdep.h"
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#include "cpu.h"
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#include "tcg/tcg-op.h"
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#include "tcg/tcg-op-gvec.h"
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#include "tcg/tcg-gvec-desc.h"
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#include "translate.h"
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#include "exec/helper-gen.h"
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#include "translate-a64.h"
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#include "fpu/softfloat.h"
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/*
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* Include the generated decoder.
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*/
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#include "decode-sme.c.inc"
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/*
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* Resolve tile.size[index] to a host pointer, where tile and index
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* are always decoded together, dependent on the element size.
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*/
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static TCGv_ptr get_tile_rowcol(DisasContext *s, int esz, int rs,
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int tile_index, bool vertical)
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{
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int tile = tile_index >> (4 - esz);
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int index = esz == MO_128 ? 0 : extract32(tile_index, 0, 4 - esz);
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int pos, len, offset;
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TCGv_i32 tmp;
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TCGv_ptr addr;
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/* Compute the final index, which is Rs+imm. */
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tmp = tcg_temp_new_i32();
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tcg_gen_trunc_tl_i32(tmp, cpu_reg(s, rs));
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tcg_gen_addi_i32(tmp, tmp, index);
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/* Prepare a power-of-two modulo via extraction of @len bits. */
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len = ctz32(streaming_vec_reg_size(s)) - esz;
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if (vertical) {
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/*
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* Compute the byte offset of the index within the tile:
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* (index % (svl / size)) * size
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* = (index % (svl >> esz)) << esz
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* Perform the power-of-two modulo via extraction of the low @len bits.
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* Perform the multiply by shifting left by @pos bits.
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* Perform these operations simultaneously via deposit into zero.
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*/
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pos = esz;
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tcg_gen_deposit_z_i32(tmp, tmp, pos, len);
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/*
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* For big-endian, adjust the indexed column byte offset within
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* the uint64_t host words that make up env->zarray[].
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*/
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if (HOST_BIG_ENDIAN && esz < MO_64) {
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tcg_gen_xori_i32(tmp, tmp, 8 - (1 << esz));
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}
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} else {
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/*
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* Compute the byte offset of the index within the tile:
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* (index % (svl / size)) * (size * sizeof(row))
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* = (index % (svl >> esz)) << (esz + log2(sizeof(row)))
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*/
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pos = esz + ctz32(sizeof(ARMVectorReg));
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tcg_gen_deposit_z_i32(tmp, tmp, pos, len);
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/* Row slices are always aligned and need no endian adjustment. */
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}
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/* The tile byte offset within env->zarray is the row. */
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offset = tile * sizeof(ARMVectorReg);
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/* Include the byte offset of zarray to make this relative to env. */
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offset += offsetof(CPUARMState, zarray);
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tcg_gen_addi_i32(tmp, tmp, offset);
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/* Add the byte offset to env to produce the final pointer. */
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addr = tcg_temp_new_ptr();
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tcg_gen_ext_i32_ptr(addr, tmp);
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tcg_temp_free_i32(tmp);
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tcg_gen_add_ptr(addr, addr, cpu_env);
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return addr;
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}
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static bool trans_ZERO(DisasContext *s, arg_ZERO *a)
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{
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if (!dc_isar_feature(aa64_sme, s)) {
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return false;
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}
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if (sme_za_enabled_check(s)) {
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gen_helper_sme_zero(cpu_env, tcg_constant_i32(a->imm),
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tcg_constant_i32(streaming_vec_reg_size(s)));
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}
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return true;
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}
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static bool trans_MOVA(DisasContext *s, arg_MOVA *a)
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{
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static gen_helper_gvec_4 * const h_fns[5] = {
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gen_helper_sve_sel_zpzz_b, gen_helper_sve_sel_zpzz_h,
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gen_helper_sve_sel_zpzz_s, gen_helper_sve_sel_zpzz_d,
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gen_helper_sve_sel_zpzz_q
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};
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static gen_helper_gvec_3 * const cz_fns[5] = {
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gen_helper_sme_mova_cz_b, gen_helper_sme_mova_cz_h,
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gen_helper_sme_mova_cz_s, gen_helper_sme_mova_cz_d,
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gen_helper_sme_mova_cz_q,
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};
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static gen_helper_gvec_3 * const zc_fns[5] = {
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gen_helper_sme_mova_zc_b, gen_helper_sme_mova_zc_h,
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gen_helper_sme_mova_zc_s, gen_helper_sme_mova_zc_d,
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gen_helper_sme_mova_zc_q,
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};
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TCGv_ptr t_za, t_zr, t_pg;
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TCGv_i32 t_desc;
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int svl;
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if (!dc_isar_feature(aa64_sme, s)) {
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return false;
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}
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if (!sme_smza_enabled_check(s)) {
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return true;
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}
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t_za = get_tile_rowcol(s, a->esz, a->rs, a->za_imm, a->v);
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t_zr = vec_full_reg_ptr(s, a->zr);
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t_pg = pred_full_reg_ptr(s, a->pg);
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svl = streaming_vec_reg_size(s);
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t_desc = tcg_constant_i32(simd_desc(svl, svl, 0));
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if (a->v) {
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/* Vertical slice -- use sme mova helpers. */
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if (a->to_vec) {
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zc_fns[a->esz](t_zr, t_za, t_pg, t_desc);
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} else {
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cz_fns[a->esz](t_za, t_zr, t_pg, t_desc);
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}
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} else {
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/* Horizontal slice -- reuse sve sel helpers. */
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if (a->to_vec) {
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h_fns[a->esz](t_zr, t_za, t_zr, t_pg, t_desc);
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} else {
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h_fns[a->esz](t_za, t_zr, t_za, t_pg, t_desc);
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}
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}
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tcg_temp_free_ptr(t_za);
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tcg_temp_free_ptr(t_zr);
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tcg_temp_free_ptr(t_pg);
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return true;
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}
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static bool trans_LDST1(DisasContext *s, arg_LDST1 *a)
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{
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typedef void GenLdSt1(TCGv_env, TCGv_ptr, TCGv_ptr, TCGv, TCGv_i32);
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/*
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* Indexed by [esz][be][v][mte][st], which is (except for load/store)
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* also the order in which the elements appear in the function names,
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* and so how we must concatenate the pieces.
