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1 /* Instruction scheduling pass. This file contains definitions used
2 internally in the scheduler.
3 Copyright (C) 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000,
4 2001, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010
5 Free Software Foundation, Inc.
7 This file is part of GCC.
9 GCC is free software; you can redistribute it and/or modify it under
10 the terms of the GNU General Public License as published by the Free
11 Software Foundation; either version 3, or (at your option) any later
12 version.
14 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
15 WARRANTY; without even the implied warranty of MERCHANTABILITY or
16 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
17 for more details.
19 You should have received a copy of the GNU General Public License
20 along with GCC; see the file COPYING3. If not see
21 <http://www.gnu.org/licenses/>. */
23 #ifndef GCC_SCHED_INT_H
24 #define GCC_SCHED_INT_H
26 #ifdef INSN_SCHEDULING
28 /* For state_t. */
29 #include "insn-attr.h"
30 #include "df.h"
31 #include "basic-block.h"
33 /* For VEC (int, heap). */
34 #include "vecprim.h"
36 /* Identificator of a scheduler pass. */
37 enum sched_pass_id_t { SCHED_PASS_UNKNOWN, SCHED_RGN_PASS, SCHED_EBB_PASS,
38 SCHED_SMS_PASS, SCHED_SEL_PASS };
40 /* The algorithm used to implement -fsched-pressure. */
41 enum sched_pressure_algorithm
43 SCHED_PRESSURE_NONE,
44 SCHED_PRESSURE_WEIGHTED,
45 SCHED_PRESSURE_MODEL
48 typedef VEC (basic_block, heap) *bb_vec_t;
49 typedef VEC (rtx, heap) *insn_vec_t;
50 typedef VEC (rtx, heap) *rtx_vec_t;
52 extern void sched_init_bbs (void);
54 extern void sched_extend_luids (void);
55 extern void sched_init_insn_luid (rtx);
56 extern void sched_init_luids (bb_vec_t);
57 extern void sched_finish_luids (void);
59 extern void sched_extend_target (void);
61 extern void haifa_init_h_i_d (bb_vec_t);
62 extern void haifa_finish_h_i_d (void);
64 /* Hooks that are common to all the schedulers. */
65 struct common_sched_info_def
67 /* Called after blocks were rearranged due to movement of jump instruction.
68 The first parameter - index of basic block, in which jump currently is.
69 The second parameter - index of basic block, in which jump used
70 to be.
71 The third parameter - index of basic block, that follows the second
72 parameter. */
73 void (*fix_recovery_cfg) (int, int, int);
75 /* Called to notify frontend, that new basic block is being added.
76 The first parameter - new basic block.
77 The second parameter - block, after which new basic block is being added,
78 or EXIT_BLOCK_PTR, if recovery block is being added,
79 or NULL, if standalone block is being added. */
80 void (*add_block) (basic_block, basic_block);
82 /* Estimate number of insns in the basic block. */
83 int (*estimate_number_of_insns) (basic_block);
85 /* Given a non-insn (!INSN_P (x)) return
86 -1 - if this rtx don't need a luid.
87 0 - if it should have the same luid as the previous insn.
88 1 - if it needs a separate luid. */
89 int (*luid_for_non_insn) (rtx);
91 /* Scheduler pass identifier. It is preferably used in assertions. */
92 enum sched_pass_id_t sched_pass_id;
95 extern struct common_sched_info_def *common_sched_info;
97 extern const struct common_sched_info_def haifa_common_sched_info;
99 /* Return true if selective scheduling pass is working. */
100 static inline bool
101 sel_sched_p (void)
103 return common_sched_info->sched_pass_id == SCHED_SEL_PASS;
106 /* Returns maximum priority that an insn was assigned to. */
107 extern int get_rgn_sched_max_insns_priority (void);
109 /* Increases effective priority for INSN by AMOUNT. */
110 extern void sel_add_to_insn_priority (rtx, int);
112 /* True if during selective scheduling we need to emulate some of haifa
113 scheduler behaviour. */
114 extern int sched_emulate_haifa_p;
116 /* Mapping from INSN_UID to INSN_LUID. In the end all other per insn data
117 structures should be indexed by luid. */
118 extern VEC (int, heap) *sched_luids;
119 #define INSN_LUID(INSN) (VEC_index (int, sched_luids, INSN_UID (INSN)))
120 #define LUID_BY_UID(UID) (VEC_index (int, sched_luids, UID))
122 #define SET_INSN_LUID(INSN, LUID) \
123 (VEC_replace (int, sched_luids, INSN_UID (INSN), (LUID)))
125 /* The highest INSN_LUID. */
126 extern int sched_max_luid;
128 extern int insn_luid (rtx);
130 /* This list holds ripped off notes from the current block. These notes will
131 be attached to the beginning of the block when its scheduling is
132 finished. */
133 extern rtx note_list;
135 extern void remove_notes (rtx, rtx);
136 extern rtx restore_other_notes (rtx, basic_block);
137 extern void sched_insns_init (rtx);
138 extern void sched_insns_finish (void);
140 extern void *xrecalloc (void *, size_t, size_t, size_t);
142 extern void reemit_notes (rtx);
144 /* Functions in haifa-sched.c. */
145 extern int haifa_classify_insn (const_rtx);
147 /* Functions in sel-sched-ir.c. */
148 extern void sel_find_rgns (void);
149 extern void sel_mark_hard_insn (rtx);
151 extern size_t dfa_state_size;
153 extern void advance_state (state_t);
155 extern void setup_sched_dump (void);
156 extern void sched_init (void);
157 extern void sched_finish (void);
159 extern bool sel_insn_is_speculation_check (rtx);
161 /* Describe the ready list of the scheduler.
162 VEC holds space enough for all insns in the current region. VECLEN
163 says how many exactly.
164 FIRST is the index of the element with the highest priority; i.e. the
165 last one in the ready list, since elements are ordered by ascending
166 priority.
167 N_READY determines how many insns are on the ready list.
168 N_DEBUG determines how many debug insns are on the ready list. */
169 struct ready_list
171 rtx *vec;
172 int veclen;
173 int first;
174 int n_ready;
175 int n_debug;
178 extern char *ready_try;
179 extern struct ready_list ready;
181 extern int max_issue (struct ready_list *, int, state_t, bool, int *);
183 extern void ebb_compute_jump_reg_dependencies (rtx, regset);
185 extern edge find_fallthru_edge_from (basic_block);
187 extern void (* sched_init_only_bb) (basic_block, basic_block);
188 extern basic_block (* sched_split_block) (basic_block, rtx);
189 extern basic_block sched_split_block_1 (basic_block, rtx);
190 extern basic_block (* sched_create_empty_bb) (basic_block);
191 extern basic_block sched_create_empty_bb_1 (basic_block);
193 extern basic_block sched_create_recovery_block (basic_block *);
194 extern void sched_create_recovery_edges (basic_block, basic_block,
195 basic_block);
197 /* Pointer to data describing the current DFA state. */
198 extern state_t curr_state;
200 /* Type to represent status of a dependence. */
201 typedef int ds_t;
203 /* Type to represent weakness of speculative dependence. */
204 typedef int dw_t;
206 extern enum reg_note ds_to_dk (ds_t);
207 extern ds_t dk_to_ds (enum reg_note);
209 /* Describe a dependency that can be broken by making a replacement
210 in one of the patterns. LOC is the location, ORIG and NEWVAL the
211 two alternative contents, and INSN the instruction that must be
212 changed. */
213 struct dep_replacement
215 rtx *loc;
216 rtx orig;
217 rtx newval;
218 rtx insn;
221 /* Information about the dependency. */
222 struct _dep
224 /* Producer. */
225 rtx pro;
227 /* Consumer. */
228 rtx con;
230 /* If nonnull, holds a pointer to information about how to break the
231 dependency by making a replacement in one of the insns. There is
232 only one such dependency for each insn that must be modified in
233 order to break such a dependency. */
234 struct dep_replacement *replace;
236 /* Dependency status. This field holds all dependency types and additional
237 information for speculative dependencies. */
238 ds_t status;
240 /* Dependency major type. This field is superseded by STATUS above.
