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source: branches/libc-0.6/src/binutils/include/opcode/i960.h

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Last change on this file was 10, checked in by bird, 22 years ago
Initial revision
Property cvs2svn:cvs-rev set to `1.1` Property svn:eol-style set to `native` Property svn:executable set to ``*
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1	/* Basic 80960 instruction formats.
2
3	Copyright 2001 Free Software Foundation, Inc.
4
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, or (at your option)
8	any later version.
9
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.
14
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,
18	Boston, MA 02111-1307, USA.
19
20	The 'COJ' instructions are actually COBR instructions with the 'b' in
21	the mnemonic replaced by a 'j'; they are ALWAYS "de-optimized" if necessary:
22	if the displacement will not fit in 13 bits, the assembler will replace them
23	with the corresponding compare and branch instructions.
24
25	All of the 'MEMn' instructions are the same format; the 'n' in the name
26	indicates the default index scale factor (the size of the datum operated on).
27
28	The FBRA formats are not actually an instruction format. They are the
29	"convenience directives" for branching on floating-point comparisons,
30	each of which generates 2 instructions (a 'bno' and one other branch).
31
32	The CALLJ format is not actually an instruction format. It indicates that
33	the instruction generated (a CTRL-format 'call') should have its relocation
34	specially flagged for link-time replacement with a 'bal' or 'calls' if
35	appropriate. */
36
37	#define CTRL 0
38	#define COBR 1
39	#define COJ 2
40	#define REG 3
41	#define MEM1 4
42	#define MEM2 5
43	#define MEM4 6
44	#define MEM8 7
45	#define MEM12 8
46	#define MEM16 9
47	#define FBRA 10
48	#define CALLJ 11
49
50	/* Masks for the mode bits in REG format instructions */
51	#define M1 0x0800
52	#define M2 0x1000
53	#define M3 0x2000
54
55	/* Generate the 12-bit opcode for a REG format instruction by placing the
56	* high 8 bits in instruction bits 24-31, the low 4 bits in instruction bits
57	* 7-10.
58	*/
59
60	#define REG_OPC(opc) ((opc & 0xff0) << 20) \| ((opc & 0xf) << 7)
61
62	/* Generate a template for a REG format instruction: place the opcode bits
63	* in the appropriate fields and OR in mode bits for the operands that will not
64	* be used. I.e.,
65	* set m1=1, if src1 will not be used
66	* set m2=1, if src2 will not be used
67	* set m3=1, if dst will not be used
68	*
69	* Setting the "unused" mode bits to 1 speeds up instruction execution(!).
70	* The information is also useful to us because some 1-operand REG instructions
71	* use the src1 field, others the dst field; and some 2-operand REG instructions
72	* use src1/src2, others src1/dst. The set mode bits enable us to distinguish.
73	*/
74	#define R_0(opc) ( REG_OPC(opc) \| M1 \| M2 \| M3 ) /* No operands */
75	#define R_1(opc) ( REG_OPC(opc) \| M2 \| M3 ) /* 1 operand: src1 */
76	#define R_1D(opc) ( REG_OPC(opc) \| M1 \| M2 ) /* 1 operand: dst */
77	#define R_2(opc) ( REG_OPC(opc) \| M3 ) /* 2 ops: src1/src2 */
78	#define R_2D(opc) ( REG_OPC(opc) \| M2 ) /* 2 ops: src1/dst */
79	#define R_3(opc) ( REG_OPC(opc) ) /* 3 operands */
80
81	/* DESCRIPTOR BYTES FOR REGISTER OPERANDS
82	*
83	* Interpret names as follows:
84	* R: global or local register only
85	* RS: global, local, or (if target allows) special-function register only
86	* RL: global or local register, or integer literal
87	* RSL: global, local, or (if target allows) special-function register;
88	* or integer literal
89	* F: global, local, or floating-point register
90	* FL: global, local, or floating-point register; or literal (including
91	* floating point)
92	*
93	* A number appended to a name indicates that registers must be aligned,
94	* as follows:
95	* 2: register number must be multiple of 2
96	* 4: register number must be multiple of 4
97	*/
98
99	#define SFR 0x10 /* Mask for the "sfr-OK" bit */
100	#define LIT 0x08 /* Mask for the "literal-OK" bit */
101	#define FP 0x04 /* Mask for "floating-point-OK" bit */
102
103	/* This macro ors the bits together. Note that 'align' is a mask
104	* for the low 0, 1, or 2 bits of the register number, as appropriate.
105	*/
106	#define OP(align,lit,fp,sfr) ( align \| lit \| fp \| sfr )
107
108	#define R OP( 0, 0, 0, 0 )
109	#define RS OP( 0, 0, 0, SFR )
110	#define RL OP( 0, LIT, 0, 0 )
111	#define RSL OP( 0, LIT, 0, SFR )
112	#define F OP( 0, 0, FP, 0 )
113	#define FL OP( 0, LIT, FP, 0 )
114	#define R2 OP( 1, 0, 0, 0 )
115	#define RL2 OP( 1, LIT, 0, 0 )
116	#define F2 OP( 1, 0, FP, 0 )
117	#define FL2 OP( 1, LIT, FP, 0 )
118	#define R4 OP( 3, 0, 0, 0 )
119	#define RL4 OP( 3, LIT, 0, 0 )
120	#define F4 OP( 3, 0, FP, 0 )
121	#define FL4 OP( 3, LIT, FP, 0 )
122
123	#define M 0x7f /* Memory operand (MEMA & MEMB format instructions) */
124
125	/* Macros to extract info from the register operand descriptor byte 'od'.
