1 /* Table of opcodes for the Texas Instruments TMS320C54X
2 Copyright (C) 1999, 2000 Free Software Foundation, Inc.
3 Contributed by Timothy Wall (twall@cygnus.com)
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2 of the License, or
8 (at your option) any later version.
10 This program 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
13 GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
21 #include "opcode/tic54x.h"
23 /* these are the only register names not found in mmregs */
24 const symbol regs
[] = {
25 { "AR0", 16 }, { "ar0", 16 },
26 { "AR1", 17 }, { "ar1", 17 },
27 { "AR2", 18 }, { "ar2", 18 },
28 { "AR3", 19 }, { "ar3", 19 },
29 { "AR4", 20 }, { "ar4", 20 },
30 { "AR5", 21 }, { "ar5", 21 },
31 { "AR6", 22 }, { "ar6", 22 },
32 { "AR7", 23 }, { "ar7", 23 },
36 /* status bits, MM registers, condition codes, etc */
37 /* some symbols are only valid for certain chips... */
38 const symbol mmregs
[] = {
39 { "IMR", 0 }, { "imr", 0 },
40 { "IFR", 1 }, { "ifr", 1 },
41 { "ST0", 6 }, { "st0", 6 },
42 { "ST1", 7 }, { "st1", 7 },
43 { "AL", 8 }, { "al", 8 },
44 { "AH", 9 }, { "ah", 9 },
45 { "AG", 10 }, { "ag", 10 },
46 { "BL", 11 }, { "bl", 11 },
47 { "BH", 12 }, { "bh", 12 },
48 { "BG", 13 }, { "bg", 13 },
49 { "T", 14 }, { "t", 14 },
50 { "TRN", 15 }, { "trn", 15 },
51 { "AR0", 16 }, { "ar0", 16 },
52 { "AR1", 17 }, { "ar1", 17 },
53 { "AR2", 18 }, { "ar2", 18 },
54 { "AR3", 19 }, { "ar3", 19 },
55 { "AR4", 20 }, { "ar4", 20 },
56 { "AR5", 21 }, { "ar5", 21 },
57 { "AR6", 22 }, { "ar6", 22 },
58 { "AR7", 23 }, { "ar7", 23 },
59 { "SP", 24 }, { "sp", 24 },
60 { "BK", 25 }, { "bk", 25 },
61 { "BRC", 26 }, { "brc", 26 },
62 { "RSA", 27 }, { "rsa", 27 },
63 { "REA", 28 }, { "rea", 28 },
64 { "PMST",29 }, { "pmst",29 },
65 { "XPC", 30 }, { "xpc", 30 }, /* 'c548 only */
66 /* optional peripherals */ /* optional peripherals */
67 { "M1F", 31 }, { "m1f", 31 },
68 { "DRR0",0x20 }, { "drr0",0x20 },
69 { "BDRR0",0x20 }, { "bdrr0",0x20 }, /* 'c543, 545 */
70 { "DXR0",0x21 }, { "dxr0",0x21 },
71 { "BDXR0",0x21 }, { "bdxr0",0x21 }, /* 'c543, 545 */
72 { "SPC0",0x22 }, { "spc0",0x22 },
73 { "BSPC0",0x22 }, { "bspc0",0x22 }, /* 'c543, 545 */
74 { "SPCE0",0x23 }, { "spce0",0x23 },
75 { "BSPCE0",0x23 }, { "bspce0",0x23 }, /* 'c543, 545 */
76 { "TIM", 0x24 }, { "tim", 0x24 },
77 { "PRD", 0x25 }, { "prd", 0x25 },
78 { "TCR", 0x26 }, { "tcr", 0x26 },
79 { "SWWSR",0x28 }, { "swwsr",0x28 },
80 { "BSCR",0x29 }, { "bscr",0x29 },
81 { "HPIC",0x2C }, { "hpic",0x2c },
82 /* 'c541, 'c545 */ /* 'c541, 'c545 */
83 { "DRR1",0x30 }, { "drr1",0x30 },
84 { "DXR1",0x31 }, { "dxr1",0x31 },
85 { "SPC1",0x32 }, { "spc1",0x32 },
86 /* 'c542, 'c543 */ /* 'c542, 'c543 */
87 { "TRCV",0x30 }, { "trcv",0x30 },
88 { "TDXR",0x31 }, { "tdxr",0x31 },
89 { "TSPC",0x32 }, { "tspc",0x32 },
90 { "TCSR",0x33 }, { "tcsr",0x33 },
91 { "TRTA",0x34 }, { "trta",0x34 },
92 { "TRAD",0x35 }, { "trad",0x35 },
93 { "AXR0",0x38 }, { "axr0",0x38 },
94 { "BKX0",0x39 }, { "bkx0",0x39 },
95 { "ARR0",0x3A }, { "arr0",0x3a },
96 { "BKR0",0x3B }, { "bkr0",0x3b },
97 /* 'c545, 'c546, 'c548 */ /* 'c545, 'c546, 'c548 */