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*/
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#define FN_LS(F) { gen_helper_sme_ld1##F, gen_helper_sme_st1##F }
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#define FN_MTE(F) { FN_LS(F), FN_LS(F##_mte) }
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#define FN_HV(F) { FN_MTE(F##_h), FN_MTE(F##_v) }
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#define FN_END(L, B) { FN_HV(L), FN_HV(B) }
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static GenLdSt1 * const fns[5][2][2][2][2] = {
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FN_END(b, b),
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FN_END(h_le, h_be),
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FN_END(s_le, s_be),
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FN_END(d_le, d_be),
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FN_END(q_le, q_be),
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};
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#undef FN_LS
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#undef FN_MTE
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#undef FN_HV
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#undef FN_END
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TCGv_ptr t_za, t_pg;
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TCGv_i64 addr;
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int svl, desc = 0;
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bool be = s->be_data == MO_BE;
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bool mte = s->mte_active[0];
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if (!dc_isar_feature(aa64_sme, s)) {
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return false;
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}
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if (!sme_smza_enabled_check(s)) {
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return true;
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}
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t_za = get_tile_rowcol(s, a->esz, a->rs, a->za_imm, a->v);
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t_pg = pred_full_reg_ptr(s, a->pg);
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addr = tcg_temp_new_i64();
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tcg_gen_shli_i64(addr, cpu_reg(s, a->rm), a->esz);
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tcg_gen_add_i64(addr, addr, cpu_reg_sp(s, a->rn));
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if (mte) {
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desc = FIELD_DP32(desc, MTEDESC, MIDX, get_mem_index(s));
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desc = FIELD_DP32(desc, MTEDESC, TBI, s->tbid);
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desc = FIELD_DP32(desc, MTEDESC, TCMA, s->tcma);
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desc = FIELD_DP32(desc, MTEDESC, WRITE, a->st);
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desc = FIELD_DP32(desc, MTEDESC, SIZEM1, (1 << a->esz) - 1);
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desc <<= SVE_MTEDESC_SHIFT;
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} else {
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addr = clean_data_tbi(s, addr);
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}
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svl = streaming_vec_reg_size(s);
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desc = simd_desc(svl, svl, desc);
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fns[a->esz][be][a->v][mte][a->st](cpu_env, t_za, t_pg, addr,
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tcg_constant_i32(desc));
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tcg_temp_free_ptr(t_za);
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tcg_temp_free_ptr(t_pg);
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tcg_temp_free_i64(addr);
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return true;
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}
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typedef void GenLdStR(DisasContext *, TCGv_ptr, int, int, int, int);
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static bool do_ldst_r(DisasContext *s, arg_ldstr *a, GenLdStR *fn)
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{
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int svl = streaming_vec_reg_size(s);
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int imm = a->imm;
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TCGv_ptr base;
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if (!sme_za_enabled_check(s)) {
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return true;
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}
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/* ZA[n] equates to ZA0H.B[n]. */
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base = get_tile_rowcol(s, MO_8, a->rv, imm, false);
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fn(s, base, 0, svl, a->rn, imm * svl);
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tcg_temp_free_ptr(base);
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return true;
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}
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TRANS_FEAT(LDR, aa64_sme, do_ldst_r, a, gen_sve_ldr)
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TRANS_FEAT(STR, aa64_sme, do_ldst_r, a, gen_sve_str)
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static bool do_adda(DisasContext *s, arg_adda *a, MemOp esz,
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gen_helper_gvec_4 *fn)
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{
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int svl = streaming_vec_reg_size(s);
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uint32_t desc = simd_desc(svl, svl, 0);
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TCGv_ptr za, zn, pn, pm;
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if (!sme_smza_enabled_check(s)) {
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return true;
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}
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/* Sum XZR+zad to find ZAd. */
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za = get_tile_rowcol(s, esz, 31, a->zad, false);
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zn = vec_full_reg_ptr(s, a->zn);
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pn = pred_full_reg_ptr(s, a->pn);