241 Though, it is still in place because some targets use it. */
242 ENUM_BITFIELD(reg_note) type:6;
244 unsigned nonreg:1;
245 unsigned multiple:1;
247 /* Cached cost of the dependency. Make sure to update UNKNOWN_DEP_COST
248 when changing the size of this field. */
249 int cost:20;
252 #define UNKNOWN_DEP_COST (-1<<19)
254 typedef struct _dep dep_def;
255 typedef dep_def *dep_t;
257 #define DEP_PRO(D) ((D)->pro)
258 #define DEP_CON(D) ((D)->con)
259 #define DEP_TYPE(D) ((D)->type)
260 #define DEP_STATUS(D) ((D)->status)
261 #define DEP_COST(D) ((D)->cost)
262 #define DEP_NONREG(D) ((D)->nonreg)
263 #define DEP_MULTIPLE(D) ((D)->multiple)
264 #define DEP_REPLACE(D) ((D)->replace)
266 /* Functions to work with dep. */
268 extern void init_dep_1 (dep_t, rtx, rtx, enum reg_note, ds_t);
269 extern void init_dep (dep_t, rtx, rtx, enum reg_note);
271 extern void sd_debug_dep (dep_t);
273 /* Definition of this struct resides below. */
274 struct _dep_node;
275 typedef struct _dep_node *dep_node_t;
277 /* A link in the dependency list. This is essentially an equivalent of a
278 single {INSN, DEPS}_LIST rtx. */
279 struct _dep_link
281 /* Dep node with all the data. */
282 dep_node_t node;
284 /* Next link in the list. For the last one it is NULL. */
285 struct _dep_link *next;
287 /* Pointer to the next field of the previous link in the list.
288 For the first link this points to the deps_list->first.
290 With help of this field it is easy to remove and insert links to the
291 list. */
292 struct _dep_link **prev_nextp;
294 typedef struct _dep_link *dep_link_t;
296 #define DEP_LINK_NODE(N) ((N)->node)
297 #define DEP_LINK_NEXT(N) ((N)->next)
298 #define DEP_LINK_PREV_NEXTP(N) ((N)->prev_nextp)
300 /* Macros to work dep_link. For most usecases only part of the dependency
301 information is need. These macros conveniently provide that piece of
302 information. */
304 #define DEP_LINK_DEP(N) (DEP_NODE_DEP (DEP_LINK_NODE (N)))
305 #define DEP_LINK_PRO(N) (DEP_PRO (DEP_LINK_DEP (N)))
306 #define DEP_LINK_CON(N) (DEP_CON (DEP_LINK_DEP (N)))
307 #define DEP_LINK_TYPE(N) (DEP_TYPE (DEP_LINK_DEP (N)))
308 #define DEP_LINK_STATUS(N) (DEP_STATUS (DEP_LINK_DEP (N)))
310 /* A list of dep_links. */
311 struct _deps_list
313 /* First element. */
314 dep_link_t first;
316 /* Total number of elements in the list. */
317 int n_links;
319 typedef struct _deps_list *deps_list_t;
321 #define DEPS_LIST_FIRST(L) ((L)->first)
322 #define DEPS_LIST_N_LINKS(L) ((L)->n_links)
324 /* Suppose we have a dependence Y between insn pro1 and con1, where pro1 has
325 additional dependents con0 and con2, and con1 is dependent on additional
326 insns pro0 and pro1:
328 .con0 pro0
329 . ^ |
330 . | |
331 . | |
332 . X A
333 . | |
334 . | |
335 . | V
336 .pro1--Y-->con1
337 . | ^
338 . | |
339 . | |
340 . Z B
341 . | |
342 . | |
343 . V |
344 .con2 pro2
346 This is represented using a "dep_node" for each dependence arc, which are
347 connected as follows (diagram is centered around Y which is fully shown;
348 other dep_nodes shown partially):
350 . +------------+ +--------------+ +------------+
351 . : dep_node X : | dep_node Y | : dep_node Z :
352 . : : | | : :
353 . : : | | : :
354 . : forw : | forw | : forw :
355 . : +--------+ : | +--------+ | : +--------+ :
356 forw_deps : |dep_link| : | |dep_link| | : |dep_link| :
357 +-----+ : | +----+ | : | | +----+ | | : | +----+ | :
358 |first|----->| |next|-+------+->| |next|-+--+----->| |next|-+--->NULL
359 +-----+ : | +----+ | : | | +----+ | | : | +----+ | :
360 . ^ ^ : | ^ | : | | ^ | | : | | :
361 . | | : | | | : | | | | | : | | :
362 . | +--<----+--+ +--+---<--+--+--+ +--+--+--<---+--+ | :
363 . | : | | | : | | | | | : | | | :
364 . | : | +----+ | : | | +----+ | | : | +----+ | :
365 . | : | |prev| | : | | |prev| | | : | |prev| | :
366 . | : | |next| | : | | |next| | | : | |next| | :
367 . | : | +----+ | : | | +----+ | | : | +----+ | :
368 . | : | | :<-+ | | | |<-+ : | | :<-+
369 . | : | +----+ | : | | | +----+ | | | : | +----+ | : |
370 . | : | |node|-+----+ | | |node|-+--+--+ : | |node|-+----+
371 . | : | +----+ | : | | +----+ | | : | +----+ | :
372 . | : | | : | | | | : | | :
373 . | : +--------+ : | +--------+ | : +--------+ :
374 . | : : | | : :
375 . | : SAME pro1 : | +--------+ | : SAME pro1 :
376 . | : DIFF con0 : | |dep | | : DIFF con2 :
377 . | : : | | | | : :
378 . | | | +----+ | |
379 .RTX<------------------------+--+-|pro1| | |
380 .pro1 | | +----+ | |
381 . | | | |
382 . | | +----+ | |
383 .RTX<------------------------+--+-|con1| | |
384 .con1 | | +----+ | |
385 . | | | | |
386 . | | | +----+ | |
387 . | | | |kind| | |
388 . | | | +----+ | |
389 . | : : | | |stat| | | : :
390 . | : DIFF pro0 : | | +----+ | | : DIFF pro2 :
391 . | : SAME con1 : | | | | : SAME con1 :
392 . | : : | +--------+ | : :
393 . | : : | | : :
394 . | : back : | back | : back :
395 . v : +--------+ : | +--------+ | : +--------+ :
396 back_deps : |dep_link| : | |dep_link| | : |dep_link| :
397 +-----+ : | +----+ | : | | +----+ | | : | +----+ | :
398 |first|----->| |next|-+------+->| |next|-+--+----->| |next|-+--->NULL
399 +-----+ : | +----+ | : | | +----+ | | : | +----+ | :
400 . ^ : | ^ | : | | ^ | | : | | :
401 . | : | | | : | | | | | : | | :
402 . +--<----+--+ +--+---<--+--+--+ +--+--+--<---+--+ | :
403 . : | | | : | | | | | : | | | :
404 . : | +----+ | : | | +----+ | | : | +----+ | :
405 . : | |prev| | : | | |prev| | | : | |prev| | :
406 . : | |next| | : | | |next| | | : | |next| | :
407 . : | +----+ | : | | +----+ | | : | +----+ | :
408 . : | | :<-+ | | | |<-+ : | | :<-+
409 . : | +----+ | : | | | +----+ | | | : | +----+ | : |
410 . : | |node|-+----+ | | |node|-+--+--+ : | |node|-+----+
411 . : | +----+ | : | | +----+ | | : | +----+ | :
412 . : | | : | | | | : | | :
413 . : +--------+ : | +--------+ | : +--------+ :
414 . : : | | : :
415 . : dep_node A : | dep_node Y | : dep_node B :
416 . +------------+ +--------------+ +------------+
419 struct _dep_node
421 /* Backward link. */
422 struct _dep_link back;
424 /* The dep. */
425 struct _dep dep;
427 /* Forward link. */
428 struct _dep_link forw;
431 #define DEP_NODE_BACK(N) (&(N)->back)
432 #define DEP_NODE_DEP(N) (&(N)->dep)
433 #define DEP_NODE_FORW(N) (&(N)->forw)
435 /* The following enumeration values tell us what dependencies we
436 should use to implement the barrier. We use true-dependencies for
437 TRUE_BARRIER and anti-dependencies for MOVE_BARRIER. */
438 enum reg_pending_barrier_mode
440 NOT_A_BARRIER = 0,
441 MOVE_BARRIER,
442 TRUE_BARRIER
445 /* Whether a register movement is associated with a call. */
446 enum post_call_group
448 not_post_call,
449 post_call,
450 post_call_initial
453 /* Insns which affect pseudo-registers. */
454 struct deps_reg
456 rtx uses;
457 rtx sets;
458 rtx implicit_sets;
459 rtx control_uses;
460 rtx clobbers;
461 int uses_length;
462 int clobbers_length;
465 /* Describe state of dependencies used during sched_analyze phase. */
466 struct deps_desc
468 /* The *_insns and *_mems are paired lists. Each pending memory operation
469 will have a pointer to the MEM rtx on one list and a pointer to the
470 containing insn on the other list in the same place in the list. */
472 /* We can't use add_dependence like the old code did, because a single insn
473 may have multiple memory accesses, and hence needs to be on the list
474 once for each memory access. Add_dependence won't let you add an insn
475 to a list more than once. */
477 /* An INSN_LIST containing all insns with pending read operations. */
478 rtx pending_read_insns;
480 /* An EXPR_LIST containing all MEM rtx's which are pending reads. */
481 rtx pending_read_mems;
483 /* An INSN_LIST containing all insns with pending write operations. */
484 rtx pending_write_insns;
486 /* An EXPR_LIST containing all MEM rtx's which are pending writes. */
487 rtx pending_write_mems;
489 /* An INSN_LIST containing all jump insns. */
490 rtx pending_jump_insns;
492 /* We must prevent the above lists from ever growing too large since
493 the number of dependencies produced is at least O(N*N),
494 and execution time is at least O(4*N*N), as a function of the
495 length of these pending lists. */
497 /* Indicates the length of the pending_read list. */
498 int pending_read_list_length;
500 /* Indicates the length of the pending_write list. */
501 int pending_write_list_length;
503 /* Length of the pending memory flush list plus the length of the pending
504 jump insn list. Large functions with no calls may build up extremely
505 large lists. */
506 int pending_flush_length;
508 /* The last insn upon which all memory references must depend.