98 { "CLKMD",0x58 }, { "clkmd",0x58 },
99 /* 'c548 */ /* 'c548 */
100 { "AXR1",0x3C }, { "axr1",0x3c },
101 { "BKX1",0x3D }, { "bkx1",0x3d },
102 { "ARR1",0x3E }, { "arr1",0x3e },
103 { "BKR1",0x3F }, { "bkr1",0x3f },
104 { "BDRR1",0x40 }, { "bdrr1",0x40 },
105 { "BDXR1",0x41 }, { "bdxr1",0x41 },
106 { "BSPC1",0x42 }, { "bspc1",0x42 },
107 { "BSPCE1",0x43 }, { "bspce1",0x43 },
111 const symbol condition_codes
[] = {
112 /* condition codes */
113 { "UNC", 0 }, { "unc", 0 },
130 { "aeq", CC1
|CCEQ
}, { "AEQ", CC1
|CCEQ
},
131 { "aneq", CC1
|CCNEQ
}, { "ANEQ", CC1
|CCNEQ
},
132 { "alt", CC1
|CCLT
}, { "ALT", CC1
|CCLT
},
133 { "aleq", CC1
|CCLEQ
}, { "ALEQ", CC1
|CCLEQ
},
134 { "agt", CC1
|CCGT
}, { "AGT", CC1
|CCGT
},
135 { "ageq", CC1
|CCGEQ
}, { "AGEQ", CC1
|CCGEQ
},
136 { "aov", CC1
|CCOV
}, { "AOV", CC1
|CCOV
},
137 { "anov", CC1
|CCNOV
}, { "ANOV", CC1
|CCNOV
},
138 { "beq", CC1
|CCB
|CCEQ
}, { "BEQ", CC1
|CCB
|CCEQ
},
139 { "bneq", CC1
|CCB
|CCNEQ
}, { "BNEQ", CC1
|CCB
|CCNEQ
},
140 { "blt", CC1
|CCB
|CCLT
}, { "BLT", CC1
|CCB
|CCLT
},
141 { "bleq", CC1
|CCB
|CCLEQ
}, { "BLEQ", CC1
|CCB
|CCLEQ
},
142 { "bgt", CC1
|CCB
|CCGT
}, { "BGT", CC1
|CCB
|CCGT
},
143 { "bgeq", CC1
|CCB
|CCGEQ
}, { "BGEQ", CC1
|CCB
|CCGEQ
},
144 { "bov", CC1
|CCB
|CCOV
}, { "BOV", CC1
|CCB
|CCOV
},
145 { "bnov", CC1
|CCB
|CCNOV
}, { "BNOV", CC1
|CCB
|CCNOV
},
146 { "tc", CCTC
}, { "TC", CCTC
},
147 { "ntc", CCNTC
}, { "NTC", CCNTC
},
148 { "c", CCC
}, { "C", CCC
},
149 { "nc", CCNC
}, { "NC", CCNC
},
150 { "bio", CCBIO
}, { "BIO", CCBIO
},
151 { "nbio", CCNBIO
}, { "NBIO", CCNBIO
},
155 const symbol cc2_codes
[] = {
156 { "UNC", 0 }, { "unc", 0 },
157 { "AEQ", 5 }, { "aeq", 5 },
158 { "ANEQ", 4 }, { "aneq", 4 },
159 { "AGT", 6 }, { "agt", 6 },
160 { "ALT", 3 }, { "alt", 3 },
161 { "ALEQ", 7 }, { "aleq", 7 },
162 { "AGEQ", 2 }, { "ageq", 2 },
163 { "BEQ", 13 }, { "beq", 13 },
164 { "BNEQ", 12 },{ "bneq", 12 },
165 { "BGT", 14 }, { "bgt", 14 },
166 { "BLT", 11 }, { "blt", 11 },
167 { "BLEQ", 15 },{ "bleq", 15 },
168 { "BGEQ", 10 },{ "bgeq", 10 },
172 const symbol cc3_codes
[] = {
173 { "EQ", 0x0000 }, { "eq", 0x0000 },
174 { "LT", 0x0100 }, { "lt", 0x0100 },
175 { "GT", 0x0200 }, { "gt", 0x0200 },
176 { "NEQ", 0x0300 }, { "neq", 0x0300 },
188 /* FIXME -- also allow decimal digits */
189 const symbol status_bits
[] = {
190 /* status register 0 */
191 { "TC", 12 }, { "tc", 12 },
192 { "C", 11 }, { "c", 11 },
193 { "OVA", 10 }, { "ova", 10 },
194 { "OVB", 9 }, { "ovb", 9 },
195 /* status register 1 */
196 { "BRAF",15 }, { "braf",15 },
197 { "CPL", 14 }, { "cpl", 14 },
198 { "XF", 13 }, { "xf", 13 },
199 { "HM", 12 }, { "hm", 12 },
200 { "INTM",11 }, { "intm",11 },
201 { "OVM", 9 }, { "ovm", 9 },
202 { "SXM", 8 }, { "sxm", 8 },
203 { "C16", 7 }, { "c16", 7 },
204 { "FRCT", 6 }, { "frct", 6 },
205 { "CMPT", 5 }, { "cmpt", 5 },
209 const char *misc_symbols
[] = {
217 /* Due to the way instructions are hashed and scanned in
218 gas/config/tc-tic54x.c, all identically-named opcodes must be consecutively
221 Items marked with "PREFER" have been moved prior to a more costly
222 instruction with a similar operand format.
