// Simulator definition for the micromips DSP ASE. // Copyright (C) 2005-2020 Free Software Foundation, Inc. // Contributed by Imagination Technologies, Ltd. // Written by Andrew Bennett // // This file is part of the MIPS sim. // // 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 3 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 . 000000,5.RT,5.RS,0001000100,111100:POOL32A:32::ABSQ_S.PH "absq_s.ph r, r" *micromipsdsp: { do_ph_s_absq (SD_, RT, RS); } 000000,5.RT,5.RS,0000000100,111100:POOL32A:32::ABSQ_S.QB "absq_s.qb r, r" *micromipsdsp: { do_qb_s_absq (SD_, RT, RS); } 000000,5.RT,5.RS,0010000100,111100:POOL32A:32::ABSQ_S.W "absq_s.w r, r" *micromipsdsp: { do_w_s_absq (SD_, RT, RS); } 000000,5.RT,5.RS,5.RD,00000,001101:POOL32A:32::ADDQ.PH "addq.ph r, r, r" *micromipsdsp: { do_ph_op (SD_, RD, RS, RT, 0, 0); } 000000,5.RT,5.RS,5.RD,10000,001101:POOL32A:32::ADDQ_S.PH "addq_s.ph r, r, r" *micromipsdsp: { do_ph_op (SD_, RD, RS, RT, 0, 1); } 000000,5.RT,5.RS,5.RD,01100,000101:POOL32A:32::ADDQ_S.W "addq_s.w r, r, r" *micromipsdsp: { do_w_op (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,5.RD,00001,001101:POOL32A:32::ADDQH.PH "addqh.ph r, r, r" *micromipsdsp: { do_qh_ph_op (SD_, RD, RS, RT, 0, 0); } 000000,5.RT,5.RS,5.RD,10001,001101:POOL32A:32::ADDQH_R.PH "addqh_r.ph r, r, r" *micromipsdsp: { do_qh_ph_op (SD_, RD, RS, RT, 0, 1); } 000000,5.RT,5.RS,5.RD,00010,001101:POOL32A:32::ADDQH.W "addqh.w r, r, r" *micromipsdsp: { do_qh_w_op (SD_, RD, RS, RT, 0, 0); } 000000,5.RT,5.RS,5.RD,10010,001101:POOL32A:32::ADDQH_R.W "addqh_r.w r, r, r" *micromipsdsp: { do_qh_w_op (SD_, RD, RS, RT, 0, 1); } 000000,5.RT,5.RS,5.RD,01110,000101:POOL32A:32::ADDSC "addsc r, r, r" *micromipsdsp: { do_addsc (SD_, RD, RS, RT); } 000000,5.RT,5.RS,5.RD,00100,001101:POOL32A:32::ADDU.PH "addu.ph r, r, r" *micromipsdsp: { do_u_ph_op (SD_, RD, RS, RT, 0, 0); } 000000,5.RT,5.RS,5.RD,10100,001101:POOL32A:32::ADDU_S.PH "addu_s.ph r, r, r" *micromipsdsp: { do_u_ph_op (SD_, RD, RS, RT, 0, 1); } 000000,5.RT,5.RS,5.RD,00011,001101:POOL32A:32::ADDU.QB "addu.qb r, r, r" *micromipsdsp: { do_qb_op (SD_, RD, RS, RT, 0, 0); } 000000,5.RT,5.RS,5.RD,10011,001101:POOL32A:32::ADDU_S.QB "addu_s.qb r, r, r" *micromipsdsp: { do_qb_op (SD_, RD, RS, RT, 0, 1); } 000000,5.RT,5.RS,5.RD,01111,000101:POOL32A:32::ADDWC "addwc r, r, r" *micromipsdsp: { do_addwc (SD_, RD, RS, RT); } 000000,5.RT,5.RS,5.RD,00101,001101:POOL32A:32::ADDUH.QB "adduh.qb r, r, r" *micromipsdsp: { do_uh_qb_op (SD_, RD, RS, RT, 0, 0); } 000000,5.RT,5.RS,5.RD,10101,001101:POOL32A:32::ADDUH_R.QB "adduh_r.qb r, r, r" *micromipsdsp: { do_uh_qb_op (SD_, RD, RS, RT, 0, 1); } 000000,5.RT,5.RS,5.SA,01000,010101:POOL32A:32::APPEND "append r, r, " *micromipsdsp: { do_append (SD_, RT, RS, SA); } 000000,5.RT,5.RS,2.BP,00100010,111100:POOL32A:32::BALIGN "balign r, r, " *micromipsdsp: { do_balign (SD_, RT, RS, BP); } 000000,5.RT,5.RS,0011000100,111100:POOL32A:32::BITREV "bitrev r, r" *micromipsdsp: { do_bitrev (SD_, RT, RS); } 010000,1101100000,16.IMMEDIATE:POOL32I:32::BPOSGE32 "bposge32 " *micromipsdsp: { unsigned32 pos = (DSPCR >> DSPCR_POS_SHIFT) & DSPCR_POS_MASK; if (pos >= 32) NIA = delayslot_micromips (SD_, NIA + (EXTEND12 (IMMEDIATE) << 1), NIA, MICROMIPS_DELAYSLOT_SIZE_ANY); } 000000,5.RT,5.RS,0000000000,000101:POOL32A:32::CMP.EQ.PH "cmp.eq.ph r, r" *micromipsdsp: { do_ph_cmpu (SD_, RS, RT, 0); } 000000,5.RT,5.RS,0000000001,000101:POOL32A:32::CMP.LT.PH "cmp.lt.ph r, r" *micromipsdsp: { do_ph_cmpu (SD_, RS, RT, 1); } 000000,5.RT,5.RS,0000000010,000101:POOL32A:32::CMP.LE.PH "cmp.le.ph r, r" *micromipsdsp: { do_ph_cmpu (SD_, RS, RT, 2); } 000000,5.RT,5.RS,5.RD,00110,000101:POOL32A:32::CMPGDU.EQ.QB "cmpgdu.eq.qb r, r, r" *micromipsdsp: { do_qb_cmpgdu (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,5.RD,00111,000101:POOL32A:32::CMPGDU.LT.QB "cmpgdu.lt.qb r, r, r" *micromipsdsp: { do_qb_cmpgdu (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,01000,000101:POOL32A:32::CMPGDU.LE.QB "cmpgdu.le.qb r, r, r" *micromipsdsp: { do_qb_cmpgdu (SD_, RD, RS, RT, 2); } 000000,5.RT,5.RS,5.RD,00011,000101:POOL32A:32::CMPGU.EQ.QB "cmpgu.eq.qb r, r, r" *micromipsdsp: { do_qb_cmpgu (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,5.RD,00100,000101:POOL32A:32::CMPGU.LT.QB "cmpgu.lt.qb r, r, r" *micromipsdsp: { do_qb_cmpgu (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,00101,000101:POOL32A:32::CMPGU.LE.QB "cmpgu.le.qb r, r, r" *micromipsdsp: { do_qb_cmpgu (SD_, RD, RS, RT, 2); } 000000,5.RT,5.RS,0000001001,000101:POOL32A:32::CMPU.EQ.QB "cmpu.eq.qb r, r" *micromipsdsp: { do_qb_cmpu (SD_, RS, RT, 0); } 000000,5.RT,5.RS,0000001010,000101:POOL32A:32::CMPU.LT.QB "cmpu.lt.qb r, r" *micromipsdsp: { do_qb_cmpu (SD_, RS, RT, 1); } 000000,5.RT,5.RS,0000001011,000101:POOL32A:32::CMPU.LE.QB "cmpu.le.qb r, r" *micromipsdsp: { do_qb_cmpu (SD_, RS, RT, 2); } 000000,5.RT,5.RS,2.AC,00000010,111100:POOL32A:32::DPA.W.PH "dpa.w.ph ac, r, r" *micromipsdsp: { do_w_ph_dot_product (SD_, AC, RS, RT, 0); } 000000,5.RT,5.RS,2.AC,00001010,111100:POOL32A:32::DPAQ_S.W.PH "dpaq_s.w.ph ac, r, r" *micromipsdsp: { do_ph_dot_product (SD_, AC, RS, RT, 0); } 000000,5.RT,5.RS,2.AC,01001010,111100:POOL32A:32::DPAQ_SA.L.W "dpaq_sa.l.w ac, r, r" *micromipsdsp: { do_w_dot_product (SD_, AC, RS, RT, 0); } 000000,5.RT,5.RS,2.AC,10001010,111100:POOL32A:32::DPAQX_S.W.PH "dpaqx_s.w.ph ac, r, r" *micromipsdsp: { do_qx_w_ph_dot_product (SD_, AC, RS, RT, 0, 0); } 000000,5.RT,5.RS,2.AC,11001010,111100:POOL32A:32::DPAQX_SA.W.PH "dpaqx_sa.w.ph ac, r, r" *micromipsdsp: { do_qx_w_ph_dot_product (SD_, AC, RS, RT, 0, 1); } 000000,5.RT,5.RS,2.AC,10000010,111100:POOL32A:32::DPAU.H.QBL "dpau.h.qbl ac, r, r" *micromipsdsp: { do_qb_dot_product (SD_, AC, RS, RT, 0, 0); } 000000,5.RT,5.RS,2.AC,11000010,111100:POOL32A:32::DPAU.H.QBR "dpau.h.qbr ac, r, r" *micromipsdsp: { do_qb_dot_product (SD_, AC, RS, RT, 0, 1); } 000000,5.RT,5.RS,2.AC,01000010,111100:POOL32A:32::DPAX.W.PH "dpax.w.ph ac, r, r" *micromipsdsp: { do_x_w_ph_dot_product (SD_, AC, RS, RT, 0); } 000000,5.RT,5.RS,2.AC,00010010,111100:POOL32A:32::DPS.W.PH "dps.w.ph ac, r, r" *micromipsdsp: { do_w_ph_dot_product (SD_, AC, RS, RT, 1); } 000000,5.RT,5.RS,2.AC,00011010,111100:POOL32A:32::DPSQ_S.W.PH "dpsq_s.w.ph ac, r, r" *micromipsdsp: { do_ph_dot_product (SD_, AC, RS, RT, 1); } 000000,5.RT,5.RS,2.AC,01011010,111100:POOL32A:32::DPSQ_SA.L.W "dpsq_sa.l.w ac, r, r" *micromipsdsp: { do_w_dot_product (SD_, AC, RS, RT, 1); } 000000,5.RT,5.RS,2.AC,10011010,111100:POOL32A:32::DPSQX_S.W.PH "dpsqx_s.w.ph ac, r, r" *micromipsdsp: { do_qx_w_ph_dot_product (SD_, AC, RS, RT, 1, 0); } 000000,5.RT,5.RS,2.AC,11011010,111100:POOL32A:32::DPSQX_SA.W.PH "dpsqx_sa.w.ph ac, r, r" *micromipsdsp: { do_qx_w_ph_dot_product (SD_, AC, RS, RT, 1, 1); } 000000,5.RT,5.RS,2.AC,10010010,111100:POOL32A:32::DPSU.H.QBL "dpsu.h.qbl ac, r, r" *micromipsdsp: { do_qb_dot_product (SD_, AC, RS, RT, 1, 0); } 000000,5.RT,5.RS,2.AC,11010010,111100:POOL32A:32::DPSU.H.QBR "dpsu.h.qbr ac, r, r" *micromipsdsp: { do_qb_dot_product (SD_, AC, RS, RT, 1, 1); } 000000,5.RT,5.RS,2.AC,01010010,111100:POOL32A:32::DPSX.W.PH "dpsx.w.ph ac, r, r" *micromipsdsp: { do_x_w_ph_dot_product (SD_, AC, RS, RT, 1); } 000000,5.RT,5.SIZE,2.AC,10011001,111100:POOL32A:32::EXTP "extp r, ac, " *micromipsdsp: { do_extp (SD_, RT, AC, SIZE, 0); } 000000,5.RT,5.SIZE,2.AC,11011001,111100:POOL32A:32::EXTPDP "extpdp r, ac, " *micromipsdsp: { do_extp (SD_, RT, AC, SIZE, 1); } 000000,5.RT,5.RS,2.AC,11100010,111100:POOL32A:32::EXTPDPV "extpdpv r, ac, r" *micromipsdsp: { do_extpv (SD_, RT, AC, RS, 1); } 000000,5.RT,5.RS,2.AC,10100010,111100:POOL32A:32::EXTPV "extpv r, ac, r" *micromipsdsp: { do_extpv (SD_, RT, AC, RS, 0); } 000000,5.RT,5.SHIFT,2.AC,00111001,111100:POOL32A:32::EXTR.W "extr.w r, ac, " *micromipsdsp: { do_w_extr (SD_, RT, AC, SHIFT, 0); } 000000,5.RT,5.SHIFT,2.AC,01111001,111100:POOL32A:32::EXTR_R.W "extr_r.w r, ac, " *micromipsdsp: { do_w_extr (SD_, RT, AC, SHIFT, 1); } 000000,5.RT,5.SHIFT,2.AC,10111001,111100:POOL32A:32::EXTR_RS.W "extr_rs.w r, ac, " *micromipsdsp: { do_w_extr (SD_, RT, AC, SHIFT, 2); } 000000,5.RT,5.SHIFT,2.AC,11111001,111100:POOL32A:32::EXTR_S.H "extr_s.h r, ac, " *micromipsdsp: { do_h_extr (SD_, RT, AC, SHIFT); } 000000,5.RT,5.RS,2.AC,00111010,111100:POOL32A:32::EXTRV.W "extrv.w r, ac, r" *micromipsdsp: { do_extrv (SD_, RT, AC, RS, 0); } 000000,5.RT,5.RS,2.AC,01111010,111100:POOL32A:32::EXTRV_R.W "extrv_r.w r, ac, r" *micromipsdsp: { do_extrv (SD_, RT, AC, RS, 1); } 000000,5.RT,5.RS,2.AC,10111010,111100:POOL32A:32::EXTRV_RS.W "extrv_rs.w r, ac, r" *micromipsdsp: { do_extrv (SD_, RT, AC, RS, 2); } 000000,5.RT,5.RS,2.AC,11111010,111100:POOL32A:32::EXTRV_S.H "extrv_s.h r, ac, r" *micromipsdsp: { do_extrv_s_h (SD_, RT, AC, RS); } 000000,5.RT,5.RS,0100000100,111100:POOL32A:32::INSV "insv r, r" *micromipsdsp: { do_insv (SD_, RT, RS); } 000000,5.INDEX,5.BASE,5.RD,01000,100101:POOL32A:32::LBUX "lbux r, r(r)" *micromipsdsp: { do_lxx (SD_, RD, BASE, INDEX, 0); } 000000,5.INDEX,5.BASE,5.RD,00101,100101:POOL32A:32::LHX "lhx r, r(r)" *micromipsdsp: { do_lxx (SD_, RD, BASE, INDEX, 1); } 000000,5.INDEX,5.BASE,5.RD,00110,100101:POOL32A:32::LWX "lwx r, r(r)" *micromipsdsp: { do_lxx (SD_, RD, BASE, INDEX, 2); } 000000,5.RT,5.RS,2.AC,00101010,111100:POOL32A:32::MADD_DSP "madd ac, r, r" *micromipsdsp: { do_dsp_madd (SD_, AC, RS, RT); } 000000,5.RT,5.RS,2.AC,01101010,111100:POOL32A:32::MADDU_DSP "maddu ac, r, r" *micromipsdsp: { do_dsp_maddu (SD_, AC, RS, RT); } 000000,5.RT,5.RS,2.AC,01101001,111100:POOL32A:32::MAQ_S.W.PHL "maq_s.w.phl ac, r, r" *micromipsdsp: { do_ph_maq (SD_, AC, RS, RT, 0, 0); } 000000,5.RT,5.RS,2.AC,11101001,111100:POOL32A:32::MAQ_SA.W.PHL "maq_sa.w.phl ac, r, r" *micromipsdsp: { do_ph_maq (SD_, AC, RS, RT, 1, 0); } 000000,5.RT,5.RS,2.AC,00101001,111100:POOL32A:32::MAQ_S.W.PHR "maq_s.w.phr ac, r, r" *micromipsdsp: { do_ph_maq (SD_, AC, RS, RT, 0, 1); } 000000,5.RT,5.RS,2.AC,10101001,111100:POOL32A:32::MAQ_SA.W.PHR "maq_sa.w.phr ac, r, r" *micromipsdsp: { do_ph_maq (SD_, AC, RS, RT, 1, 1); } 000000,00000,5.RS,2.AC,00000001,111100:POOL32A:32::MFHI_DSP "mfhi r, ac" *micromipsdsp: { do_dsp_mfhi (SD_, AC, RS); } 000000,00000,5.RS,2.AC,01000001,111100:POOL32A:32::MFLO_DSP "mflo r, ac" *micromipsdsp: { do_dsp_mflo (SD_, AC, RS); } 000000,5.RT,5.RS,5.RD,01010,010101:POOL32A:32::MODSUB "modsub r, r, r" *micromipsdsp: { do_modsub (SD_, RD, RS, RT); } 000000,5.RT,5.RS,2.AC,10101010,111100:POOL32A:32::MSUB_DSP "msub ac, r, r" *micromipsdsp: { do_dsp_msub (SD_, AC, RS, RT); } 000000,5.RT,5.RS,2.AC,11101010,111100:POOL32A:32::MSUBU_DSP "msubu ac, r, r" *micromipsdsp: { do_dsp_msubu (SD_, AC, RS, RT); } 000000,00000,5.RS,2.AC,10000001,111100:POOL32A:32::MTHI_DSP "mthi r, ac" *micromipsdsp: { do_dsp_mthi (SD_, AC, RS); } 