xref: /openbmc/qemu/target/hexagon/imported/ldst.idef (revision 40f23e4e)
1/*
2 *  Copyright(c) 2019-2021 Qualcomm Innovation Center, Inc. All Rights Reserved.
3 *
4 *  This program is free software; you can redistribute it and/or modify
5 *  it under the terms of the GNU General Public License as published by
6 *  the Free Software Foundation; either version 2 of the License, or
7 *  (at your option) any later version.
8 *
9 *  This program is distributed in the hope that it will be useful,
10 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
11 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
12 *  GNU General Public License for more details.
13 *
14 *  You should have received a copy of the GNU General Public License
15 *  along with this program; if not, see <http://www.gnu.org/licenses/>.
16 */
17
18/*
19 * Load and Store instruction definitions
20 */
21
22/* The set of addressing modes standard to all Load instructions */
23#define STD_LD_AMODES(TAG,OPER,DESCR,ATTRIB,SHFT,SEMANTICS,SCALE)\
24Q6INSN(L2_##TAG##_io,  OPER"(Rs32+#s11:"SHFT")",          ATTRIB,DESCR,{fIMMEXT(siV); fEA_RI(RsV,siV); SEMANTICS; })\
25Q6INSN(L4_##TAG##_ur,  OPER"(Rt32<<#u2+#U6)",             ATTRIB,DESCR,{fMUST_IMMEXT(UiV); fEA_IRs(UiV,RtV,uiV); SEMANTICS;})\
26Q6INSN(L4_##TAG##_ap,  OPER"(Re32=#U6)",                  ATTRIB,DESCR,{fMUST_IMMEXT(UiV); fEA_IMM(UiV); SEMANTICS; ReV=UiV; })\
27Q6INSN(L2_##TAG##_pr,  OPER"(Rx32++Mu2)",                 ATTRIB,DESCR,{fEA_REG(RxV); fPM_M(RxV,MuV); SEMANTICS;})\
28Q6INSN(L2_##TAG##_pbr, OPER"(Rx32++Mu2:brev)",            ATTRIB,DESCR,{fEA_BREVR(RxV); fPM_M(RxV,MuV); SEMANTICS;})\
29Q6INSN(L2_##TAG##_pi,  OPER"(Rx32++#s4:"SHFT")",          ATTRIB,DESCR,{fEA_REG(RxV); fPM_I(RxV,siV); SEMANTICS;})\
30Q6INSN(L2_##TAG##_pci, OPER"(Rx32++#s4:"SHFT":circ(Mu2))",ATTRIB,DESCR,{fEA_REG(RxV); fPM_CIRI(RxV,siV,MuV); SEMANTICS;})\
31Q6INSN(L2_##TAG##_pcr, OPER"(Rx32++I:circ(Mu2))",  ATTRIB,DESCR,{fEA_REG(RxV); fPM_CIRR(RxV,fREAD_IREG(MuV)<<SCALE,MuV); SEMANTICS;})
32
33/* The set of 32-bit load instructions */
34STD_LD_AMODES(loadrub,"Rd32=memub","Load Unsigned Byte",ATTRIBS(A_LOAD),"0",fLOAD(1,1,u,EA,RdV),0)
35STD_LD_AMODES(loadrb, "Rd32=memb", "Load signed Byte",ATTRIBS(A_LOAD),"0",fLOAD(1,1,s,EA,RdV),0)
36STD_LD_AMODES(loadruh,"Rd32=memuh","Load unsigned Half integer",ATTRIBS(A_LOAD),"1",fLOAD(1,2,u,EA,RdV),1)
37STD_LD_AMODES(loadrh, "Rd32=memh", "Load signed Half integer",ATTRIBS(A_LOAD),"1",fLOAD(1,2,s,EA,RdV),1)
38STD_LD_AMODES(loadri, "Rd32=memw", "Load Word",ATTRIBS(A_LOAD),"2",fLOAD(1,4,u,EA,RdV),2)
39STD_LD_AMODES(loadrd, "Rdd32=memd","Load Double integer",ATTRIBS(A_LOAD),"3",fLOAD(1,8,u,EA,RddV),3)
40
41/* These instructions do a load an unpack */
42STD_LD_AMODES(loadbzw2, "Rd32=memubh", "Load Bytes and Vector Zero-Extend (unpack)",
43ATTRIBS(A_LOAD),"1",
44{fHIDE(size2u_t tmpV; int i;)
45 fLOAD(1,2,u,EA,tmpV);
46 for (i=0;i<2;i++) {
47  fSETHALF(i,RdV,fGETUBYTE(i,tmpV));
48 }
49},1)
50
51STD_LD_AMODES(loadbzw4, "Rdd32=memubh", "Load Bytes and Vector Zero-Extend (unpack)",
