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[/] [openrisc/] [trunk/] [gnu-old/] [gdb-7.1/] [sim/] [frv/] [frv-sim.h] - Blame information for rev 853

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1 227 jeremybenn 
/* collection of junk waiting time to sort out
2 
   Copyright (C) 1998, 1999, 2000, 2001, 2003, 2007, 2008, 2009, 2010
3 
   Free Software Foundation, Inc.
4 
   Contributed by Red Hat
5 
 
6 
This file is part of the GNU Simulators.
7 
 
8 
This program is free software; you can redistribute it and/or modify
9 
it under the terms of the GNU General Public License as published by
10 
the Free Software Foundation; either version 3 of the License, or
11 
(at your option) any later version.
12 
 
13 
This program is distributed in the hope that it will be useful,
14 
but WITHOUT ANY WARRANTY; without even the implied warranty of
15 
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16 
GNU General Public License for more details.
17 
 
18 
You should have received a copy of the GNU General Public License
19 
along with this program.  If not, see <http://www.gnu.org/licenses/>.  */
20 
 
21 
#ifndef FRV_SIM_H
22 
#define FRV_SIM_H
23 
 
24 
#include "sim-options.h"
25 
 
26 
/* True if SPR is the number of accumulator or accumulator guard register.  */
27 
#define SPR_IS_ACC(SPR) ((SPR) >= 1408 && (SPR) <= 1535)
28 
 
29 
/* Initialization of the frv cpu.  */
30 
void frv_initialize (SIM_CPU *, SIM_DESC);
31 
void frv_term (SIM_DESC);
32 
void frv_power_on_reset (SIM_CPU *);
33 
void frv_hardware_reset (SIM_CPU *);
34 
void frv_software_reset (SIM_CPU *);
35 
 
36 
/* The reset register.  See FRV LSI section 10.3.1  */
37 
#define RSTR_ADDRESS        0xfeff0500
38 
#define RSTR_INITIAL_VALUE  0x00000400
39 
#define RSTR_HARDWARE_RESET 0x00000200
40 
#define RSTR_SOFTWARE_RESET 0x00000100
41 
 
42 
#define GET_RSTR_HR(rstr) (((rstr) >> 1) & 1)
43 
#define GET_RSTR_SR(rstr) (((rstr)     ) & 1)
44 
 
45 
#define SET_RSTR_H(rstr) ((rstr) |= (1 << 9))
46 
#define SET_RSTR_S(rstr) ((rstr) |= (1 << 8))
47 
 
48 
#define CLEAR_RSTR_P(rstr)  ((rstr) &= ~(1 << 10))
49 
#define CLEAR_RSTR_H(rstr)  ((rstr) &= ~(1 <<  9))
50 
#define CLEAR_RSTR_S(rstr)  ((rstr) &= ~(1 <<  8))
51 
#define CLEAR_RSTR_HR(rstr) ((rstr) &= ~(1 <<  1))
52 
#define CLEAR_RSTR_SR(rstr) ((rstr) &= ~1)
53 
 
54 
/* Cutomized hardware get/set functions.  */
55 
extern USI  frvbf_h_spr_get_handler (SIM_CPU *, UINT);
56 
extern void frvbf_h_spr_set_handler (SIM_CPU *, UINT, USI);
57 
extern USI  frvbf_h_gr_get_handler (SIM_CPU *, UINT);
58 
extern void frvbf_h_gr_set_handler (SIM_CPU *, UINT, USI);
59 
extern UHI  frvbf_h_gr_hi_get_handler (SIM_CPU *, UINT);
60 
extern void frvbf_h_gr_hi_set_handler (SIM_CPU *, UINT, UHI);
61 
extern UHI  frvbf_h_gr_lo_get_handler (SIM_CPU *, UINT);
62 
extern void frvbf_h_gr_lo_set_handler (SIM_CPU *, UINT, UHI);
63 
extern DI   frvbf_h_gr_double_get_handler (SIM_CPU *, UINT);
64 
extern void frvbf_h_gr_double_set_handler (SIM_CPU *, UINT, DI);
65 
extern SF   frvbf_h_fr_get_handler (SIM_CPU *, UINT);
66 
extern void frvbf_h_fr_set_handler (SIM_CPU *, UINT, SF);
67 
extern DF   frvbf_h_fr_double_get_handler (SIM_CPU *, UINT);
68 
extern void frvbf_h_fr_double_set_handler (SIM_CPU *, UINT, DF);
69 
extern USI  frvbf_h_fr_int_get_handler (SIM_CPU *, UINT);
70 
extern void frvbf_h_fr_int_set_handler (SIM_CPU *, UINT, USI);
71 
extern DI   frvbf_h_cpr_double_get_handler (SIM_CPU *, UINT);
72 
extern void frvbf_h_cpr_double_set_handler (SIM_CPU *, UINT, DI);
73 
extern void frvbf_h_gr_quad_set_handler (SIM_CPU *, UINT, SI *);
74 
extern void frvbf_h_fr_quad_set_handler (SIM_CPU *, UINT, SI *);
75 
extern void frvbf_h_cpr_quad_set_handler (SIM_CPU *, UINT, SI *);
76 
extern void frvbf_h_psr_s_set_handler (SIM_CPU *, BI);
77 
 
78 
extern USI  spr_psr_get_handler (SIM_CPU *);
79 
extern void spr_psr_set_handler (SIM_CPU *, USI);
80 
extern USI  spr_tbr_get_handler (SIM_CPU *);
81 
extern void spr_tbr_set_handler (SIM_CPU *, USI);
82 
extern USI  spr_bpsr_get_handler (SIM_CPU *);
83 
extern void spr_bpsr_set_handler (SIM_CPU *, USI);
84 
extern USI  spr_ccr_get_handler (SIM_CPU *);
85 
extern void spr_ccr_set_handler (SIM_CPU *, USI);
86 
extern void spr_cccr_set_handler (SIM_CPU *, USI);
87 
extern USI  spr_cccr_get_handler (SIM_CPU *);
88 
extern USI  spr_isr_get_handler (SIM_CPU *);
89 
extern void spr_isr_set_handler (SIM_CPU *, USI);
90 
extern USI  spr_sr_get_handler (SIM_CPU *, UINT);
91 
extern void spr_sr_set_handler (SIM_CPU *, UINT, USI);
92 
 