224 Mnemonics which can take either a predefined symbol or a memory reference
225 as an argument are arranged so that the more restrictive (predefined
226 symbol) version is checked first (marked "SRC").
228 const template tic54x_unknown_opcode
=
229 { "???", 1,0,0,0x0000, 0x0000, {0}, };
230 const template tic54x_optab
[] = {
231 /* these must precede bc/bcd, cc/ccd to avoid misinterpretation */
232 { "fb", 2,1,1,0xF880, 0xFF80, {OP_xpmad
}, B_BRANCH
|FL_FAR
|FL_NR
, },
233 { "fbd", 2,1,1,0xFA80, 0xFF80, {OP_xpmad
}, B_BRANCH
|FL_FAR
|FL_DELAY
|FL_NR
, },
234 { "fcall", 2,1,1,0xF980, 0xFF80, {OP_xpmad
}, B_BRANCH
|FL_FAR
|FL_NR
, },
235 { "fcalld",2,1,1,0xFB80, 0xFF80, {OP_xpmad
}, B_BRANCH
|FL_FAR
|FL_DELAY
|FL_NR
, },
237 { "abdst", 1,2,2,0xE300, 0xFF00, {OP_Xmem
,OP_Ymem
}, },
238 { "abs", 1,1,2,0xF485, 0xFCFF, {OP_SRC
,OPT
|OP_DST
}, },
239 { "add", 1,1,3,0xF400, 0xFCE0, {OP_SRC
,OPT
|OP_SHIFT
,OPT
|OP_DST
}, },/*SRC*/
240 { "add", 1,2,3,0xF480, 0xFCFF, {OP_SRC
,OP_ASM
,OPT
|OP_DST
}, },/*SRC*/
241 { "add", 1,2,2,0x0000, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
242 { "add", 1,3,3,0x0400, 0xFE00, {OP_Smem
,OP_TS
,OP_SRC1
}, FL_SMR
},
243 { "add", 1,3,4,0x3C00, 0xFC00, {OP_Smem
,OP_16
,OP_SRC
,OPT
|OP_DST
}, FL_SMR
},
244 { "add", 1,3,3,0x9000, 0xFE00, {OP_Xmem
,OP_SHFT
,OP_SRC1
}, },/*PREFER*/
245 { "add", 2,2,4,0x6F00, 0xFF00, {OP_Smem
,OPT
|OP_SHIFT
,OP_SRC
,OPT
|OP_DST
},
246 FL_EXT
|FL_SMR
, 0x0C00, 0xFCE0},
247 { "add", 1,3,3,0xA000, 0xFE00, {OP_Xmem
,OP_Ymem
,OP_DST
}, },
248 { "add", 2,2,4,0xF000, 0xFCF0, {OP_lk
,OPT
|OP_SHIFT
,OP_SRC
,OPT
|OP_DST
}, },
249 { "add", 2,3,4,0xF060, 0xFCFF, {OP_lk
,OP_16
,OP_SRC
,OPT
|OP_DST
}, },
250 { "addc", 1,2,2,0x0600, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
251 { "addm", 2,2,2,0x6B00, 0xFF00, {OP_lk
,OP_Smem
}, FL_NR
|FL_SMR
, },
252 { "adds", 1,2,2,0x0200, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
253 { "and", 1,1,3,0xF080, 0xFCE0, {OP_SRC
,OPT
|OP_SHIFT
,OPT
|OP_DST
}, },
254 { "and", 1,2,2,0x1800, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
255 { "and", 2,2,4,0xF030, 0xFCF0, {OP_lk
,OPT
|OP_SHFT
,OP_SRC
,OPT
|OP_DST
}, },
256 { "and", 2,3,4,0xF063, 0xFCFF, {OP_lk
,OP_16
,OP_SRC
,OPT
|OP_DST
}, },
257 { "andm", 2,2,2,0x6800, 0xFF00, {OP_lk
,OP_Smem
}, FL_NR
, },
258 { "b", 2,1,1,0xF073, 0xFFFF, {OP_pmad
}, B_BRANCH
|FL_NR
, },
259 { "bd", 2,1,1,0xF273, 0xFFFF, {OP_pmad
}, B_BRANCH
|FL_DELAY
|FL_NR
, },
260 { "bacc", 1,1,1,0xF4E2, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_NR
, },
261 { "baccd", 1,1,1,0xF6E2, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_DELAY
|FL_NR
, },
262 { "banz", 2,2,2,0x6C00, 0xFF00, {OP_pmad
,OP_Sind
}, B_BRANCH
|FL_NR
, },
263 { "banzd", 2,2,2,0x6E00, 0xFF00, {OP_pmad
,OP_Sind
}, B_BRANCH
|FL_DELAY
|FL_NR
, },
