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cbb38b47 BE |
1 | /* This file is generated by the genmloop script. DO NOT EDIT! */ |
2 | ||
3 | /* Enable switch() support in cgen headers. */ | |
4 | #define SEM_IN_SWITCH | |
5 | ||
6 | #define WANT_CPU sh64 | |
7 | #define WANT_CPU_SH64 | |
8 | ||
9 | #include "sim-main.h" | |
10 | #include "bfd.h" | |
11 | #include "cgen-mem.h" | |
12 | #include "cgen-ops.h" | |
13 | #include "sim-assert.h" | |
14 | ||
15 | /* Fill in the administrative ARGBUF fields required by all insns, | |
16 | virtual and real. */ | |
17 | ||
18 | static INLINE void | |
19 | sh64_media_fill_argbuf (const SIM_CPU *cpu, ARGBUF *abuf, const IDESC *idesc, | |
20 | PCADDR pc, int fast_p) | |
21 | { | |
22 | #if WITH_SCACHE | |
23 | SEM_SET_CODE (abuf, idesc, fast_p); | |
24 | ARGBUF_ADDR (abuf) = pc; | |
25 | #endif | |
26 | ARGBUF_IDESC (abuf) = idesc; | |
27 | } | |
28 | ||
29 | /* Fill in tracing/profiling fields of an ARGBUF. */ | |
30 | ||
31 | static INLINE void | |
32 | sh64_media_fill_argbuf_tp (const SIM_CPU *cpu, ARGBUF *abuf, | |
33 | int trace_p, int profile_p) | |
34 | { | |
35 | ARGBUF_TRACE_P (abuf) = trace_p; | |
36 | ARGBUF_PROFILE_P (abuf) = profile_p; | |
37 | } | |
38 | ||
39 | #if WITH_SCACHE_PBB | |
40 | ||
41 | /* Emit the "x-before" handler. | |
42 | x-before is emitted before each insn (serial or parallel). | |
43 | This is as opposed to x-after which is only emitted at the end of a group | |
44 | of parallel insns. */ | |
45 | ||
46 | static INLINE void | |
47 | sh64_media_emit_before (SIM_CPU *current_cpu, SCACHE *sc, PCADDR pc, int first_p) | |
48 | { | |
49 | ARGBUF *abuf = &sc[0].argbuf; | |
50 | const IDESC *id = & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_BEFORE]; | |
51 | ||
52 | abuf->fields.before.first_p = first_p; | |
53 | sh64_media_fill_argbuf (current_cpu, abuf, id, pc, 0); | |
54 | /* no need to set trace_p,profile_p */ | |
55 | } | |
56 | ||
57 | /* Emit the "x-after" handler. | |
58 | x-after is emitted after a serial insn or at the end of a group of | |
59 | parallel insns. */ | |
60 | ||
61 | static INLINE void | |
62 | sh64_media_emit_after (SIM_CPU *current_cpu, SCACHE *sc, PCADDR pc) | |
63 | { | |
64 | ARGBUF *abuf = &sc[0].argbuf; | |
65 | const IDESC *id = & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_AFTER]; | |
66 | ||
67 | sh64_media_fill_argbuf (current_cpu, abuf, id, pc, 0); | |
68 | /* no need to set trace_p,profile_p */ | |
69 | } | |
70 | ||
71 | #endif /* WITH_SCACHE_PBB */ | |
72 | ||
73 | ||
74 | static INLINE const IDESC * | |
75 | extract (SIM_CPU *current_cpu, PCADDR pc, CGEN_INSN_INT insn, ARGBUF *abuf, | |
76 | int fast_p) | |
77 | { | |
78 | const IDESC *id = sh64_media_decode (current_cpu, pc, insn, insn, abuf); | |
79 | ||
80 | sh64_media_fill_argbuf (current_cpu, abuf, id, pc, fast_p); | |
81 | if (! fast_p) | |
82 | { | |
83 | int trace_p = PC_IN_TRACE_RANGE_P (current_cpu, pc); | |
84 | int profile_p = PC_IN_PROFILE_RANGE_P (current_cpu, pc); | |
85 | sh64_media_fill_argbuf_tp (current_cpu, abuf, trace_p, profile_p); | |
86 | } | |
87 | return id; | |
88 | } | |
89 | ||
90 | static INLINE SEM_PC | |
91 | execute (SIM_CPU *current_cpu, SCACHE *sc, int fast_p) | |
92 | { | |
93 | SEM_PC vpc; | |
94 | ||