000000,00000,5.RS,2.AC,00001001,111100:POOL32A:32::MTHLIP "mthlip r, ac" *micromipsdsp: { do_mthlip (SD_, RS, AC); } 000000,00000,5.RS,2.AC,11000001,111100:POOL32A:32::MTLO_DSP "mtlo r, ac" *micromipsdsp: { do_dsp_mtlo (SD_, AC, RS); } 000000,5.RT,5.RS,5.RD,00000,101101:POOL32A:32::MUL.PH "mul.ph r, r, r" *micromipsdsp: { do_ph_op (SD_, RD, RS, RT, 2, 0); } 000000,5.RT,5.RS,5.RD,10000,101101:POOL32A:32::MUL_S.PH "mul_s.ph r, r, r" *micromipsdsp: { do_ph_op (SD_, RD, RS, RT, 2, 1); } 000000,5.RT,5.RS,5.RD,00000,100101:POOL32A:32::MULEQ_S.W.PHL "muleq_s.w.phl r, r, r" *micromipsdsp: { do_ph_muleq (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,5.RD,00001,100101:POOL32A:32::MULEQ_S.W.PHR "muleq_s.w.phr r, r, r" *micromipsdsp: { do_ph_muleq (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,00010,010101:POOL32A:32::MULEU_S.PH.QBL "muleu_s.ph.qbl r, r, r" *micromipsdsp: { do_qb_muleu (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,5.RD,00011,010101:POOL32A:32::MULEU_S.PH.QBR "muleu_s.ph.qbr r, r, r" *micromipsdsp: { do_qb_muleu (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,00100,010101:POOL32A:32::MULQ_RS.PH "mulq_rs.ph r, r, r" *micromipsdsp: { do_ph_mulq (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,00110,010101:POOL32A:32::MULQ_RS.W "mulq_rs.w r, r, r" *micromipsdsp: { do_w_mulq (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,00101,010101:POOL32A:32::MULQ_S.PH "mulq_s.ph r, r, r" *micromipsdsp: { do_ph_mulq (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,5.RD,00111,010101:POOL32A:32::MULQ_S.W "mulq_s.w r, r, r" *micromipsdsp: { do_w_mulq (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,2.AC,10110010,111100:POOL32A:32::MULSA.W.PH "mulsa.w.ph ac, r, r" *micromipsdsp: { do_ph_w_mulsa (SD_, AC, RS, RT); } 000000,5.RT,5.RS,2.AC,11110010,111100:POOL32A:32::MULSAQ_S.W.PH "mulsaq_s.w.ph ac, r, r" *micromipsdsp: { do_mulsaq_s_w_ph (SD_, AC, RS, RT); } 000000,5.RT,5.RS,2.AC,00110010,111100:POOL32A:32::MULT_DSP "mult ac, r, r" *micromipsdsp: { do_dsp_mult (SD_, AC, RS, RT); } 000000,5.RT,5.RS,2.AC,01110010,111100:POOL32A:32::MULTU_DSP "multu ac, r, r" *micromipsdsp: { do_dsp_multu (SD_, AC, RS, RT); } 000000,5.RT,5.RS,5.RD,00110,101101:POOL32A:32::PACKRL.PH "packrl.ph r, r, r" *micromipsdsp: { do_ph_packrl (SD_, RD, RS, RT); } 000000,5.RT,5.RS,5.RD,01000,101101:POOL32A:32::PICK.PH "pick.ph r, r, r" *micromipsdsp: { do_ph_pick (SD_, RD, RS, RT); } 000000,5.RT,5.RS,5.RD,00111,101101:POOL32A:32::PICK.QB "pick.qb r, r, r" *micromipsdsp: { do_qb_pick (SD_, RD, RS, RT); } 000000,5.RT,5.RS,0101000100,111100:POOL32A:32::PRECEQ.W.PHL "preceq.w.phl r, r" *micromipsdsp: { do_w_preceq (SD_, RT, RS, 0); } 