93 
extern void frvbf_switch_supervisor_user_context (SIM_CPU *);
94 
 
95 
extern QI frvbf_set_icc_for_shift_left  (SIM_CPU *, SI, SI, QI);
96 
extern QI frvbf_set_icc_for_shift_right (SIM_CPU *, SI, SI, QI);
97 
 
98 
/* Insn semantics.  */
99 
extern void frvbf_signed_integer_divide (SIM_CPU *, SI, SI, int, int);
100 
extern void frvbf_unsigned_integer_divide (SIM_CPU *, USI, USI, int, int);
101 
extern SI   frvbf_shift_left_arith_saturate (SIM_CPU *, SI, SI);
102 
extern SI   frvbf_iacc_cut (SIM_CPU *, DI, SI);
103 
 
104 
extern void frvbf_clear_accumulators (SIM_CPU *, SI, int);
105 
 
106 
extern SI   frvbf_scan_result (SIM_CPU *, SI);
107 
extern SI   frvbf_cut (SIM_CPU *, SI, SI, SI);
108 
extern SI   frvbf_media_cut (SIM_CPU *, DI, SI);
109 
extern SI   frvbf_media_cut_ss (SIM_CPU *, DI, SI);
110 
extern void frvbf_media_cop (SIM_CPU *, int);
111 
extern UQI  frvbf_cr_logic (SIM_CPU *, SI, UQI, UQI);
112 
 
113 
extern void frvbf_set_write_next_vliw_addr_to_LR (SIM_CPU *, int);
114 
extern int  frvbf_write_next_vliw_addr_to_LR;
115 
 
116 
extern void frvbf_set_ne_index (SIM_CPU *, int);
117 
extern void frvbf_force_update (SIM_CPU *);
118 
 
119 
#define GETTWI GETTSI
120 
#define SETTWI SETTSI
121 
#define LEUINT LEUSI
122 
 
123 
/* Hardware/device support.
124 
   ??? Will eventually want to move device stuff to config files.  */
125 
 
126 
/* Support for the MCCR register (Cache Control Register) is needed in order
127 
   for overlays to work correctly with the scache: cached instructions need
128 
   to be flushed when the instruction space is changed at runtime.  */
129 
 
130 
/* These were just copied from another port and are necessary to build, but
131 
   but don't appear to be used.  */
132 
#define MCCR_ADDR 0xffffffff
133 
#define MCCR_CP 0x80
134 
/* not supported */
135 
#define MCCR_CM0 2
136 
#define MCCR_CM1 1
137 
 
138 
/* sim_core_attach device argument.  */
139 
extern device frv_devices;
140 
 
141 
/* FIXME: Temporary, until device support ready.  */
142 
struct _device { int foo; };
143 
 
144 
/* maintain the address of the start of the previous VLIW insn sequence.  */
145 
extern IADDR previous_vliw_pc;
146 
extern CGEN_ATTR_VALUE_ENUM_TYPE frv_current_fm_slot;
147 
 
148 
/* Hardware status.  */
149 
#define GET_HSR0() GET_H_SPR (H_SPR_HSR0)
150 
#define SET_HSR0(hsr0) SET_H_SPR (H_SPR_HSR0, (hsr0))
151 
 
152 
#define GET_HSR0_ICE(hsr0) (((hsr0) >> 31) & 1)
153 
#define SET_HSR0_ICE(hsr0) ((hsr0) |= (1 << 31))
154 
#define CLEAR_HSR0_ICE(hsr0) ((hsr0) &= ~(1 << 31))
155 
 
156 
#define GET_HSR0_DCE(hsr0) (((hsr0) >> 30) & 1)
157 
#define SET_HSR0_DCE(hsr0) ((hsr0) |= (1 << 30))
158 
#define CLEAR_HSR0_DCE(hsr0) ((hsr0) &= ~(1 << 30))
159 
 
160 
#define GET_HSR0_CBM(hsr0) (((hsr0) >> 27) & 1)
161 
#define GET_HSR0_RME(hsr0) (((hsr0) >> 22) & 1)
162 
#define GET_HSR0_SA(hsr0)  (((hsr0) >> 12) & 1)
163 
#define GET_HSR0_FRN(hsr0) (((hsr0) >> 11) & 1)
164 
#define GET_HSR0_GRN(hsr0) (((hsr0) >> 10) & 1)
165 
#define GET_HSR0_FRHE(hsr0) (((hsr0) >> 9) & 1)
166 
#define GET_HSR0_FRLE(hsr0) (((hsr0) >> 8) & 1)
167 
#define GET_HSR0_GRHE(hsr0) (((hsr0) >> 7) & 1)
168 
#define GET_HSR0_GRLE(hsr0) (((hsr0) >> 6) & 1)
169 
 
170 
#define GET_IHSR8() GET_H_SPR (H_SPR_IHSR8)
171 
#define GET_IHSR8_NBC(ihsr8) ((ihsr8) & 1)
172 
#define GET_IHSR8_ICDM(ihsr8) (((ihsr8) >>  1) & 1)
173 
#define GET_IHSR8_ICWE(ihsr8) (((ihsr8) >>  8) & 7)
174 
#define GET_IHSR8_DCWE(ihsr8) (((ihsr8) >> 12) & 7)
175 
 
176 
void frvbf_insn_cache_preload (SIM_CPU *, SI, USI, int);
177 
void frvbf_data_cache_preload (SIM_CPU *, SI, USI, int);
178 
void frvbf_insn_cache_unlock (SIM_CPU *, SI);
179 
void frvbf_data_cache_unlock (SIM_CPU *, SI);
180 
void frvbf_insn_cache_invalidate (SIM_CPU *, SI, int);
181 
void frvbf_data_cache_invalidate (SIM_CPU *, SI, int);
182 
void frvbf_data_cache_flush (SIM_CPU *, SI, int);
183 
 
184 
/* FR-V Interrupt classes.
185 
   These are declared in order of increasing priority.  */
186 
enum frv_interrupt_class
187 
{
188 
  FRV_EXTERNAL_INTERRUPT,
189 
  FRV_SOFTWARE_INTERRUPT,
190 
  FRV_PROGRAM_INTERRUPT,
191 
  FRV_BREAK_INTERRUPT,
192 
  FRV_RESET_INTERRUPT,
193 
  NUM_FRV_INTERRUPT_CLASSES
194 
};
195 
 