95 | if (fast_p) | |
96 | { | |
97 | #if ! WITH_SEM_SWITCH_FAST | |
98 | #if WITH_SCACHE | |
99 | vpc = (*sc->argbuf.semantic.sem_fast) (current_cpu, sc); | |
100 | #else | |
101 | vpc = (*sc->argbuf.semantic.sem_fast) (current_cpu, &sc->argbuf); | |
102 | #endif | |
103 | #else | |
104 | abort (); | |
105 | #endif /* WITH_SEM_SWITCH_FAST */ | |
106 | } | |
107 | else | |
108 | { | |
109 | #if ! WITH_SEM_SWITCH_FULL | |
110 | ARGBUF *abuf = &sc->argbuf; | |
111 | const IDESC *idesc = abuf->idesc; | |
112 | #if WITH_SCACHE_PBB | |
113 | int virtual_p = CGEN_ATTR_VALUE (NULL, idesc->attrs, CGEN_INSN_VIRTUAL); | |
114 | #else | |
115 | int virtual_p = 0; | |
116 | #endif | |
117 | ||
118 | if (! virtual_p) | |
119 | { | |
120 | /* FIXME: call x-before */ | |
121 | if (ARGBUF_PROFILE_P (abuf)) | |
122 | PROFILE_COUNT_INSN (current_cpu, abuf->addr, idesc->num); | |
123 | /* FIXME: Later make cover macros: PROFILE_INSN_{INIT,FINI}. */ | |
124 | if (PROFILE_MODEL_P (current_cpu) | |
125 | && ARGBUF_PROFILE_P (abuf)) | |
126 | sh64_media_model_insn_before (current_cpu, 1 /*first_p*/); | |
db7858e2 MF |
127 | CGEN_TRACE_INSN_INIT (current_cpu, abuf, 1); |
128 | CGEN_TRACE_INSN (current_cpu, idesc->idata, | |
cbb38b47 BE |
129 | (const struct argbuf *) abuf, abuf->addr); |
130 | } | |
131 | #if WITH_SCACHE | |
132 | vpc = (*sc->argbuf.semantic.sem_full) (current_cpu, sc); | |
133 | #else | |
134 | vpc = (*sc->argbuf.semantic.sem_full) (current_cpu, abuf); | |
135 | #endif | |
136 | if (! virtual_p) | |
137 | { | |
138 | /* FIXME: call x-after */ | |
139 | if (PROFILE_MODEL_P (current_cpu) | |
140 | && ARGBUF_PROFILE_P (abuf)) | |
141 | { | |
142 | int cycles; | |
143 | ||
144 | cycles = (*idesc->timing->model_fn) (current_cpu, sc); | |
145 | sh64_media_model_insn_after (current_cpu, 1 /*last_p*/, cycles); | |
146 | } | |
db7858e2 | 147 | CGEN_TRACE_INSN_FINI (current_cpu, abuf, 1); |
cbb38b47 BE |
148 | } |
149 | #else | |
150 | abort (); | |
151 | #endif /* WITH_SEM_SWITCH_FULL */ | |
152 | } | |
153 | ||
154 | return vpc; | |
155 | } | |
156 | ||
157 | ||
158 | /* Record address of cti terminating a pbb. */ | |
159 | #define SET_CTI_VPC(sc) do { _cti_sc = (sc); } while (0) | |
160 | /* Record number of [real] insns in pbb. */ | |
161 | #define SET_INSN_COUNT(n) do { _insn_count = (n); } while (0) | |
162 | ||
163 | /* Fetch and extract a pseudo-basic-block. | |
164 | FAST_P is non-zero if no tracing/profiling/etc. is wanted. */ | |
165 | ||
166 | INLINE SEM_PC | |
167 | sh64_media_pbb_begin (SIM_CPU *current_cpu, int FAST_P) | |
168 | { | |
169 | SEM_PC new_vpc; | |
170 | PCADDR pc; | |
171 | SCACHE *sc; | |
172 | int max_insns = CPU_SCACHE_MAX_CHAIN_LENGTH (current_cpu); | |
173 | ||
174 | pc = GET_H_PC (); | |
175 | ||
176 | new_vpc = scache_lookup_or_alloc (current_cpu, pc, max_insns, &sc); | |
177 | if (! new_vpc) | |
178 | { | |
179 | /* Leading '_' to avoid collision with mainloop.in. */ | |
180 | int _insn_count = 0; | |
181 | SCACHE *orig_sc = sc; | |
182 | SCACHE *_cti_sc = NULL; | |
183 | int slice_insns = CPU_MAX_SLICE_INSNS (current_cpu); | |
184 | ||
185 | /* First figure out how many instructions to compile. | |
186 | MAX_INSNS is the size of the allocated buffer, which includes space | |
187 | for before/after handlers if they're being used. | |
