file make-gas.com was initially added on branch binutils-2_10-branch.
[binutils.git] / include / opcode / i960.h
blobb52fc3387370681484d63809fc6a4581b21c62c7
1 /* Basic 80960 instruction formats.
3 * The 'COJ' instructions are actually COBR instructions with the 'b' in
4 * the mnemonic replaced by a 'j'; they are ALWAYS "de-optimized" if necessary:
5 * if the displacement will not fit in 13 bits, the assembler will replace them
6 * with the corresponding compare and branch instructions.
8 * All of the 'MEMn' instructions are the same format; the 'n' in the name
9 * indicates the default index scale factor (the size of the datum operated on).
11 * The FBRA formats are not actually an instruction format. They are the
12 * "convenience directives" for branching on floating-point comparisons,
13 * each of which generates 2 instructions (a 'bno' and one other branch).
15 * The CALLJ format is not actually an instruction format. It indicates that
16 * the instruction generated (a CTRL-format 'call') should have its relocation
17 * specially flagged for link-time replacement with a 'bal' or 'calls' if
18 * appropriate.
19 */
21 #define CTRL 0
22 #define COBR 1
23 #define COJ 2
24 #define REG 3
25 #define MEM1 4
26 #define MEM2 5
27 #define MEM4 6
28 #define MEM8 7
29 #define MEM12 8
30 #define MEM16 9
31 #define FBRA 10
32 #define CALLJ 11
34 /* Masks for the mode bits in REG format instructions */
35 #define M1 0x0800
36 #define M2 0x1000
37 #define M3 0x2000
39 /* Generate the 12-bit opcode for a REG format instruction by placing the
40 * high 8 bits in instruction bits 24-31, the low 4 bits in instruction bits
41 * 7-10.
44 #define REG_OPC(opc) ((opc & 0xff0) << 20) | ((opc & 0xf) << 7)
46 /* Generate a template for a REG format instruction: place the opcode bits
47 * in the appropriate fields and OR in mode bits for the operands that will not
48 * be used. I.e.,
49 * set m1=1, if src1 will not be used
50 * set m2=1, if src2 will not be used
51 * set m3=1, if dst will not be used
53 * Setting the "unused" mode bits to 1 speeds up instruction execution(!).
54 * The information is also useful to us because some 1-operand REG instructions
55 * use the src1 field, others the dst field; and some 2-operand REG instructions
56 * use src1/src2, others src1/dst. The set mode bits enable us to distinguish.
58 #define R_0(opc) ( REG_OPC(opc) | M1 | M2 | M3 ) /* No operands */
59 #define R_1(opc) ( REG_OPC(opc) | M2 | M3 ) /* 1 operand: src1 */
60 #define R_1D(opc) ( REG_OPC(opc) | M1 | M2 ) /* 1 operand: dst */
61 #define R_2(opc) ( REG_OPC(opc) | M3 ) /* 2 ops: src1/src2 */
62 #define R_2D(opc) ( REG_OPC(opc) | M2 ) /* 2 ops: src1/dst */
63 #define R_3(opc) ( REG_OPC(opc) ) /* 3 operands */
65 /* DESCRIPTOR BYTES FOR REGISTER OPERANDS
67 * Interpret names as follows:
68 * R: global or local register only
69 * RS: global, local, or (if target allows) special-function register only
70 * RL: global or local register, or integer literal
71 * RSL: global, local, or (if target allows) special-function register;
72 * or integer literal
73 * F: global, local, or floating-point register
74 * FL: global, local, or floating-point register; or literal (including
75 * floating point)
77 * A number appended to a name indicates that registers must be aligned,
78 * as follows:
79 * 2: register number must be multiple of 2
80 * 4: register number must be multiple of 4
83 #define SFR 0x10 /* Mask for the "sfr-OK" bit */
84 #define LIT 0x08 /* Mask for the "literal-OK" bit */
85 #define FP 0x04 /* Mask for "floating-point-OK" bit */
87 /* This macro ors the bits together. Note that 'align' is a mask
88 * for the low 0, 1, or 2 bits of the register number, as appropriate.
90 #define OP(align,lit,fp,sfr) ( align | lit | fp | sfr )
92 #define R OP( 0, 0, 0, 0 )
93 #define RS OP( 0, 0, 0, SFR )
94 #define RL OP( 0, LIT, 0, 0 )
95 #define RSL OP( 0, LIT, 0, SFR )
96 #define F OP( 0, 0, FP, 0 )
97 #define FL OP( 0, LIT, FP, 0 )
98 #define R2 OP( 1, 0, 0, 0 )
99 #define RL2 OP( 1, LIT, 0, 0 )
100 #define F2 OP( 1, 0, FP, 0 )
101 #define FL2 OP( 1, LIT, FP, 0 )
102 #define R4 OP( 3, 0, 0, 0 )
103 #define RL4 OP( 3, LIT, 0, 0 )
104 #define F4 OP( 3, 0, FP, 0 )
105 #define FL4 OP( 3, LIT, FP, 0 )
107 #define M 0x7f /* Memory operand (MEMA & MEMB format instructions) */
109 /* Macros to extract info from the register operand descriptor byte 'od'.