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pm = pred_full_reg_ptr(s, a->pm);
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fn(za, zn, pn, pm, tcg_constant_i32(desc));
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tcg_temp_free_ptr(za);
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tcg_temp_free_ptr(zn);
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tcg_temp_free_ptr(pn);
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tcg_temp_free_ptr(pm);
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return true;
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}
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TRANS_FEAT(ADDHA_s, aa64_sme, do_adda, a, MO_32, gen_helper_sme_addha_s)
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TRANS_FEAT(ADDVA_s, aa64_sme, do_adda, a, MO_32, gen_helper_sme_addva_s)
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TRANS_FEAT(ADDHA_d, aa64_sme_i16i64, do_adda, a, MO_64, gen_helper_sme_addha_d)
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TRANS_FEAT(ADDVA_d, aa64_sme_i16i64, do_adda, a, MO_64, gen_helper_sme_addva_d)
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static bool do_outprod(DisasContext *s, arg_op *a, MemOp esz,
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gen_helper_gvec_5 *fn)
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{
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int svl = streaming_vec_reg_size(s);
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uint32_t desc = simd_desc(svl, svl, a->sub);
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TCGv_ptr za, zn, zm, pn, pm;
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if (!sme_smza_enabled_check(s)) {
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return true;
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}
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/* Sum XZR+zad to find ZAd. */
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za = get_tile_rowcol(s, esz, 31, a->zad, false);
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zn = vec_full_reg_ptr(s, a->zn);
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zm = vec_full_reg_ptr(s, a->zm);
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pn = pred_full_reg_ptr(s, a->pn);
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pm = pred_full_reg_ptr(s, a->pm);
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fn(za, zn, zm, pn, pm, tcg_constant_i32(desc));
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tcg_temp_free_ptr(za);
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tcg_temp_free_ptr(zn);
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tcg_temp_free_ptr(pn);
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tcg_temp_free_ptr(pm);
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return true;
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}
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static bool do_outprod_fpst(DisasContext *s, arg_op *a, MemOp esz,
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gen_helper_gvec_5_ptr *fn)
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{
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int svl = streaming_vec_reg_size(s);
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uint32_t desc = simd_desc(svl, svl, a->sub);
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TCGv_ptr za, zn, zm, pn, pm, fpst;
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if (!sme_smza_enabled_check(s)) {
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return true;
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}
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/* Sum XZR+zad to find ZAd. */
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za = get_tile_rowcol(s, esz, 31, a->zad, false);
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zn = vec_full_reg_ptr(s, a->zn);
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zm = vec_full_reg_ptr(s, a->zm);
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pn = pred_full_reg_ptr(s, a->pn);
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pm = pred_full_reg_ptr(s, a->pm);
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fpst = fpstatus_ptr(FPST_FPCR);
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fn(za, zn, zm, pn, pm, fpst, tcg_constant_i32(desc));
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tcg_temp_free_ptr(za);
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tcg_temp_free_ptr(zn);
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tcg_temp_free_ptr(pn);
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tcg_temp_free_ptr(pm);
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tcg_temp_free_ptr(fpst);
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return true;
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}
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TRANS_FEAT(FMOPA_h, aa64_sme, do_outprod_fpst, a, MO_32, gen_helper_sme_fmopa_h)
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TRANS_FEAT(FMOPA_s, aa64_sme, do_outprod_fpst, a, MO_32, gen_helper_sme_fmopa_s)
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TRANS_FEAT(FMOPA_d, aa64_sme_f64f64, do_outprod_fpst, a, MO_64, gen_helper_sme_fmopa_d)
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/* TODO: FEAT_EBF16 */
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TRANS_FEAT(BFMOPA, aa64_sme, do_outprod, a, MO_32, gen_helper_sme_bfmopa)
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TRANS_FEAT(SMOPA_s, aa64_sme, do_outprod, a, MO_32, gen_helper_sme_smopa_s)
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TRANS_FEAT(UMOPA_s, aa64_sme, do_outprod, a, MO_32, gen_helper_sme_umopa_s)
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TRANS_FEAT(SUMOPA_s, aa64_sme, do_outprod, a, MO_32, gen_helper_sme_sumopa_s)
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TRANS_FEAT(USMOPA_s, aa64_sme, do_outprod, a, MO_32, gen_helper_sme_usmopa_s)
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TRANS_FEAT(SMOPA_d, aa64_sme_i16i64, do_outprod, a, MO_64, gen_helper_sme_smopa_d)
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TRANS_FEAT(UMOPA_d, aa64_sme_i16i64, do_outprod, a, MO_64, gen_helper_sme_umopa_d)
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TRANS_FEAT(SUMOPA_d, aa64_sme_i16i64, do_outprod, a, MO_64, gen_helper_sme_sumopa_d)
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TRANS_FEAT(USMOPA_d, aa64_sme_i16i64, do_outprod, a, MO_64, gen_helper_sme_usmopa_d)
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