52ATTRIBS(A_LOAD),"2",
53{fHIDE(size4u_t tmpV; int i;)
54 fLOAD(1,4,u,EA,tmpV);
55 for (i=0;i<4;i++) {
56  fSETHALF(i,RddV,fGETUBYTE(i,tmpV));
57 }
58},2)
59
60
61
62/* These instructions do a load an unpack */
63STD_LD_AMODES(loadbsw2, "Rd32=membh", "Load Bytes and Vector Sign-Extend (unpack)",
64ATTRIBS(A_LOAD),"1",
65{fHIDE(size2u_t tmpV; int i;)
66 fLOAD(1,2,u,EA,tmpV);
67 for (i=0;i<2;i++) {
68  fSETHALF(i,RdV,fGETBYTE(i,tmpV));
69 }
70},1)
71
72STD_LD_AMODES(loadbsw4, "Rdd32=membh", "Load Bytes and Vector Sign-Extend (unpack)",
73ATTRIBS(A_LOAD),"2",
74{fHIDE(size4u_t tmpV; int i;)
75 fLOAD(1,4,u,EA,tmpV);
76 for (i=0;i<4;i++) {
77  fSETHALF(i,RddV,fGETBYTE(i,tmpV));
78 }
79},2)
80
81
82
83STD_LD_AMODES(loadalignh, "Ryy32=memh_fifo", "Load Half-word into shifted vector",
84ATTRIBS(A_LOAD),"1",
85{
86 fHIDE(size8u_t tmpV;)
87 fLOAD(1,2,u,EA,tmpV);
88 RyyV = (((size8u_t)RyyV)>>16)|(tmpV<<48);
89},1)
90
91
92STD_LD_AMODES(loadalignb, "Ryy32=memb_fifo", "Load byte into shifted vector",
93ATTRIBS(A_LOAD),"0",
94{
95 fHIDE(size8u_t tmpV;)
96 fLOAD(1,1,u,EA,tmpV);
97 RyyV = (((size8u_t)RyyV)>>8)|(tmpV<<56);
98},0)
99
100
101
102
103/* The set of addressing modes standard to all Store instructions */
104#define STD_ST_AMODES(TAG,DEST,OPER,DESCR,ATTRIB,SHFT,SEMANTICS,SCALE)\
105Q6INSN(S2_##TAG##_io,  OPER"(Rs32+#s11:"SHFT")="DEST,     ATTRIB,DESCR,{fIMMEXT(siV); fEA_RI(RsV,siV); SEMANTICS; })\
106Q6INSN(S2_##TAG##_pi,  OPER"(Rx32++#s4:"SHFT")="DEST,     ATTRIB,DESCR,{fEA_REG(RxV); fPM_I(RxV,siV); SEMANTICS; })\
107Q6INSN(S4_##TAG##_ap,  OPER"(Re32=#U6)="DEST,             ATTRIB,DESCR,{fMUST_IMMEXT(UiV); fEA_IMM(UiV); SEMANTICS; ReV=UiV; })\
108Q6INSN(S2_##TAG##_pr,  OPER"(Rx32++Mu2)="DEST,            ATTRIB,DESCR,{fEA_REG(RxV); fPM_M(RxV,MuV); SEMANTICS; })\
109Q6INSN(S4_##TAG##_ur,  OPER"(Ru32<<#u2+#U6)="DEST,            ATTRIB,DESCR,{fMUST_IMMEXT(UiV); fEA_IRs(UiV,RuV,uiV); SEMANTICS;})\
110Q6INSN(S2_##TAG##_pbr, OPER"(Rx32++Mu2:brev)="DEST,       ATTRIB,DESCR,{fEA_BREVR(RxV); fPM_M(RxV,MuV); SEMANTICS; })\
111Q6INSN(S2_##TAG##_pci, OPER"(Rx32++#s4:"SHFT":circ(Mu2))="DEST,  ATTRIB,DESCR,{fEA_REG(RxV); fPM_CIRI(RxV,siV,MuV); SEMANTICS;})\
112Q6INSN(S2_##TAG##_pcr, OPER"(Rx32++I:circ(Mu2))="DEST,  ATTRIB,DESCR,{fEA_REG(RxV); fPM_CIRR(RxV,fREAD_IREG(MuV)<<SCALE,MuV); SEMANTICS;})
113
114
115/* The set of 32-bit store instructions */
116STD_ST_AMODES(storerb, "Rt32", "memb","Store Byte",ATTRIBS(A_STORE),"0",fSTORE(1,1,EA,fGETBYTE(0,RtV)),0)
117STD_ST_AMODES(storerh, "Rt32", "memh","Store Half integer",ATTRIBS(A_STORE),"1",fSTORE(1,2,EA,fGETHALF(0,RtV)),1)
118STD_ST_AMODES(storerf, "Rt.H32", "memh","Store Upper Half integer",ATTRIBS(A_STORE),"1",fSTORE(1,2,EA,fGETHALF(1,RtV)),1)
119STD_ST_AMODES(storeri, "Rt32", "memw","Store Word",ATTRIBS(A_STORE),"2",fSTORE(1,4,EA,RtV),2)
120STD_ST_AMODES(storerd, "Rtt32","memd","Store Double integer",ATTRIBS(A_STORE),"3",fSTORE(1,8,EA,RttV),3)
121STD_ST_AMODES(storerinew, "Nt8.new", "memw","Store Word",ATTRIBS(A_STORE),"2",fSTORE(1,4,EA,fNEWREG_ST(NtN)),2)