111 #define SFR_OK(od) (od & SFR) /* TRUE if sfr operand allowed */
112 #define LIT_OK(od) (od & LIT) /* TRUE if literal operand allowed */
113 #define FP_OK(od) (od & FP) /* TRUE if floating-point op allowed */
114 #define REG_ALIGN(od,n) ((od & 0x3 & n) == 0)
115 /* TRUE if reg #n is properly aligned */
116 #define MEMOP(od) (od == M) /* TRUE if operand is a memory operand*/
118 /* Description of a single i80960 instruction */
119 struct i960_opcode {
120 long opcode; /* 32 bits, constant fields filled in, rest zeroed */
121 char *name; /* Assembler mnemonic */
122 short iclass; /* Class: see #defines below */
123 char format; /* REG, COBR, CTRL, MEMn, COJ, FBRA, or CALLJ */
124 char num_ops; /* Number of operands */
125 char operand[3];/* Operand descriptors; same order as assembler instr */
128 /* Classes of 960 intructions:
129 * - each instruction falls into one class.
130 * - each target architecture supports one or more classes.
132 * EACH CONSTANT MUST CONTAIN 1 AND ONLY 1 SET BIT!: see targ_has_iclass().
134 #define I_BASE 0x01 /* 80960 base instruction set */
135 #define I_CX 0x02 /* 80960Cx instruction */
136 #define I_DEC 0x04 /* Decimal instruction */
137 #define I_FP 0x08 /* Floating point instruction */
138 #define I_KX 0x10 /* 80960Kx instruction */
139 #define I_MIL 0x20 /* Military instruction */
140 #define I_CASIM 0x40 /* CA simulator instruction */
141 #define I_CX2 0x80 /* Cx/Jx/Hx instructions */
142 #define I_JX 0x100 /* Jx/Hx instruction */
143 #define I_HX 0x200 /* Hx instructions */
145 /******************************************************************************
147 * TABLE OF i960 INSTRUCTION DESCRIPTIONS
149 ******************************************************************************/
151 const struct i960_opcode i960_opcodes[] = {
153 /* if a CTRL instruction has an operand, it's always a displacement */
155 /* callj default=='call' */
156 { 0x09000000, "callj", I_BASE, CALLJ, 1, { 0, 0, 0 } },
157 { 0x08000000, "b", I_BASE, CTRL, 1, { 0, 0, 0 } },
158 { 0x09000000, "call", I_BASE, CTRL, 1, { 0, 0, 0 } },
159 { 0x0a000000, "ret", I_BASE, CTRL, 0, { 0, 0, 0 } },
160 { 0x0b000000, "bal", I_BASE, CTRL, 1, { 0, 0, 0 } },
161 { 0x10000000, "bno", I_BASE, CTRL, 1, { 0, 0, 0 } },
162 /* bf same as bno */
163 { 0x10000000, "bf", I_BASE, CTRL, 1, { 0, 0, 0 } },
164 /* bru same as bno */
165 { 0x10000000, "bru", I_BASE, CTRL, 1, { 0, 0, 0 } },
166 { 0x11000000, "bg", I_BASE, CTRL, 1, { 0, 0, 0 } },
167 /* brg same as bg */
168 { 0x11000000, "brg", I_BASE, CTRL, 1, { 0, 0, 0 } },
169 { 0x12000000, "be", I_BASE, CTRL, 1, { 0, 0, 0 } },
170 /* bre same as be */
171 { 0x12000000, "bre", I_BASE, CTRL, 1, { 0, 0, 0 } },
172 { 0x13000000, "bge", I_BASE, CTRL, 1, { 0, 0, 0 } },
173 /* brge same as bge */
174 { 0x13000000, "brge", I_BASE, CTRL, 1, { 0, 0, 0 } },
175 { 0x14000000, "bl", I_BASE, CTRL, 1, { 0, 0, 0 } },
176 /* brl same as bl */
177 { 0x14000000, "brl", I_BASE, CTRL, 1, { 0, 0, 0 } },