196 
/* FR-V Interrupt kinds.
197 
   These are declared in order of increasing priority.  */
198 
enum frv_interrupt_kind
199 
{
200 
  /* External interrupts */
201 
  FRV_INTERRUPT_LEVEL_1,
202 
  FRV_INTERRUPT_LEVEL_2,
203 
  FRV_INTERRUPT_LEVEL_3,
204 
  FRV_INTERRUPT_LEVEL_4,
205 
  FRV_INTERRUPT_LEVEL_5,
206 
  FRV_INTERRUPT_LEVEL_6,
207 
  FRV_INTERRUPT_LEVEL_7,
208 
  FRV_INTERRUPT_LEVEL_8,
209 
  FRV_INTERRUPT_LEVEL_9,
210 
  FRV_INTERRUPT_LEVEL_10,
211 
  FRV_INTERRUPT_LEVEL_11,
212 
  FRV_INTERRUPT_LEVEL_12,
213 
  FRV_INTERRUPT_LEVEL_13,
214 
  FRV_INTERRUPT_LEVEL_14,
215 
  FRV_INTERRUPT_LEVEL_15,
216 
  /* Software interrupt */
217 
  FRV_TRAP_INSTRUCTION,
218 
  /* Program interrupts */
219 
  FRV_COMMIT_EXCEPTION,
220 
  FRV_DIVISION_EXCEPTION,
221 
  FRV_DATA_STORE_ERROR,
222 
  FRV_DATA_ACCESS_EXCEPTION,
223 
  FRV_DATA_ACCESS_MMU_MISS,
224 
  FRV_DATA_ACCESS_ERROR,
225 
  FRV_MP_EXCEPTION,
226 
  FRV_FP_EXCEPTION,
227 
  FRV_MEM_ADDRESS_NOT_ALIGNED,
228 
  FRV_REGISTER_EXCEPTION,
229 
  FRV_MP_DISABLED,
230 
  FRV_FP_DISABLED,
231 
  FRV_PRIVILEGED_INSTRUCTION,
232 
  FRV_ILLEGAL_INSTRUCTION,
233 
  FRV_INSTRUCTION_ACCESS_EXCEPTION,
234 
  FRV_INSTRUCTION_ACCESS_ERROR,
235 
  FRV_INSTRUCTION_ACCESS_MMU_MISS,
236 
  FRV_COMPOUND_EXCEPTION,
237 
  /* Break interrupt */
238 
  FRV_BREAK_EXCEPTION,
239 
  /* Reset interrupt */
240 
  FRV_RESET,
241 
  NUM_FRV_INTERRUPT_KINDS
242 
};
243 
 
244 
/* FRV interrupt exception codes */
245 
enum frv_ec
246 
{
247 
  FRV_EC_DATA_STORE_ERROR             = 0x00,
248 
  FRV_EC_INSTRUCTION_ACCESS_MMU_MISS  = 0x01,
249 
  FRV_EC_INSTRUCTION_ACCESS_ERROR     = 0x02,
250 
  FRV_EC_INSTRUCTION_ACCESS_EXCEPTION = 0x03,
251 
  FRV_EC_PRIVILEGED_INSTRUCTION       = 0x04,
252 
  FRV_EC_ILLEGAL_INSTRUCTION          = 0x05,
253 
  FRV_EC_FP_DISABLED                  = 0x06,
254 
  FRV_EC_MP_DISABLED                  = 0x07,
255 
  FRV_EC_MEM_ADDRESS_NOT_ALIGNED      = 0x0b,
256 
  FRV_EC_REGISTER_EXCEPTION           = 0x0c,
257 
  FRV_EC_FP_EXCEPTION                 = 0x0d,
258 
  FRV_EC_MP_EXCEPTION                 = 0x0e,
259 
  FRV_EC_DATA_ACCESS_ERROR            = 0x10,
260 
  FRV_EC_DATA_ACCESS_MMU_MISS         = 0x11,
261 
  FRV_EC_DATA_ACCESS_EXCEPTION        = 0x12,
262 
  FRV_EC_DIVISION_EXCEPTION           = 0x13,
263 
  FRV_EC_COMMIT_EXCEPTION             = 0x14,
264 
  FRV_EC_NOT_EXECUTED                 = 0x1f,
265 
  FRV_EC_INTERRUPT_LEVEL_1            = FRV_EC_NOT_EXECUTED,
266 
  FRV_EC_INTERRUPT_LEVEL_2            = FRV_EC_NOT_EXECUTED,
267 
  FRV_EC_INTERRUPT_LEVEL_3            = FRV_EC_NOT_EXECUTED,
268 
  FRV_EC_INTERRUPT_LEVEL_4            = FRV_EC_NOT_EXECUTED,
269 
  FRV_EC_INTERRUPT_LEVEL_5            = FRV_EC_NOT_EXECUTED,
270 
  FRV_EC_INTERRUPT_LEVEL_6            = FRV_EC_NOT_EXECUTED,
271 
  FRV_EC_INTERRUPT_LEVEL_7            = FRV_EC_NOT_EXECUTED,
272 
  FRV_EC_INTERRUPT_LEVEL_8            = FRV_EC_NOT_EXECUTED,
273 
  FRV_EC_INTERRUPT_LEVEL_9            = FRV_EC_NOT_EXECUTED,
274 
  FRV_EC_INTERRUPT_LEVEL_10           = FRV_EC_NOT_EXECUTED,
275 
  FRV_EC_INTERRUPT_LEVEL_11           = FRV_EC_NOT_EXECUTED,
276 
  FRV_EC_INTERRUPT_LEVEL_12           = FRV_EC_NOT_EXECUTED,
277 
  FRV_EC_INTERRUPT_LEVEL_13           = FRV_EC_NOT_EXECUTED,
278 
  FRV_EC_INTERRUPT_LEVEL_14           = FRV_EC_NOT_EXECUTED,
279 
  FRV_EC_INTERRUPT_LEVEL_15           = FRV_EC_NOT_EXECUTED,
280 
  FRV_EC_TRAP_INSTRUCTION             = FRV_EC_NOT_EXECUTED,
281 
  FRV_EC_COMPOUND_EXCEPTION           = FRV_EC_NOT_EXECUTED,
282 
  FRV_EC_BREAK_EXCEPTION              = FRV_EC_NOT_EXECUTED,
283 
  FRV_EC_RESET                        = FRV_EC_NOT_EXECUTED
284 
};
285 
 