122STD_ST_AMODES(storerbnew, "Nt8.new", "memb","Store Byte",ATTRIBS(A_STORE),"0",fSTORE(1,1,EA,fGETBYTE(0,fNEWREG_ST(NtN))),0)
123STD_ST_AMODES(storerhnew, "Nt8.new", "memh","Store Half integer",ATTRIBS(A_STORE),"1",fSTORE(1,2,EA,fGETHALF(0,fNEWREG_ST(NtN))),1)
124
125
126Q6INSN(S2_allocframe,"allocframe(Rx32,#u11:3):raw", ATTRIBS(A_STORE,A_RESTRICT_SLOT0ONLY), "Allocate stack frame",
127{ fEA_RI(RxV,-8); fSTORE(1,8,EA,fFRAME_SCRAMBLE((fCAST8_8u(fREAD_LR()) << 32) | fCAST4_4u(fREAD_FP()))); fWRITE_FP(EA); fFRAMECHECK(EA-uiV,EA); RxV = EA-uiV; })
128
129#define A_RETURN A_RESTRICT_SLOT0ONLY
130
131Q6INSN(L2_deallocframe,"Rdd32=deallocframe(Rs32):raw", ATTRIBS(A_LOAD), "Deallocate stack frame",
132{ fHIDE(size8u_t tmp;) fEA_REG(RsV);
133  fLOAD(1,8,u,EA,tmp);
134  RddV = fFRAME_UNSCRAMBLE(tmp);
135  fWRITE_SP(EA+8); })
136
137Q6INSN(L4_return,"Rdd32=dealloc_return(Rs32):raw", ATTRIBS(A_JINDIR,A_LOAD,A_RETURN), "Deallocate stack frame and return",
138{ fHIDE(size8u_t tmp;) fEA_REG(RsV);
139  fLOAD(1,8,u,EA,tmp);
140  RddV = fFRAME_UNSCRAMBLE(tmp);
141  fWRITE_SP(EA+8);
142  fJUMPR(REG_LR,fGETWORD(1,RddV),COF_TYPE_JUMPR);})
143
144#define CONDSEM(SRCREG,STALLBITS0,STALLBITS1,PREDFUNC,PREDARG,STALLSPEC,PREDCOND) \
145{ \
146    fHIDE(size8u_t tmp;) \
147    fBRANCH_SPECULATE_STALL(PREDFUNC##PREDCOND(PREDARG),,STALLSPEC,STALLBITS0,STALLBITS1); \
148    fEA_REG(SRCREG); \
149    if (PREDFUNC##PREDCOND(PREDARG)) { \
150        fLOAD(1,8,u,EA,tmp); \
151        RddV = fFRAME_UNSCRAMBLE(tmp); \
152        fWRITE_SP(EA+8); \
153        fJUMPR(REG_LR,fGETWORD(1,RddV),COF_TYPE_JUMPR); \
154    } else { \
155        LOAD_CANCEL(EA); \
156    } \
157}
158
159#define COND_RETURN_TF(TG,TG2,DOTNEW,STALLBITS0,STALLBITS1,STALLSPEC,ATTRIBS,PREDFUNC,PREDARG,T_NT) \
160    Q6INSN(TG##_t##TG2,"if (Pv4"DOTNEW") Rdd32=dealloc_return(Rs32)"T_NT":raw",ATTRIBS,"deallocate stack frame and return", \
161    CONDSEM(RsV,STALLBITS0,STALLBITS1,PREDFUNC,PREDARG,STALLSPEC,)) \
162    Q6INSN(TG##_f##TG2,"if (!Pv4"DOTNEW") Rdd32=dealloc_return(Rs32)"T_NT":raw",ATTRIBS,"deallocate stack frame and return", \
163    CONDSEM(RsV,STALLBITS0,STALLBITS1,PREDFUNC##NOT,PREDARG,STALLSPEC,))
164
165#define COND_RETURN_NEW(TG,STALLBITS0,STALLBITS1,ATTRIBS) \
166    COND_RETURN_TF(TG,new_pt,".new",12,0,SPECULATE_TAKEN,ATTRIBS,fLSBNEW,PvN,":t") \
167    COND_RETURN_TF(TG,new_pnt,".new",12,0,SPECULATE_NOT_TAKEN,ATTRIBS,fLSBNEW,PvN,":nt") \
168
169#define RETURN_ATTRIBS A_LOAD,A_RETURN
170
171COND_RETURN_TF(L4_return,,,7,0,SPECULATE_NOT_TAKEN,ATTRIBS(RETURN_ATTRIBS,A_JINDIROLD),fLSBOLD,PvV,)
172COND_RETURN_NEW(L4_return,12,0,ATTRIBS(RETURN_ATTRIBS,A_JINDIRNEW))
173
174
175
176
177Q6INSN(L2_loadw_locked,"Rd32=memw_locked(Rs32)", ATTRIBS(A_LOAD,A_RESTRICT_SLOT0ONLY), "Load word with lock",
178{ fEA_REG(RsV); fLOAD_LOCKED(1,4,u,EA,RdV) })
179
180
181Q6INSN(S2_storew_locked,"memw_locked(Rs32,Pd4)=Rt32", ATTRIBS(A_STORE,A_RESTRICT_SLOT0ONLY), "Store word with lock",
182{ fEA_REG(RsV); fSTORE_LOCKED(1,4,EA,RtV,PdV) })
183
184