264 { "bc", 2,2,4,0xF800, 0xFF00, {OP_pmad
,OP_CC
,OPT
|OP_CC
,OPT
|OP_CC
},
266 { "bcd", 2,2,4,0xFA00, 0xFF00, {OP_pmad
,OP_CC
,OPT
|OP_CC
,OPT
|OP_CC
},
267 B_BRANCH
|FL_DELAY
|FL_NR
, },
268 { "bit", 1,2,2,0x9600, 0xFF00, {OP_Xmem
,OP_BITC
}, },
269 { "bitf", 2,2,2,0x6100, 0xFF00, {OP_Smem
,OP_lk
}, FL_SMR
},
270 { "bitt", 1,1,1,0x3400, 0xFF00, {OP_Smem
}, FL_SMR
},
271 { "cala", 1,1,1,0xF4E3, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_NR
, },
272 { "calad", 1,1,1,0xF6E3, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_DELAY
|FL_NR
, },
273 { "call", 2,1,1,0xF074, 0xFFFF, {OP_pmad
}, B_BRANCH
|FL_NR
, },
274 { "calld", 2,1,1,0xF274, 0xFFFF, {OP_pmad
}, B_BRANCH
|FL_DELAY
|FL_NR
, },
275 { "cc", 2,2,4,0xF900, 0xFF00, {OP_pmad
,OP_CC
,OPT
|OP_CC
,OPT
|OP_CC
},
277 { "ccd", 2,2,4,0xFB00, 0xFF00, {OP_pmad
,OP_CC
,OPT
|OP_CC
,OPT
|OP_CC
},
278 B_BRANCH
|FL_DELAY
|FL_NR
, },
279 { "cmpl", 1,1,2,0xF493, 0xFCFF, {OP_SRC
,OPT
|OP_DST
}, },
280 { "cmpm", 2,2,2,0x6000, 0xFF00, {OP_Smem
,OP_lk
}, FL_SMR
},
281 { "cmpr", 1,2,2,0xF4A8, 0xFCF8, {OP_CC3
,OP_ARX
}, FL_NR
, },
282 { "cmps", 1,2,2,0x8E00, 0xFE00, {OP_SRC1
,OP_Smem
}, },
283 { "dadd", 1,2,3,0x5000, 0xFC00, {OP_Lmem
,OP_SRC
,OPT
|OP_DST
}, },
284 { "dadst", 1,2,2,0x5A00, 0xFE00, {OP_Lmem
,OP_DST
}, },
285 { "delay", 1,1,1,0x4D00, 0xFF00, {OP_Smem
}, FL_SMR
},
286 { "dld", 1,2,2,0x5600, 0xFE00, {OP_Lmem
,OP_DST
}, },
287 { "drsub", 1,2,2,0x5800, 0xFE00, {OP_Lmem
,OP_SRC1
}, },
288 { "dsadt", 1,2,2,0x5E00, 0xFE00, {OP_Lmem
,OP_DST
}, },
289 { "dst", 1,2,2,0x4E00, 0xFE00, {OP_SRC1
,OP_Lmem
}, FL_NR
, },
290 { "dsub", 1,2,2,0x5400, 0xFE00, {OP_Lmem
,OP_SRC1
}, },
291 { "dsubt", 1,2,2,0x5C00, 0xFE00, {OP_Lmem
,OP_DST
}, },
292 { "exp", 1,1,1,0xF48E, 0xFEFF, {OP_SRC1
}, },
293 { "fbacc", 1,1,1,0xF4E6, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_FAR
|FL_NR
, },
294 { "fbaccd",1,1,1,0xF6E6, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_FAR
|FL_DELAY
|FL_NR
, },
295 { "fcala", 1,1,1,0xF4E7, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_FAR
|FL_NR
, },
296 { "fcalad",1,1,1,0xF6E7, 0xFEFF, {OP_SRC1
}, B_BACC
|FL_FAR
|FL_DELAY
|FL_NR
, },
297 { "firs", 2,3,3,0xE000, 0xFF00, {OP_Xmem
,OP_Ymem
,OP_pmad
}, },
298 { "frame", 1,1,1,0xEE00, 0xFF00, {OP_k8
}, },
299 { "fret", 1,0,0,0xF4E4, 0xFFFF, {OP_None
}, B_RET
|FL_FAR
|FL_NR
, },
300 { "fretd", 1,0,0,0xF6E4, 0xFFFF, {OP_None
}, B_RET
|FL_FAR
|FL_DELAY
|FL_NR
, },
301 { "frete", 1,0,0,0xF4E5, 0xFFFF, {OP_None
}, B_RET
|FL_FAR
|FL_NR
, },
302 { "freted",1,0,0,0xF6E5, 0xFFFF, {OP_None
}, B_RET
|FL_FAR
|FL_DELAY
|FL_NR
, },
303 { "idle", 1,1,1,0xF4E1, 0xFCFF, {OP_123
}, FL_NR
, },
304 { "intr", 1,1,1,0xF7C0, 0xFFE0, {OP_031
}, B_BRANCH
|FL_NR
, },
305 { "ld", 1,2,3,0xF482, 0xFCFF, {OP_SRC
,OP_ASM
,OPT
|OP_DST
}, },/*SRC*/
306 { "ld", 1,2,3,0xF440, 0xFCE0, {OP_SRC