126	*/
127	#define SFR_OK(od) (od & SFR) /* TRUE if sfr operand allowed */
128	#define LIT_OK(od) (od & LIT) /* TRUE if literal operand allowed */
129	#define FP_OK(od) (od & FP) /* TRUE if floating-point op allowed */
130	#define REG_ALIGN(od,n) ((od & 0x3 & n) == 0)
131	/* TRUE if reg #n is properly aligned */
132	#define MEMOP(od) (od == M) /* TRUE if operand is a memory operand*/
133
134	/* Description of a single i80960 instruction */
135	struct i960_opcode {
136	long opcode; /* 32 bits, constant fields filled in, rest zeroed */
137	char name; / Assembler mnemonic */
138	short iclass; /* Class: see #defines below */
139	char format; /* REG, COBR, CTRL, MEMn, COJ, FBRA, or CALLJ */
140	char num_ops; /* Number of operands */
141	char operand[3];/* Operand descriptors; same order as assembler instr */
142	};
143
144	/* Classes of 960 intructions:
145	* - each instruction falls into one class.
146	* - each target architecture supports one or more classes.
147	*
148	* EACH CONSTANT MUST CONTAIN 1 AND ONLY 1 SET BIT!: see targ_has_iclass().
149	*/
150	#define I_BASE 0x01 /* 80960 base instruction set */
151	#define I_CX 0x02 /* 80960Cx instruction */
152	#define I_DEC 0x04 /* Decimal instruction */
153	#define I_FP 0x08 /* Floating point instruction */
154	#define I_KX 0x10 /* 80960Kx instruction */
155	#define I_MIL 0x20 /* Military instruction */
156	#define I_CASIM 0x40 /* CA simulator instruction */
157	#define I_CX2 0x80 /* Cx/Jx/Hx instructions */
158	#define I_JX 0x100 /* Jx/Hx instruction */
159	#define I_HX 0x200 /* Hx instructions */
160
161	/******************************************************************************
162	*
163	* TABLE OF i960 INSTRUCTION DESCRIPTIONS
164	*
165	******************************************************************************/
166
167	const struct i960_opcode i960_opcodes[] = {
168
169	/* if a CTRL instruction has an operand, it's always a displacement */
170
171	/* callj default=='call' */
172	{ 0x09000000, "callj", I_BASE, CALLJ, 1, { 0, 0, 0 } },
173	{ 0x08000000, "b", I_BASE, CTRL, 1, { 0, 0, 0 } },
174	{ 0x09000000, "call", I_BASE, CTRL, 1, { 0, 0, 0 } },
175	{ 0x0a000000, "ret", I_BASE, CTRL, 0, { 0, 0, 0 } },
176	{ 0x0b000000, "bal", I_BASE, CTRL, 1, { 0, 0, 0 } },
177	{ 0x10000000, "bno", I_BASE, CTRL, 1, { 0, 0, 0 } },
178	/* bf same as bno */
179	{ 0x10000000, "bf", I_BASE, CTRL, 1, { 0, 0, 0 } },
180	/* bru same as bno */
181	{ 0x10000000, "bru", I_BASE, CTRL, 1, { 0, 0, 0 } },
182	{ 0x11000000, "bg", I_BASE, CTRL, 1, { 0, 0, 0 } },
183	/* brg same as bg */
184	{ 0x11000000, "brg", I_BASE, CTRL, 1, { 0, 0, 0 } },
185	{ 0x12000000, "be", I_BASE, CTRL, 1, { 0, 0, 0 } },
186	/* bre same as be */
187	{ 0x12000000, "bre", I_BASE, CTRL, 1, { 0, 0, 0 } },
188	{ 0x13000000, "bge", I_BASE, CTRL, 1, { 0, 0, 0 } },
189	/* brge same as bge */
190	{ 0x13000000, "brge", I_BASE, CTRL, 1, { 0, 0, 0 } },
191	{ 0x14000000, "bl", I_BASE, CTRL, 1, { 0, 0, 0 } },
192	/* brl same as bl */