188 | SLICE_INSNS is the maxinum number of real insns that can be | |
189 | executed. Zero means "as many as we want". */ | |
190 | /* ??? max_insns is serving two incompatible roles. | |
191 | 1) Number of slots available in scache buffer. | |
192 | 2) Number of real insns to execute. | |
193 | They're incompatible because there are virtual insns emitted too | |
194 | (chain,cti-chain,before,after handlers). */ | |
195 | ||
196 | if (slice_insns == 1) | |
197 | { | |
198 | /* No need to worry about extra slots required for virtual insns | |
199 | and parallel exec support because MAX_CHAIN_LENGTH is | |
200 | guaranteed to be big enough to execute at least 1 insn! */ | |
201 | max_insns = 1; | |
202 | } | |
203 | else | |
204 | { | |
205 | /* Allow enough slop so that while compiling insns, if max_insns > 0 | |
206 | then there's guaranteed to be enough space to emit one real insn. | |
207 | MAX_CHAIN_LENGTH is typically much longer than | |
208 | the normal number of insns between cti's anyway. */ | |
209 | max_insns -= (1 /* one for the trailing chain insn */ | |
210 | + (FAST_P | |
211 | ? 0 | |
212 | : (1 + MAX_PARALLEL_INSNS) /* before+after */) | |
213 | + (MAX_PARALLEL_INSNS > 1 | |
214 | ? (MAX_PARALLEL_INSNS * 2) | |
215 | : 0)); | |
216 | ||
217 | /* Account for before/after handlers. */ | |
218 | if (! FAST_P) | |
219 | slice_insns *= 3; | |
220 | ||
221 | if (slice_insns > 0 | |
222 | && slice_insns < max_insns) | |
223 | max_insns = slice_insns; | |
224 | } | |
225 | ||
226 | new_vpc = sc; | |
227 | ||
228 | /* SC,PC must be updated to point passed the last entry used. | |
229 | SET_CTI_VPC must be called if pbb is terminated by a cti. | |
230 | SET_INSN_COUNT must be called to record number of real insns in | |
231 | pbb [could be computed by us of course, extra cpu but perhaps | |
232 | negligible enough]. */ | |
233 | ||
234 | /* begin extract-pbb */ | |
235 | { | |
236 | const IDESC *idesc; | |
237 | int icount = 0; | |
238 | ||
239 | while (max_insns > 0) | |
240 | { | |
241 | USI insn = GETIMEMUSI (current_cpu, pc); | |
242 | ||
243 | idesc = extract (current_cpu, pc, insn, &sc->argbuf, FAST_P); | |
244 | SEM_SKIP_COMPILE (current_cpu, sc, 1); | |
245 | ++sc; | |
246 | --max_insns; | |
247 | ++icount; | |
248 | pc += idesc->length; | |
249 | ||
250 | if (IDESC_CTI_P (idesc)) | |
251 | { | |
252 | SET_CTI_VPC (sc - 1); | |
253 | ||
254 | if (CGEN_ATTR_VALUE (NULL, idesc->attrs, CGEN_INSN_DELAY_SLOT)) | |
255 | { | |
256 | USI insn = GETIMEMUSI (current_cpu, pc); | |
257 | idesc = extract (current_cpu, pc, insn, &sc->argbuf, FAST_P); | |
258 | ||
259 | ++sc; | |
260 | --max_insns; | |
261 | ++icount; | |
262 | pc += idesc->length; | |
263 | } | |
264 | break; | |
265 | } | |
266 | } | |
267 | ||
268 | Finish: | |
269 | SET_INSN_COUNT (icount); | |
270 | } | |
271 | /* end extract-pbb */ | |
272 | ||
273 | /* The last one is a pseudo-insn to link to the next chain. | |
274 | It is also used to record the insn count for this chain. */ | |
275 | { | |
276 | const IDESC *id; | |
277 | ||
278 | /* Was pbb terminated by a cti? */ | |
279 | if (_cti_sc) | |
280 | { | |
281 | id = & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_CTI_CHAIN]; | |
282 | } | |
283 | else | |
284 | { | |