,OPT
|OP_SHIFT
,OP_DST
}, },/*SRC*/
307 /* alternate syntax */
308 { "ld", 1,2,3,0xF440, 0xFCE0, {OP_SRC
,OP_SHIFT
,OPT
|OP_DST
}, },/*SRC*/
309 { "ld", 1,2,2,0xE800, 0xFE00, {OP_k8u
,OP_DST
}, },/*SRC*/
310 { "ld", 1,2,2,0xED00, 0xFFE0, {OP_k5
,OP_ASM
}, },/*SRC*/
311 { "ld", 1,2,2,0xF4A0, 0xFFF8, {OP_k3
,OP_ARP
}, FL_NR
, },/*SRC*/
312 { "ld", 1,2,2,0xEA00, 0xFE00, {OP_k9
,OP_DP
}, FL_NR
, },/*PREFER */
313 { "ld", 1,2,2,0x3000, 0xFF00, {OP_Smem
,OP_T
}, FL_SMR
},/*SRC*/
314 { "ld", 1,2,2,0x4600, 0xFF00, {OP_Smem
,OP_DP
}, FL_SMR
},/*SRC*/
315 { "ld", 1,2,2,0x3200, 0xFF00, {OP_Smem
,OP_ASM
}, FL_SMR
},/*SRC*/
316 { "ld", 1,2,2,0x1000, 0xFE00, {OP_Smem
,OP_DST
}, FL_SMR
},
317 { "ld", 1,3,3,0x1400, 0xFE00, {OP_Smem
,OP_TS
,OP_DST
}, FL_SMR
},
318 { "ld", 1,3,3,0x4400, 0xFE00, {OP_Smem
,OP_16
,OP_DST
}, FL_SMR
},
319 { "ld", 1,3,3,0x9400, 0xFE00, {OP_Xmem
,OP_SHFT
,OP_DST
}, },/*PREFER*/
320 { "ld", 2,2,3,0x6F00, 0xFF00, {OP_Smem
,OPT
|OP_SHIFT
,OP_DST
},
321 FL_EXT
|FL_SMR
, 0x0C40, 0xFEE0 },
322 { "ld", 2,2,3,0xF020, 0xFEF0, {OP_lk
,OPT
|OP_SHFT
,OP_DST
}, },
323 { "ld", 2,3,3,0xF062, 0xFEFF, {OP_lk
,OP_16
,OP_DST
}, },
324 { "ldm", 1,2,2,0x4800, 0xFE00, {OP_MMR
,OP_DST
}, },
325 { "ldr", 1,2,2,0x1600, 0xFE00, {OP_Smem
,OP_DST
}, FL_SMR
},
326 { "ldu", 1,2,2,0x1200, 0xFE00, {OP_Smem
,OP_DST
}, FL_SMR
},
327 { "ldx", 2,3,3,0xF062, 0xFEFF, {OP_xpmad_ms7
,OP_16
,OP_DST
}, FL_FAR
},/*pseudo-op*/
328 { "lms", 1,2,2,0xE100, 0xFF00, {OP_Xmem
,OP_Ymem
}, },
329 { "ltd", 1,1,1,0x4C00, 0xFF00, {OP_Smem
}, FL_SMR
},
330 { "mac", 1,2,2,0x2800, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
331 { "mac", 1,3,4,0xB000, 0xFC00, {OP_Xmem
,OP_Ymem
,OP_SRC
,OPT
|OP_DST
}, },
332 { "mac", 2,2,3,0xF067, 0xFCFF, {OP_lk
,OP_SRC
,OPT
|OP_DST
}, },
333 { "mac", 2,3,4,0x6400, 0xFC00, {OP_Smem
,OP_lk
,OP_SRC
,OPT
|OP_DST
}, FL_SMR
},
334 { "macr", 1,2,2,0x2A00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
335 { "macr", 1,3,4,0xB400, 0xFC00, {OP_Xmem
,OP_Ymem
,OP_SRC
,OPT
|OP_DST
},FL_SMR
},
336 { "maca", 1,2,3,0xF488, 0xFCFF, {OP_T
,OP_SRC
,OPT
|OP_DST
}, FL_SMR
},/*SRC*/
337 { "maca", 1,1,2,0x3500, 0xFF00, {OP_Smem
,OPT
|OP_B
}, FL_SMR
},
338 { "macar", 1,2,3,0xF489, 0xFCFF, {OP_T
,OP_SRC
,OPT
|OP_DST
}, FL_SMR
},/*SRC*/
339 { "macar", 1,1,2,0x3700, 0xFF00, {OP_Smem
,OPT
|OP_B
}, FL_SMR
},
340 { "macd", 2,3,3,0x7A00, 0xFE00, {OP_Smem
,OP_pmad
,OP_SRC1
}, FL_SMR
},
341 { "macp", 2,3,3,0x7800, 0xFE00, {OP_Smem
,OP_pmad
,OP_SRC1
}, FL_SMR
},
342 { "macsu", 1,3,3,0xA600, 0xFE00, {OP_Xmem
,OP_Ymem
,OP_SRC1
}, },
343 { "mar", 1,1,1,0x6D00, 0xFF00, {OP_Smem
}, },
344 { "mas", 1,2,2,0x2C00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
345 { "mas", 1,3,4,0xB800, 0xFC00, {OP_Xmem
,OP_Ymem
,OP_SRC
,OPT
|OP_DST
}, },
346 { "masr", 1,2,2,0x2E00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