193	{ 0x14000000, "brl", I_BASE, CTRL, 1, { 0, 0, 0 } },
194	{ 0x15000000, "bne", I_BASE, CTRL, 1, { 0, 0, 0 } },
195	/* brlg same as bne */
196	{ 0x15000000, "brlg", I_BASE, CTRL, 1, { 0, 0, 0 } },
197	{ 0x16000000, "ble", I_BASE, CTRL, 1, { 0, 0, 0 } },
198	/* brle same as ble */
199	{ 0x16000000, "brle", I_BASE, CTRL, 1, { 0, 0, 0 } },
200	{ 0x17000000, "bo", I_BASE, CTRL, 1, { 0, 0, 0 } },
201	/* bt same as bo */
202	{ 0x17000000, "bt", I_BASE, CTRL, 1, { 0, 0, 0 } },
203	/* bro same as bo */
204	{ 0x17000000, "bro", I_BASE, CTRL, 1, { 0, 0, 0 } },
205	{ 0x18000000, "faultno", I_BASE, CTRL, 0, { 0, 0, 0 } },
206	/* faultf same as faultno */
207	{ 0x18000000, "faultf", I_BASE, CTRL, 0, { 0, 0, 0 } },
208	{ 0x19000000, "faultg", I_BASE, CTRL, 0, { 0, 0, 0 } },
209	{ 0x1a000000, "faulte", I_BASE, CTRL, 0, { 0, 0, 0 } },
210	{ 0x1b000000, "faultge", I_BASE, CTRL, 0, { 0, 0, 0 } },
211	{ 0x1c000000, "faultl", I_BASE, CTRL, 0, { 0, 0, 0 } },
212	{ 0x1d000000, "faultne", I_BASE, CTRL, 0, { 0, 0, 0 } },
213	{ 0x1e000000, "faultle", I_BASE, CTRL, 0, { 0, 0, 0 } },
214	{ 0x1f000000, "faulto", I_BASE, CTRL, 0, { 0, 0, 0 } },
215	/* faultt syn for faulto */
216	{ 0x1f000000, "faultt", I_BASE, CTRL, 0, { 0, 0, 0 } },
217
218	{ 0x01000000, "syscall", I_CASIM,CTRL, 0, { 0, 0, 0 } },
219
220	/* If a COBR (or COJ) has 3 operands, the last one is always a
221	* displacement and does not appear explicitly in the table.
222	*/
223
224	{ 0x20000000, "testno", I_BASE, COBR, 1, { R, 0, 0 } },
225	{ 0x21000000, "testg", I_BASE, COBR, 1, { R, 0, 0 } },
226	{ 0x22000000, "teste", I_BASE, COBR, 1, { R, 0, 0 } },
227	{ 0x23000000, "testge", I_BASE, COBR, 1, { R, 0, 0 } },
228	{ 0x24000000, "testl", I_BASE, COBR, 1, { R, 0, 0 } },
229	{ 0x25000000, "testne", I_BASE, COBR, 1, { R, 0, 0 } },
230	{ 0x26000000, "testle", I_BASE, COBR, 1, { R, 0, 0 } },
231	{ 0x27000000, "testo", I_BASE, COBR, 1, { R, 0, 0 } },
232	{ 0x30000000, "bbc", I_BASE, COBR, 3, { RL, RS, 0 } },
233	{ 0x31000000, "cmpobg", I_BASE, COBR, 3, { RL, RS, 0 } },
234	{ 0x32000000, "cmpobe", I_BASE, COBR, 3, { RL, RS, 0 } },
235	{ 0x33000000, "cmpobge", I_BASE, COBR, 3, { RL, RS, 0 } },
236	{ 0x34000000, "cmpobl", I_BASE, COBR, 3, { RL, RS, 0 } },
237	{ 0x35000000, "cmpobne", I_BASE, COBR, 3, { RL, RS, 0 } },
238	{ 0x36000000, "cmpoble", I_BASE, COBR, 3, { RL, RS, 0 } },
239	{ 0x37000000, "bbs", I_BASE, COBR, 3, { RL, RS, 0 } },
240	{ 0x38000000, "cmpibno", I_BASE, COBR, 3, { RL, RS, 0 } },
241	{ 0x39000000, "cmpibg", I_BASE, COBR, 3, { RL, RS, 0 } },
242	{ 0x3a000000, "cmpibe", I_BASE, COBR, 3, { RL, RS, 0 } },
243	{ 0x3b000000, "cmpibge", I_BASE, COBR, 3, { RL, RS, 0 } },
244	{ 0x3c000000, "cmpibl", I_BASE, COBR, 3, { RL, RS, 0 } },
245	{ 0x3d000000, "cmpibne", I_BASE, COBR, 3, { RL, RS, 0 } },
246	{ 0x3e000000, "cmpible", I_BASE, COBR, 3, { RL, RS, 0 } },
247	{ 0x3f000000, "cmpibo", I_BASE, COBR, 3, { RL, RS, 0 } },
248	{ 0x31000000, "cmpojg", I_BASE, COJ, 3, { RL, RS, 0 } },
249	{ 0x32000000, "cmpoje", I_BASE, COJ, 3, { RL, RS, 0 } },