185Q6INSN(L4_loadd_locked,"Rdd32=memd_locked(Rs32)", ATTRIBS(A_LOAD,A_RESTRICT_SLOT0ONLY), "Load double with lock",
186{ fEA_REG(RsV); fLOAD_LOCKED(1,8,u,EA,RddV) })
187
188Q6INSN(S4_stored_locked,"memd_locked(Rs32,Pd4)=Rtt32", ATTRIBS(A_STORE,A_RESTRICT_SLOT0ONLY), "Store word with lock",
189{ fEA_REG(RsV); fSTORE_LOCKED(1,8,EA,RttV,PdV) })
190
191
192
193
194
195/*****************************************************************/
196/*                                                               */
197/*                       Predicated LDST                         */
198/*                                                               */
199/*****************************************************************/
200
201#define STD_PLD_AMODES(TAG,OPER,DESCR,ATTRIB,SHFT,SHFTNUM,SEMANTICS)\
202Q6INSN(L4_##TAG##_rr,  OPER"(Rs32+Rt32<<#u2)",            ATTRIB,DESCR,{fEA_RRs(RsV,RtV,uiV); SEMANTICS;})\
203Q6INSN(L2_p##TAG##t_io, "if (Pt4) "OPER"(Rs32+#u6:"SHFT")",            ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if(fLSBOLD(PtV)){SEMANTICS;} else {LOAD_CANCEL(EA);}})\
204Q6INSN(L2_p##TAG##t_pi, "if (Pt4) "OPER"(Rx32++#s4:"SHFT")",           ATTRIB,DESCR,{fEA_REG(RxV); if(fLSBOLD(PtV)){ fPM_I(RxV,siV); SEMANTICS;} else {LOAD_CANCEL(EA);}})\
205Q6INSN(L2_p##TAG##f_io, "if (!Pt4) "OPER"(Rs32+#u6:"SHFT")",           ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if(fLSBOLDNOT(PtV)){ SEMANTICS; } else {LOAD_CANCEL(EA);}})\
206Q6INSN(L2_p##TAG##f_pi, "if (!Pt4) "OPER"(Rx32++#s4:"SHFT")",          ATTRIB,DESCR,{fEA_REG(RxV); if(fLSBOLDNOT(PtV)){ fPM_I(RxV,siV); SEMANTICS;} else {LOAD_CANCEL(EA);}})\
207Q6INSN(L2_p##TAG##tnew_io,"if (Pt4.new) "OPER"(Rs32+#u6:"SHFT")",ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if (fLSBNEW(PtN))  { SEMANTICS; } else {LOAD_CANCEL(EA);}})\
208Q6INSN(L2_p##TAG##fnew_io,"if (!Pt4.new) "OPER"(Rs32+#u6:"SHFT")",ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if (fLSBNEWNOT(PtN)) { SEMANTICS; } else {LOAD_CANCEL(EA);}})\
209Q6INSN(L4_p##TAG##t_rr, "if (Pv4) "OPER"(Rs32+Rt32<<#u2)",            ATTRIB,DESCR,{fEA_RRs(RsV,RtV,uiV); if(fLSBOLD(PvV)){ SEMANTICS;} else {LOAD_CANCEL(EA);}})\
210Q6INSN(L4_p##TAG##f_rr, "if (!Pv4) "OPER"(Rs32+Rt32<<#u2)",           ATTRIB,DESCR,{fEA_RRs(RsV,RtV,uiV); if(fLSBOLDNOT(PvV)){ SEMANTICS; } else {LOAD_CANCEL(EA);}})\
211Q6INSN(L4_p##TAG##tnew_rr,"if (Pv4.new) "OPER"(Rs32+Rt32<<#u2)",ATTRIB,DESCR,{fEA_RRs(RsV,RtV,uiV); if (fLSBNEW(PvN))  { SEMANTICS; } else {LOAD_CANCEL(EA);}})\
212Q6INSN(L4_p##TAG##fnew_rr,"if (!Pv4.new) "OPER"(Rs32+Rt32<<#u2)",ATTRIB,DESCR,{fEA_RRs(RsV,RtV,uiV); if (fLSBNEWNOT(PvN)) { SEMANTICS; } else {LOAD_CANCEL(EA);}})\
213Q6INSN(L2_p##TAG##tnew_pi, "if (Pt4.new) "OPER"(Rx32++#s4:"SHFT")",           ATTRIB,DESCR,{fEA_REG(RxV); if(fLSBNEW(PtN)){ fPM_I(RxV,siV); SEMANTICS;} else {LOAD_CANCEL(EA);}})\
214Q6INSN(L2_p##TAG##fnew_pi, "if (!Pt4.new) "OPER"(Rx32++#s4:"SHFT")",          ATTRIB,DESCR,{fEA_REG(RxV); if(fLSBNEWNOT(PtN)){ fPM_I(RxV,siV); SEMANTICS;} else {LOAD_CANCEL(EA);}})\