286 
/* FR-V Interrupt.
287 
   This struct contains enough information to describe a particular interrupt
288 
   occurance.  */
289 
struct frv_interrupt
290 
{
291 
  enum frv_interrupt_kind  kind;
292 
  enum frv_ec              ec;
293 
  enum frv_interrupt_class iclass;
294 
  unsigned char deferred;
295 
  unsigned char precise;
296 
  unsigned char handler_offset;
297 
};
298 
 
299 
/* FR-V Interrupt table.
300 
   Describes the interrupts supported by the FR-V.  */
301 
extern struct frv_interrupt frv_interrupt_table[];
302 
 
303 
/* FR-V Interrupt State.
304 
   Interrupts are queued during execution of parallel insns and the interupt(s)
305 
   to be handled determined by analysing the queue after each VLIW insn.  */
306 
#define FRV_INTERRUPT_QUEUE_SIZE (4 * 4) /* 4 interrupts x 4 insns for now.  */
307 
 
308 
/* register_exception codes */
309 
enum frv_rec
310 
{
311 
  FRV_REC_UNIMPLEMENTED = 0,
312 
  FRV_REC_UNALIGNED     = 1
313 
};
314 
 
315 
/* instruction_access_exception codes */
316 
enum frv_iaec
317 
{
318 
  FRV_IAEC_PROTECT_VIOLATION = 1
319 
};
320 
 
321 
/* data_access_exception codes */
322 
enum frv_daec
323 
{
324 
  FRV_DAEC_PROTECT_VIOLATION = 1
325 
};
326 
 
327 
/* division_exception ISR codes */
328 
enum frv_dtt
329 
{
330 
  FRV_DTT_NO_EXCEPTION     = 0,
331 
  FRV_DTT_DIVISION_BY_ZERO = 1,
332 
  FRV_DTT_OVERFLOW         = 2,
333 
  FRV_DTT_BOTH             = 3
334 
};
335 
 
336 
/* data written during an insn causing an interrupt */
337 
struct frv_data_written
338 
{
339 
  USI words[4]; /* Actual data in words */
340 
  int length;   /* length of data written */
341 
};
342 
 
343 
/* fp_exception info */
344 
/* Trap codes for FSR0 and FQ registers.  */
345 
enum frv_fsr_traps
346 
{
347 
  FSR_INVALID_OPERATION = 0x20,
348 
  FSR_OVERFLOW          = 0x10,
349 
  FSR_UNDERFLOW         = 0x08,
350 
  FSR_DIVISION_BY_ZERO  = 0x04,
351 
  FSR_INEXACT           = 0x02,
352 
  FSR_DENORMAL_INPUT    = 0x01,
353 
  FSR_NO_EXCEPTION      = 0
354 
};
355 
 
356 
/* Floating point trap types for FSR.  */
357 
enum frv_fsr_ftt
358 
{
359 
  FTT_NONE               = 0,
360 
  FTT_IEEE_754_EXCEPTION = 1,
361 
  FTT_UNIMPLEMENTED_FPOP = 3,
362 
  FTT_SEQUENCE_ERROR     = 4,
363 
  FTT_INVALID_FR         = 6,
364 
  FTT_DENORMAL_INPUT     = 7
365 
};
366 
 
367 
struct frv_fp_exception_info
368 
{
369 
  enum frv_fsr_traps fsr_mask; /* interrupt code for FSR */
370 
  enum frv_fsr_ftt   ftt;      /* floating point trap type */
371 
};
372 
 
373 
struct frv_interrupt_queue_element
374 
{
375 
  enum frv_interrupt_kind kind;      /* kind of interrupt */
376 
  IADDR                   vpc;       /* address of insn causing interrupt */
377 
  int                     slot;      /* VLIW slot containing the insn.  */
378 
  USI                     eaddress;  /* address of data access */
379 
  union {
380 
    enum frv_rec  rec;               /* register exception code */
381 
    enum frv_iaec iaec;              /* insn access exception code */
382 
    enum frv_daec daec;              /* data access exception code */
383 
    enum frv_dtt  dtt;               /* division exception code */
384 
    struct frv_fp_exception_info fp_info;
385 
    struct frv_data_written data_written;
386 
  } u;
387 
};
388 
 
389 
struct frv_interrupt_timer
390 
{
391 
  int enabled;
392 
  unsigned value;
393 
  unsigned current;
394 
  enum frv_interrupt_kind interrupt;
395 
};
396 
 
397 
struct frv_interrupt_state
398 
{
399 
  /* The interrupt queue */
400 
  struct frv_interrupt_queue_element queue[FRV_INTERRUPT_QUEUE_SIZE];
401 
  int queue_index;
402 
 
403 
  /* interrupt queue element causing imprecise interrupt.  */
404 
  struct frv_interrupt_queue_element *imprecise_interrupt;
405 
 
406 
  /* interrupt timer.  */
407 
  struct frv_interrupt_timer timer;
408 
 
409 
  /* The last data written stored as an array of words.  */
410 
  struct frv_data_written data_written;
411 
 
412 
  /* The vliw slot of the insn causing the interrupt.  */
413 
  int slot;
414 
 
415 
  /* target register index for non excepting insns.  */
416 
#define NE_NOFLAG (-1)
417 
  int ne_index;
418 
 
419 
  /* Accumulated NE flags for non excepting floating point insns.  */
420 
  SI f_ne_flags[2];
421 
};
422 
 
423 
extern struct frv_interrupt_state frv_interrupt_state;
424 
 
425 
/* Macros to manipulate the PSR.  */
426 
#define GET_PSR() GET_H_SPR (H_SPR_PSR)
427 
 
428 
#define SET_PSR_ET(psr, et) (           \
429 
  (psr) = ((psr) & ~0x1) | ((et) & 0x1) \
430 
)
431 
 
432 
#define GET_PSR_PS(psr) (((psr) >> 1) & 1)
433 
 
434 
#define SET_PSR_S(psr, s) (                          \
435 
  (psr) = ((psr) & ~(0x1 << 2)) | (((s) & 0x1) << 2) \
436 
)
437 
 
438 
/* Macros to handle the ISR register.  */
439 
#define GET_ISR() GET_H_SPR (H_SPR_ISR)
440 
#define SET_ISR(isr) SET_H_SPR (H_SPR_ISR, (isr))
441 
 
442 
#define GET_ISR_EDE(isr) (((isr) >> 5) & 1)
443 
 
444 
#define GET_ISR_DTT(isr) (((isr) >> 3) & 3)
445 
#define SET_ISR_DTT(isr, dtt) (                        \
446 
  (isr) = ((isr) & ~(0x3 << 3)) | (((dtt) & 0x3) << 3) \
447 
)
448 
 