285 | id = & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_CHAIN]; | |
286 | } | |
287 | SEM_SET_CODE (&sc->argbuf, id, FAST_P); | |
288 | sc->argbuf.idesc = id; | |
289 | sc->argbuf.addr = pc; | |
290 | sc->argbuf.fields.chain.insn_count = _insn_count; | |
291 | sc->argbuf.fields.chain.next = 0; | |
292 | sc->argbuf.fields.chain.branch_target = 0; | |
293 | ++sc; | |
294 | } | |
295 | ||
296 | /* Update the pointer to the next free entry, may not have used as | |
297 | many entries as was asked for. */ | |
298 | CPU_SCACHE_NEXT_FREE (current_cpu) = sc; | |
299 | /* Record length of chain if profiling. | |
300 | This includes virtual insns since they count against | |
301 | max_insns too. */ | |
302 | if (! FAST_P) | |
303 | PROFILE_COUNT_SCACHE_CHAIN_LENGTH (current_cpu, sc - orig_sc); | |
304 | } | |
305 | ||
306 | return new_vpc; | |
307 | } | |
308 | ||
309 | /* Chain to the next block from a non-cti terminated previous block. */ | |
310 | ||
311 | INLINE SEM_PC | |
312 | sh64_media_pbb_chain (SIM_CPU *current_cpu, SEM_ARG sem_arg) | |
313 | { | |
314 | ARGBUF *abuf = SEM_ARGBUF (sem_arg); | |
315 | ||
316 | PBB_UPDATE_INSN_COUNT (current_cpu, sem_arg); | |
317 | ||
318 | SET_H_PC (abuf->addr | 1); | |
319 | ||
320 | /* If not running forever, exit back to main loop. */ | |
321 | if (CPU_MAX_SLICE_INSNS (current_cpu) != 0 | |
322 | /* Also exit back to main loop if there's an event. | |
323 | Note that if CPU_MAX_SLICE_INSNS != 1, events won't get processed | |
324 | at the "right" time, but then that was what was asked for. | |
325 | There is no silver bullet for simulator engines. | |
326 | ??? Clearly this needs a cleaner interface. | |
327 | At present it's just so Ctrl-C works. */ | |
328 | || STATE_EVENTS (CPU_STATE (current_cpu))->work_pending) | |
329 | CPU_RUNNING_P (current_cpu) = 0; | |
330 | ||
331 | /* If chained to next block, go straight to it. */ | |
332 | if (abuf->fields.chain.next) | |
333 | return abuf->fields.chain.next; | |
334 | /* See if next block has already been compiled. */ | |
335 | abuf->fields.chain.next = scache_lookup (current_cpu, abuf->addr); | |
336 | if (abuf->fields.chain.next) | |
337 | return abuf->fields.chain.next; | |
338 | /* Nope, so next insn is a virtual insn to invoke the compiler | |
339 | (begin a pbb). */ | |
340 | return CPU_SCACHE_PBB_BEGIN (current_cpu); | |
341 | } | |
342 | ||
343 | /* Chain to the next block from a cti terminated previous block. | |
344 | BR_TYPE indicates whether the branch was taken and whether we can cache | |
345 | the vpc of the branch target. | |
346 | NEW_PC is the target's branch address, and is only valid if | |
347 | BR_TYPE != SEM_BRANCH_UNTAKEN. */ | |
348 | ||
349 | INLINE SEM_PC | |
350 | sh64_media_pbb_cti_chain (SIM_CPU *current_cpu, SEM_ARG sem_arg, | |
351 | SEM_BRANCH_TYPE br_type, PCADDR new_pc) | |
352 | { | |
353 | SEM_PC *new_vpc_ptr; | |
354 | ||
355 | PBB_UPDATE_INSN_COUNT (current_cpu, sem_arg); | |
356 | ||
357 | /* If we have switched ISAs, exit back to main loop. | |
358 | Set idesc to 0 to cause the engine to point to the right insn table. */ | |
359 | if ((new_pc & 1) == 0) | |
360 | { | |
361 | /* Switch to SHcompact. */ | |
362 | CPU_IDESC_SEM_INIT_P (current_cpu) = 0; | |
363 | CPU_RUNNING_P (current_cpu) = 0; | |