215Q6INSN(L4_p##TAG##t_abs, "if (Pt4) "OPER"(#u6)",            ATTRIB,DESCR,{fMUST_IMMEXT(uiV); fEA_IMM(uiV); if(fLSBOLD(PtV)){ SEMANTICS;} else {LOAD_CANCEL(EA);}})\
216Q6INSN(L4_p##TAG##f_abs, "if (!Pt4) "OPER"(#u6)",           ATTRIB,DESCR,{fMUST_IMMEXT(uiV); fEA_IMM(uiV); if(fLSBOLDNOT(PtV)){ SEMANTICS; } else {LOAD_CANCEL(EA);}})\
217Q6INSN(L4_p##TAG##tnew_abs,"if (Pt4.new) "OPER"(#u6)",ATTRIB,DESCR,{fMUST_IMMEXT(uiV); fEA_IMM(uiV);if (fLSBNEW(PtN))  { SEMANTICS; } else {LOAD_CANCEL(EA);}})\
218Q6INSN(L4_p##TAG##fnew_abs,"if (!Pt4.new) "OPER"(#u6)",ATTRIB,DESCR,{fMUST_IMMEXT(uiV); fEA_IMM(uiV);if (fLSBNEWNOT(PtN)) { SEMANTICS; } else {LOAD_CANCEL(EA);}})
219
220
221
222/* The set of 32-bit predicated load instructions */
223STD_PLD_AMODES(loadrub,"Rd32=memub","Load Unsigned Byte",ATTRIBS(A_ARCHV2,A_LOAD),"0",0,fLOAD(1,1,u,EA,RdV))
224STD_PLD_AMODES(loadrb, "Rd32=memb", "Load signed Byte",ATTRIBS(A_ARCHV2,A_LOAD),"0",0,fLOAD(1,1,s,EA,RdV))
225STD_PLD_AMODES(loadruh,"Rd32=memuh","Load unsigned Half integer",ATTRIBS(A_ARCHV2,A_LOAD),"1",1,fLOAD(1,2,u,EA,RdV))
226STD_PLD_AMODES(loadrh, "Rd32=memh", "Load signed Half integer",ATTRIBS(A_ARCHV2,A_LOAD),"1",1,fLOAD(1,2,s,EA,RdV))
227STD_PLD_AMODES(loadri, "Rd32=memw", "Load Word",ATTRIBS(A_ARCHV2,A_LOAD),"2",2,fLOAD(1,4,u,EA,RdV))
228STD_PLD_AMODES(loadrd, "Rdd32=memd","Load Double integer",ATTRIBS(A_ARCHV2,A_LOAD),"3",3,fLOAD(1,8,u,EA,RddV))
229
230/* The set of addressing modes standard to all predicated store instructions */
231#define STD_PST_AMODES(TAG,DEST,OPER,DESCR,ATTRIB,SHFT,SHFTNUM,SEMANTICS)\
232Q6INSN(S4_##TAG##_rr,  OPER"(Rs32+Ru32<<#u2)="DEST,            ATTRIB,DESCR,{fEA_RRs(RsV,RuV,uiV); SEMANTICS;})\
233Q6INSN(S2_p##TAG##t_io, "if (Pv4) "OPER"(Rs32+#u6:"SHFT")="DEST,     ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if (fLSBOLD(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
234Q6INSN(S2_p##TAG##t_pi, "if (Pv4) "OPER"(Rx32++#s4:"SHFT")="DEST,     ATTRIB,DESCR,{fEA_REG(RxV); if (fLSBOLD(PvV)){ fPM_I(RxV,siV); SEMANTICS;} else {STORE_CANCEL(EA);}})\
235Q6INSN(S2_p##TAG##f_io, "if (!Pv4) "OPER"(Rs32+#u6:"SHFT")="DEST,     ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if (fLSBOLDNOT(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
236Q6INSN(S2_p##TAG##f_pi, "if (!Pv4) "OPER"(Rx32++#s4:"SHFT")="DEST,     ATTRIB,DESCR,{fEA_REG(RxV); if (fLSBOLDNOT(PvV)){ fPM_I(RxV,siV); SEMANTICS;} else {STORE_CANCEL(EA);}})\
237Q6INSN(S4_p##TAG##t_rr, "if (Pv4) "OPER"(Rs32+Ru32<<#u2)="DEST,     ATTRIB,DESCR,{fEA_RRs(RsV,RuV,uiV); if (fLSBOLD(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
238Q6INSN(S4_p##TAG##f_rr, "if (!Pv4) "OPER"(Rs32+Ru32<<#u2)="DEST,     ATTRIB,DESCR,{fEA_RRs(RsV,RuV,uiV); if (fLSBOLDNOT(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
239Q6INSN(S4_p##TAG##tnew_io,"if (Pv4.new) "OPER"(Rs32+#u6:"SHFT")="DEST,ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if ( fLSBNEW(PvN)) { SEMANTICS; } else {STORE_CANCEL(EA);}})\
240Q6INSN(S4_p##TAG##fnew_io,"if (!Pv4.new) "OPER"(Rs32+#u6:"SHFT")="DEST,ATTRIB,DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); if (fLSBNEWNOT(PvN)) { SEMANTICS; } else {STORE_CANCEL(EA);}})\