250	{ 0x33000000, "cmpojge", I_BASE, COJ, 3, { RL, RS, 0 } },
251	{ 0x34000000, "cmpojl", I_BASE, COJ, 3, { RL, RS, 0 } },
252	{ 0x35000000, "cmpojne", I_BASE, COJ, 3, { RL, RS, 0 } },
253	{ 0x36000000, "cmpojle", I_BASE, COJ, 3, { RL, RS, 0 } },
254	{ 0x38000000, "cmpijno", I_BASE, COJ, 3, { RL, RS, 0 } },
255	{ 0x39000000, "cmpijg", I_BASE, COJ, 3, { RL, RS, 0 } },
256	{ 0x3a000000, "cmpije", I_BASE, COJ, 3, { RL, RS, 0 } },
257	{ 0x3b000000, "cmpijge", I_BASE, COJ, 3, { RL, RS, 0 } },
258	{ 0x3c000000, "cmpijl", I_BASE, COJ, 3, { RL, RS, 0 } },
259	{ 0x3d000000, "cmpijne", I_BASE, COJ, 3, { RL, RS, 0 } },
260	{ 0x3e000000, "cmpijle", I_BASE, COJ, 3, { RL, RS, 0 } },
261	{ 0x3f000000, "cmpijo", I_BASE, COJ, 3, { RL, RS, 0 } },
262
263	{ 0x80000000, "ldob", I_BASE, MEM1, 2, { M, R, 0 } },
264	{ 0x82000000, "stob", I_BASE, MEM1, 2, { R, M, 0 } },
265	{ 0x84000000, "bx", I_BASE, MEM1, 1, { M, 0, 0 } },
266	{ 0x85000000, "balx", I_BASE, MEM1, 2, { M, R, 0 } },
267	{ 0x86000000, "callx", I_BASE, MEM1, 1, { M, 0, 0 } },
268	{ 0x88000000, "ldos", I_BASE, MEM2, 2, { M, R, 0 } },
269	{ 0x8a000000, "stos", I_BASE, MEM2, 2, { R, M, 0 } },
270	{ 0x8c000000, "lda", I_BASE, MEM1, 2, { M, R, 0 } },
271	{ 0x90000000, "ld", I_BASE, MEM4, 2, { M, R, 0 } },
272	{ 0x92000000, "st", I_BASE, MEM4, 2, { R, M, 0 } },
273	{ 0x98000000, "ldl", I_BASE, MEM8, 2, { M, R2, 0 } },
274	{ 0x9a000000, "stl", I_BASE, MEM8, 2, { R2, M, 0 } },
275	{ 0xa0000000, "ldt", I_BASE, MEM12, 2, { M, R4, 0 } },
276	{ 0xa2000000, "stt", I_BASE, MEM12, 2, { R4, M, 0 } },
277	{ 0xb0000000, "ldq", I_BASE, MEM16, 2, { M, R4, 0 } },
278	{ 0xb2000000, "stq", I_BASE, MEM16, 2, { R4, M, 0 } },
279	{ 0xc0000000, "ldib", I_BASE, MEM1, 2, { M, R, 0 } },
280	{ 0xc2000000, "stib", I_BASE, MEM1, 2, { R, M, 0 } },
281	{ 0xc8000000, "ldis", I_BASE, MEM2, 2, { M, R, 0 } },
282	{ 0xca000000, "stis", I_BASE, MEM2, 2, { R, M, 0 } },
283
284	{ R_3(0x580), "notbit", I_BASE, REG, 3, { RSL,RSL,RS } },
285	{ R_3(0x581), "and", I_BASE, REG, 3, { RSL,RSL,RS } },
286	{ R_3(0x582), "andnot", I_BASE, REG, 3, { RSL,RSL,RS } },
287	{ R_3(0x583), "setbit", I_BASE, REG, 3, { RSL,RSL,RS } },
288	{ R_3(0x584), "notand", I_BASE, REG, 3, { RSL,RSL,RS } },
289	{ R_3(0x586), "xor", I_BASE, REG, 3, { RSL,RSL,RS } },
290	{ R_3(0x587), "or", I_BASE, REG, 3, { RSL,RSL,RS } },
291	{ R_3(0x588), "nor", I_BASE, REG, 3, { RSL,RSL,RS } },
292	{ R_3(0x589), "xnor", I_BASE, REG, 3, { RSL,RSL,RS } },
293	{ R_2D(0x58a), "not", I_BASE, REG, 2, { RSL,RS, 0 } },
294	{ R_3(0x58b), "ornot", I_BASE, REG, 3, { RSL,RSL,RS } },
295	{ R_3(0x58c), "clrbit", I_BASE, REG, 3, { RSL,RSL,RS } },
296	{ R_3(0x58d), "notor", I_BASE, REG, 3, { RSL,RSL,RS } },
297	{ R_3(0x58e), "nand", I_BASE, REG, 3, { RSL,RSL,RS } },
298	{ R_3(0x58f), "alterbit", I_BASE, REG, 3, { RSL,RSL,RS } },
299	{ R_3(0x590), "addo", I_BASE, REG, 3, { RSL,RSL,RS } },
300	{ R_3(0x591), "addi", I_BASE, REG, 3, { RSL,RSL,RS } },
301	{ R_3(0x592), "subo", I_BASE, REG, 3, { RSL,RSL,RS } },