364 | } | |
365 | ||
366 | /* If not running forever, exit back to main loop. */ | |
367 | if (CPU_MAX_SLICE_INSNS (current_cpu) != 0 | |
368 | /* Also exit back to main loop if there's an event. | |
369 | Note that if CPU_MAX_SLICE_INSNS != 1, events won't get processed | |
370 | at the "right" time, but then that was what was asked for. | |
371 | There is no silver bullet for simulator engines. | |
372 | ??? Clearly this needs a cleaner interface. | |
373 | At present it's just so Ctrl-C works. */ | |
374 | || STATE_EVENTS (CPU_STATE (current_cpu))->work_pending) | |
375 | CPU_RUNNING_P (current_cpu) = 0; | |
376 | ||
377 | /* Restart compiler if we branched to an uncacheable address | |
378 | (e.g. "j reg"). */ | |
379 | if (br_type == SEM_BRANCH_UNCACHEABLE) | |
380 | { | |
381 | SET_H_PC (new_pc); | |
382 | return CPU_SCACHE_PBB_BEGIN (current_cpu); | |
383 | } | |
384 | ||
385 | /* If branch wasn't taken, update the pc and set BR_ADDR_PTR to our | |
386 | next chain ptr. */ | |
387 | if (br_type == SEM_BRANCH_UNTAKEN) | |
388 | { | |
389 | ARGBUF *abuf = SEM_ARGBUF (sem_arg); | |
390 | new_pc = abuf->addr; | |
391 | /* Set bit 0 to stay in SHmedia mode. */ | |
392 | SET_H_PC (new_pc | 1); | |
393 | new_vpc_ptr = &abuf->fields.chain.next; | |
394 | } | |
395 | else | |
396 | { | |
397 | ARGBUF *abuf = SEM_ARGBUF (sem_arg); | |
398 | SET_H_PC (new_pc); | |
399 | new_vpc_ptr = &abuf->fields.chain.branch_target; | |
400 | } | |
401 | ||
402 | /* If chained to next block, go straight to it. */ | |
403 | if (*new_vpc_ptr) | |
404 | return *new_vpc_ptr; | |
405 | /* See if next block has already been compiled. */ | |
406 | *new_vpc_ptr = scache_lookup (current_cpu, new_pc); | |
407 | if (*new_vpc_ptr) | |
408 | return *new_vpc_ptr; | |
409 | /* Nope, so next insn is a virtual insn to invoke the compiler | |
410 | (begin a pbb). */ | |
411 | return CPU_SCACHE_PBB_BEGIN (current_cpu); | |
412 | } | |
413 | ||
414 | /* x-before handler. | |
415 | This is called before each insn. */ | |
416 | ||
417 | void | |
418 | sh64_media_pbb_before (SIM_CPU *current_cpu, SCACHE *sc) | |
419 | { | |
420 | SEM_ARG sem_arg = sc; | |
421 | const ARGBUF *abuf = SEM_ARGBUF (sem_arg); | |
422 | int first_p = abuf->fields.before.first_p; | |
423 | const ARGBUF *cur_abuf = SEM_ARGBUF (sc + 1); | |
424 | const IDESC *cur_idesc = cur_abuf->idesc; | |
425 | PCADDR pc = cur_abuf->addr; | |
426 | ||
427 | if (ARGBUF_PROFILE_P (cur_abuf)) | |
428 | PROFILE_COUNT_INSN (current_cpu, pc, cur_idesc->num); | |
429 | ||
430 | /* If this isn't the first insn, finish up the previous one. */ | |
431 | ||
432 | if (! first_p) | |
433 | { | |
434 | if (PROFILE_MODEL_P (current_cpu)) | |
435 | { | |
436 | const SEM_ARG prev_sem_arg = sc - 1; | |
437 | const ARGBUF *prev_abuf = SEM_ARGBUF (prev_sem_arg); | |
438 | const IDESC *prev_idesc = prev_abuf->idesc; | |
439 | int cycles; | |
440 | ||
441 | /* ??? May want to measure all insns if doing insn tracing. */ | |
442 | if (ARGBUF_PROFILE_P (prev_abuf)) | |
443 | { | |
444 | cycles = (*prev_idesc->timing->model_fn) (current_cpu, prev_sem_arg); | |
445 | sh64_media_model_insn_after (current_cpu, 0 /*last_p*/, cycles); | |
446 | } | |
447 | } | |
448 | ||
db7858e2 | 449 | CGEN_TRACE_INSN_FINI (current_cpu, cur_abuf, 0 /*last_p*/); |