509 This is an insn which flushed the pending lists, creating a dependency
510 between it and all previously pending memory references. This creates
511 a barrier (or a checkpoint) which no memory reference is allowed to cross.
513 This includes all non constant CALL_INSNs. When we do interprocedural
514 alias analysis, this restriction can be relaxed.
515 This may also be an INSN that writes memory if the pending lists grow
516 too large. */
517 rtx last_pending_memory_flush;
519 /* A list of the last function calls we have seen. We use a list to
520 represent last function calls from multiple predecessor blocks.
521 Used to prevent register lifetimes from expanding unnecessarily. */
522 rtx last_function_call;
524 /* A list of the last function calls that may not return normally
525 we have seen. We use a list to represent last function calls from
526 multiple predecessor blocks. Used to prevent moving trapping insns
527 across such calls. */
528 rtx last_function_call_may_noreturn;
530 /* A list of insns which use a pseudo register that does not already
531 cross a call. We create dependencies between each of those insn
532 and the next call insn, to ensure that they won't cross a call after
533 scheduling is done. */
534 rtx sched_before_next_call;
536 /* Similarly, a list of insns which should not cross a branch. */
537 rtx sched_before_next_jump;
539 /* Used to keep post-call pseudo/hard reg movements together with
540 the call. */
541 enum post_call_group in_post_call_group_p;
543 /* The last debug insn we've seen. */
544 rtx last_debug_insn;
546 /* The maximum register number for the following arrays. Before reload
547 this is max_reg_num; after reload it is FIRST_PSEUDO_REGISTER. */
548 int max_reg;
550 /* Element N is the next insn that sets (hard or pseudo) register
551 N within the current basic block; or zero, if there is no
552 such insn. Needed for new registers which may be introduced
553 by splitting insns. */
554 struct deps_reg *reg_last;
556 /* Element N is set for each register that has any nonzero element
557 in reg_last[N].{uses,sets,clobbers}. */
558 regset_head reg_last_in_use;
560 /* Shows the last value of reg_pending_barrier associated with the insn. */
561 enum reg_pending_barrier_mode last_reg_pending_barrier;
563 /* True when this context should be treated as a readonly by
564 the analysis. */
565 BOOL_BITFIELD readonly : 1;
568 typedef struct deps_desc *deps_t;
570 /* This structure holds some state of the current scheduling pass, and
571 contains some function pointers that abstract out some of the non-generic
572 functionality from functions such as schedule_block or schedule_insn.
573 There is one global variable, current_sched_info, which points to the
574 sched_info structure currently in use. */
575 struct haifa_sched_info
577 /* Add all insns that are initially ready to the ready list. Called once
578 before scheduling a set of insns. */
579 void (*init_ready_list) (void);
580 /* Called after taking an insn from the ready list. Returns nonzero if
581 this insn can be scheduled, nonzero if we should silently discard it. */
582 int (*can_schedule_ready_p) (rtx);
583 /* Return nonzero if there are more insns that should be scheduled. */
584 int (*schedule_more_p) (void);
585 /* Called after an insn has all its hard dependencies resolved.
586 Adjusts status of instruction (which is passed through second parameter)
587 to indicate if instruction should be moved to the ready list or the
588 queue, or if it should silently discard it (until next resolved
589 dependence). */
590 ds_t (*new_ready) (rtx, ds_t);
591 /* Compare priority of two insns. Return a positive number if the second
592 insn is to be preferred for scheduling, and a negative one if the first
593 is to be preferred. Zero if they are equally good. */
594 int (*rank) (rtx, rtx);
595 /* Return a string that contains the insn uid and optionally anything else
596 necessary to identify this insn in an output. It's valid to use a
597 static buffer for this. The ALIGNED parameter should cause the string
598 to be formatted so that multiple output lines will line up nicely. */
599 const char *(*print_insn) (const_rtx, int);
600 /* Return nonzero if an insn should be included in priority
601 calculations. */
602 int (*contributes_to_priority) (rtx, rtx);
604 /* Return true if scheduling insn (passed as the parameter) will trigger
605 finish of scheduling current block. */
606 bool (*insn_finishes_block_p) (rtx);
608 /* The boundaries of the set of insns to be scheduled. */
609 rtx prev_head, next_tail;
611 /* Filled in after the schedule is finished; the first and last scheduled
612 insns. */
613 rtx head, tail;
615 /* If nonzero, enables an additional sanity check in schedule_block. */
616 unsigned int queue_must_finish_empty:1;
618 /* Maximum priority that has been assigned to an insn. */
619 int sched_max_insns_priority;
621 /* Hooks to support speculative scheduling. */
623 /* Called to notify frontend that instruction is being added (second
624 parameter == 0) or removed (second parameter == 1). */
625 void (*add_remove_insn) (rtx, int);
627 /* Called to notify the frontend that instruction INSN is being
628 scheduled. */
629 void (*begin_schedule_ready) (rtx insn);
631 /* Called to notify the frontend that an instruction INSN is about to be
632 moved to its correct place in the final schedule. This is done for all
633 insns in order of the schedule. LAST indicates the last scheduled
634 instruction. */
635 void (*begin_move_insn) (rtx insn, rtx last);
637 /* If the second parameter is not NULL, return nonnull value, if the
638 basic block should be advanced.
639 If the second parameter is NULL, return the next basic block in EBB.
640 The first parameter is the current basic block in EBB. */
641 basic_block (*advance_target_bb) (basic_block, rtx);
643 /* Allocate memory, store the frontend scheduler state in it, and
644 return it. */
645 void *(*save_state) (void);
646 /* Restore frontend scheduler state from the argument, and free the
647 memory. */
648 void (*restore_state) (void *);
650 /* ??? FIXME: should use straight bitfields inside sched_info instead of
651 this flag field. */
652 unsigned int flags;
655 /* This structure holds description of the properties for speculative
656 scheduling. */
657 struct spec_info_def
659 /* Holds types of allowed speculations: BEGIN_{DATA|CONTROL},
660 BE_IN_{DATA_CONTROL}. */
661 int mask;
663 /* A dump file for additional information on speculative scheduling. */
664 FILE *dump;
666 /* Minimal cumulative weakness of speculative instruction's
667 dependencies, so that insn will be scheduled. */
668 dw_t data_weakness_cutoff;
670 /* Minimal usefulness of speculative instruction to be considered for
671 scheduling. */
672 int control_weakness_cutoff;
674 /* Flags from the enum SPEC_SCHED_FLAGS. */
675 int flags;
677 typedef struct spec_info_def *spec_info_t;
679 extern spec_info_t spec_info;
681 extern struct haifa_sched_info *current_sched_info;
683 /* Do register pressure sensitive insn scheduling if the flag is set
684 up. */
685 extern enum sched_pressure_algorithm sched_pressure;
687 /* Map regno -> its pressure class. The map defined only when
688 SCHED_PRESSURE_P is true. */
689 extern enum reg_class *sched_regno_pressure_class;
691 /* Indexed by INSN_UID, the collection of all data associated with
692 a single instruction. */
694 struct _haifa_deps_insn_data
696 /* The number of incoming edges in the forward dependency graph.