178 { 0x15000000, "bne", I_BASE, CTRL, 1, { 0, 0, 0 } },
179 /* brlg same as bne */
180 { 0x15000000, "brlg", I_BASE, CTRL, 1, { 0, 0, 0 } },
181 { 0x16000000, "ble", I_BASE, CTRL, 1, { 0, 0, 0 } },
182 /* brle same as ble */
183 { 0x16000000, "brle", I_BASE, CTRL, 1, { 0, 0, 0 } },
184 { 0x17000000, "bo", I_BASE, CTRL, 1, { 0, 0, 0 } },
185 /* bt same as bo */
186 { 0x17000000, "bt", I_BASE, CTRL, 1, { 0, 0, 0 } },
187 /* bro same as bo */
188 { 0x17000000, "bro", I_BASE, CTRL, 1, { 0, 0, 0 } },
189 { 0x18000000, "faultno", I_BASE, CTRL, 0, { 0, 0, 0 } },
190 /* faultf same as faultno */
191 { 0x18000000, "faultf", I_BASE, CTRL, 0, { 0, 0, 0 } },
192 { 0x19000000, "faultg", I_BASE, CTRL, 0, { 0, 0, 0 } },
193 { 0x1a000000, "faulte", I_BASE, CTRL, 0, { 0, 0, 0 } },
194 { 0x1b000000, "faultge", I_BASE, CTRL, 0, { 0, 0, 0 } },
195 { 0x1c000000, "faultl", I_BASE, CTRL, 0, { 0, 0, 0 } },
196 { 0x1d000000, "faultne", I_BASE, CTRL, 0, { 0, 0, 0 } },
197 { 0x1e000000, "faultle", I_BASE, CTRL, 0, { 0, 0, 0 } },
198 { 0x1f000000, "faulto", I_BASE, CTRL, 0, { 0, 0, 0 } },
199 /* faultt syn for faulto */
200 { 0x1f000000, "faultt", I_BASE, CTRL, 0, { 0, 0, 0 } },
202 { 0x01000000, "syscall", I_CASIM,CTRL, 0, { 0, 0, 0 } },
204 /* If a COBR (or COJ) has 3 operands, the last one is always a
205 * displacement and does not appear explicitly in the table.
208 { 0x20000000, "testno", I_BASE, COBR, 1, { R, 0, 0 } },
209 { 0x21000000, "testg", I_BASE, COBR, 1, { R, 0, 0 } },
210 { 0x22000000, "teste", I_BASE, COBR, 1, { R, 0, 0 } },
211 { 0x23000000, "testge", I_BASE, COBR, 1, { R, 0, 0 } },
212 { 0x24000000, "testl", I_BASE, COBR, 1, { R, 0, 0 } },
213 { 0x25000000, "testne", I_BASE, COBR, 1, { R, 0, 0 } },
214 { 0x26000000, "testle", I_BASE, COBR, 1, { R, 0, 0 } },
215 { 0x27000000, "testo", I_BASE, COBR, 1, { R, 0, 0 } },
216 { 0x30000000, "bbc", I_BASE, COBR, 3, { RL, RS, 0 } },
217 { 0x31000000, "cmpobg", I_BASE, COBR, 3, { RL, RS, 0 } },
218 { 0x32000000, "cmpobe", I_BASE, COBR, 3, { RL, RS, 0 } },
219 { 0x33000000, "cmpobge", I_BASE, COBR, 3, { RL, RS, 0 } },
220 { 0x34000000, "cmpobl", I_BASE, COBR, 3, { RL, RS, 0 } },
221 { 0x35000000, "cmpobne", I_BASE, COBR, 3, { RL, RS, 0 } },
222 { 0x36000000, "cmpoble", I_BASE, COBR, 3, { RL, RS, 0 } },
223 { 0x37000000, "bbs", I_BASE, COBR, 3, { RL, RS, 0 } },
224 { 0x38000000, "cmpibno", I_BASE, COBR, 3, { RL, RS, 0 } },
225 { 0x39000000, "cmpibg", I_BASE, COBR, 3, { RL, RS, 0 } },
226 { 0x3a000000, "cmpibe", I_BASE, COBR, 3, { RL, RS, 0 } },
227 { 0x3b000000, "cmpibge", I_BASE, COBR, 3, { RL, RS, 0 } },
228 { 0x3c000000, "cmpibl", I_BASE, COBR, 3, { RL, RS, 0 } },
229 { 0x3d000000, "cmpibne", I_BASE, COBR, 3, { RL, RS, 0 } },
230 { 0x3e000000, "cmpible", I_BASE, COBR, 3, { RL, RS, 0 } },
231 { 0x3f000000, "cmpibo", I_BASE, COBR, 3, { RL, RS, 0 } },
232 { 0x31000000, "cmpojg", I_BASE, COJ, 3, { RL, RS, 0 } },
233 { 0x32000000, "cmpoje", I_BASE, COJ, 3, { RL, RS, 0 } },