000000,5.RT,5.RS,0110000100,111100:POOL32A:32::PRECEQ.W.PHR "preceq.w.phr r, r" *micromipsdsp: { do_w_preceq (SD_, RT, RS, 1); } 000000,5.RT,5.RS,0111000100,111100:POOL32A:32::PRECEQU.PH.QBL "precequ.ph.qbl r, r" *micromipsdsp: { do_qb_ph_precequ (SD_, RT, RS, 2); } 000000,5.RT,5.RS,0111001100,111100:POOL32A:32::PRECEQU.PH.QBLA "precequ.ph.qbla r, r" *micromipsdsp: { do_qb_ph_precequ (SD_, RT, RS, 3); } 000000,5.RT,5.RS,1001000100,111100:POOL32A:32::PRECEQU.PH.QBR "precequ.ph.qbr r, r" *micromipsdsp: { do_qb_ph_precequ (SD_, RT, RS, 0); } 000000,5.RT,5.RS,1001001100,111100:POOL32A:32::PRECEQU.PH.QBRA "precequ.ph.qbra r, r" *micromipsdsp: { do_qb_ph_precequ (SD_, RT, RS, 1); } 000000,5.RT,5.RS,1011000100,111100:POOL32A:32::PRECEU.PH.QBL "preceu.ph.qbl r, r" *micromipsdsp: { do_qb_ph_preceu (SD_, RT, RS, 2); } 000000,5.RT,5.RS,1011001100,111100:POOL32A:32::PRECEU.PH.QBLA "preceu.ph.qbla r, r" *micromipsdsp: { do_qb_ph_preceu (SD_, RT, RS, 3); } 000000,5.RT,5.RS,1101000100,111100:POOL32A:32::PRECEU.PH.QBR "preceu.ph.qbr r, r" *micromipsdsp: { do_qb_ph_preceu (SD_, RT, RS, 0); } 000000,5.RT,5.RS,1101001100,111100:POOL32A:32::PRECEU.PH.QBRA "preceu.ph.qbra r, r" *micromipsdsp: { do_qb_ph_preceu (SD_, RT, RS, 1); } 000000,5.RT,5.RS,5.RD,00001,101101:POOL32A:32::PRECR.QB.PH "precr.qb.ph r, r, r" *micromipsdsp: { do_ph_qb_precr (SD_, RD, RS, RT); } 000000,5.RT,5.RS,5.SA,01111,001101:POOL32A:32::PRECR_SRA.PH.W "precr_sra.ph.w r, r, " *micromipsdsp: { do_precr_sra (SD_, RT, RS, SA, 0); } 000000,5.RT,5.RS,5.SA,11111,001101:POOL32A:32::PRECR_SRA_R.PH.W "precr_sra_r.ph.w r, r, " *micromipsdsp: { do_precr_sra (SD_, RT, RS, SA, 1); } 000000,5.RT,5.RS,5.RD,00011,101101:POOL32A:32::PRECRQ.PH.W "precrq.ph.w r, r, r" *micromipsdsp: { do_w_ph_precrq (SD_, RD, RS, RT); } 000000,5.RT,5.RS,5.RD,00010,101101:POOL32A:32::PRECRQ.QB.PH "precrq.qb.ph r, r, r" *micromipsdsp: { do_ph_qb_precrq (SD_, RD, RS, RT, 0); } 000000,5.RT,5.RS,5.RD,00101,101101:POOL32A:32::PRECRQU_S.QB.PH "precrqu_s.qb.ph r, r, r" *micromipsdsp: { do_ph_qb_precrq (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,00100,101101:POOL32A:32::PRECRQ_RS.PH.W "precrq_rs.ph.w r, r, r" *micromipsdsp: { do_w_ph_rs_precrq (SD_, RD, RS, RT); } 000000,5.RT,5.RS,5.SA,01001,010101:POOL32A:32::PREPEND "prepend r, r, " *micromipsdsp: { do_prepend (SD_, RT, RS, SA); } 000000,5.RT,5.RS,1111000100,111100:POOL32A:32::RADDU.W.QB "raddu.w.qb r, r" *micromipsdsp: { do_qb_w_raddu (SD_, RT, RS); } 000000,5.RT,7.CONTROL_MASK,00011001,111100:POOL32A:32::RDDSP "rddsp r":CONTROL_MASK == 1111111111 "rddsp r, " *micromipsdsp: { do_rddsp (SD_, RT, CONTROL_MASK); } 000000,10.IMMEDIATE,5.RD,00000,111101:POOL32A:32::REPL.PH "repl.ph