241Q6INSN(S4_p##TAG##tnew_rr,"if (Pv4.new) "OPER"(Rs32+Ru32<<#u2)="DEST,ATTRIB,DESCR,{fEA_RRs(RsV,RuV,uiV); if ( fLSBNEW(PvN)) { SEMANTICS; } else {STORE_CANCEL(EA);}})\
242Q6INSN(S4_p##TAG##fnew_rr,"if (!Pv4.new) "OPER"(Rs32+Ru32<<#u2)="DEST,ATTRIB,DESCR,{fEA_RRs(RsV,RuV,uiV); if (fLSBNEWNOT(PvN)) { SEMANTICS; } else {STORE_CANCEL(EA);}})\
243Q6INSN(S2_p##TAG##tnew_pi, "if (Pv4.new) "OPER"(Rx32++#s4:"SHFT")="DEST,     ATTRIB,DESCR,{fEA_REG(RxV); if (fLSBNEW(PvN)){ fPM_I(RxV,siV); SEMANTICS;} else {STORE_CANCEL(EA);}})\
244Q6INSN(S2_p##TAG##fnew_pi, "if (!Pv4.new) "OPER"(Rx32++#s4:"SHFT")="DEST,     ATTRIB,DESCR,{fEA_REG(RxV); if (fLSBNEWNOT(PvN)){ fPM_I(RxV,siV); SEMANTICS;} else {STORE_CANCEL(EA);}})\
245Q6INSN(S4_p##TAG##t_abs, "if (Pv4) "OPER"(#u6)="DEST,     ATTRIB,DESCR,{fMUST_IMMEXT(uiV); fEA_IMM(uiV); if (fLSBOLD(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
246Q6INSN(S4_p##TAG##f_abs, "if (!Pv4) "OPER"(#u6)="DEST,     ATTRIB,DESCR,{fMUST_IMMEXT(uiV);fEA_IMM(uiV); if (fLSBOLDNOT(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
247Q6INSN(S4_p##TAG##tnew_abs,"if (Pv4.new) "OPER"(#u6)="DEST,ATTRIB,DESCR,{fMUST_IMMEXT(uiV);fEA_IMM(uiV); if ( fLSBNEW(PvN)) { SEMANTICS; } else {STORE_CANCEL(EA);}})\
248Q6INSN(S4_p##TAG##fnew_abs,"if (!Pv4.new) "OPER"(#u6)="DEST,ATTRIB,DESCR,{fMUST_IMMEXT(uiV);fEA_IMM(uiV); if (fLSBNEWNOT(PvN)) { SEMANTICS; } else {STORE_CANCEL(EA);}})
249
250
251
252
253/* The set of 32-bit predicated store instructions */
254STD_PST_AMODES(storerb,"Rt32","memb","Store Byte",ATTRIBS(A_ARCHV2,A_STORE),"0",0,fSTORE(1,1,EA,fGETBYTE(0,RtV)))
255STD_PST_AMODES(storerh,"Rt32","memh","Store Half integer",ATTRIBS(A_ARCHV2,A_STORE),"1",1,fSTORE(1,2,EA,fGETHALF(0,RtV)))
256STD_PST_AMODES(storerf,"Rt.H32","memh","Store Upper Half integer",ATTRIBS(A_ARCHV2,A_STORE),"1",1,fSTORE(1,2,EA,fGETHALF(1,RtV)))
257STD_PST_AMODES(storeri,"Rt32","memw","Store Word",ATTRIBS(A_ARCHV2,A_STORE),"2",2,fSTORE(1,4,EA,RtV))
258STD_PST_AMODES(storerd,"Rtt32","memd","Store Double integer",ATTRIBS(A_ARCHV2,A_STORE),"3",3,fSTORE(1,8,EA,RttV))
259STD_PST_AMODES(storerinew,"Nt8.new","memw","Store Word",ATTRIBS(A_ARCHV2,A_STORE),"2",2,fSTORE(1,4,EA,fNEWREG_ST(NtN)))
260STD_PST_AMODES(storerbnew,"Nt8.new","memb","Store Byte",ATTRIBS(A_ARCHV2,A_STORE),"0",0,fSTORE(1,1,EA,fGETBYTE(0,fNEWREG_ST(NtN))))
261STD_PST_AMODES(storerhnew,"Nt8.new","memh","Store Half integer",ATTRIBS(A_ARCHV2,A_STORE),"1",1,fSTORE(1,2,EA,fGETHALF(0,fNEWREG_ST(NtN))))
262
263
264
265
266/*****************************************************************/
267/*                                                               */
268/*                       Mem-Ops (Load-op-Store)                 */
269/*                                                               */
270/*****************************************************************/
271
272/* The set of 32-bit non-predicated mem-ops */
273#define STD_MEMOP_AMODES(TAG,OPER,DESCR,SEMANTICS)\