347 { "masr", 1,3,4,0xBC00, 0xFC00, {OP_Xmem
,OP_Ymem
,OP_SRC
,OPT
|OP_DST
}, },
348 { "masa", 1,2,3,0xF48A, 0xFCFF, {OP_T
,OP_SRC
,OPT
|OP_DST
}, },/*SRC*/
349 { "masa", 1,1,2,0x3300, 0xFF00, {OP_Smem
,OPT
|OP_B
}, FL_SMR
},
350 { "masar", 1,2,3,0xF48B, 0xFCFF, {OP_T
,OP_SRC
,OPT
|OP_DST
}, },
351 { "max", 1,1,1,0xF486, 0xFEFF, {OP_DST
}, },
352 { "min", 1,1,1,0xF487, 0xFEFF, {OP_DST
}, },
353 { "mpy", 1,2,2,0x2000, 0xFE00, {OP_Smem
,OP_DST
}, FL_SMR
},
354 { "mpy", 1,3,3,0xA400, 0xFE00, {OP_Xmem
,OP_Ymem
,OP_DST
}, },
355 { "mpy", 2,3,3,0x6200, 0xFE00, {OP_Smem
,OP_lk
,OP_DST
}, FL_SMR
},
356 { "mpy", 2,2,2,0xF066, 0xFEFF, {OP_lk
,OP_DST
}, },
357 { "mpyr", 1,2,2,0x2200, 0xFE00, {OP_Smem
,OP_DST
}, FL_SMR
},
358 { "mpya", 1,1,1,0xF48C, 0xFEFF, {OP_DST
}, }, /*SRC*/
359 { "mpya", 1,1,1,0x3100, 0xFF00, {OP_Smem
}, FL_SMR
},
360 { "mpyu", 1,2,2,0x2400, 0xFE00, {OP_Smem
,OP_DST
}, FL_SMR
},
361 { "mvdd", 1,2,2,0xE500, 0xFF00, {OP_Xmem
,OP_Ymem
}, },
362 { "mvdk", 2,2,2,0x7100, 0xFF00, {OP_Smem
,OP_dmad
}, FL_SMR
},
363 { "mvdm", 2,2,2,0x7200, 0xFF00, {OP_dmad
,OP_MMR
}, },
364 { "mvdp", 2,2,2,0x7D00, 0xFF00, {OP_Smem
,OP_pmad
}, FL_SMR
},
365 { "mvkd", 2,2,2,0x7000, 0xFF00, {OP_dmad
,OP_Smem
}, },
366 { "mvmd", 2,2,2,0x7300, 0xFF00, {OP_MMR
,OP_dmad
}, },
367 { "mvmm", 1,2,2,0xE700, 0xFF00, {OP_MMRX
,OP_MMRY
}, FL_NR
, },
368 { "mvpd", 2,2,2,0x7C00, 0xFF00, {OP_pmad
,OP_Smem
}, },
369 { "neg", 1,1,2,0xF484, 0xFCFF, {OP_SRC
,OPT
|OP_DST
}, },
370 { "nop", 1,0,0,0xF495, 0xFFFF, {OP_None
}, },
371 { "norm", 1,1,2,0xF48F, 0xFCFF, {OP_SRC
,OPT
|OP_DST
}, },
372 { "or", 1,1,3,0xF0A0, 0xFCE0, {OP_SRC
,OPT
|OP_SHIFT
,OPT
|OP_DST
}, },/*SRC*/
373 { "or", 1,2,2,0x1A00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
374 { "or", 2,2,4,0xF040, 0xFCF0, {OP_lk
,OPT
|OP_SHFT
,OP_SRC
,OPT
|OP_DST
}, },
375 { "or", 2,3,4,0xF064, 0xFCFF, {OP_lk
,OP_16
,OP_SRC
,OPT
|OP_DST
}, },
376 { "orm", 2,2,2,0x6900, 0xFF00, {OP_lk
,OP_Smem
}, FL_NR
|FL_SMR
, },
377 { "poly", 1,1,1,0x3600, 0xFF00, {OP_Smem
}, FL_SMR
},
378 { "popd", 1,1,1,0x8B00, 0xFF00, {OP_Smem
}, },
379 { "popm", 1,1,1,0x8A00, 0xFF00, {OP_MMR
}, },
380 { "portr", 2,2,2,0x7400, 0xFF00, {OP_PA
,OP_Smem
}, },
381 { "portw", 2,2,2,0x7500, 0xFF00, {OP_Smem
,OP_PA
}, FL_SMR
},
382 { "pshd", 1,1,1,0x4B00, 0xFF00, {OP_Smem
}, FL_SMR
},
383 { "pshm", 1,1,1,0x4A00, 0xFF00, {OP_MMR
}, },
384 { "ret", 1,0,0,0xFC00, 0xFFFF, {OP_None
}, B_RET
|FL_NR
, },
385 { "retd", 1,0,0,0xFE00, 0xFFFF, {OP_None
}, B_RET
|FL_DELAY
|FL_NR
, },
386 { "rc", 1,1,3,0xFC00, 0xFF00, {OP_CC
,OPT
|OP_CC
,OPT
|OP_CC
},
388 { "rcd", 1,1,3,0xFE00, 0xFF00, {OP_CC
,OPT
|OP_CC
,OPT
|OP_CC
},
389 B_RET
|FL_DELAY
|FL_NR
, },
390 { "reada", 1,1,1,0x7E00, 0xFF00, {OP_Smem
}, },
391 { "reset", 1,0,0,0xF7E0, 0xFFFF, {OP_None
}, FL_NR
, },