449 
#define SET_ISR_AEXC(isr) ((isr) |= (1 << 2))
450 
 
451 
#define GET_ISR_EMAM(isr) ((isr) & 1)
452 
 
453 
/* Macros to handle exception status registers.
454 
   Get and set the hardware directly, since we may be getting/setting fields
455 
   which are not accessible to the user.  */
456 
#define GET_ESR(index) \
457 
  (CPU (h_spr[H_SPR_ESR0 + (index)]))
458 
#define SET_ESR(index, esr) \
459 
  (CPU (h_spr[H_SPR_ESR0 + (index)]) = (esr))
460 
 
461 
#define SET_ESR_VALID(esr) ((esr) |= 1)
462 
#define CLEAR_ESR_VALID(esr) ((esr) &= ~1)
463 
 
464 
#define SET_ESR_EC(esr, ec) (                           \
465 
  (esr) = ((esr) & ~(0x1f << 1)) | (((ec) & 0x1f) << 1) \
466 
)
467 
 
468 
#define SET_ESR_REC(esr, rec) (                        \
469 
  (esr) = ((esr) & ~(0x3 << 6)) | (((rec) & 0x3) << 6) \
470 
)
471 
 
472 
#define SET_ESR_IAEC(esr, iaec) (                       \
473 
  (esr) = ((esr) & ~(0x1 << 8)) | (((iaec) & 0x1) << 8) \
474 
)
475 
 
476 
#define SET_ESR_DAEC(esr, daec) (                       \
477 
  (esr) = ((esr) & ~(0x1 << 9)) | (((daec) & 0x1) << 9) \
478 
)
479 
 
480 
#define SET_ESR_EAV(esr) ((esr) |= (1 << 11))
481 
#define CLEAR_ESR_EAV(esr) ((esr) &= ~(1 << 11))
482 
 
483 
#define GET_ESR_EDV(esr) (((esr) >> 12) & 1)
484 
#define SET_ESR_EDV(esr) ((esr) |= (1 << 12))
485 
#define CLEAR_ESR_EDV(esr) ((esr) &= ~(1 << 12))
486 
 
487 
#define GET_ESR_EDN(esr) ( \
488 
  ((esr) >> 13) & 0xf      \
489 
)
490 
#define SET_ESR_EDN(esr, edn) (                       \
491 
  (esr) = ((esr) & ~(0xf << 13)) | (((edn) & 0xf) << 13) \
492 
)
493 
 
494 
#define SET_EPCR(index, address) \
495 
  (CPU (h_spr[H_SPR_EPCR0 + (index)]) = (address))
496 
 
497 
#define SET_EAR(index, address) \
498 
  (CPU (h_spr[H_SPR_EAR0 + (index)]) = (address))
499 
 
500 
#define SET_EDR(index, edr) \
501 
  (CPU (h_spr[H_SPR_EDR0 + (index)]) = (edr))
502 
 
503 
#define GET_ESFR(index) \
504 
  (CPU (h_spr[H_SPR_ESFR0 + (index)]))
505 
#define SET_ESFR(index, esfr) \
506 
  (CPU (h_spr[H_SPR_ESFR0 + (index)]) = (esfr))
507 
 
508 
#define GET_ESFR_FLAG(findex) ( \
509 
  (findex) > 31 ? \
510 
    ((CPU (h_spr[H_SPR_ESFR0]) >> ((findex)-32)) & 1) \
511 
    : \
512 
    ((CPU (h_spr[H_SPR_ESFR1]) >> (findex)) & 1) \
513 
)
514 
#define SET_ESFR_FLAG(findex) ( \
515 
  (findex) > 31 ? \
516 
    (CPU (h_spr[H_SPR_ESFR0]) = \
517 
      (CPU (h_spr[H_SPR_ESFR0]) | (1 << ((findex)-32))) \
518 
    ) : \
519 
    (CPU (h_spr[H_SPR_ESFR1]) = \
520 
      (CPU (h_spr[H_SPR_ESFR1]) | (1 << (findex))) \
521 
    ) \
522 
)
523 
 
524 
/* The FSR registers.
525 
   Get and set the hardware directly, since we may be getting/setting fields
526 
   which are not accessible to the user.  */
527 
#define GET_FSR(index) \
528 
  (CPU (h_spr[H_SPR_FSR0 + (index)]))
529 
#define SET_FSR(index, fsr) \
530 
  (CPU (h_spr[H_SPR_FSR0 + (index)]) = (fsr))
531 
 
532 
#define GET_FSR_TEM(fsr) ( \
533 
  ((fsr) >> 24) & 0x3f     \
534 
)
535 
 
536 
#define SET_FSR_QNE(fsr) ((fsr) |= (1 << 20))
537 
#define GET_FSR_QNE(fsr) (((fsr) >> 20) & 1)
538 
 
539 
#define SET_FSR_FTT(fsr, ftt) (                          \
540 
  (fsr) = ((fsr) & ~(0x7 << 17)) | (((ftt) & 0x7) << 17) \
541 
)
542 
 
543 
#define GET_FSR_AEXC(fsr) ( \
544 
  ((fsr) >> 10) & 0x3f      \
545 
)
546 
#define SET_FSR_AEXC(fsr, aexc) (                          \
547 
  (fsr) = ((fsr) & ~(0x3f << 10)) | (((aexc) & 0x3f) << 10) \
548 
)
549 
 
550 
/* SIMD instruction exception codes for FQ.  */
551 
enum frv_sie
552 
{
553 
  SIE_NIL   = 0,
554 
  SIE_FRi   = 1,
555 
  SIE_FRi_1 = 2
556 
};
557 
 
558 
/* MIV field of FQ.  */
559 
enum frv_miv
560 
{
561 
  MIV_FLOAT = 0,
562 
  MIV_MEDIA = 1
563 
};
564 
 
565 
/* The FQ registers are 64 bits wide and are implemented as 32 bit pairs. The
566 
   index here refers to the low order 32 bit element.
567 
   Get and set the hardware directly, since we may be getting/setting fields
568 
   which are not accessible to the user.  */
569 
#define GET_FQ(index) \
570 
  (CPU (h_spr[H_SPR_FQST0 + 2 * (index)]))
571 
#define SET_FQ(index, fq) \
572 
  (CPU (h_spr[H_SPR_FQST0 + 2 * (index)]) = (fq))
573 
 