697 As scheduling proceeds, counts are decreased. An insn moves to
698 the ready queue when its counter reaches zero. */
699 int dep_count;
701 /* Nonzero if instruction has internal dependence
702 (e.g. add_dependence was invoked with (insn == elem)). */
703 unsigned int has_internal_dep;
705 /* NB: We can't place 'struct _deps_list' here instead of deps_list_t into
706 h_i_d because when h_i_d extends, addresses of the deps_list->first
707 change without updating deps_list->first->next->prev_nextp. Thus
708 BACK_DEPS and RESOLVED_BACK_DEPS are allocated on the heap and FORW_DEPS
709 list is allocated on the obstack. */
711 /* A list of hard backward dependencies. The insn is a consumer of all the
712 deps mentioned here. */
713 deps_list_t hard_back_deps;
715 /* A list of speculative (weak) dependencies. The insn is a consumer of all
716 the deps mentioned here. */
717 deps_list_t spec_back_deps;
719 /* A list of insns which depend on the instruction. Unlike 'back_deps',
720 it represents forward dependencies. */
721 deps_list_t forw_deps;
723 /* A list of scheduled producers of the instruction. Links are being moved
724 from 'back_deps' to 'resolved_back_deps' while scheduling. */
725 deps_list_t resolved_back_deps;
727 /* A list of scheduled consumers of the instruction. Links are being moved
728 from 'forw_deps' to 'resolved_forw_deps' while scheduling to fasten the
729 search in 'forw_deps'. */
730 deps_list_t resolved_forw_deps;
732 /* If the insn is conditional (either through COND_EXEC, or because
733 it is a conditional branch), this records the condition. NULL
734 for insns that haven't been seen yet or don't have a condition;
735 const_true_rtx to mark an insn without a condition, or with a
736 condition that has been clobbered by a subsequent insn. */
737 rtx cond;
739 /* For a conditional insn, a list of insns that could set the condition
740 register. Used when generating control dependencies. */
741 rtx cond_deps;
743 /* True if the condition in 'cond' should be reversed to get the actual
744 condition. */
745 unsigned int reverse_cond : 1;
747 /* Some insns (e.g. call) are not allowed to move across blocks. */
748 unsigned int cant_move : 1;
751 /* Bits used for storing values of the fields in the following
752 structure. */
753 #define INCREASE_BITS 8
755 /* The structure describes how the corresponding insn increases the
756 register pressure for each pressure class. */
757 struct reg_pressure_data
759 /* Pressure increase for given class because of clobber. */
760 unsigned int clobber_increase : INCREASE_BITS;
761 /* Increase in register pressure for given class because of register
762 sets. */
763 unsigned int set_increase : INCREASE_BITS;
764 /* Pressure increase for given class because of unused register
765 set. */
766 unsigned int unused_set_increase : INCREASE_BITS;
767 /* Pressure change: #sets - #deaths. */
768 int change : INCREASE_BITS;
771 /* The following structure describes usage of registers by insns. */
772 struct reg_use_data
774 /* Regno used in the insn. */
775 int regno;
776 /* Insn using the regno. */
777 rtx insn;
778 /* Cyclic list of elements with the same regno. */
779 struct reg_use_data *next_regno_use;
780 /* List of elements with the same insn. */
781 struct reg_use_data *next_insn_use;
784 /* The following structure describes used sets of registers by insns.
785 Registers are pseudos whose pressure class is not NO_REGS or hard
786 registers available for allocations. */
787 struct reg_set_data
789 /* Regno used in the insn. */
790 int regno;
791 /* Insn setting the regno. */
792 rtx insn;
793 /* List of elements with the same insn. */
794 struct reg_set_data *next_insn_set;
797 struct _haifa_insn_data
799 /* We can't place 'struct _deps_list' into h_i_d instead of deps_list_t
800 because when h_i_d extends, addresses of the deps_list->first
801 change without updating deps_list->first->next->prev_nextp. */
803 /* Logical uid gives the original ordering of the insns. */
804 int luid;
806 /* A priority for each insn. */
807 int priority;
809 /* The minimum clock tick at which the insn becomes ready. This is
810 used to note timing constraints for the insns in the pending list. */
811 int tick;
813 /* For insns that are scheduled at a fixed difference from another,
814 this records the tick in which they must be ready. */
815 int exact_tick;
817 /* INTER_TICK is used to adjust INSN_TICKs of instructions from the
818 subsequent blocks in a region. */
819 int inter_tick;
821 /* Used temporarily to estimate an INSN_TICK value for an insn given
822 current knowledge. */
823 int tick_estimate;
825 /* See comment on QUEUE_INDEX macro in haifa-sched.c. */
826 int queue_index;
828 short cost;
830 /* '> 0' if priority is valid,
831 '== 0' if priority was not yet computed,
832 '< 0' if priority in invalid and should be recomputed. */
833 signed char priority_status;
835 /* Set if there's DEF-USE dependence between some speculatively
836 moved load insn and this one. */
837 unsigned int fed_by_spec_load : 1;
838 unsigned int is_load_insn : 1;
839 /* Nonzero if this insn has negative-cost forward dependencies against
840 an already scheduled insn. */
841 unsigned int feeds_backtrack_insn : 1;
843 /* Nonzero if this insn is a shadow of another, scheduled after a fixed
844 delay. We only emit shadows at the end of a cycle, with no other
845 real insns following them. */
846 unsigned int shadow_p : 1;
848 /* Used internally in unschedule_insns_until to mark insns that must have
849 their TODO_SPEC recomputed. */
850 unsigned int must_recompute_spec : 1;
852 /* What speculations are necessary to apply to schedule the instruction. */
853 ds_t todo_spec;
855 /* What speculations were already applied. */
856 ds_t done_spec;
858 /* What speculations are checked by this instruction. */
859 ds_t check_spec;
861 /* Recovery block for speculation checks. */
862 basic_block recovery_block;
864 /* Original pattern of the instruction. */
865 rtx orig_pat;
867 /* For insns with DEP_CONTROL dependencies, the predicated pattern if it
868 was ever successfully constructed. */
869 rtx predicated_pat;
871 /* The following array contains info how the insn increases register
872 pressure. There is an element for each cover class of pseudos
873 referenced in insns. */
874 struct reg_pressure_data *reg_pressure;
875 /* The following array contains maximal reg pressure between last
876 scheduled insn and given insn. There is an element for each
877 pressure class of pseudos referenced in insns. This info updated
878 after scheduling each insn for each insn between the two
879 mentioned insns. */
880 int *max_reg_pressure;
881 /* The following list contains info about used pseudos and hard
882 registers available for allocation. */
883 struct reg_use_data *reg_use_list;
884 /* The following list contains info about set pseudos and hard
885 registers available for allocation. */
886 struct reg_set_data *reg_set_list;
887 /* Info about how scheduling the insn changes cost of register