274Q6INSN(L4_##TAG##w_io,  "memw(Rs32+#u6:2)"OPER,     ATTRIBS(A_RESTRICT_SLOT0ONLY),DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); fHIDE(size4s_t tmp;) fLOAD(1,4,s,EA,tmp); SEMANTICS;  fSTORE(1,4,EA,tmp); })\
275Q6INSN(L4_##TAG##b_io,  "memb(Rs32+#u6:0)"OPER,     ATTRIBS(A_RESTRICT_SLOT0ONLY),DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); fHIDE(size4s_t tmp;) fLOAD(1,1,s,EA,tmp); SEMANTICS;  fSTORE(1,1,EA,tmp); })\
276Q6INSN(L4_##TAG##h_io,  "memh(Rs32+#u6:1)"OPER,     ATTRIBS(A_RESTRICT_SLOT0ONLY),DESCR,{fIMMEXT(uiV); fEA_RI(RsV,uiV); fHIDE(size4s_t tmp;) fLOAD(1,2,s,EA,tmp); SEMANTICS;  fSTORE(1,2,EA,tmp); })
277
278
279
280STD_MEMOP_AMODES(add_memop, "+=Rt32", "Add Register to Memory Word", tmp += RtV)
281STD_MEMOP_AMODES(sub_memop, "-=Rt32", "Sub Register from Memory Word", tmp -= RtV)
282STD_MEMOP_AMODES(and_memop, "&=Rt32", "Logical AND Register to Memory Word", tmp &= RtV)
283STD_MEMOP_AMODES(or_memop, "|=Rt32", "Logical OR Register to Memory Word", tmp |= RtV)
284
285
286STD_MEMOP_AMODES(iadd_memop, "+=#U5", "Add Immediate to Memory Word", tmp += UiV)
287STD_MEMOP_AMODES(isub_memop, "-=#U5", "Sub Immediate to Memory Word", tmp -= UiV)
288STD_MEMOP_AMODES(iand_memop, "=clrbit(#U5)", "Clear a bit in memory", tmp &= (~(1<<UiV)))
289STD_MEMOP_AMODES(ior_memop,  "=setbit(#U5)", "Set a bit in memory", tmp |= (1<<UiV))
290
291
292/*****************************************************************/
293/*                                                               */
294/*                  V4 store immediates                          */
295/*                                                               */
296/*****************************************************************/
297/* Predicated Store immediates */
298#define V4_PSTI_AMODES(TAG,DEST,OPER,DESCR,ATTRIB,SHFT,SEMANTICS)\
299Q6INSN(S4_##TAG##t_io,"if (Pv4) "OPER"(Rs32+#u6:"SHFT")="DEST,ATTRIB,DESCR,{fEA_RI(RsV,uiV); if (fLSBOLD(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
300Q6INSN(S4_##TAG##f_io,"if (!Pv4) "OPER"(Rs32+#u6:"SHFT")="DEST,ATTRIB,DESCR,{fEA_RI(RsV,uiV); if (fLSBOLDNOT(PvV)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
301Q6INSN(S4_##TAG##tnew_io,"if (Pv4.new) "OPER"(Rs32+#u6:"SHFT")="DEST,ATTRIB,DESCR,{fEA_RI(RsV,uiV); if (fLSBNEW(PvN)){ SEMANTICS; } else {STORE_CANCEL(EA);}})\
302Q6INSN(S4_##TAG##fnew_io,"if (!Pv4.new) "OPER"(Rs32+#u6:"SHFT")="DEST,ATTRIB,DESCR,{fEA_RI(RsV,uiV); if (fLSBNEWNOT(PvN)){ SEMANTICS; } else {STORE_CANCEL(EA);}})
303
304/* The set of 32-bit store immediate instructions */
305V4_PSTI_AMODES(storeirb,"#S6","memb","Store Immediate Byte",ATTRIBS(A_ARCHV2,A_STORE),"0",fIMMEXT(SiV); fSTORE(1,1,EA,SiV))
306V4_PSTI_AMODES(storeirh,"#S6","memh","Store Immediate Half integer",ATTRIBS(A_ARCHV2,A_STORE),"1",fIMMEXT(SiV); fSTORE(1,2,EA,SiV))
307V4_PSTI_AMODES(storeiri,"#S6","memw","Store Immediate Word",ATTRIBS(A_ARCHV2,A_STORE),"2",fIMMEXT(SiV); fSTORE(1,4,EA,SiV))
308
309
310/* Non-predicated store immediates */
311#define V4_STI_AMODES(TAG,DEST,OPER,DESCR,ATTRIB,SHFT,SEMANTICS)\