302	{ R_3(0x593), "subi", I_BASE, REG, 3, { RSL,RSL,RS } },
303	{ R_3(0x598), "shro", I_BASE, REG, 3, { RSL,RSL,RS } },
304	{ R_3(0x59a), "shrdi", I_BASE, REG, 3, { RSL,RSL,RS } },
305	{ R_3(0x59b), "shri", I_BASE, REG, 3, { RSL,RSL,RS } },
306	{ R_3(0x59c), "shlo", I_BASE, REG, 3, { RSL,RSL,RS } },
307	{ R_3(0x59d), "rotate", I_BASE, REG, 3, { RSL,RSL,RS } },
308	{ R_3(0x59e), "shli", I_BASE, REG, 3, { RSL,RSL,RS } },
309	{ R_2(0x5a0), "cmpo", I_BASE, REG, 2, { RSL,RSL, 0 } },
310	{ R_2(0x5a1), "cmpi", I_BASE, REG, 2, { RSL,RSL, 0 } },
311	{ R_2(0x5a2), "concmpo", I_BASE, REG, 2, { RSL,RSL, 0 } },
312	{ R_2(0x5a3), "concmpi", I_BASE, REG, 2, { RSL,RSL, 0 } },
313	{ R_3(0x5a4), "cmpinco", I_BASE, REG, 3, { RSL,RSL,RS } },
314	{ R_3(0x5a5), "cmpinci", I_BASE, REG, 3, { RSL,RSL,RS } },
315	{ R_3(0x5a6), "cmpdeco", I_BASE, REG, 3, { RSL,RSL,RS } },
316	{ R_3(0x5a7), "cmpdeci", I_BASE, REG, 3, { RSL,RSL,RS } },
317	{ R_2(0x5ac), "scanbyte", I_BASE, REG, 2, { RSL,RSL, 0 } },
318	{ R_2(0x5ae), "chkbit", I_BASE, REG, 2, { RSL,RSL, 0 } },
319	{ R_3(0x5b0), "addc", I_BASE, REG, 3, { RSL,RSL,RS } },
320	{ R_3(0x5b2), "subc", I_BASE, REG, 3, { RSL,RSL,RS } },
321	{ R_2D(0x5cc), "mov", I_BASE, REG, 2, { RSL,RS, 0 } },
322	{ R_2D(0x5dc), "movl", I_BASE, REG, 2, { RL2,R2, 0 } },
323	{ R_2D(0x5ec), "movt", I_BASE, REG, 2, { RL4,R4, 0 } },
324	{ R_2D(0x5fc), "movq", I_BASE, REG, 2, { RL4,R4, 0 } },
325	{ R_3(0x610), "atmod", I_BASE, REG, 3, { RS, RSL,R } },
326	{ R_3(0x612), "atadd", I_BASE, REG, 3, { RS, RSL,RS } },
327	{ R_2D(0x640), "spanbit", I_BASE, REG, 2, { RSL,RS, 0 } },
328	{ R_2D(0x641), "scanbit", I_BASE, REG, 2, { RSL,RS, 0 } },
329	{ R_3(0x645), "modac", I_BASE, REG, 3, { RSL,RSL,RS } },
330	{ R_3(0x650), "modify", I_BASE, REG, 3, { RSL,RSL,R } },
331	{ R_3(0x651), "extract", I_BASE, REG, 3, { RSL,RSL,R } },
332	{ R_3(0x654), "modtc", I_BASE, REG, 3, { RSL,RSL,RS } },
333	{ R_3(0x655), "modpc", I_BASE, REG, 3, { RSL,RSL,R } },
334	{ R_1(0x660), "calls", I_BASE, REG, 1, { RSL, 0, 0 } },
335	{ R_0(0x66b), "mark", I_BASE, REG, 0, { 0, 0, 0 } },
336	{ R_0(0x66c), "fmark", I_BASE, REG, 0, { 0, 0, 0 } },
337	{ R_0(0x66d), "flushreg", I_BASE, REG, 0, { 0, 0, 0 } },
338	{ R_0(0x66f), "syncf", I_BASE, REG, 0, { 0, 0, 0 } },
339	{ R_3(0x670), "emul", I_BASE, REG, 3, { RSL,RSL,R2 } },
340	{ R_3(0x671), "ediv", I_BASE, REG, 3, { RSL,RL2,RS } },
341	{ R_2D(0x672), "cvtadr", I_CASIM,REG, 2, { RL, R2, 0 } },
342	{ R_3(0x701), "mulo", I_BASE, REG, 3, { RSL,RSL,RS } },
343	{ R_3(0x708), "remo", I_BASE, REG, 3, { RSL,RSL,RS } },
344	{ R_3(0x70b), "divo", I_BASE, REG, 3, { RSL,RSL,RS } },
345	{ R_3(0x741), "muli", I_BASE, REG, 3, { RSL,RSL,RS } },
346	{ R_3(0x748), "remi", I_BASE, REG, 3, { RSL,RSL,RS } },
347	{ R_3(0x749), "modi", I_BASE, REG, 3, { RSL,RSL,RS } },
348	{ R_3(0x74b), "divi", I_BASE, REG, 3, { RSL,RSL,RS } },
349
350	/* Floating-point instructions */
351
352	{ R_2D(0x674), "cvtir", I_FP, REG, 2, { RL, F, 0 } },