888 pressure excess (between source and target). */
889 int reg_pressure_excess_cost_change;
890 int model_index;
893 typedef struct _haifa_insn_data haifa_insn_data_def;
894 typedef haifa_insn_data_def *haifa_insn_data_t;
896 DEF_VEC_O (haifa_insn_data_def);
897 DEF_VEC_ALLOC_O (haifa_insn_data_def, heap);
899 extern VEC(haifa_insn_data_def, heap) *h_i_d;
901 #define HID(INSN) (&VEC_index (haifa_insn_data_def, h_i_d, INSN_UID (INSN)))
903 /* Accessor macros for h_i_d. There are more in haifa-sched.c and
904 sched-rgn.c. */
905 #define INSN_PRIORITY(INSN) (HID (INSN)->priority)
906 #define INSN_REG_PRESSURE(INSN) (HID (INSN)->reg_pressure)
907 #define INSN_MAX_REG_PRESSURE(INSN) (HID (INSN)->max_reg_pressure)
908 #define INSN_REG_USE_LIST(INSN) (HID (INSN)->reg_use_list)
909 #define INSN_REG_SET_LIST(INSN) (HID (INSN)->reg_set_list)
910 #define INSN_REG_PRESSURE_EXCESS_COST_CHANGE(INSN) \
911 (HID (INSN)->reg_pressure_excess_cost_change)
912 #define INSN_PRIORITY_STATUS(INSN) (HID (INSN)->priority_status)
913 #define INSN_MODEL_INDEX(INSN) (HID (INSN)->model_index)
915 typedef struct _haifa_deps_insn_data haifa_deps_insn_data_def;
916 typedef haifa_deps_insn_data_def *haifa_deps_insn_data_t;
918 DEF_VEC_O (haifa_deps_insn_data_def);
919 DEF_VEC_ALLOC_O (haifa_deps_insn_data_def, heap);
921 extern VEC(haifa_deps_insn_data_def, heap) *h_d_i_d;
923 #define HDID(INSN) (&VEC_index (haifa_deps_insn_data_def, h_d_i_d, \
924 INSN_LUID (INSN)))
925 #define INSN_DEP_COUNT(INSN) (HDID (INSN)->dep_count)
926 #define HAS_INTERNAL_DEP(INSN) (HDID (INSN)->has_internal_dep)
927 #define INSN_FORW_DEPS(INSN) (HDID (INSN)->forw_deps)
928 #define INSN_RESOLVED_BACK_DEPS(INSN) (HDID (INSN)->resolved_back_deps)
929 #define INSN_RESOLVED_FORW_DEPS(INSN) (HDID (INSN)->resolved_forw_deps)
930 #define INSN_HARD_BACK_DEPS(INSN) (HDID (INSN)->hard_back_deps)
931 #define INSN_SPEC_BACK_DEPS(INSN) (HDID (INSN)->spec_back_deps)
932 #define INSN_CACHED_COND(INSN) (HDID (INSN)->cond)
933 #define INSN_REVERSE_COND(INSN) (HDID (INSN)->reverse_cond)
934 #define INSN_COND_DEPS(INSN) (HDID (INSN)->cond_deps)
935 #define CANT_MOVE(INSN) (HDID (INSN)->cant_move)
936 #define CANT_MOVE_BY_LUID(LUID) (VEC_index (haifa_deps_insn_data_def, h_d_i_d, \
937 LUID).cant_move)
940 #define INSN_PRIORITY(INSN) (HID (INSN)->priority)
941 #define INSN_PRIORITY_STATUS(INSN) (HID (INSN)->priority_status)
942 #define INSN_PRIORITY_KNOWN(INSN) (INSN_PRIORITY_STATUS (INSN) > 0)
943 #define TODO_SPEC(INSN) (HID (INSN)->todo_spec)
944 #define DONE_SPEC(INSN) (HID (INSN)->done_spec)
945 #define CHECK_SPEC(INSN) (HID (INSN)->check_spec)
946 #define RECOVERY_BLOCK(INSN) (HID (INSN)->recovery_block)
947 #define ORIG_PAT(INSN) (HID (INSN)->orig_pat)
948 #define PREDICATED_PAT(INSN) (HID (INSN)->predicated_pat)
950 /* INSN is either a simple or a branchy speculation check. */
951 #define IS_SPECULATION_CHECK_P(INSN) \
952 (sel_sched_p () ? sel_insn_is_speculation_check (INSN) : RECOVERY_BLOCK (INSN) != NULL)
954 /* INSN is a speculation check that will simply reexecute the speculatively
955 scheduled instruction if the speculation fails. */
956 #define IS_SPECULATION_SIMPLE_CHECK_P(INSN) \
957 (RECOVERY_BLOCK (INSN) == EXIT_BLOCK_PTR)
959 /* INSN is a speculation check that will branch to RECOVERY_BLOCK if the
960 speculation fails. Insns in that block will reexecute the speculatively
961 scheduled code and then will return immediately after INSN thus preserving
962 semantics of the program. */
963 #define IS_SPECULATION_BRANCHY_CHECK_P(INSN) \
964 (RECOVERY_BLOCK (INSN) != NULL && RECOVERY_BLOCK (INSN) != EXIT_BLOCK_PTR)
966 /* Dep status (aka ds_t) of the link encapsulates information, that is needed
967 for speculative scheduling. Namely, it is 4 integers in the range
968 [0, MAX_DEP_WEAK] and 3 bits.
969 The integers correspond to the probability of the dependence to *not*
970 exist, it is the probability, that overcoming of this dependence will
971 not be followed by execution of the recovery code. Nevertheless,
972 whatever high the probability of success is, recovery code should still
973 be generated to preserve semantics of the program. To find a way to
974 get/set these integers, please refer to the {get, set}_dep_weak ()
975 functions in sched-deps.c .
976 The 3 bits in the DEP_STATUS correspond to 3 dependence types: true-,
977 output- and anti- dependence. It is not enough for speculative scheduling
978 to know just the major type of all the dependence between two instructions,
979 as only true dependence can be overcome.
980 There also is the 4-th bit in the DEP_STATUS (HARD_DEP), that is reserved
981 for using to describe instruction's status. It is set whenever instruction
982 has at least one dependence, that cannot be overcame.
983 See also: check_dep_status () in sched-deps.c . */
985 /* We exclude sign bit. */
986 #define BITS_PER_DEP_STATUS (HOST_BITS_PER_INT - 1)
988 /* First '6' stands for 4 dep type bits and the HARD_DEP and DEP_CANCELLED
989 bits.
990 Second '4' stands for BEGIN_{DATA, CONTROL}, BE_IN_{DATA, CONTROL}
991 dep weakness. */
992 #define BITS_PER_DEP_WEAK ((BITS_PER_DEP_STATUS - 6) / 4)
994 /* Mask of speculative weakness in dep_status. */
995 #define DEP_WEAK_MASK ((1 << BITS_PER_DEP_WEAK) - 1)
997 /* This constant means that dependence is fake with 99.999...% probability.
998 This is the maximum value, that can appear in dep_status.
999 Note, that we don't want MAX_DEP_WEAK to be the same as DEP_WEAK_MASK for
1000 debugging reasons. Though, it can be set to DEP_WEAK_MASK, and, when
1001 done so, we'll get fast (mul for)/(div by) NO_DEP_WEAK. */
1002 #define MAX_DEP_WEAK (DEP_WEAK_MASK - 1)
1004 /* This constant means that dependence is 99.999...% real and it is a really
1005 bad idea to overcome it (though this can be done, preserving program
1006 semantics). */
1007 #define MIN_DEP_WEAK 1
1009 /* This constant represents 100% probability.
1010 E.g. it is used to represent weakness of dependence, that doesn't exist. */
1011 #define NO_DEP_WEAK (MAX_DEP_WEAK + MIN_DEP_WEAK)
1013 /* Default weakness of speculative dependence. Used when we can't say
1014 neither bad nor good about the dependence. */
1015 #define UNCERTAIN_DEP_WEAK (MAX_DEP_WEAK - MAX_DEP_WEAK / 4)
1017 /* Offset for speculative weaknesses in dep_status. */
1018 enum SPEC_TYPES_OFFSETS {
1019 BEGIN_DATA_BITS_OFFSET = 0,
1020 BE_IN_DATA_BITS_OFFSET = BEGIN_DATA_BITS_OFFSET + BITS_PER_DEP_WEAK,
1021 BEGIN_CONTROL_BITS_OFFSET = BE_IN_DATA_BITS_OFFSET + BITS_PER_DEP_WEAK,
1022 BE_IN_CONTROL_BITS_OFFSET = BEGIN_CONTROL_BITS_OFFSET + BITS_PER_DEP_WEAK
1025 /* The following defines provide numerous constants used to distinguish between
1026 different types of speculative dependencies. */
1028 /* Dependence can be overcome with generation of new data speculative
1029 instruction. */
1030 #define BEGIN_DATA (((ds_t) DEP_WEAK_MASK) << BEGIN_DATA_BITS_OFFSET)
1032 /* This dependence is to the instruction in the recovery block, that was
1033 formed to recover after data-speculation failure.