234 { 0x33000000, "cmpojge", I_BASE, COJ, 3, { RL, RS, 0 } },
235 { 0x34000000, "cmpojl", I_BASE, COJ, 3, { RL, RS, 0 } },
236 { 0x35000000, "cmpojne", I_BASE, COJ, 3, { RL, RS, 0 } },
237 { 0x36000000, "cmpojle", I_BASE, COJ, 3, { RL, RS, 0 } },
238 { 0x38000000, "cmpijno", I_BASE, COJ, 3, { RL, RS, 0 } },
239 { 0x39000000, "cmpijg", I_BASE, COJ, 3, { RL, RS, 0 } },
240 { 0x3a000000, "cmpije", I_BASE, COJ, 3, { RL, RS, 0 } },
241 { 0x3b000000, "cmpijge", I_BASE, COJ, 3, { RL, RS, 0 } },
242 { 0x3c000000, "cmpijl", I_BASE, COJ, 3, { RL, RS, 0 } },
243 { 0x3d000000, "cmpijne", I_BASE, COJ, 3, { RL, RS, 0 } },
244 { 0x3e000000, "cmpijle", I_BASE, COJ, 3, { RL, RS, 0 } },
245 { 0x3f000000, "cmpijo", I_BASE, COJ, 3, { RL, RS, 0 } },
247 { 0x80000000, "ldob", I_BASE, MEM1, 2, { M, R, 0 } },
248 { 0x82000000, "stob", I_BASE, MEM1, 2, { R, M, 0 } },
249 { 0x84000000, "bx", I_BASE, MEM1, 1, { M, 0, 0 } },
250 { 0x85000000, "balx", I_BASE, MEM1, 2, { M, R, 0 } },
251 { 0x86000000, "callx", I_BASE, MEM1, 1, { M, 0, 0 } },
252 { 0x88000000, "ldos", I_BASE, MEM2, 2, { M, R, 0 } },
253 { 0x8a000000, "stos", I_BASE, MEM2, 2, { R, M, 0 } },
254 { 0x8c000000, "lda", I_BASE, MEM1, 2, { M, R, 0 } },
255 { 0x90000000, "ld", I_BASE, MEM4, 2, { M, R, 0 } },
256 { 0x92000000, "st", I_BASE, MEM4, 2, { R, M, 0 } },
257 { 0x98000000, "ldl", I_BASE, MEM8, 2, { M, R2, 0 } },
258 { 0x9a000000, "stl", I_BASE, MEM8, 2, { R2, M, 0 } },
259 { 0xa0000000, "ldt", I_BASE, MEM12, 2, { M, R4, 0 } },
260 { 0xa2000000, "stt", I_BASE, MEM12, 2, { R4, M, 0 } },
261 { 0xb0000000, "ldq", I_BASE, MEM16, 2, { M, R4, 0 } },
262 { 0xb2000000, "stq", I_BASE, MEM16, 2, { R4, M, 0 } },
263 { 0xc0000000, "ldib", I_BASE, MEM1, 2, { M, R, 0 } },
264 { 0xc2000000, "stib", I_BASE, MEM1, 2, { R, M, 0 } },
265 { 0xc8000000, "ldis", I_BASE, MEM2, 2, { M, R, 0 } },
266 { 0xca000000, "stis", I_BASE, MEM2, 2, { R, M, 0 } },
268 { R_3(0x580), "notbit", I_BASE, REG, 3, { RSL,RSL,RS } },
269 { R_3(0x581), "and", I_BASE, REG, 3, { RSL,RSL,RS } },
270 { R_3(0x582), "andnot", I_BASE, REG, 3, { RSL,RSL,RS } },
271 { R_3(0x583), "setbit", I_BASE, REG, 3, { RSL,RSL,RS } },
272 { R_3(0x584), "notand", I_BASE, REG, 3, { RSL,RSL,RS } },
273 { R_3(0x586), "xor", I_BASE, REG, 3, { RSL,RSL,RS } },
274 { R_3(0x587), "or", I_BASE, REG, 3, { RSL,RSL,RS } },
275 { R_3(0x588), "nor", I_BASE, REG, 3, { RSL,RSL,RS } },
276 { R_3(0x589), "xnor", I_BASE, REG, 3, { RSL,RSL,RS } },
277 { R_2D(0x58a), "not", I_BASE, REG, 2, { RSL,RS, 0 } },
278 { R_3(0x58b), "ornot", I_BASE, REG, 3, { RSL,RSL,RS } },
279 { R_3(0x58c), "clrbit", I_BASE, REG, 3, { RSL,RSL,RS } },
280 { R_3(0x58d), "notor", I_BASE, REG, 3, { RSL,RSL,RS } },
281 { R_3(0x58e), "nand", I_BASE, REG, 3, { RSL,RSL,RS } },
282 { R_3(0x58f), "alterbit", I_BASE, REG, 3, { RSL,RSL,RS } },
283 { R_3(0x590), "addo", I_BASE, REG, 3, { RSL,RSL,RS } },
284 { R_3(0x591), "addi", I_BASE, REG, 3, { RSL,RSL,RS } },
285 { R_3(0x592), "subo", I_BASE, REG, 3, { RSL,RSL,RS } },