574 
#define SET_FQ_MIV(fq, miv) (                          \
575 
  (fq) = ((fq) & ~(0x1 << 31)) | (((miv) & 0x1) << 31) \
576 
)
577 
 
578 
#define SET_FQ_SIE(fq, sie) (                          \
579 
  (fq) = ((fq) & ~(0x3 << 15)) | (((sie) & 0x3) << 15) \
580 
)
581 
 
582 
#define SET_FQ_FTT(fq, ftt) (                        \
583 
  (fq) = ((fq) & ~(0x7 << 7)) | (((ftt) & 0x7) << 7) \
584 
)
585 
 
586 
#define SET_FQ_CEXC(fq, cexc) (                         \
587 
  (fq) = ((fq) & ~(0x3f << 1)) | (((cexc) & 0x3f) << 1) \
588 
)
589 
 
590 
#define GET_FQ_VALID(fq) ((fq) & 1)
591 
#define SET_FQ_VALID(fq) ((fq) |= 1)
592 
 
593 
#define SET_FQ_OPC(index, insn) \
594 
  (CPU (h_spr[H_SPR_FQOP0 + 2 * (index)]) = (insn))
595 
 
596 
/* mp_exception support.  */
597 
/* Media trap types for MSR.  */
598 
enum frv_msr_mtt
599 
{
600 
  MTT_NONE                = 0,
601 
  MTT_OVERFLOW            = 1,
602 
  MTT_ACC_NOT_ALIGNED     = 2,
603 
  MTT_ACC_NOT_IMPLEMENTED = 2, /* Yes -- same value as MTT_ACC_NOT_ALIGNED.  */
604 
  MTT_CR_NOT_ALIGNED      = 3,
605 
  MTT_UNIMPLEMENTED_MPOP  = 5,
606 
  MTT_INVALID_FR          = 6
607 
};
608 
 
609 
/* Media status registers.
610 
   Get and set the hardware directly, since we may be getting/setting fields
611 
   which are not accessible to the user.  */
612 
#define GET_MSR(index) \
613 
  (CPU (h_spr[H_SPR_MSR0 + (index)]))
614 
#define SET_MSR(index, msr) \
615 
  (CPU (h_spr[H_SPR_MSR0 + (index)]) = (msr))
616 
 
617 
#define GET_MSR_AOVF(msr) ((msr) & 1)
618 
#define SET_MSR_AOVF(msr) ((msr) |=  1)
619 
 
620 
#define GET_MSR_OVF(msr) ( \
621 
  ((msr) >> 1) & 0x1       \
622 
)
623 
#define SET_MSR_OVF(msr) ( \
624 
  (msr) |= (1 << 1)        \
625 
)
626 
#define CLEAR_MSR_OVF(msr) ( \
627 
  (msr) &= ~(1 << 1)         \
628 
)
629 
 
630 
#define OR_MSR_SIE(msr, sie) (  \
631 
  (msr) |= (((sie) & 0xf) << 2) \
632 
)
633 
#define CLEAR_MSR_SIE(msr) ( \
634 
  (msr) &= ~(0xf << 2)       \
635 
)
636 
 
637 
#define GET_MSR_MTT(msr) ( \
638 
  ((msr) >> 12) & 0x7      \
639 
)
640 
#define SET_MSR_MTT(msr, mtt) (                          \
641 
  (msr) = ((msr) & ~(0x7 << 12)) | (((mtt) & 0x7) << 12) \
642 
)
643 
#define GET_MSR_EMCI(msr) ( \
644 
  ((msr) >> 24) & 0x1       \
645 
)
646 
#define GET_MSR_MPEM(msr) ( \
647 
  ((msr) >> 27) & 0x1        \
648 
)
649 
#define GET_MSR_SRDAV(msr) ( \
650 
  ((msr) >> 28) & 0x1        \
651 
)
652 
#define GET_MSR_RDAV(msr) ( \
653 
  ((msr) >> 29) & 0x1       \
654 
)
655 
#define GET_MSR_RD(msr) ( \
656 
  ((msr) >> 30) & 0x3     \
657 
)
658 
 
659 
void frvbf_media_register_not_aligned (SIM_CPU *);
660 
void frvbf_media_acc_not_aligned (SIM_CPU *);
661 
void frvbf_media_cr_not_aligned (SIM_CPU *);
662 
void frvbf_media_overflow (SIM_CPU *, int);
663 
 
664 
/* Functions for queuing and processing interrupts.  */
665 
struct frv_interrupt_queue_element *
666 
frv_queue_break_interrupt (SIM_CPU *);
667 
 
668 
struct frv_interrupt_queue_element *
669 
frv_queue_software_interrupt (SIM_CPU *, SI);
670 
 
671 
struct frv_interrupt_queue_element *
672 
frv_queue_program_interrupt (SIM_CPU *, enum frv_interrupt_kind);
673 
 
674 
struct frv_interrupt_queue_element *
675 
frv_queue_external_interrupt (SIM_CPU *, enum frv_interrupt_kind);
676 
 
677 
struct frv_interrupt_queue_element *
678 
frv_queue_illegal_instruction_interrupt (SIM_CPU *, const CGEN_INSN *);
679 
 
680 
struct frv_interrupt_queue_element *
681 
frv_queue_privileged_instruction_interrupt (SIM_CPU *, const CGEN_INSN *);
682 
 
683 
struct frv_interrupt_queue_element *
684 
frv_queue_float_disabled_interrupt (SIM_CPU *);
685 
 
686 
struct frv_interrupt_queue_element *
687 
frv_queue_media_disabled_interrupt (SIM_CPU *);
688 
 
689 
struct frv_interrupt_queue_element *
690 
frv_queue_non_implemented_instruction_interrupt (SIM_CPU *, const CGEN_INSN *);
691 
 
692 
struct frv_interrupt_queue_element *
693 
frv_queue_register_exception_interrupt (SIM_CPU *, enum frv_rec);
694 
 
695 
struct frv_interrupt_queue_element *
696 
frv_queue_mem_address_not_aligned_interrupt (SIM_CPU *, USI);
697 
 
698 
struct frv_interrupt_queue_element *
699 
frv_queue_data_access_error_interrupt (SIM_CPU *, USI);
700 
 
701 
struct frv_interrupt_queue_element *
702 
frv_queue_instruction_access_error_interrupt (SIM_CPU *);
703 
 
704 
struct frv_interrupt_queue_element *
705 
frv_queue_instruction_access_exception_interrupt (SIM_CPU *);
706 
 