1034 Thus, this dependence can overcome with generating of the copy of
1035 this instruction in the recovery block. */
1036 #define BE_IN_DATA (((ds_t) DEP_WEAK_MASK) << BE_IN_DATA_BITS_OFFSET)
1038 /* Dependence can be overcome with generation of new control speculative
1039 instruction. */
1040 #define BEGIN_CONTROL (((ds_t) DEP_WEAK_MASK) << BEGIN_CONTROL_BITS_OFFSET)
1042 /* This dependence is to the instruction in the recovery block, that was
1043 formed to recover after control-speculation failure.
1044 Thus, this dependence can be overcome with generating of the copy of
1045 this instruction in the recovery block. */
1046 #define BE_IN_CONTROL (((ds_t) DEP_WEAK_MASK) << BE_IN_CONTROL_BITS_OFFSET)
1048 /* A few convenient combinations. */
1049 #define BEGIN_SPEC (BEGIN_DATA | BEGIN_CONTROL)
1050 #define DATA_SPEC (BEGIN_DATA | BE_IN_DATA)
1051 #define CONTROL_SPEC (BEGIN_CONTROL | BE_IN_CONTROL)
1052 #define SPECULATIVE (DATA_SPEC | CONTROL_SPEC)
1053 #define BE_IN_SPEC (BE_IN_DATA | BE_IN_CONTROL)
1055 /* Constants, that are helpful in iterating through dep_status. */
1056 #define FIRST_SPEC_TYPE BEGIN_DATA
1057 #define LAST_SPEC_TYPE BE_IN_CONTROL
1058 #define SPEC_TYPE_SHIFT BITS_PER_DEP_WEAK
1060 /* Dependence on instruction can be of multiple types
1061 (e.g. true and output). This fields enhance REG_NOTE_KIND information
1062 of the dependence. */
1063 #define DEP_TRUE (((ds_t) 1) << (BE_IN_CONTROL_BITS_OFFSET + BITS_PER_DEP_WEAK))
1064 #define DEP_OUTPUT (DEP_TRUE << 1)
1065 #define DEP_ANTI (DEP_OUTPUT << 1)
1066 #define DEP_CONTROL (DEP_ANTI << 1)
1068 #define DEP_TYPES (DEP_TRUE | DEP_OUTPUT | DEP_ANTI | DEP_CONTROL)
1070 /* Instruction has non-speculative dependence. This bit represents the
1071 property of an instruction - not the one of a dependence.
1072 Therefore, it can appear only in TODO_SPEC field of an instruction. */
1073 #define HARD_DEP (DEP_CONTROL << 1)
1075 /* Set in the TODO_SPEC field of an instruction for which new_ready
1076 has decided not to schedule it speculatively. */
1077 #define DEP_POSTPONED (HARD_DEP << 1)
1079 #define DEP_CANCELLED (DEP_POSTPONED << 1)
1081 /* This represents the results of calling sched-deps.c functions,
1082 which modify dependencies. */
1083 enum DEPS_ADJUST_RESULT {
1084 /* No dependence needed (e.g. producer == consumer). */
1085 DEP_NODEP,
1086 /* Dependence is already present and wasn't modified. */
1087 DEP_PRESENT,
1088 /* Existing dependence was modified to include additional information. */
1089 DEP_CHANGED,
1090 /* New dependence has been created. */
1091 DEP_CREATED
1094 /* Represents the bits that can be set in the flags field of the
1095 sched_info structure. */
1096 enum SCHED_FLAGS {
1097 /* If set, generate links between instruction as DEPS_LIST.
1098 Otherwise, generate usual INSN_LIST links. */
1099 USE_DEPS_LIST = 1,
1100 /* Perform data or control (or both) speculation.
1101 Results in generation of data and control speculative dependencies.
1102 Requires USE_DEPS_LIST set. */
1103 DO_SPECULATION = USE_DEPS_LIST << 1,
1104 DO_BACKTRACKING = DO_SPECULATION << 1,
1105 DO_PREDICATION = DO_BACKTRACKING << 1,
1106 DONT_BREAK_DEPENDENCIES = DO_PREDICATION << 1,
1107 SCHED_RGN = DONT_BREAK_DEPENDENCIES << 1,
1108 SCHED_EBB = SCHED_RGN << 1,
1109 /* Scheduler can possibly create new basic blocks. Used for assertions. */
1110 NEW_BBS = SCHED_EBB << 1,
1111 SEL_SCHED = NEW_BBS << 1
1114 enum SPEC_SCHED_FLAGS {
1115 COUNT_SPEC_IN_CRITICAL_PATH = 1,
1116 PREFER_NON_DATA_SPEC = COUNT_SPEC_IN_CRITICAL_PATH << 1,
1117 PREFER_NON_CONTROL_SPEC = PREFER_NON_DATA_SPEC << 1,
1118 SEL_SCHED_SPEC_DONT_CHECK_CONTROL = PREFER_NON_CONTROL_SPEC << 1
1121 #define NOTE_NOT_BB_P(NOTE) (NOTE_P (NOTE) && (NOTE_KIND (NOTE) \
1122 != NOTE_INSN_BASIC_BLOCK))
1124 extern FILE *sched_dump;
1125 extern int sched_verbose;
1127 extern spec_info_t spec_info;
1128 extern bool haifa_recovery_bb_ever_added_p;
1130 /* Exception Free Loads:
1132 We define five classes of speculative loads: IFREE, IRISKY,
1133 PFREE, PRISKY, and MFREE.
1135 IFREE loads are loads that are proved to be exception-free, just
1136 by examining the load insn. Examples for such loads are loads
1137 from TOC and loads of global data.
1139 IRISKY loads are loads that are proved to be exception-risky,
1140 just by examining the load insn. Examples for such loads are
1141 volatile loads and loads from shared memory.
1143 PFREE loads are loads for which we can prove, by examining other
1144 insns, that they are exception-free. Currently, this class consists
1145 of loads for which we are able to find a "similar load", either in
1146 the target block, or, if only one split-block exists, in that split
1147 block. Load2 is similar to load1 if both have same single base
1148 register. We identify only part of the similar loads, by finding
1149 an insn upon which both load1 and load2 have a DEF-USE dependence.
1151 PRISKY loads are loads for which we can prove, by examining other
1152 insns, that they are exception-risky. Currently we have two proofs for
1153 such loads. The first proof detects loads that are probably guarded by a
1154 test on the memory address. This proof is based on the
1155 backward and forward data dependence information for the region.
1156 Let load-insn be the examined load.
1157 Load-insn is PRISKY iff ALL the following hold:
1159 - insn1 is not in the same block as load-insn
1160 - there is a DEF-USE dependence chain (insn1, ..., load-insn)
1161 - test-insn is either a compare or a branch, not in the same block
1162 as load-insn
1163 - load-insn is reachable from test-insn
1164 - there is a DEF-USE dependence chain (insn1, ..., test-insn)
1166 This proof might fail when the compare and the load are fed
1167 by an insn not in the region. To solve this, we will add to this
1168 group all loads that have no input DEF-USE dependence.
1170 The second proof detects loads that are directly or indirectly
1171 fed by a speculative load. This proof is affected by the
1172 scheduling process. We will use the flag fed_by_spec_load.
1173 Initially, all insns have this flag reset. After a speculative
1174 motion of an insn, if insn is either a load, or marked as
1175 fed_by_spec_load, we will also mark as fed_by_spec_load every
1176 insn1 for which a DEF-USE dependence (insn, insn1) exists. A
1177 load which is fed_by_spec_load is also PRISKY.
1179 MFREE (maybe-free) loads are all the remaining loads. They may be
1180 exception-free, but we cannot prove it.
