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qemu/target/hexagon/gen_tcg.h
Taylor Simpson 6542aa2eb1 Hexagon (target/hexagon) TCG for instructions with multiple definitions 
Helpers won't work if there are multiple definitions, so we override these
instructions using #define fGEN_TCG_<tag>.

Signed-off-by: Taylor Simpson <tsimpson@quicinc.com>
Message-Id: <1612763186-18161-28-git-send-email-tsimpson@quicinc.com>
Signed-off-by: Richard Henderson <richard.henderson@linaro.org>
2021-02-18 07:48:22 -08:00

199 lines
7.7 KiB
C
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/*
* Copyright(c) 2019-2021 Qualcomm Innovation Center, Inc. All Rights Reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <http://www.gnu.org/licenses/>.
*/
#ifndef HEXAGON_GEN_TCG_H
#define HEXAGON_GEN_TCG_H
/*
* Here is a primer to understand the tag names for load/store instructions
*
* Data types
* b signed byte r0 = memb(r2+#0)
* ub unsigned byte r0 = memub(r2+#0)
* h signed half word (16 bits) r0 = memh(r2+#0)
* uh unsigned half word r0 = memuh(r2+#0)
* i integer (32 bits) r0 = memw(r2+#0)
* d double word (64 bits) r1:0 = memd(r2+#0)
*
* Addressing modes
* _io indirect with offset r0 = memw(r1+#4)
* _ur absolute with register offset r0 = memw(r1<<#4+##variable)
* _rr indirect with register offset r0 = memw(r1+r4<<#2)
* gp global pointer relative r0 = memw(gp+#200)
* _sp stack pointer relative r0 = memw(r29+#12)
* _ap absolute set r0 = memw(r1=##variable)
* _pr post increment register r0 = memw(r1++m1)
* _pi post increment immediate r0 = memb(r1++#1)
*/
/* Macros for complex addressing modes */
#define GET_EA_ap \
do { \
fEA_IMM(UiV); \
tcg_gen_movi_tl(ReV, UiV); \
} while (0)
#define GET_EA_pr \
do { \
fEA_REG(RxV); \
fPM_M(RxV, MuV); \
} while (0)
#define GET_EA_pi \
do { \
fEA_REG(RxV); \
fPM_I(RxV, siV); \
} while (0)
/* Instructions with multiple definitions */
#define fGEN_TCG_LOAD_AP(RES, SIZE, SIGN) \
do { \
fMUST_IMMEXT(UiV); \
fEA_IMM(UiV); \
fLOAD(1, SIZE, SIGN, EA, RES); \
tcg_gen_movi_tl(ReV, UiV); \
} while (0)
#define fGEN_TCG_L4_loadrub_ap(SHORTCODE) \
fGEN_TCG_LOAD_AP(RdV, 1, u)
#define fGEN_TCG_L4_loadrb_ap(SHORTCODE) \
fGEN_TCG_LOAD_AP(RdV, 1, s)
#define fGEN_TCG_L4_loadruh_ap(SHORTCODE) \
fGEN_TCG_LOAD_AP(RdV, 2, u)
#define fGEN_TCG_L4_loadrh_ap(SHORTCODE) \
fGEN_TCG_LOAD_AP(RdV, 2, s)
#define fGEN_TCG_L4_loadri_ap(SHORTCODE) \
fGEN_TCG_LOAD_AP(RdV, 4, u)
#define fGEN_TCG_L4_loadrd_ap(SHORTCODE) \
fGEN_TCG_LOAD_AP(RddV, 8, u)
#define fGEN_TCG_L2_loadrub_pr(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadrub_pi(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadrb_pr(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadrb_pi(SHORTCODE) SHORTCODE;
#define fGEN_TCG_L2_loadruh_pr(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadruh_pi(SHORTCODE) SHORTCODE;
#define fGEN_TCG_L2_loadrh_pr(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadrh_pi(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadri_pr(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadri_pi(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadrd_pr(SHORTCODE) SHORTCODE
#define fGEN_TCG_L2_loadrd_pi(SHORTCODE) SHORTCODE
/*
* Predicated loads
* Here is a primer to understand the tag names
*
* Predicate used
* t true "old" value if (p0) r0 = memb(r2+#0)
* f false "old" value if (!p0) r0 = memb(r2+#0)
* tnew true "new" value if (p0.new) r0 = memb(r2+#0)
* fnew false "new" value if (!p0.new) r0 = memb(r2+#0)
*/
#define fGEN_TCG_PRED_LOAD(GET_EA, PRED, SIZE, SIGN) \
do { \