707 
struct frv_interrupt_queue_element *
708 
frv_queue_fp_exception_interrupt (SIM_CPU *, struct frv_fp_exception_info *);
709 
 
710 
enum frv_dtt frvbf_division_exception (SIM_CPU *, enum frv_dtt, int, int);
711 
 
712 
struct frv_interrupt_queue_element *
713 
frv_queue_interrupt (SIM_CPU *, enum frv_interrupt_kind);
714 
 
715 
void
716 
frv_set_interrupt_queue_slot (SIM_CPU *, struct frv_interrupt_queue_element *);
717 
 
718 
void frv_set_mp_exception_registers (SIM_CPU *, enum frv_msr_mtt, int);
719 
void frv_detect_insn_access_interrupts (SIM_CPU *, SCACHE *);
720 
 
721 
void frv_process_interrupts (SIM_CPU *);
722 
 
723 
void frv_break_interrupt (SIM_CPU *, struct frv_interrupt *, IADDR);
724 
void frv_non_operating_interrupt (SIM_CPU *, enum frv_interrupt_kind, IADDR);
725 
void frv_program_interrupt (
726 
  SIM_CPU *, struct frv_interrupt_queue_element *, IADDR
727 
);
728 
void frv_software_interrupt (
729 
  SIM_CPU *, struct frv_interrupt_queue_element *, IADDR
730 
);
731 
void frv_external_interrupt (
732 
  SIM_CPU *, struct frv_interrupt_queue_element *, IADDR
733 
);
734 
void frv_program_or_software_interrupt (
735 
  SIM_CPU *, struct frv_interrupt *, IADDR
736 
);
737 
void frv_clear_interrupt_classes (
738 
  enum frv_interrupt_class, enum frv_interrupt_class
739 
);
740 
 
741 
void
742 
frv_save_data_written_for_interrupts (SIM_CPU *, CGEN_WRITE_QUEUE_ELEMENT *);
743 
 
744 
/* Special purpose traps.  */
745 
#define TRAP_SYSCALL    0x80
746 
#define TRAP_BREAKPOINT 0x81
747 
#define TRAP_REGDUMP1   0x82
748 
#define TRAP_REGDUMP2   0x83
749 
 
750 
/* Handle the trap insns  */
751 
void frv_itrap (SIM_CPU *, PCADDR, USI, int);
752 
void frv_mtrap (SIM_CPU *);
753 
/* Handle the break insn.  */
754 
void frv_break (SIM_CPU *);
755 
/* Handle the rett insn.  */
756 
USI frv_rett (SIM_CPU *current_cpu, PCADDR pc, BI debug_field);
757 
 
758 
/* Parallel write queue flags.  */
759 
#define FRV_WRITE_QUEUE_FORCE_WRITE 1
760 
 
761 
#define CGEN_WRITE_QUEUE_ELEMENT_PIPE(element) CGEN_WRITE_QUEUE_ELEMENT_WORD1 (element)
762 
 
763 
/* Functions and macros for handling non-excepting instruction side effects.
764 
   Get and set the hardware directly, since we may be getting/setting fields
765 
   which are not accessible to the user.  */
766 
#define GET_NECR()           (GET_H_SPR (H_SPR_NECR))
767 
#define GET_NECR_ELOS(necr)  (((necr) >> 6) & 1)
768 
#define GET_NECR_NEN(necr)   (((necr) >> 1) & 0x1f)
769 
#define GET_NECR_VALID(necr) (((necr)     ) & 1)
770 
 
771 
#define NO_NESR    (-1)
772 
/* NESR field values. See Tables 30-33 in section 4.4.2.1 of the FRV
773 
   Architecture volume 1.  */
774 
#define NESR_MEM_ADDRESS_NOT_ALIGNED 0x0b
775 
#define NESR_REGISTER_NOT_ALIGNED    0x1
776 
#define NESR_UQI_SIZE 0
777 
#define NESR_QI_SIZE  1
778 
#define NESR_UHI_SIZE 2
779 
#define NESR_HI_SIZE  3
780 
#define NESR_SI_SIZE  4
781 
#define NESR_DI_SIZE  5
782 
#define NESR_XI_SIZE  6
783 
 
784 
#define GET_NESR(index) GET_H_SPR (H_SPR_NESR0 + (index))
785 
#define SET_NESR(index, value) (                          \
786 
  sim_queue_fn_si_write (current_cpu, frvbf_h_spr_set,    \
787 
                         H_SPR_NESR0 + (index), (value)), \
788 
  frvbf_force_update (current_cpu)                        \
789 
)
790 
#define GET_NESR_VALID(nesr) ((nesr) & 1)
791 
#define SET_NESR_VALID(nesr) ((nesr) |= 1)
792 
 
793 
#define SET_NESR_EAV(nesr)   ((nesr) |= (1 << 31))
794 
 
795 
#define GET_NESR_FR(nesr)    (((nesr) >> 30) & 1)
796 
#define SET_NESR_FR(nesr)    ((nesr) |= (1 << 30))
797 
#define CLEAR_NESR_FR(nesr)  ((nesr) &= ~(1 << 30))
798 
 
799 
#define GET_NESR_DRN(nesr)   (((nesr) >> 24) & 0x3f)
800 
#define SET_NESR_DRN(nesr, drn) (                            \
801 
  (nesr) = ((nesr) & ~(0x3f << 24)) | (((drn) & 0x3f) << 24) \
802 
)
803 
 
804 
#define SET_NESR_SIZE(nesr, data_size) (                         \
805 
  (nesr) = ((nesr) & ~(0x7 << 21)) | (((data_size) & 0x7) << 21) \
806 
)
807 
 
808 
#define SET_NESR_NEAN(nesr, index) (                           \
809 
  (nesr) = ((nesr) & ~(0x1f << 10)) | (((index) & 0x1f) << 10) \
810 
)
811 
 
812 
#define GET_NESR_DAEC(nesr) (((nesr) >> 9) & 1)
813 
#define SET_NESR_DAEC(nesr, daec) (                   \
814 
  (nesr) = ((nesr) & ~(1 << 9)) | (((daec) & 1) << 9) \
815 
)
816 
 
817 
#define GET_NESR_REC(nesr) (((nesr) >> 6) & 3)
818 
#define SET_NESR_REC(nesr, rec) (                    \
819 
  (nesr) = ((nesr) & ~(3 << 6)) | (((rec) & 3) << 6) \
820 
)
821 
 