cbb38b47 BE |
450 | } |
451 | ||
452 | /* FIXME: Later make cover macros: PROFILE_INSN_{INIT,FINI}. */ | |
453 | if (PROFILE_MODEL_P (current_cpu) | |
454 | && ARGBUF_PROFILE_P (cur_abuf)) | |
455 | sh64_media_model_insn_before (current_cpu, first_p); | |
456 | ||
db7858e2 MF |
457 | CGEN_TRACE_INSN_INIT (current_cpu, cur_abuf, first_p); |
458 | CGEN_TRACE_INSN (current_cpu, cur_idesc->idata, cur_abuf, pc); | |
cbb38b47 BE |
459 | } |
460 | ||
461 | /* x-after handler. | |
462 | This is called after a serial insn or at the end of a group of parallel | |
463 | insns. */ | |
464 | ||
465 | void | |
466 | sh64_media_pbb_after (SIM_CPU *current_cpu, SCACHE *sc) | |
467 | { | |
468 | SEM_ARG sem_arg = sc; | |
469 | const ARGBUF *abuf = SEM_ARGBUF (sem_arg); | |
470 | const SEM_ARG prev_sem_arg = sc - 1; | |
471 | const ARGBUF *prev_abuf = SEM_ARGBUF (prev_sem_arg); | |
472 | ||
473 | /* ??? May want to measure all insns if doing insn tracing. */ | |
474 | if (PROFILE_MODEL_P (current_cpu) | |
475 | && ARGBUF_PROFILE_P (prev_abuf)) | |
476 | { | |
477 | const IDESC *prev_idesc = prev_abuf->idesc; | |
478 | int cycles; | |
479 | ||
480 | cycles = (*prev_idesc->timing->model_fn) (current_cpu, prev_sem_arg); | |
481 | sh64_media_model_insn_after (current_cpu, 1 /*last_p*/, cycles); | |
482 | } | |
db7858e2 | 483 | CGEN_TRACE_INSN_FINI (current_cpu, prev_abuf, 1 /*last_p*/); |
cbb38b47 BE |
484 | } |
485 | ||
486 | #define FAST_P 0 | |
487 | ||
488 | void | |
489 | sh64_media_engine_run_full (SIM_CPU *current_cpu) | |
490 | { | |
491 | SIM_DESC current_state = CPU_STATE (current_cpu); | |
492 | SCACHE *scache = CPU_SCACHE_CACHE (current_cpu); | |
493 | /* virtual program counter */ | |
494 | SEM_PC vpc; | |
495 | #if WITH_SEM_SWITCH_FULL | |
496 | /* For communication between cti's and cti-chain. */ | |
497 | SEM_BRANCH_TYPE pbb_br_type; | |
498 | PCADDR pbb_br_npc; | |
499 | #endif | |
500 | ||
501 | ||
502 | if (! CPU_IDESC_SEM_INIT_P (current_cpu)) | |
503 | { | |
504 | /* ??? 'twould be nice to move this up a level and only call it once. | |
505 | On the other hand, in the "let's go fast" case the test is only done | |
506 | once per pbb (since we only return to the main loop at the end of | |
507 | a pbb). And in the "let's run until we're done" case we don't return | |
508 | until the program exits. */ | |
509 | ||
510 | #if WITH_SEM_SWITCH_FULL | |
511 | #if defined (__GNUC__) | |
512 | /* ??? Later maybe paste sem-switch.c in when building mainloop.c. */ | |
513 | #define DEFINE_LABELS | |
514 | #include "sem-media-switch.c" | |
515 | #endif | |
516 | #else | |
517 | sh64_media_sem_init_idesc_table (current_cpu); | |
518 | #endif | |
519 | ||
520 | /* Initialize the "begin (compile) a pbb" virtual insn. */ | |
521 | vpc = CPU_SCACHE_PBB_BEGIN (current_cpu); | |
522 | SEM_SET_FULL_CODE (SEM_ARGBUF (vpc), | |
523 | & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_BEGIN]); | |
524 | vpc->argbuf.idesc = & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_BEGIN]; | |
525 | ||
526 | CPU_IDESC_SEM_INIT_P (current_cpu) = 1; | |
527 | } | |
528 | ||
529 | CPU_RUNNING_P (current_cpu) = 1; | |
530 | /* ??? In the case where we're returning to the main loop after every | |