392 { "rete", 1,0,0,0xF4EB, 0xFFFF, {OP_None
}, B_RET
|FL_NR
, },
393 { "reted", 1,0,0,0xF6EB, 0xFFFF, {OP_None
}, B_RET
|FL_DELAY
|FL_NR
, },
394 { "retf", 1,0,0,0xF49B, 0xFFFF, {OP_None
}, B_RET
|FL_NR
, },
395 { "retfd", 1,0,0,0xF69B, 0xFFFF, {OP_None
}, B_RET
|FL_DELAY
|FL_NR
, },
396 { "rnd", 1,1,2,0xF49F, 0xFCFF, {OP_SRC
,OPT
|OP_DST
}, FL_LP
|FL_NR
},
397 { "rol", 1,1,1,0xF491, 0xFEFF, {OP_SRC1
}, },
398 { "roltc", 1,1,1,0xF492, 0xFEFF, {OP_SRC1
}, },
399 { "ror", 1,1,1,0xF490, 0xFEFF, {OP_SRC1
}, },
400 { "rpt", 1,1,1,0x4700, 0xFF00, {OP_Smem
}, B_REPEAT
|FL_NR
|FL_SMR
, },
401 { "rpt", 1,1,1,0xEC00, 0xFF00, {OP_k8u
}, B_REPEAT
|FL_NR
, },
402 { "rpt", 2,1,1,0xF070, 0xFFFF, {OP_lku
}, B_REPEAT
|FL_NR
, },
403 { "rptb", 2,1,1,0xF072, 0xFFFF, {OP_pmad
}, FL_NR
, },
404 { "rptbd", 2,1,1,0xF272, 0xFFFF, {OP_pmad
}, FL_DELAY
|FL_NR
, },
405 { "rptz", 2,2,2,0xF071, 0xFEFF, {OP_DST
,OP_lku
}, B_REPEAT
|FL_NR
, },
406 { "rsbx", 1,1,2,0xF4B0, 0xFDF0, {OPT
|OP_N
,OP_SBIT
}, FL_NR
, },
407 { "saccd", 1,3,3,0x9E00, 0xFE00, {OP_SRC1
,OP_Xmem
,OP_CC2
}, },
408 { "sat", 1,1,1,0xF483, 0xFEFF, {OP_SRC1
}, },
409 { "sfta", 1,2,3,0xF460, 0xFCE0, {OP_SRC
,OP_SHIFT
,OPT
|OP_DST
}, },
410 { "sftc", 1,1,1,0xF494, 0xFEFF, {OP_SRC1
}, },
411 { "sftl", 1,2,3,0xF0E0, 0xFCE0, {OP_SRC
,OP_SHIFT
,OPT
|OP_DST
}, },
412 { "sqdst", 1,2,2,0xE200, 0xFF00, {OP_Xmem
,OP_Ymem
}, },
413 { "squr", 1,2,2,0xF48D, 0xFEFF, {OP_A
,OP_DST
}, },/*SRC*/
414 { "squr", 1,2,2,0x2600, 0xFE00, {OP_Smem
,OP_DST
}, FL_SMR
},
415 { "squra", 1,2,2,0x3800, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
416 { "squrs", 1,2,2,0x3A00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
417 { "srccd", 1,2,2,0x9D00, 0xFF00, {OP_Xmem
,OP_CC2
}, },
418 { "ssbx", 1,1,2,0xF5B0, 0xFDF0, {OPT
|OP_N
,OP_SBIT
}, FL_NR
, },
419 { "st", 1,2,2,0x8C00, 0xFF00, {OP_T
,OP_Smem
}, },
420 { "st", 1,2,2,0x8D00, 0xFF00, {OP_TRN
,OP_Smem
}, },
421 { "st", 2,2,2,0x7600, 0xFF00, {OP_lk
,OP_Smem
}, },
422 { "sth", 1,2,2,0x8200, 0xFE00, {OP_SRC1
,OP_Smem
}, },
423 { "sth", 1,3,3,0x8600, 0xFE00, {OP_SRC1
,OP_ASM
,OP_Smem
}, },
424 { "sth", 1,3,3,0x9A00, 0xFE00, {OP_SRC1
,OP_SHFT
,OP_Xmem
}, },
425 { "sth", 2,2,3,0x6F00, 0xFF00, {OP_SRC1
,OPT
|OP_SHIFT
,OP_Smem
},
426 FL_EXT
, 0x0C60, 0xFEE0 },
427 { "stl", 1,2,2,0x8000, 0xFE00, {OP_SRC1
,OP_Smem
}, },
428 { "stl", 1,3,3,0x8400, 0xFE00, {OP_SRC1
,OP_ASM
,OP_Smem
}, },
429 { "stl", 1,3,3,0x9800, 0xFE00, {OP_SRC1
,OP_SHFT
,OP_Xmem
}, },
430 { "stl", 2,2,3,0x6F00, 0xFF00, {OP_SRC1
,OPT
|OP_SHIFT
,OP_Smem
},
431 FL_EXT
, 0x0C80, 0xFEE0 },
432 { "stlm", 1,2,2,0x8800, 0xFE00, {OP_SRC1
,OP_MMR
}, },
433 { "stm", 2,2,2,0x7700, 0xFF00, {OP_lk
,OP_MMR
}, },
434 { "strcd", 1,2,2,0x9C00, 0xFF00, {OP_Xmem
,OP_CC2
}, },
435 { "sub", 1,1,3,0xF420, 0xFCE0, {OP_SRC
,OPT
|OP_SHIFT
,OPT
|OP_DST
}, },/*SRC*/