822 
#define GET_NESR_EC(nesr) (((nesr) >> 1) & 0x1f)
823 
#define SET_NESR_EC(nesr, ec) (                       \
824 
  (nesr) = ((nesr) & ~(0x1f << 1)) | (((ec) & 0x1f) << 1) \
825 
)
826 
 
827 
#define SET_NEEAR(index, address) ( \
828 
  sim_queue_fn_si_write (current_cpu, frvbf_h_spr_set,       \
829 
                         H_SPR_NEEAR0 + (index), (address)), \
830 
  frvbf_force_update (current_cpu)                           \
831 
)
832 
 
833 
#define GET_NE_FLAGS(flags, NE_base) (   \
834 
  (flags)[0] = GET_H_SPR ((NE_base)),    \
835 
  (flags)[1] = GET_H_SPR ((NE_base) + 1) \
836 
)
837 
#define SET_NE_FLAGS(NE_base, flags) ( \
838 
  sim_queue_fn_si_write (current_cpu, frvbf_h_spr_set, (NE_base),      \
839 
                         (flags)[0]),                                  \
840 
  frvbf_force_update (current_cpu),                                    \
841 
  sim_queue_fn_si_write (current_cpu, frvbf_h_spr_set, (NE_base) + 1,  \
842 
                         (flags)[1]),                                  \
843 
  frvbf_force_update (current_cpu)                                     \
844 
)
845 
 
846 
#define GET_NE_FLAG(flags, index) (    \
847 
  (index) > 31 ?                       \
848 
    ((flags[0] >> ((index) - 32)) & 1) \
849 
  :                                    \
850 
    ((flags[1] >> (index)) & 1)        \
851 
)
852 
#define SET_NE_FLAG(flags, index) (       \
853 
  (index) > 31 ?                          \
854 
    ((flags)[0] |= (1 << ((index) - 32))) \
855 
  :                                       \
856 
    ((flags)[1] |= (1 << (index)))        \
857 
)
858 
#define CLEAR_NE_FLAG(flags, index) (      \
859 
  (index) > 31 ?                           \
860 
    ((flags)[0] &= ~(1 << ((index) - 32))) \
861 
  :                                        \
862 
    ((flags)[1] &= ~(1 << (index)))        \
863 
)
864 
 
865 
BI   frvbf_check_non_excepting_load (SIM_CPU *, SI, SI, SI, SI, QI, BI);
866 
void frvbf_check_recovering_store (SIM_CPU *, PCADDR, SI, int, int);
867 
 
868 
void frvbf_clear_ne_flags (SIM_CPU *, SI, BI);
869 
void frvbf_commit (SIM_CPU *, SI, BI);
870 
 
871 
void frvbf_fpu_error (CGEN_FPU *, int);
872 
 
873 
void frv_vliw_setup_insn (SIM_CPU *, const CGEN_INSN *);
874 
 
875 
extern int insns_in_slot[];
876 
 
877 
#define COUNT_INSNS_IN_SLOT(slot) \
878 
{                                 \
879 
  if (WITH_PROFILE_MODEL_P)       \
880 
    ++insns_in_slot[slot];        \
881 
}
882 
 
883 
#define INSNS_IN_SLOT(slot) (insns_in_slot[slot])
884 
 
885 
/* Multiple loads and stores.  */
886 
void frvbf_load_multiple_GR (SIM_CPU *, PCADDR, SI, SI, int);
887 
void frvbf_load_multiple_FRint (SIM_CPU *, PCADDR, SI, SI, int);
888 
void frvbf_load_multiple_CPR (SIM_CPU *, PCADDR, SI, SI, int);
889 
void frvbf_store_multiple_GR (SIM_CPU *, PCADDR, SI, SI, int);
890 
void frvbf_store_multiple_FRint (SIM_CPU *, PCADDR, SI, SI, int);
891 
void frvbf_store_multiple_CPR (SIM_CPU *, PCADDR, SI, SI, int);
892 
 
893 
/* Memory and cache support.  */
894 
QI  frvbf_read_mem_QI  (SIM_CPU *, IADDR, SI);
895 
UQI frvbf_read_mem_UQI (SIM_CPU *, IADDR, SI);
896 
HI  frvbf_read_mem_HI  (SIM_CPU *, IADDR, SI);
897 
UHI frvbf_read_mem_UHI (SIM_CPU *, IADDR, SI);
898 
SI  frvbf_read_mem_SI  (SIM_CPU *, IADDR, SI);
899 
SI  frvbf_read_mem_WI  (SIM_CPU *, IADDR, SI);
900 
DI  frvbf_read_mem_DI  (SIM_CPU *, IADDR, SI);
901 
DF  frvbf_read_mem_DF  (SIM_CPU *, IADDR, SI);
902 
 
903 
USI frvbf_read_imem_USI (SIM_CPU *, PCADDR);
904 
 
905 
void frvbf_write_mem_QI  (SIM_CPU *, IADDR, SI, QI);
906 
void frvbf_write_mem_UQI (SIM_CPU *, IADDR, SI, UQI);
907 
void frvbf_write_mem_HI  (SIM_CPU *, IADDR, SI, HI);
908 
void frvbf_write_mem_UHI (SIM_CPU *, IADDR, SI, UHI);
909 
void frvbf_write_mem_SI  (SIM_CPU *, IADDR, SI, SI);
910 
void frvbf_write_mem_WI  (SIM_CPU *, IADDR, SI, SI);
911 
void frvbf_write_mem_DI  (SIM_CPU *, IADDR, SI, DI);
912 
void frvbf_write_mem_DF  (SIM_CPU *, IADDR, SI, DF);
913 
 
914 
void frvbf_mem_set_QI (SIM_CPU *, IADDR, SI, QI);
915 
void frvbf_mem_set_HI (SIM_CPU *, IADDR, SI, HI);
916 
void frvbf_mem_set_SI (SIM_CPU *, IADDR, SI, SI);
917 
void frvbf_mem_set_DI (SIM_CPU *, IADDR, SI, DI);
918 
void frvbf_mem_set_DF (SIM_CPU *, IADDR, SI, DF);
919 
void frvbf_mem_set_XI (SIM_CPU *, IADDR, SI, SI *);
920 
 
921 
void frv_set_write_queue_slot (SIM_CPU *current_cpu);
922 
 
923 
/* FRV specific options.  */
924 
extern const OPTION frv_options[];
925 
 
926 
#endif /* FRV_SIM_H */

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