286 { R_3(0x593), "subi", I_BASE, REG, 3, { RSL,RSL,RS } },
287 { R_3(0x598), "shro", I_BASE, REG, 3, { RSL,RSL,RS } },
288 { R_3(0x59a), "shrdi", I_BASE, REG, 3, { RSL,RSL,RS } },
289 { R_3(0x59b), "shri", I_BASE, REG, 3, { RSL,RSL,RS } },
290 { R_3(0x59c), "shlo", I_BASE, REG, 3, { RSL,RSL,RS } },
291 { R_3(0x59d), "rotate", I_BASE, REG, 3, { RSL,RSL,RS } },
292 { R_3(0x59e), "shli", I_BASE, REG, 3, { RSL,RSL,RS } },
293 { R_2(0x5a0), "cmpo", I_BASE, REG, 2, { RSL,RSL, 0 } },
294 { R_2(0x5a1), "cmpi", I_BASE, REG, 2, { RSL,RSL, 0 } },
295 { R_2(0x5a2), "concmpo", I_BASE, REG, 2, { RSL,RSL, 0 } },
296 { R_2(0x5a3), "concmpi", I_BASE, REG, 2, { RSL,RSL, 0 } },
297 { R_3(0x5a4), "cmpinco", I_BASE, REG, 3, { RSL,RSL,RS } },
298 { R_3(0x5a5), "cmpinci", I_BASE, REG, 3, { RSL,RSL,RS } },
299 { R_3(0x5a6), "cmpdeco", I_BASE, REG, 3, { RSL,RSL,RS } },
300 { R_3(0x5a7), "cmpdeci", I_BASE, REG, 3, { RSL,RSL,RS } },
301 { R_2(0x5ac), "scanbyte", I_BASE, REG, 2, { RSL,RSL, 0 } },
302 { R_2(0x5ae), "chkbit", I_BASE, REG, 2, { RSL,RSL, 0 } },
303 { R_3(0x5b0), "addc", I_BASE, REG, 3, { RSL,RSL,RS } },
304 { R_3(0x5b2), "subc", I_BASE, REG, 3, { RSL,RSL,RS } },
305 { R_2D(0x5cc), "mov", I_BASE, REG, 2, { RSL,RS, 0 } },
306 { R_2D(0x5dc), "movl", I_BASE, REG, 2, { RL2,R2, 0 } },
307 { R_2D(0x5ec), "movt", I_BASE, REG, 2, { RL4,R4, 0 } },
308 { R_2D(0x5fc), "movq", I_BASE, REG, 2, { RL4,R4, 0 } },
309 { R_3(0x610), "atmod", I_BASE, REG, 3, { RS, RSL,R } },
310 { R_3(0x612), "atadd", I_BASE, REG, 3, { RS, RSL,RS } },
311 { R_2D(0x640), "spanbit", I_BASE, REG, 2, { RSL,RS, 0 } },
312 { R_2D(0x641), "scanbit", I_BASE, REG, 2, { RSL,RS, 0 } },
313 { R_3(0x645), "modac", I_BASE, REG, 3, { RSL,RSL,RS } },
314 { R_3(0x650), "modify", I_BASE, REG, 3, { RSL,RSL,R } },
315 { R_3(0x651), "extract", I_BASE, REG, 3, { RSL,RSL,R } },
316 { R_3(0x654), "modtc", I_BASE, REG, 3, { RSL,RSL,RS } },
317 { R_3(0x655), "modpc", I_BASE, REG, 3, { RSL,RSL,R } },
318 { R_1(0x660), "calls", I_BASE, REG, 1, { RSL, 0, 0 } },
319 { R_0(0x66b), "mark", I_BASE, REG, 0, { 0, 0, 0 } },
320 { R_0(0x66c), "fmark", I_BASE, REG, 0, { 0, 0, 0 } },
321 { R_0(0x66d), "flushreg", I_BASE, REG, 0, { 0, 0, 0 } },
322 { R_0(0x66f), "syncf", I_BASE, REG, 0, { 0, 0, 0 } },
323 { R_3(0x670), "emul", I_BASE, REG, 3, { RSL,RSL,R2 } },
324 { R_3(0x671), "ediv", I_BASE, REG, 3, { RSL,RL2,RS } },
325 { R_2D(0x672), "cvtadr", I_CASIM,REG, 2, { RL, R2, 0 } },
326 { R_3(0x701), "mulo", I_BASE, REG, 3, { RSL,RSL,RS } },
327 { R_3(0x708), "remo", I_BASE, REG, 3, { RSL,RSL,RS } },
328 { R_3(0x70b), "divo", I_BASE, REG, 3, { RSL,RSL,RS } },
329 { R_3(0x741), "muli", I_BASE, REG, 3, { RSL,RSL,RS } },
330 { R_3(0x748), "remi", I_BASE, REG, 3, { RSL,RSL,RS } },
331 { R_3(0x749), "modi", I_BASE, REG, 3, { RSL,RSL,RS } },
332 { R_3(0x74b), "divi", I_BASE, REG, 3, { RSL,RSL,RS } },
334 /* Floating-point instructions */
336 { R_2D(0x674), "cvtir", I_FP, REG, 2, { RL, F, 0 } },
337 { R_2D(0x675), "cvtilr", I_FP, REG, 2, { RL, F, 0 } },