353	{ R_2D(0x675), "cvtilr", I_FP, REG, 2, { RL, F, 0 } },
354	{ R_3(0x676), "scalerl", I_FP, REG, 3, { RL, FL2,F2 } },
355	{ R_3(0x677), "scaler", I_FP, REG, 3, { RL, FL, F } },
356	{ R_3(0x680), "atanr", I_FP, REG, 3, { FL, FL, F } },
357	{ R_3(0x681), "logepr", I_FP, REG, 3, { FL, FL, F } },
358	{ R_3(0x682), "logr", I_FP, REG, 3, { FL, FL, F } },
359	{ R_3(0x683), "remr", I_FP, REG, 3, { FL, FL, F } },
360	{ R_2(0x684), "cmpor", I_FP, REG, 2, { FL, FL, 0 } },
361	{ R_2(0x685), "cmpr", I_FP, REG, 2, { FL, FL, 0 } },
362	{ R_2D(0x688), "sqrtr", I_FP, REG, 2, { FL, F, 0 } },
363	{ R_2D(0x689), "expr", I_FP, REG, 2, { FL, F, 0 } },
364	{ R_2D(0x68a), "logbnr", I_FP, REG, 2, { FL, F, 0 } },
365	{ R_2D(0x68b), "roundr", I_FP, REG, 2, { FL, F, 0 } },
366	{ R_2D(0x68c), "sinr", I_FP, REG, 2, { FL, F, 0 } },
367	{ R_2D(0x68d), "cosr", I_FP, REG, 2, { FL, F, 0 } },
368	{ R_2D(0x68e), "tanr", I_FP, REG, 2, { FL, F, 0 } },
369	{ R_1(0x68f), "classr", I_FP, REG, 1, { FL, 0, 0 } },
370	{ R_3(0x690), "atanrl", I_FP, REG, 3, { FL2,FL2,F2 } },
371	{ R_3(0x691), "logeprl", I_FP, REG, 3, { FL2,FL2,F2 } },
372	{ R_3(0x692), "logrl", I_FP, REG, 3, { FL2,FL2,F2 } },
373	{ R_3(0x693), "remrl", I_FP, REG, 3, { FL2,FL2,F2 } },
374	{ R_2(0x694), "cmporl", I_FP, REG, 2, { FL2,FL2, 0 } },
375	{ R_2(0x695), "cmprl", I_FP, REG, 2, { FL2,FL2, 0 } },
376	{ R_2D(0x698), "sqrtrl", I_FP, REG, 2, { FL2,F2, 0 } },
377	{ R_2D(0x699), "exprl", I_FP, REG, 2, { FL2,F2, 0 } },
378	{ R_2D(0x69a), "logbnrl", I_FP, REG, 2, { FL2,F2, 0 } },
379	{ R_2D(0x69b), "roundrl", I_FP, REG, 2, { FL2,F2, 0 } },
380	{ R_2D(0x69c), "sinrl", I_FP, REG, 2, { FL2,F2, 0 } },
381	{ R_2D(0x69d), "cosrl", I_FP, REG, 2, { FL2,F2, 0 } },
382	{ R_2D(0x69e), "tanrl", I_FP, REG, 2, { FL2,F2, 0 } },
383	{ R_1(0x69f), "classrl", I_FP, REG, 1, { FL2, 0, 0 } },
384	{ R_2D(0x6c0), "cvtri", I_FP, REG, 2, { FL, R, 0 } },
385	{ R_2D(0x6c1), "cvtril", I_FP, REG, 2, { FL, R2, 0 } },
386	{ R_2D(0x6c2), "cvtzri", I_FP, REG, 2, { FL, R, 0 } },
387	{ R_2D(0x6c3), "cvtzril", I_FP, REG, 2, { FL, R2, 0 } },
388	{ R_2D(0x6c9), "movr", I_FP, REG, 2, { FL, F, 0 } },
389	{ R_2D(0x6d9), "movrl", I_FP, REG, 2, { FL2,F2, 0 } },
390	{ R_2D(0x6e1), "movre", I_FP, REG, 2, { FL4,F4, 0 } },
391	{ R_3(0x6e2), "cpysre", I_FP, REG, 3, { FL4,FL4,F4 } },
392	{ R_3(0x6e3), "cpyrsre", I_FP, REG, 3, { FL4,FL4,F4 } },
393	{ R_3(0x78b), "divr", I_FP, REG, 3, { FL, FL, F } },
394	{ R_3(0x78c), "mulr", I_FP, REG, 3, { FL, FL, F } },
395	{ R_3(0x78d), "subr", I_FP, REG, 3, { FL, FL, F } },
396	{ R_3(0x78f), "addr", I_FP, REG, 3, { FL, FL, F } },
397	{ R_3(0x79b), "divrl", I_FP, REG, 3, { FL2,FL2,F2 } },
398	{ R_3(0x79c), "mulrl", I_FP, REG, 3, { FL2,FL2,F2 } },
399	{ R_3(0x79d), "subrl", I_FP, REG, 3, { FL2,FL2,F2 } },
400	{ R_3(0x79f), "addrl", I_FP, REG, 3, { FL2,FL2,F2 } },
401
402	/* These are the floating point branch instructions. Each actually
403	* generates 2 branch instructions: the first a CTRL instruction with
404	* the indicated opcode, and the second a 'bno'.