TCGv LSB = tcg_temp_local_new(); \
TCGLabel *label = gen_new_label(); \
GET_EA; \
PRED; \
PRED_LOAD_CANCEL(LSB, EA); \
tcg_gen_movi_tl(RdV, 0); \
tcg_gen_brcondi_tl(TCG_COND_EQ, LSB, 0, label); \
fLOAD(1, SIZE, SIGN, EA, RdV); \
gen_set_label(label); \
tcg_temp_free(LSB); \
} while (0)
#define fGEN_TCG_L2_ploadrubt_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLD(PtV), 1, u)
#define fGEN_TCG_L2_ploadrubf_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLDNOT(PtV), 1, u)
#define fGEN_TCG_L2_ploadrubtnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEW(PtN), 1, u)
#define fGEN_TCG_L2_ploadrubfnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEWNOT(PtN), 1, u)
#define fGEN_TCG_L2_ploadrbt_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLD(PtV), 1, s)
#define fGEN_TCG_L2_ploadrbf_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLDNOT(PtV), 1, s)
#define fGEN_TCG_L2_ploadrbtnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEW(PtN), 1, s)
#define fGEN_TCG_L2_ploadrbfnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD({ fEA_REG(RxV); fPM_I(RxV, siV); }, \
fLSBNEWNOT(PtN), 1, s)
#define fGEN_TCG_L2_ploadruht_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLD(PtV), 2, u)
#define fGEN_TCG_L2_ploadruhf_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLDNOT(PtV), 2, u)
#define fGEN_TCG_L2_ploadruhtnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEW(PtN), 2, u)
#define fGEN_TCG_L2_ploadruhfnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEWNOT(PtN), 2, u)
#define fGEN_TCG_L2_ploadrht_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLD(PtV), 2, s)
#define fGEN_TCG_L2_ploadrhf_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLDNOT(PtV), 2, s)
#define fGEN_TCG_L2_ploadrhtnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEW(PtN), 2, s)
#define fGEN_TCG_L2_ploadrhfnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEWNOT(PtN), 2, s)
#define fGEN_TCG_L2_ploadrit_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLD(PtV), 4, u)
#define fGEN_TCG_L2_ploadrif_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBOLDNOT(PtV), 4, u)
#define fGEN_TCG_L2_ploadritnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEW(PtN), 4, u)
#define fGEN_TCG_L2_ploadrifnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD(GET_EA_pi, fLSBNEWNOT(PtN), 4, u)
/* Predicated loads into a register pair */
#define fGEN_TCG_PRED_LOAD_PAIR(GET_EA, PRED) \
do { \
TCGv LSB = tcg_temp_local_new(); \
TCGLabel *label = gen_new_label(); \
GET_EA; \
PRED; \
PRED_LOAD_CANCEL(LSB, EA); \
tcg_gen_movi_i64(RddV, 0); \
tcg_gen_brcondi_tl(TCG_COND_EQ, LSB, 0, label); \
fLOAD(1, 8, u, EA, RddV); \
gen_set_label(label); \
tcg_temp_free(LSB); \
} while (0)
#define fGEN_TCG_L2_ploadrdt_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD_PAIR(GET_EA_pi, fLSBOLD(PtV))
#define fGEN_TCG_L2_ploadrdf_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD_PAIR(GET_EA_pi, fLSBOLDNOT(PtV))
#define fGEN_TCG_L2_ploadrdtnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD_PAIR(GET_EA_pi, fLSBNEW(PtN))
#define fGEN_TCG_L2_ploadrdfnew_pi(SHORTCODE) \
fGEN_TCG_PRED_LOAD_PAIR(GET_EA_pi, fLSBNEWNOT(PtN))
/* load-locked and store-locked */
#define fGEN_TCG_L2_loadw_locked(SHORTCODE) \
SHORTCODE
#define fGEN_TCG_L4_loadd_locked(SHORTCODE) \
SHORTCODE
#define fGEN_TCG_S2_storew_locked(SHORTCODE) \
do { SHORTCODE; READ_PREG(PdV, PdN); } while (0)
#define fGEN_TCG_S4_stored_locked(SHORTCODE) \
do { SHORTCODE; READ_PREG(PdV, PdN); } while (0)
#endif
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