531 | pbb we don't want to call pbb_begin each time (which hashes on the pc | |
532 | and does a table lookup). A way to speed this up is to save vpc | |
533 | between calls. */ | |
534 | vpc = sh64_media_pbb_begin (current_cpu, FAST_P); | |
535 | ||
536 | do | |
537 | { | |
538 | /* begin full-exec-pbb */ | |
539 | { | |
540 | #if (! FAST_P && WITH_SEM_SWITCH_FULL) || (FAST_P && WITH_SEM_SWITCH_FAST) | |
541 | #define DEFINE_SWITCH | |
542 | #define WITH_ISA_COMPACT | |
543 | #include "sem-media-switch.c" | |
544 | #else | |
545 | vpc = execute (current_cpu, vpc, FAST_P); | |
546 | #endif | |
547 | } | |
548 | /* end full-exec-pbb */ | |
549 | } | |
550 | while (CPU_RUNNING_P (current_cpu)); | |
551 | } | |
552 | ||
553 | #undef FAST_P | |
554 | ||
555 | ||
556 | #define FAST_P 1 | |
557 | ||
558 | void | |
559 | sh64_media_engine_run_fast (SIM_CPU *current_cpu) | |
560 | { | |
561 | SIM_DESC current_state = CPU_STATE (current_cpu); | |
562 | SCACHE *scache = CPU_SCACHE_CACHE (current_cpu); | |
563 | /* virtual program counter */ | |
564 | SEM_PC vpc; | |
565 | #if WITH_SEM_SWITCH_FAST | |
566 | /* For communication between cti's and cti-chain. */ | |
567 | SEM_BRANCH_TYPE pbb_br_type; | |
568 | PCADDR pbb_br_npc; | |
569 | #endif | |
570 | ||
571 | ||
572 | if (! CPU_IDESC_SEM_INIT_P (current_cpu)) | |
573 | { | |
574 | /* ??? 'twould be nice to move this up a level and only call it once. | |
575 | On the other hand, in the "let's go fast" case the test is only done | |
576 | once per pbb (since we only return to the main loop at the end of | |
577 | a pbb). And in the "let's run until we're done" case we don't return | |
578 | until the program exits. */ | |
579 | ||
580 | #if WITH_SEM_SWITCH_FAST | |
581 | #if defined (__GNUC__) | |
582 | /* ??? Later maybe paste sem-switch.c in when building mainloop.c. */ | |
583 | #define DEFINE_LABELS | |
584 | #include "sem-media-switch.c" | |
585 | #endif | |
586 | #else | |
587 | sh64_media_semf_init_idesc_table (current_cpu); | |
588 | #endif | |
589 | ||
590 | /* Initialize the "begin (compile) a pbb" virtual insn. */ | |
591 | vpc = CPU_SCACHE_PBB_BEGIN (current_cpu); | |
592 | SEM_SET_FAST_CODE (SEM_ARGBUF (vpc), | |
593 | & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_BEGIN]); | |
594 | vpc->argbuf.idesc = & CPU_IDESC (current_cpu) [SH64_MEDIA_INSN_X_BEGIN]; | |
595 | ||
596 | CPU_IDESC_SEM_INIT_P (current_cpu) = 1; | |
597 | } | |
598 | ||
599 | CPU_RUNNING_P (current_cpu) = 1; | |
600 | /* ??? In the case where we're returning to the main loop after every | |
601 | pbb we don't want to call pbb_begin each time (which hashes on the pc | |
602 | and does a table lookup). A way to speed this up is to save vpc | |
603 | between calls. */ | |
604 | vpc = sh64_media_pbb_begin (current_cpu, FAST_P); | |
605 | ||
606 | do | |
607 | { | |
608 | /* begin fast-exec-pbb */ | |
609 | { | |
610 | #if (! FAST_P && WITH_SEM_SWITCH_FULL) || (FAST_P && WITH_SEM_SWITCH_FAST) | |
611 | #define DEFINE_SWITCH | |
612 | #define WITH_ISA_COMPACT | |
613 | #include "sem-media-switch.c" | |
614 | #else | |
615 | vpc = execute (current_cpu, vpc, FAST_P); | |
616 | #endif | |
617 | } | |
618 | /* end fast-exec-pbb */ | |
619 | } | |
620 | while (CPU_RUNNING_P (current_cpu)); | |
621 | } | |
622 | ||
623 | #undef FAST_P | |
624 |