338 { R_3(0x676), "scalerl", I_FP, REG, 3, { RL, FL2,F2 } },
339 { R_3(0x677), "scaler", I_FP, REG, 3, { RL, FL, F } },
340 { R_3(0x680), "atanr", I_FP, REG, 3, { FL, FL, F } },
341 { R_3(0x681), "logepr", I_FP, REG, 3, { FL, FL, F } },
342 { R_3(0x682), "logr", I_FP, REG, 3, { FL, FL, F } },
343 { R_3(0x683), "remr", I_FP, REG, 3, { FL, FL, F } },
344 { R_2(0x684), "cmpor", I_FP, REG, 2, { FL, FL, 0 } },
345 { R_2(0x685), "cmpr", I_FP, REG, 2, { FL, FL, 0 } },
346 { R_2D(0x688), "sqrtr", I_FP, REG, 2, { FL, F, 0 } },
347 { R_2D(0x689), "expr", I_FP, REG, 2, { FL, F, 0 } },
348 { R_2D(0x68a), "logbnr", I_FP, REG, 2, { FL, F, 0 } },
349 { R_2D(0x68b), "roundr", I_FP, REG, 2, { FL, F, 0 } },
350 { R_2D(0x68c), "sinr", I_FP, REG, 2, { FL, F, 0 } },
351 { R_2D(0x68d), "cosr", I_FP, REG, 2, { FL, F, 0 } },
352 { R_2D(0x68e), "tanr", I_FP, REG, 2, { FL, F, 0 } },
353 { R_1(0x68f), "classr", I_FP, REG, 1, { FL, 0, 0 } },
354 { R_3(0x690), "atanrl", I_FP, REG, 3, { FL2,FL2,F2 } },
355 { R_3(0x691), "logeprl", I_FP, REG, 3, { FL2,FL2,F2 } },
356 { R_3(0x692), "logrl", I_FP, REG, 3, { FL2,FL2,F2 } },
357 { R_3(0x693), "remrl", I_FP, REG, 3, { FL2,FL2,F2 } },
358 { R_2(0x694), "cmporl", I_FP, REG, 2, { FL2,FL2, 0 } },
359 { R_2(0x695), "cmprl", I_FP, REG, 2, { FL2,FL2, 0 } },
360 { R_2D(0x698), "sqrtrl", I_FP, REG, 2, { FL2,F2, 0 } },
361 { R_2D(0x699), "exprl", I_FP, REG, 2, { FL2,F2, 0 } },
362 { R_2D(0x69a), "logbnrl", I_FP, REG, 2, { FL2,F2, 0 } },
363 { R_2D(0x69b), "roundrl", I_FP, REG, 2, { FL2,F2, 0 } },
364 { R_2D(0x69c), "sinrl", I_FP, REG, 2, { FL2,F2, 0 } },
365 { R_2D(0x69d), "cosrl", I_FP, REG, 2, { FL2,F2, 0 } },
366 { R_2D(0x69e), "tanrl", I_FP, REG, 2, { FL2,F2, 0 } },
367 { R_1(0x69f), "classrl", I_FP, REG, 1, { FL2, 0, 0 } },
368 { R_2D(0x6c0), "cvtri", I_FP, REG, 2, { FL, R, 0 } },
369 { R_2D(0x6c1), "cvtril", I_FP, REG, 2, { FL, R2, 0 } },
370 { R_2D(0x6c2), "cvtzri", I_FP, REG, 2, { FL, R, 0 } },
371 { R_2D(0x6c3), "cvtzril", I_FP, REG, 2, { FL, R2, 0 } },
372 { R_2D(0x6c9), "movr", I_FP, REG, 2, { FL, F, 0 } },
373 { R_2D(0x6d9), "movrl", I_FP, REG, 2, { FL2,F2, 0 } },
374 { R_2D(0x6e1), "movre", I_FP, REG, 2, { FL4,F4, 0 } },
375 { R_3(0x6e2), "cpysre", I_FP, REG, 3, { FL4,FL4,F4 } },
376 { R_3(0x6e3), "cpyrsre", I_FP, REG, 3, { FL4,FL4,F4 } },
377 { R_3(0x78b), "divr", I_FP, REG, 3, { FL, FL, F } },
378 { R_3(0x78c), "mulr", I_FP, REG, 3, { FL, FL, F } },
379 { R_3(0x78d), "subr", I_FP, REG, 3, { FL, FL, F } },
380 { R_3(0x78f), "addr", I_FP, REG, 3, { FL, FL, F } },
381 { R_3(0x79b), "divrl", I_FP, REG, 3, { FL2,FL2,F2 } },
382 { R_3(0x79c), "mulrl", I_FP, REG, 3, { FL2,FL2,F2 } },
383 { R_3(0x79d), "subrl", I_FP, REG, 3, { FL2,FL2,F2 } },
384 { R_3(0x79f), "addrl", I_FP, REG, 3, { FL2,FL2,F2 } },
386 /* These are the floating point branch instructions. Each actually
387 * generates 2 branch instructions: the first a CTRL instruction with
388 * the indicated opcode, and the second a 'bno'.