312Q6INSN(S4_##TAG##_io,  OPER"(Rs32+#u6:"SHFT")="DEST,  ATTRIB,DESCR,{fEA_RI(RsV,uiV); SEMANTICS; })
313
314/* The set of 32-bit store immediate instructions */
315V4_STI_AMODES(storeirb,"#S8","memb","Store Immediate Byte",ATTRIBS(A_ARCHV2,A_STORE),"0",fIMMEXT(SiV); fSTORE(1,1,EA,SiV))
316V4_STI_AMODES(storeirh,"#S8","memh","Store Immediate Half integer",ATTRIBS(A_ARCHV2,A_STORE),"1",fIMMEXT(SiV); fSTORE(1,2,EA,SiV))
317V4_STI_AMODES(storeiri,"#S8","memw","Store Immediate Word",ATTRIBS(A_ARCHV2,A_STORE),"2",fIMMEXT(SiV); fSTORE(1,4,EA,SiV))
318
319
320
321
322
323
324
325/*****************************************************************/
326/*                                                               */
327/*                  V2 GP-relative LD/ST                         */
328/*                                                               */
329/*****************************************************************/
330
331#define STD_GPLD_AMODES(TAG,OPER,DESCR,ATTRIB,SHFT,SEMANTICS)\
332Q6INSN(L2_##TAG##gp, OPER"(gp+#u16:"SHFT")",   ATTRIB,DESCR,{fIMMEXT(uiV); fEA_GPI(uiV); SEMANTICS; })
333
334/* The set of 32-bit load instructions */
335STD_GPLD_AMODES(loadrub,"Rd32=memub","Load Unsigned Byte",ATTRIBS(A_LOAD,A_ARCHV2),"0",fLOAD(1,1,u,EA,RdV))
336STD_GPLD_AMODES(loadrb, "Rd32=memb", "Load signed Byte",ATTRIBS(A_LOAD,A_ARCHV2),"0",fLOAD(1,1,s,EA,RdV))
337STD_GPLD_AMODES(loadruh,"Rd32=memuh","Load unsigned Half integer",ATTRIBS(A_LOAD,A_ARCHV2),"1",fLOAD(1,2,u,EA,RdV))
338STD_GPLD_AMODES(loadrh, "Rd32=memh", "Load signed Half integer",ATTRIBS(A_LOAD,A_ARCHV2),"1",fLOAD(1,2,s,EA,RdV))
339STD_GPLD_AMODES(loadri, "Rd32=memw", "Load Word",ATTRIBS(A_LOAD,A_ARCHV2),"2",fLOAD(1,4,u,EA,RdV))
340STD_GPLD_AMODES(loadrd, "Rdd32=memd","Load Double integer",ATTRIBS(A_LOAD,A_ARCHV2),"3",fLOAD(1,8,u,EA,RddV))
341
342
343#define STD_GPST_AMODES(TAG,DEST,OPER,DESCR,ATTRIB,SHFT,SEMANTICS)\
344Q6INSN(S2_##TAG##gp, OPER"(gp+#u16:"SHFT")="DEST, ATTRIB,DESCR,{fIMMEXT(uiV); fEA_GPI(uiV); SEMANTICS; })
345
346/* The set of 32-bit store instructions */
347STD_GPST_AMODES(storerb, "Rt32", "memb","Store Byte",ATTRIBS(A_STORE,A_ARCHV2),"0",fSTORE(1,1,EA,fGETBYTE(0,RtV)))
348STD_GPST_AMODES(storerh, "Rt32", "memh","Store Half integer",ATTRIBS(A_STORE,A_ARCHV2),"1",fSTORE(1,2,EA,fGETHALF(0,RtV)))
349STD_GPST_AMODES(storerf, "Rt.H32", "memh","Store Upper Half integer",ATTRIBS(A_STORE,A_ARCHV2),"1",fSTORE(1,2,EA,fGETHALF(1,RtV)))
350STD_GPST_AMODES(storeri, "Rt32", "memw","Store Word",ATTRIBS(A_STORE,A_ARCHV2),"2",fSTORE(1,4,EA,RtV))
351STD_GPST_AMODES(storerd, "Rtt32","memd","Store Double integer",ATTRIBS(A_STORE,A_ARCHV2),"3",fSTORE(1,8,EA,RttV))
352STD_GPST_AMODES(storerinew, "Nt8.new", "memw","Store Word",ATTRIBS(A_STORE,A_ARCHV2),"2",fSTORE(1,4,EA,fNEWREG_ST(NtN)))
353STD_GPST_AMODES(storerbnew, "Nt8.new", "memb","Store Byte",ATTRIBS(A_STORE,A_ARCHV2),"0",fSTORE(1,1,EA,fGETBYTE(0,fNEWREG_ST(NtN))))
354STD_GPST_AMODES(storerhnew, "Nt8.new", "memh","Store Half integer",ATTRIBS(A_STORE,A_ARCHV2),"1",fSTORE(1,2,EA,fGETHALF(0,fNEWREG_ST(NtN))))
355