1182 Now, all loads in IFREE and PFREE classes are considered
1183 exception-free, while all loads in IRISKY and PRISKY classes are
1184 considered exception-risky. As for loads in the MFREE class,
1185 these are considered either exception-free or exception-risky,
1186 depending on whether we are pessimistic or optimistic. We have
1187 to take the pessimistic approach to assure the safety of
1188 speculative scheduling, but we can take the optimistic approach
1189 by invoking the -fsched_spec_load_dangerous option. */
1191 enum INSN_TRAP_CLASS
1193 TRAP_FREE = 0, IFREE = 1, PFREE_CANDIDATE = 2,
1194 PRISKY_CANDIDATE = 3, IRISKY = 4, TRAP_RISKY = 5
1197 #define WORST_CLASS(class1, class2) \
1198 ((class1 > class2) ? class1 : class2)
1200 #ifndef __GNUC__
1201 #define __inline
1202 #endif
1204 #ifndef HAIFA_INLINE
1205 #define HAIFA_INLINE __inline
1206 #endif
1208 struct sched_deps_info_def
1210 /* Called when computing dependencies for a JUMP_INSN. This function
1211 should store the set of registers that must be considered as set by
1212 the jump in the regset. */
1213 void (*compute_jump_reg_dependencies) (rtx, regset);
1215 /* Start analyzing insn. */
1216 void (*start_insn) (rtx);
1218 /* Finish analyzing insn. */
1219 void (*finish_insn) (void);
1221 /* Start analyzing insn LHS (Left Hand Side). */
1222 void (*start_lhs) (rtx);
1224 /* Finish analyzing insn LHS. */
1225 void (*finish_lhs) (void);
1227 /* Start analyzing insn RHS (Right Hand Side). */
1228 void (*start_rhs) (rtx);
1230 /* Finish analyzing insn RHS. */
1231 void (*finish_rhs) (void);
1233 /* Note set of the register. */
1234 void (*note_reg_set) (int);
1236 /* Note clobber of the register. */
1237 void (*note_reg_clobber) (int);
1239 /* Note use of the register. */
1240 void (*note_reg_use) (int);
1242 /* Note memory dependence of type DS between MEM1 and MEM2 (which is
1243 in the INSN2). */
1244 void (*note_mem_dep) (rtx mem1, rtx mem2, rtx insn2, ds_t ds);
1246 /* Note a dependence of type DS from the INSN. */
1247 void (*note_dep) (rtx insn, ds_t ds);
1249 /* Nonzero if we should use cselib for better alias analysis. This
1250 must be 0 if the dependency information is used after sched_analyze
1251 has completed, e.g. if we're using it to initialize state for successor
1252 blocks in region scheduling. */
1253 unsigned int use_cselib : 1;
1255 /* If set, generate links between instruction as DEPS_LIST.
1256 Otherwise, generate usual INSN_LIST links. */
1257 unsigned int use_deps_list : 1;
1259 /* Generate data and control speculative dependencies.
1260 Requires USE_DEPS_LIST set. */
1261 unsigned int generate_spec_deps : 1;
1264 extern struct sched_deps_info_def *sched_deps_info;
1267 /* Functions in sched-deps.c. */
1268 extern rtx sched_get_reverse_condition_uncached (const_rtx);
1269 extern bool sched_insns_conditions_mutex_p (const_rtx, const_rtx);
1270 extern bool sched_insn_is_legitimate_for_speculation_p (const_rtx, ds_t);
1271 extern void add_dependence (rtx, rtx, enum reg_note);
1272 extern void sched_analyze (struct deps_desc *, rtx, rtx);
1273 extern void init_deps (struct deps_desc *, bool);
1274 extern void init_deps_reg_last (struct deps_desc *);
1275 extern void free_deps (struct deps_desc *);
1276 extern void init_deps_global (void);
1277 extern void finish_deps_global (void);
1278 extern void deps_analyze_insn (struct deps_desc *, rtx);
1279 extern void remove_from_deps (struct deps_desc *, rtx);
1280 extern void init_insn_reg_pressure_info (rtx);
1282 extern dw_t get_dep_weak_1 (ds_t, ds_t);
1283 extern dw_t get_dep_weak (ds_t, ds_t);
1284 extern ds_t set_dep_weak (ds_t, ds_t, dw_t);
1285 extern dw_t estimate_dep_weak (rtx, rtx);
1286 extern ds_t ds_merge (ds_t, ds_t);
1287 extern ds_t ds_full_merge (ds_t, ds_t, rtx, rtx);
1288 extern ds_t ds_max_merge (ds_t, ds_t);
1289 extern dw_t ds_weak (ds_t);
1290 extern ds_t ds_get_speculation_types (ds_t);
1291 extern ds_t ds_get_max_dep_weak (ds_t);
1293 extern void sched_deps_init (bool);
1294 extern void sched_deps_finish (void);
1296 extern void haifa_note_reg_set (int);
1297 extern void haifa_note_reg_clobber (int);
1298 extern void haifa_note_reg_use (int);
1300 extern void maybe_extend_reg_info_p (void);
1302 extern void deps_start_bb (struct deps_desc *, rtx);
1303 extern enum reg_note ds_to_dt (ds_t);
1305 extern bool deps_pools_are_empty_p (void);
1306 extern void sched_free_deps (rtx, rtx, bool);
1307 extern void extend_dependency_caches (int, bool);
1309 extern void debug_ds (ds_t);
1312 /* Functions in haifa-sched.c. */
1313 extern void sched_init_region_reg_pressure_info (void);
1314 extern int haifa_classify_insn (const_rtx);
1315 extern void get_ebb_head_tail (basic_block, basic_block, rtx *, rtx *);
1316 extern int no_real_insns_p (const_rtx, const_rtx);
1318 extern int insn_cost (rtx);
1319 extern int dep_cost_1 (dep_t, dw_t);
1320 extern int dep_cost (dep_t);
1321 extern int set_priorities (rtx, rtx);
1323 extern void sched_setup_bb_reg_pressure_info (basic_block, rtx);
1324 extern bool schedule_block (basic_block *, state_t);
1326 extern int cycle_issued_insns;
1327 extern int issue_rate;
1328 extern int dfa_lookahead;
1330 extern void ready_sort (struct ready_list *);
1331 extern rtx ready_element (struct ready_list *, int);
1332 extern rtx *ready_lastpos (struct ready_list *);
1334 extern int try_ready (rtx);
1335 extern void sched_extend_ready_list (int);
1336 extern void sched_finish_ready_list (void);
1337 extern void sched_change_pattern (rtx, rtx);
1338 extern int sched_speculate_insn (rtx, ds_t, rtx *);
1339 extern void unlink_bb_notes (basic_block, basic_block);
1340 extern void add_block (basic_block, basic_block);
1341 extern rtx bb_note (basic_block);
1342 extern void concat_note_lists (rtx, rtx *);
1343 extern rtx sched_emit_insn (rtx);
1344 extern rtx get_ready_element (int);
1345 extern int number_in_ready (void);
1347 /* Types and functions in sched-ebb.c. */
1349 extern basic_block schedule_ebb (rtx, rtx, bool);
1350 extern void schedule_ebbs_init (void);
1351 extern void schedule_ebbs_finish (void);
1353 /* Types and functions in sched-rgn.c. */
1355 /* A region is the main entity for interblock scheduling: insns
1356 are allowed to move between blocks in the same region, along
1357 control flow graph edges, in the 'up' direction. */
1358 typedef struct
1360 /* Number of extended basic blocks in region. */
1361 int rgn_nr_blocks;
1362 /* cblocks in the region (actually index in rgn_bb_table). */
1363 int rgn_blocks;
1364 /* Dependencies for this region are already computed. Basically, indicates,
1365 that this is a recovery block. */
1366 unsigned int dont_calc_deps : 1;
1367 /* This region has at least one non-trivial ebb. */
1368 unsigned int has_real_ebb : 1;
1370 region;
1372 extern int nr_regions;
1373 extern region *rgn_table;
1374 extern int *rgn_bb_table;
1375 extern int *block_to_bb;
1376 extern int *containing_rgn;
1378 /* Often used short-hand in the scheduler. The rest of the compiler uses
1379 BLOCK_FOR_INSN(INSN) and an indirect reference to get the basic block