391 { 0x12000000, "brue", I_FP, FBRA, 1, { 0, 0, 0 } },
392 { 0x11000000, "brug", I_FP, FBRA, 1, { 0, 0, 0 } },
393 { 0x13000000, "bruge", I_FP, FBRA, 1, { 0, 0, 0 } },
394 { 0x14000000, "brul", I_FP, FBRA, 1, { 0, 0, 0 } },
395 { 0x16000000, "brule", I_FP, FBRA, 1, { 0, 0, 0 } },
396 { 0x15000000, "brulg", I_FP, FBRA, 1, { 0, 0, 0 } },
399 /* Decimal instructions */
401 { R_3(0x642), "daddc", I_DEC, REG, 3, { RSL,RSL,RS } },
402 { R_3(0x643), "dsubc", I_DEC, REG, 3, { RSL,RSL,RS } },
403 { R_2D(0x644), "dmovt", I_DEC, REG, 2, { RSL,RS, 0 } },
406 /* KX extensions */
408 { R_2(0x600), "synmov", I_KX, REG, 2, { R, R, 0 } },
409 { R_2(0x601), "synmovl", I_KX, REG, 2, { R, R, 0 } },
410 { R_2(0x602), "synmovq", I_KX, REG, 2, { R, R, 0 } },
411 { R_2D(0x615), "synld", I_KX, REG, 2, { R, R, 0 } },
414 /* MC extensions */
416 { R_3(0x603), "cmpstr", I_MIL, REG, 3, { R, R, RL } },
417 { R_3(0x604), "movqstr", I_MIL, REG, 3, { R, R, RL } },
418 { R_3(0x605), "movstr", I_MIL, REG, 3, { R, R, RL } },
419 { R_2D(0x613), "inspacc", I_MIL, REG, 2, { R, R, 0 } },
420 { R_2D(0x614), "ldphy", I_MIL, REG, 2, { R, R, 0 } },
421 { R_3(0x617), "fill", I_MIL, REG, 3, { R, RL, RL } },
422 { R_2D(0x646), "condrec", I_MIL, REG, 2, { R, R, 0 } },
423 { R_2D(0x656), "receive", I_MIL, REG, 2, { R, R, 0 } },
424 { R_3(0x662), "send", I_MIL, REG, 3, { R, RL, R } },
425 { R_1(0x663), "sendserv", I_MIL, REG, 1, { R, 0, 0 } },
426 { R_1(0x664), "resumprcs", I_MIL, REG, 1, { R, 0, 0 } },
427 { R_1(0x665), "schedprcs", I_MIL, REG, 1, { R, 0, 0 } },
428 { R_0(0x666), "saveprcs", I_MIL, REG, 0, { 0, 0, 0 } },
429 { R_1(0x668), "condwait", I_MIL, REG, 1, { R, 0, 0 } },
430 { R_1(0x669), "wait", I_MIL, REG, 1, { R, 0, 0 } },
431 { R_1(0x66a), "signal", I_MIL, REG, 1, { R, 0, 0 } },
432 { R_1D(0x673), "ldtime", I_MIL, REG, 1, { R2, 0, 0 } },
435 /* CX extensions */
437 { R_3(0x5d8), "eshro", I_CX2, REG, 3, { RSL,RSL,RS } },
438 { R_3(0x630), "sdma", I_CX, REG, 3, { RSL,RSL,RL } },
439 { R_3(0x631), "udma", I_CX, REG, 0, { 0, 0, 0 } },
440 { R_3(0x659), "sysctl", I_CX2, REG, 3, { RSL,RSL,RL } },
443 /* Jx extensions. */
444 { R_3(0x780), "addono", I_JX, REG, 3, { RSL,RSL,RS } },
445 { R_3(0x790), "addog", I_JX, REG, 3, { RSL,RSL,RS } },
446 { R_3(0x7a0), "addoe", I_JX, REG, 3, { RSL,RSL,RS } },
447 { R_3(0x7b0), "addoge", I_JX, REG, 3, { RSL,RSL,RS } },
448 { R_3(0x7c0), "addol", I_JX, REG, 3, { RSL,RSL,RS } },
449 { R_3(0x7d0), "addone", I_JX, REG, 3, { RSL,RSL,RS } },
450 { R_3(0x7e0), "addole", I_JX, REG, 3, { RSL,RSL,RS } },
451 { R_3(0x7f0), "addoo", I_JX, REG, 3, { RSL,RSL,RS } },
452 { R_3(0x781), "addino", I_JX, REG, 3, { RSL,RSL,RS } },