405	*/
406
407	{ 0x12000000, "brue", I_FP, FBRA, 1, { 0, 0, 0 } },
408	{ 0x11000000, "brug", I_FP, FBRA, 1, { 0, 0, 0 } },
409	{ 0x13000000, "bruge", I_FP, FBRA, 1, { 0, 0, 0 } },
410	{ 0x14000000, "brul", I_FP, FBRA, 1, { 0, 0, 0 } },
411	{ 0x16000000, "brule", I_FP, FBRA, 1, { 0, 0, 0 } },
412	{ 0x15000000, "brulg", I_FP, FBRA, 1, { 0, 0, 0 } },
413
414
415	/* Decimal instructions */
416
417	{ R_3(0x642), "daddc", I_DEC, REG, 3, { RSL,RSL,RS } },
418	{ R_3(0x643), "dsubc", I_DEC, REG, 3, { RSL,RSL,RS } },
419	{ R_2D(0x644), "dmovt", I_DEC, REG, 2, { RSL,RS, 0 } },
420
421
422	/* KX extensions */
423
424	{ R_2(0x600), "synmov", I_KX, REG, 2, { R, R, 0 } },
425	{ R_2(0x601), "synmovl", I_KX, REG, 2, { R, R, 0 } },
426	{ R_2(0x602), "synmovq", I_KX, REG, 2, { R, R, 0 } },
427	{ R_2D(0x615), "synld", I_KX, REG, 2, { R, R, 0 } },
428
429
430	/* MC extensions */
431
432	{ R_3(0x603), "cmpstr", I_MIL, REG, 3, { R, R, RL } },
433	{ R_3(0x604), "movqstr", I_MIL, REG, 3, { R, R, RL } },
434	{ R_3(0x605), "movstr", I_MIL, REG, 3, { R, R, RL } },
435	{ R_2D(0x613), "inspacc", I_MIL, REG, 2, { R, R, 0 } },
436	{ R_2D(0x614), "ldphy", I_MIL, REG, 2, { R, R, 0 } },
437	{ R_3(0x617), "fill", I_MIL, REG, 3, { R, RL, RL } },
438	{ R_2D(0x646), "condrec", I_MIL, REG, 2, { R, R, 0 } },
439	{ R_2D(0x656), "receive", I_MIL, REG, 2, { R, R, 0 } },
440	{ R_3(0x662), "send", I_MIL, REG, 3, { R, RL, R } },
441	{ R_1(0x663), "sendserv", I_MIL, REG, 1, { R, 0, 0 } },
442	{ R_1(0x664), "resumprcs", I_MIL, REG, 1, { R, 0, 0 } },
443	{ R_1(0x665), "schedprcs", I_MIL, REG, 1, { R, 0, 0 } },
444	{ R_0(0x666), "saveprcs", I_MIL, REG, 0, { 0, 0, 0 } },
445	{ R_1(0x668), "condwait", I_MIL, REG, 1, { R, 0, 0 } },
446	{ R_1(0x669), "wait", I_MIL, REG, 1, { R, 0, 0 } },
447	{ R_1(0x66a), "signal", I_MIL, REG, 1, { R, 0, 0 } },
448	{ R_1D(0x673), "ldtime", I_MIL, REG, 1, { R2, 0, 0 } },
449
450
451	/* CX extensions */
452
453	{ R_3(0x5d8), "eshro", I_CX2, REG, 3, { RSL,RSL,RS } },
454	{ R_3(0x630), "sdma", I_CX, REG, 3, { RSL,RSL,RL } },
455	{ R_3(0x631), "udma", I_CX, REG, 0, { 0, 0, 0 } },
456	{ R_3(0x659), "sysctl", I_CX2, REG, 3, { RSL,RSL,RL } },
457
458
459	/* Jx extensions. */
460	{ R_3(0x780), "addono", I_JX, REG, 3, { RSL,RSL,RS } },
461	{ R_3(0x790), "addog", I_JX, REG, 3, { RSL,RSL,RS } },
462	{ R_3(0x7a0), "addoe", I_JX, REG, 3, { RSL,RSL,RS } },
463	{ R_3(0x7b0), "addoge", I_JX, REG, 3, { RSL,RSL,RS } },
464	{ R_3(0x7c0), "addol", I_JX, REG, 3, { RSL,RSL,RS } },
465	{ R_3(0x7d0), "addone", I_JX, REG, 3, { RSL,RSL,RS } },
466	{ R_3(0x7e0), "addole", I_JX, REG, 3, { RSL,RSL,RS } },
467	{ R_3(0x7f0), "addoo", I_JX, REG, 3, { RSL,RSL,RS } },
468	{ R_3(0x781), "addino", I_JX, REG, 3, { RSL,RSL,RS } },