1380 number ("index"). For historical reasons, the scheduler does not. */
1381 #define BLOCK_NUM(INSN) (BLOCK_FOR_INSN (INSN)->index + 0)
1383 #define RGN_NR_BLOCKS(rgn) (rgn_table[rgn].rgn_nr_blocks)
1384 #define RGN_BLOCKS(rgn) (rgn_table[rgn].rgn_blocks)
1385 #define RGN_DONT_CALC_DEPS(rgn) (rgn_table[rgn].dont_calc_deps)
1386 #define RGN_HAS_REAL_EBB(rgn) (rgn_table[rgn].has_real_ebb)
1387 #define BLOCK_TO_BB(block) (block_to_bb[block])
1388 #define CONTAINING_RGN(block) (containing_rgn[block])
1390 /* The mapping from ebb to block. */
1391 extern int *ebb_head;
1392 #define BB_TO_BLOCK(ebb) (rgn_bb_table[ebb_head[ebb]])
1393 #define EBB_FIRST_BB(ebb) BASIC_BLOCK (BB_TO_BLOCK (ebb))
1394 #define EBB_LAST_BB(ebb) BASIC_BLOCK (rgn_bb_table[ebb_head[ebb + 1] - 1])
1395 #define INSN_BB(INSN) (BLOCK_TO_BB (BLOCK_NUM (INSN)))
1397 extern int current_nr_blocks;
1398 extern int current_blocks;
1399 extern int target_bb;
1400 extern bool sched_no_dce;
1402 extern void set_modulo_params (int, int, int, int);
1403 extern void record_delay_slot_pair (rtx, rtx, int, int);
1404 extern rtx real_insn_for_shadow (rtx);
1405 extern void discard_delay_pairs_above (int);
1406 extern void free_delay_pairs (void);
1407 extern void add_delay_dependencies (rtx);
1408 extern bool sched_is_disabled_for_current_region_p (void);
1409 extern void sched_rgn_init (bool);
1410 extern void sched_rgn_finish (void);
1411 extern void rgn_setup_region (int);
1412 extern void sched_rgn_compute_dependencies (int);
1413 extern void sched_rgn_local_init (int);
1414 extern void sched_rgn_local_finish (void);
1415 extern void sched_rgn_local_free (void);
1416 extern void extend_regions (void);
1417 extern void rgn_make_new_region_out_of_new_block (basic_block);
1419 extern void compute_priorities (void);
1420 extern void increase_insn_priority (rtx, int);
1421 extern void debug_rgn_dependencies (int);
1422 extern void debug_dependencies (rtx, rtx);
1423 extern void free_rgn_deps (void);
1424 extern int contributes_to_priority (rtx, rtx);
1425 extern void extend_rgns (int *, int *, sbitmap, int *);
1426 extern void deps_join (struct deps_desc *, struct deps_desc *);
1428 extern void rgn_setup_common_sched_info (void);
1429 extern void rgn_setup_sched_infos (void);
1431 extern void debug_regions (void);
1432 extern void debug_region (int);
1433 extern void dump_region_dot (FILE *, int);
1434 extern void dump_region_dot_file (const char *, int);
1436 extern void haifa_sched_init (void);
1437 extern void haifa_sched_finish (void);
1439 extern void find_modifiable_mems (rtx, rtx);
1441 /* sched-deps.c interface to walk, add, search, update, resolve, delete
1442 and debug instruction dependencies. */
1444 /* Constants defining dependences lists. */
1446 /* No list. */
1447 #define SD_LIST_NONE (0)
1449 /* hard_back_deps. */
1450 #define SD_LIST_HARD_BACK (1)
1452 /* spec_back_deps. */
1453 #define SD_LIST_SPEC_BACK (2)
1455 /* forw_deps. */
1456 #define SD_LIST_FORW (4)
1458 /* resolved_back_deps. */
1459 #define SD_LIST_RES_BACK (8)
1461 /* resolved_forw_deps. */
1462 #define SD_LIST_RES_FORW (16)
1464 #define SD_LIST_BACK (SD_LIST_HARD_BACK | SD_LIST_SPEC_BACK)
1466 /* A type to hold above flags. */
1467 typedef int sd_list_types_def;
1469 extern void sd_next_list (const_rtx, sd_list_types_def *, deps_list_t *, bool *);
1471 /* Iterator to walk through, resolve and delete dependencies. */
1472 struct _sd_iterator
1474 /* What lists to walk. Can be any combination of SD_LIST_* flags. */
1475 sd_list_types_def types;
1477 /* Instruction dependencies lists of which will be walked. */
1478 rtx insn;
1480 /* Pointer to the next field of the previous element. This is not
1481 simply a pointer to the next element to allow easy deletion from the
1482 list. When a dep is being removed from the list the iterator
1483 will automatically advance because the value in *linkp will start
1484 referring to the next element. */
1485 dep_link_t *linkp;
1487 /* True if the current list is a resolved one. */
1488 bool resolved_p;
1491 typedef struct _sd_iterator sd_iterator_def;
1493 /* ??? We can move some definitions that are used in below inline functions
1494 out of sched-int.h to sched-deps.c provided that the below functions will
1495 become global externals.
1496 These definitions include:
1497 * struct _deps_list: opaque pointer is needed at global scope.
1498 * struct _dep_link: opaque pointer is needed at scope of sd_iterator_def.
1499 * struct _dep_node: opaque pointer is needed at scope of
1500 struct _deps_link. */
1502 /* Return initialized iterator. */
1503 static inline sd_iterator_def
1504 sd_iterator_start (rtx insn, sd_list_types_def types)
1506 /* Some dep_link a pointer to which will return NULL. */
1507 static dep_link_t null_link = NULL;
1509 sd_iterator_def i;
1511 i.types = types;
1512 i.insn = insn;
1513 i.linkp = &null_link;
1515 /* Avoid 'uninitialized warning'. */
1516 i.resolved_p = false;
1518 return i;
1521 /* Return the current element. */
1522 static inline bool
1523 sd_iterator_cond (sd_iterator_def *it_ptr, dep_t *dep_ptr)
1525 dep_link_t link = *it_ptr->linkp;
1527 if (link != NULL)
1529 *dep_ptr = DEP_LINK_DEP (link);
1530 return true;
1532 else
1534 sd_list_types_def types = it_ptr->types;
1536 if (types != SD_LIST_NONE)
1537 /* Switch to next list. */
1539 deps_list_t list;
1541 sd_next_list (it_ptr->insn,
1542 &it_ptr->types, &list, &it_ptr->resolved_p);
1544 it_ptr->linkp = &DEPS_LIST_FIRST (list);
1546 if (list)
1547 return sd_iterator_cond (it_ptr, dep_ptr);
1550 *dep_ptr = NULL;
1551 return false;
1555 /* Advance iterator. */
1556 static inline void
1557 sd_iterator_next (sd_iterator_def *it_ptr)
1559 it_ptr->linkp = &DEP_LINK_NEXT (*it_ptr->linkp);
1562 /* A cycle wrapper. */
1563 #define FOR_EACH_DEP(INSN, LIST_TYPES, ITER, DEP) \
1564 for ((ITER) = sd_iterator_start ((INSN), (LIST_TYPES)); \
1565 sd_iterator_cond (&(ITER), &(DEP)); \
1566 sd_iterator_next (&(ITER)))
1568 #define IS_DISPATCH_ON 1
1569 #define IS_CMP 2
1570 #define DISPATCH_VIOLATION 3
1571 #define FITS_DISPATCH_WINDOW 4
1572 #define DISPATCH_INIT 5
1573 #define ADD_TO_DISPATCH_WINDOW 6
1575 extern int sd_lists_size (const_rtx, sd_list_types_def);
1576 extern bool sd_lists_empty_p (const_rtx, sd_list_types_def);
1577 extern void sd_init_insn (rtx);
1578 extern void sd_finish_insn (rtx);
1579 extern dep_t sd_find_dep_between (rtx, rtx, bool);
1580 extern void sd_add_dep (dep_t, bool);
1581 extern enum DEPS_ADJUST_RESULT sd_add_or_update_dep (dep_t, bool);
1582 extern void sd_resolve_dep (sd_iterator_def);
1583 extern void sd_unresolve_dep (sd_iterator_def);
1584 extern void sd_copy_back_deps (rtx, rtx, bool);
1585 extern void sd_delete_dep (sd_iterator_def);
1586 extern void sd_debug_lists (rtx, sd_list_types_def);
1588 #endif /* INSN_SCHEDULING */
1590 /* Functions in sched-vis.c. These must be outside INSN_SCHEDULING as
1591 sched-vis.c is compiled always. */
1592 extern void print_insn (char *, const_rtx, int);
1593 extern void print_pattern (char *, const_rtx, int);
1594 extern void print_value (char *, const_rtx, int);
1596 #endif /* GCC_SCHED_INT_H */