436 { "sub", 1,2,3,0xF481, 0xFCFF, {OP_SRC
,OP_ASM
,OPT
|OP_DST
}, },/*SRC*/
437 { "sub", 1,2,2,0x0800, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
438 { "sub", 1,3,3,0x0C00, 0xFE00, {OP_Smem
,OP_TS
,OP_SRC1
}, FL_SMR
},
439 { "sub", 1,3,4,0x4000, 0xFC00, {OP_Smem
,OP_16
,OP_SRC
,OPT
|OP_DST
}, FL_SMR
},
440 { "sub", 1,3,3,0x9200, 0xFE00, {OP_Xmem
,OP_SHFT
,OP_SRC1
}, }, /*PREFER*/
441 { "sub", 2,2,4,0x6F00, 0xFF00, {OP_Smem
,OPT
|OP_SHIFT
,OP_SRC
,OPT
|OP_DST
},
442 FL_EXT
|FL_SMR
, 0x0C20, 0xFCE0 },
443 { "sub", 1,3,3,0xA200, 0xFE00, {OP_Xmem
,OP_Ymem
,OP_DST
}, },
444 { "sub", 2,2,4,0xF010, 0xFCF0, {OP_lk
,OPT
|OP_SHFT
,OP_SRC
,OPT
|OP_DST
}, },
445 { "sub", 2,3,4,0xF061, 0xFCFF, {OP_lk
,OP_16
,OP_SRC
,OPT
|OP_DST
}, },
446 { "subb", 1,2,2,0x0E00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
447 { "subc", 1,2,2,0x1E00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
448 { "subs", 1,2,2,0x0A00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
449 { "trap", 1,1,1,0xF4C0, 0xFFE0, {OP_031
}, B_BRANCH
|FL_NR
, },
450 { "writa", 1,1,1,0x7F00, 0xFF00, {OP_Smem
}, FL_SMR
},
451 { "xc", 1,2,4,0xFD00, 0xFD00, {OP_12
,OP_CC
,OPT
|OP_CC
,OPT
|OP_CC
}, FL_NR
, },
452 { "xor", 1,1,3,0xF0C0, 0xFCE0, {OP_SRC
,OPT
|OP_SHIFT
,OPT
|OP_DST
}, },/*SRC*/
453 { "xor", 1,2,2,0x1C00, 0xFE00, {OP_Smem
,OP_SRC1
}, FL_SMR
},
454 { "xor", 2,2,4,0xF050, 0xFCF0, {OP_lku
,OPT
|OP_SHFT
,OP_SRC
,OPT
|OP_DST
}, },
455 { "xor", 2,3,4,0xF065, 0xFCFF, {OP_lku
,OP_16
,OP_SRC
,OPT
|OP_DST
}, },
456 { "xorm", 2,2,2,0x6A00, 0xFF00, {OP_lku
,OP_Smem
}, FL_NR
|FL_SMR
, },
460 /* assume all parallel instructions have at least three operands */
461 const partemplate tic54x_paroptab
[] = {
462 { "ld","mac", 1,1,2,0xA800, 0xFE00, {OP_Xmem
,OP_DST
},{OP_Ymem
,OPT
|OP_RND
},},
463 { "ld","macr",1,1,2,0xAA00, 0xFE00, {OP_Xmem
,OP_DST
},{OP_Ymem
,OPT
|OP_RND
},},
464 { "ld","mas", 1,1,2,0xAC00, 0xFE00, {OP_Xmem
,OP_DST
},{OP_Ymem
,OPT
|OP_RND
},},
465 { "ld","masr",1,1,2,0xAE00, 0xFE00, {OP_Xmem
,OP_DST
},{OP_Ymem
,OPT
|OP_RND
},},
466 { "st","add", 1,2,2,0xC000, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },
467 { "st","ld", 1,2,2,0xC800, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },
468 { "st","ld", 1,2,2,0xE400, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_T
}, },
469 { "st","mac", 1,2,2,0xD000, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },
470 { "st","macr",1,2,2,0xD400, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },
471 { "st","mas", 1,2,2,0xD800, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },
472 { "st","masr",1,2,2,0xDC00, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },
473 { "st","mpy", 1,2,2,0xCC00, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },
474 { "st","sub", 1,2,2,0xC400, 0xFC00, {OP_SRC
,OP_Ymem
},{OP_Xmem
,OP_DST
}, },