469	{ R_3(0x791), "addig", I_JX, REG, 3, { RSL,RSL,RS } },
470	{ R_3(0x7a1), "addie", I_JX, REG, 3, { RSL,RSL,RS } },
471	{ R_3(0x7b1), "addige", I_JX, REG, 3, { RSL,RSL,RS } },
472	{ R_3(0x7c1), "addil", I_JX, REG, 3, { RSL,RSL,RS } },
473	{ R_3(0x7d1), "addine", I_JX, REG, 3, { RSL,RSL,RS } },
474	{ R_3(0x7e1), "addile", I_JX, REG, 3, { RSL,RSL,RS } },
475	{ R_3(0x7f1), "addio", I_JX, REG, 3, { RSL,RSL,RS } },
476
477	{ R_2D(0x5ad), "bswap", I_JX, REG, 2, { RSL, RS, 0 } },
478
479	{ R_2(0x594), "cmpob", I_JX, REG, 2, { RSL,RSL, 0 } },
480	{ R_2(0x595), "cmpib", I_JX, REG, 2, { RSL,RSL, 0 } },
481	{ R_2(0x596), "cmpos", I_JX, REG, 2, { RSL,RSL, 0 } },
482	{ R_2(0x597), "cmpis", I_JX, REG, 2, { RSL,RSL, 0 } },
483
484	{ R_3(0x784), "selno", I_JX, REG, 3, { RSL,RSL,RS } },
485	{ R_3(0x794), "selg", I_JX, REG, 3, { RSL,RSL,RS } },
486	{ R_3(0x7a4), "sele", I_JX, REG, 3, { RSL,RSL,RS } },
487	{ R_3(0x7b4), "selge", I_JX, REG, 3, { RSL,RSL,RS } },
488	{ R_3(0x7c4), "sell", I_JX, REG, 3, { RSL,RSL,RS } },
489	{ R_3(0x7d4), "selne", I_JX, REG, 3, { RSL,RSL,RS } },
490	{ R_3(0x7e4), "selle", I_JX, REG, 3, { RSL,RSL,RS } },
491	{ R_3(0x7f4), "selo", I_JX, REG, 3, { RSL,RSL,RS } },
492
493	{ R_3(0x782), "subono", I_JX, REG, 3, { RSL,RSL,RS } },
494	{ R_3(0x792), "subog", I_JX, REG, 3, { RSL,RSL,RS } },
495	{ R_3(0x7a2), "suboe", I_JX, REG, 3, { RSL,RSL,RS } },
496	{ R_3(0x7b2), "suboge", I_JX, REG, 3, { RSL,RSL,RS } },
497	{ R_3(0x7c2), "subol", I_JX, REG, 3, { RSL,RSL,RS } },
498	{ R_3(0x7d2), "subone", I_JX, REG, 3, { RSL,RSL,RS } },
499	{ R_3(0x7e2), "subole", I_JX, REG, 3, { RSL,RSL,RS } },
500	{ R_3(0x7f2), "suboo", I_JX, REG, 3, { RSL,RSL,RS } },
501	{ R_3(0x783), "subino", I_JX, REG, 3, { RSL,RSL,RS } },
502	{ R_3(0x793), "subig", I_JX, REG, 3, { RSL,RSL,RS } },
503	{ R_3(0x7a3), "subie", I_JX, REG, 3, { RSL,RSL,RS } },
504	{ R_3(0x7b3), "subige", I_JX, REG, 3, { RSL,RSL,RS } },
505	{ R_3(0x7c3), "subil", I_JX, REG, 3, { RSL,RSL,RS } },
506	{ R_3(0x7d3), "subine", I_JX, REG, 3, { RSL,RSL,RS } },
507	{ R_3(0x7e3), "subile", I_JX, REG, 3, { RSL,RSL,RS } },
508	{ R_3(0x7f3), "subio", I_JX, REG, 3, { RSL,RSL,RS } },
509
510	{ R_3(0x65c), "dcctl", I_JX, REG, 3, { RSL,RSL,RL } },
511	{ R_3(0x65b), "icctl", I_JX, REG, 3, { RSL,RSL,RS } },
512	{ R_2D(0x658), "intctl", I_JX, REG, 2, { RSL, RS, 0 } },
513	{ R_0(0x5b4), "intdis", I_JX, REG, 0, { 0, 0, 0 } },
514	{ R_0(0x5b5), "inten", I_JX, REG, 0, { 0, 0, 0 } },
515	{ R_0(0x65d), "halt", I_JX, REG, 1, { RSL, 0, 0 } },
516
517	/* Hx extensions. */
518	{ 0xac000000, "dcinva", I_HX, MEM1, 1, { M, 0, 0 } },
519
520	/* END OF TABLE */
521
522	{ 0, NULL, 0, 0, 0, { 0, 0, 0 } }
523	};
524
525	/* end of i960-opcode.h */

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