453 { R_3(0x791), "addig", I_JX, REG, 3, { RSL,RSL,RS } },
454 { R_3(0x7a1), "addie", I_JX, REG, 3, { RSL,RSL,RS } },
455 { R_3(0x7b1), "addige", I_JX, REG, 3, { RSL,RSL,RS } },
456 { R_3(0x7c1), "addil", I_JX, REG, 3, { RSL,RSL,RS } },
457 { R_3(0x7d1), "addine", I_JX, REG, 3, { RSL,RSL,RS } },
458 { R_3(0x7e1), "addile", I_JX, REG, 3, { RSL,RSL,RS } },
459 { R_3(0x7f1), "addio", I_JX, REG, 3, { RSL,RSL,RS } },
461 { R_2D(0x5ad), "bswap", I_JX, REG, 2, { RSL, RS, 0 } },
463 { R_2(0x594), "cmpob", I_JX, REG, 2, { RSL,RSL, 0 } },
464 { R_2(0x595), "cmpib", I_JX, REG, 2, { RSL,RSL, 0 } },
465 { R_2(0x596), "cmpos", I_JX, REG, 2, { RSL,RSL, 0 } },
466 { R_2(0x597), "cmpis", I_JX, REG, 2, { RSL,RSL, 0 } },
468 { R_3(0x784), "selno", I_JX, REG, 3, { RSL,RSL,RS } },
469 { R_3(0x794), "selg", I_JX, REG, 3, { RSL,RSL,RS } },
470 { R_3(0x7a4), "sele", I_JX, REG, 3, { RSL,RSL,RS } },
471 { R_3(0x7b4), "selge", I_JX, REG, 3, { RSL,RSL,RS } },
472 { R_3(0x7c4), "sell", I_JX, REG, 3, { RSL,RSL,RS } },
473 { R_3(0x7d4), "selne", I_JX, REG, 3, { RSL,RSL,RS } },
474 { R_3(0x7e4), "selle", I_JX, REG, 3, { RSL,RSL,RS } },
475 { R_3(0x7f4), "selo", I_JX, REG, 3, { RSL,RSL,RS } },
477 { R_3(0x782), "subono", I_JX, REG, 3, { RSL,RSL,RS } },
478 { R_3(0x792), "subog", I_JX, REG, 3, { RSL,RSL,RS } },
479 { R_3(0x7a2), "suboe", I_JX, REG, 3, { RSL,RSL,RS } },
480 { R_3(0x7b2), "suboge", I_JX, REG, 3, { RSL,RSL,RS } },
481 { R_3(0x7c2), "subol", I_JX, REG, 3, { RSL,RSL,RS } },
482 { R_3(0x7d2), "subone", I_JX, REG, 3, { RSL,RSL,RS } },
483 { R_3(0x7e2), "subole", I_JX, REG, 3, { RSL,RSL,RS } },
484 { R_3(0x7f2), "suboo", I_JX, REG, 3, { RSL,RSL,RS } },
485 { R_3(0x783), "subino", I_JX, REG, 3, { RSL,RSL,RS } },
486 { R_3(0x793), "subig", I_JX, REG, 3, { RSL,RSL,RS } },
487 { R_3(0x7a3), "subie", I_JX, REG, 3, { RSL,RSL,RS } },
488 { R_3(0x7b3), "subige", I_JX, REG, 3, { RSL,RSL,RS } },
489 { R_3(0x7c3), "subil", I_JX, REG, 3, { RSL,RSL,RS } },
490 { R_3(0x7d3), "subine", I_JX, REG, 3, { RSL,RSL,RS } },
491 { R_3(0x7e3), "subile", I_JX, REG, 3, { RSL,RSL,RS } },
492 { R_3(0x7f3), "subio", I_JX, REG, 3, { RSL,RSL,RS } },
494 { R_3(0x65c), "dcctl", I_JX, REG, 3, { RSL,RSL,RL } },
495 { R_3(0x65b), "icctl", I_JX, REG, 3, { RSL,RSL,RS } },
496 { R_2D(0x658), "intctl", I_JX, REG, 2, { RSL, RS, 0 } },
497 { R_0(0x5b4), "intdis", I_JX, REG, 0, { 0, 0, 0 } },
498 { R_0(0x5b5), "inten", I_JX, REG, 0, { 0, 0, 0 } },
499 { R_0(0x65d), "halt", I_JX, REG, 1, { RSL, 0, 0 } },
501 /* Hx extensions. */
502 { 0xac000000, "dcinva", I_HX, MEM1, 1, { M, 0, 0 } },
504 /* END OF TABLE */
506 { 0, NULL, 0, 0, 0, { 0, 0, 0 } }
509 /* end of i960-opcode.h */