r, " *micromipsdsp: { do_repl (SD_, RD, IMMEDIATE, 2); } 000000,5.RT,8.IMMEDIATE,0010111,111100:POOL32A:32::REPL.QB "repl.qb r, " *micromipsdsp: { do_repl (SD_, RT, IMMEDIATE, 0); } 000000,5.RT,5.RS,0000001100,111100:POOL32A:32::REPLV.PH "replv.ph r, r" *micromipsdsp: { do_repl (SD_, RT, RS, 3); } 000000,5.RT,5.RS,0001001100,111100:POOL32A:32::REPLV.QB "replv.qb r, r" *micromipsdsp: { do_repl (SD_, RT, RS, 1); } 000000,0000,6.IMMEDIATE,2.AC,00000000,011101:POOL32A:32::SHILO "shilo ac, " *micromipsdsp: { do_shilo (SD_, AC, IMMEDIATE); } 000000,00000,5.RS,2.AC,01001001,111100:POOL32A:32::SHILOV "shilov ac, r" *micromipsdsp: { do_shilov (SD_, AC, RS); } 000000,5.RT,5.RS,4.SHIFT,001110,110101:POOL32A:32::SHLL.PH "shll.ph r, r, " *micromipsdsp: { do_ph_shift (SD_, RT, RS, SHIFT, 0, 0); } 000000,5.RT,5.RS,4.SHIFT,101110,110101:POOL32A:32::SHLL_S.PH "shll_s.ph r, r, " *micromipsdsp: { do_ph_shift (SD_, RT, RS, SHIFT, 0, 1); } 000000,5.RT,5.RS,3.SHIFT,0100001,111100:POOL32A:32::SHLL.QB "shll.qb r, r, " *micromipsdsp: { do_qb_shift (SD_, RT, RS, SHIFT, 0); } 000000,5.RT,5.RS,5.RD,01110,001101:POOL32A:32::SHLLV.PH "shllv.ph r, r, r" *micromipsdsp: { do_ph_shl (SD_, RD, RT, RS, 0, 0); } 000000,5.RT,5.RS,5.RD,11110,001101:POOL32A:32::SHLLV_S.PH "shllv_s.ph r, r, r" *micromipsdsp: { do_ph_shl (SD_, RD, RT, RS, 0, 1); } 000000,5.RT,5.RS,5.RD,01110,010101:POOL32A:32::SHLLV.QB "shllv.qb r, r, r" *micromipsdsp: { do_qb_shl (SD_, RD, RT, RS, 0); } 000000,5.RT,5.RS,5.RD,01111,010101:POOL32A:32::SHLLV_S.W "shllv_s.w r, r, r" *micromipsdsp: { do_w_s_shllv (SD_, RD, RT, RS); } 000000,5.RT,5.RS,5.SHIFT,01111,110101:POOL32A:32::SHLL_S.W "shll_s.w r, r, " *micromipsdsp: { do_w_shll (SD_, RT, RS, SHIFT); } 000000,5.RT,5.RS,3.SHIFT,0000111,111100:POOL32A:32::SHRA.QB "shra.qb r, r, " *micromipsdsp: { do_qb_shra (SD_, RT, RS, SHIFT, 0); } 000000,5.RT,5.RS,3.SHIFT,1000111,111100:POOL32A:32::SHRA_R.QB "shra_r.qb r, r, " *micromipsdsp: { do_qb_shra (SD_, RT, RS, SHIFT, 1); } 000000,5.RT,5.RS,4.SHIFT,001100,110101:POOL32A:32::SHRA.PH "shra.ph r, r, " *micromipsdsp: { do_ph_shift (SD_, RT, RS, SHIFT, 1, 0); } 000000,5.RT,5.RS,4.SHIFT,011100,110101:POOL32A:32::SHRA_R.PH "shra_r.ph r, r, " *micromipsdsp: { do_ph_shift (SD_, RT, RS, SHIFT, 1, 1); } 000000,5.RT,5.RS,5.RD,00110,001101:POOL32A:32::SHRAV.PH "shrav.ph r, r, r" *micromipsdsp: { do_ph_shl (SD_, RD, RT, RS, 1, 0); } 000000,5.RT,5.RS,5.RD,10110,001101:POOL32A:32::SHRAV_R.PH "shrav_r.ph r, r, r" *micromipsdsp: { do_ph_shl (SD_, RD, RT, RS, 1, 1); } 000000,5.RT,5.RS,5.RD,00111,001101:POOL32A:32::SHRAV.QB "shrav.qb r, r, r" *micromipsdsp: { do_qb_shrav (SD_, RD, RT, RS, 0); } 000000,5.RT,5.RS,5.RD,10111,001101:POOL32A:32::SHRAV_R.QB "shrav_r.qb r, r, r" *micromipsdsp: { do_qb_shrav (SD_, RD, RT, RS, 1); } 000000,5.RT,5.RS,5.RD,01011,010101:POOL32A:32::SHRAV_R.W "shrav_r.w r, r, r" *micromipsdsp: { do_w_r_shrav (SD_, RD, RT, RS); } 000000,5.RT,5.RS,5.SHIFT,01011,110101:POOL32A:32::SHRA_R.W "shra_r.w r, r, " *micromipsdsp: { do_w_shra (SD_, RT, RS, SHIFT); } 000000,5.RT,5.RS,4.SHIFT,001111,111100:POOL32A:32::SHRL.PH "shrl.ph r, r, " *micromipsdsp: { do_ph_shrl (SD_, RT, RS, SHIFT); } 000000,5.RT,5.RS,3.SHIFT,1100001,111100:POOL32A:32::SHRL.QB "shrl.qb r, r, " *micromipsdsp: { do_qb_shift (SD_, RT, RS, SHIFT, 1); } 000000,5.RT,5.RS,5.RD,01100,010101:POOL32A:32::SHRLV.PH "shrlv.ph r, r, r" *micromipsdsp: { do_ph_shrlv (SD_, RD, RT, RS); } 000000,5.RT,5.RS,5.RD,01101,010101:POOL32A:32::SHRLV.QB "shrlv.qb r, r, r" *micromipsdsp: { do_qb_shl (SD_, RD, RT, RS, 1); } 000000,5.RT,5.RS,5.RD,01000,001101:POOL32A:32::SUBQ.PH "subq.ph r, r, r" *micromipsdsp: { do_ph_op (SD_, RD, RS, RT, 1, 0); } 000000,5.RT,5.RS,5.RD,11000,001101:POOL32A:32::SUBQ_S.PH "subq_s.ph r, r, r" *micromipsdsp: { do_ph_op (SD_, RD, RS, RT, 1, 1); } 000000,5.RT,5.RS,5.RD,01101,000101:POOL32A:32::SUBQ_S.W "subq_s.w r, r, r" *micromipsdsp: { do_w_op (SD_, RD, RS, RT, 1); } 000000,5.RT,5.RS,5.RD,01001,001101:POOL32A:32::SUBQH.PH "subqh.ph r, r, r" *micromipsdsp: { do_qh_ph_op (SD_, RD, RS, RT, 1, 0); } 000000,5.RT,5.RS,5.RD,11001,001101:POOL32A:32::SUBQH_R.PH "subqh_r.ph r, r, r" *micromipsdsp: { do_qh_ph_op (SD_, RD, RS, RT, 1, 1); } 000000,5.RT,5.RS,5.RD,01010,001101:POOL32A:32::SUBQH.W "subqh.w r, r, r" *micromipsdsp: { do_qh_w_op (SD_, RD, RS, RT, 1, 0); } 000000,5.RT,5.RS,5.RD,11010,001101:POOL32A:32::SUBQH_R.W "subqh_r.w r, r, r" *micromipsdsp: { do_qh_w_op (SD_, RD, RS, RT, 1, 1); } 000000,5.RT,5.RS,5.RD,01100,001101:POOL32A:32::SUBU.PH "subu.ph r, r, r" *micromipsdsp: { do_u_ph_op (SD_, RD, RS, RT, 1, 0); } 000000,5.RT,5.RS,5.RD,11100,001101:POOL32A:32::SUBU_S.PH "subu_s.ph r, r, r" *micromipsdsp: { do_u_ph_op (SD_, RD, RS, RT, 1, 1); } 000000,5.RT,5.RS,5.RD,01011,001101:POOL32A:32::SUBU.QB "subu.qb r, r, r" *micromipsdsp: { do_qb_op (SD_, RD, RS, RT, 1, 0); } 000000,5.RT,5.RS,5.RD,11011,001101:POOL32A:32::SUBU_S.QB "subu_s.qb r, r, r" *micromipsdsp: { do_qb_op (SD_, RD, RS, RT, 1, 1); } 000000,5.RT,5.RS,5.RD,01101,001101:POOL32A:32::SUBUH.QB "subuh.qb r, r, r" *micromipsdsp: { do_uh_qb_op (SD_, RD, RS, RT, 1, 0); } 000000,5.RT,5.RS,5.RD,11101,001101:POOL32A:32::SUBUH_R.QB "subuh_r.qb r, r, r" *micromipsdsp: { do_uh_qb_op (SD_, RD, RS, RT, 1, 1); } 000000,5.RT,7.CONTROL_MASK,01011001,111100:POOL32A:32::WRDSP "wrdsp r":CONTROL_MASK == 1111111111 "wrdsp r, " *micromipsdsp: { do_wrdsp (SD_, RT, CONTROL_MASK); }