| blob | 62873fcd34ffc7af3c0693e29c00c1f8097814df |
1 /* Save and restore call-clobbered registers which are live across a call.
2 Copyright (C) 1989, 1992, 1994, 1995, 1997, 1998,
3 1999, 2000, 2001, 2002, 2003, 2004 Free Software Foundation, Inc.
5 This file is part of GCC.
7 GCC is free software; you can redistribute it and/or modify it under
8 the terms of the GNU General Public License as published by the Free
9 Software Foundation; either version 2, or (at your option) any later
10 version.
12 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
13 WARRANTY; without even the implied warranty of MERCHANTABILITY or
14 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
15 for more details.
17 You should have received a copy of the GNU General Public License
18 along with GCC; see the file COPYING. If not, write to the Free
19 Software Foundation, 59 Temple Place - Suite 330, Boston, MA
20 02111-1307, USA. */
39 #ifndef MAX_MOVE_MAX
40 #define MAX_MOVE_MAX MOVE_MAX
41 #endif
43 #ifndef MIN_UNITS_PER_WORD
44 #define MIN_UNITS_PER_WORD UNITS_PER_WORD
45 #endif
47 #define MOVE_MAX_WORDS (MOVE_MAX / UNITS_PER_WORD)
49 /* Modes for each hard register that we can save. The smallest mode is wide
50 enough to save the entire contents of the register. When saving the
51 register because it is live we first try to save in multi-register modes.
52 If that is not possible the save is done one register at a time. */
54 static enum machine_mode
57 /* For each hard register, a place on the stack where it can be saved,
58 if needed. */
60 static rtx
63 /* We will only make a register eligible for caller-save if it can be
64 saved in its widest mode with a simple SET insn as long as the memory
65 address is valid. We record the INSN_CODE is those insns here since
66 when we emit them, the addresses might not be valid, so they might not
67 be recognized. */
69 static int
71 static int
74 /* Set of hard regs currently residing in save area (during insn scan). */
78 /* Number of registers currently in hard_regs_saved. */
82 /* Computed by mark_referenced_regs, all regs referenced in a given
83 insn. */
86 /* Computed in mark_set_regs, holds all registers set by the current
87 instruction. */
98 rtx);
100 \f
101 /* Initialize for caller-save.
103 Look at all the hard registers that are used by a call and for which
104 regclass.c has not already excluded from being used across a call.
106 Ensure that we can find a mode to save the register and that there is a
107 simple insn to save and restore the register. This latter check avoids
108 problems that would occur if we tried to save the MQ register of some
109 machines directly into memory. */
111 void
113 {
114 rtx addr_reg;
116 rtx address;
123 /* First find all the registers that we need to deal with and all
124 the modes that they can have. If we can't find a mode to use,
125 we can't have the register live over calls. */
128 {
130 {
132 {
134 VOIDmode);
136 {
139 }
140 }
141 }
142 else
144 }
146 /* The following code tries to approximate the conditions under which
147 we can easily save and restore a register without scratch registers or
148 other complexities. It will usually work, except under conditions where
149 the validity of an insn operand is dependent on the address offset.
150 No such cases are currently known.
152 We first find a typical offset from some BASE_REG_CLASS register.
153 This address is chosen by finding the first register in the class
154 and by finding the smallest power of two that is a valid offset from
155 that register in every mode we will use to save registers. */
159 (reg_class_contents
168 {
178 }
180 /* If we didn't find a valid address, we must use register indirect. */
184 /* Next we try to form an insn to save and restore the register. We
185 see if such an insn is recognized and meets its constraints.
187 To avoid lots of unnecessary RTL allocation, we construct all the RTL
188 once, then modify the memory and register operands in-place. */
201 {
204 /* Update the register number and modes of the register
205 and memory operand. */
210 /* Force re-recognition of the modified insns. */
217 /* Now extract both insns and see if we can meet their
218 constraints. */
222 {
227 }
230 {
233 }
234 }
235 else
236 {
239 }
244 {
247 {
250 }
251 }
252 }
253 \f
254 /* Initialize save areas by showing that we haven't allocated any yet. */
256 void
258 {
264 }
266 /* Allocate save areas for any hard registers that might need saving.
267 We take a conservative approach here and look for call-clobbered hard
268 registers that are assigned to pseudos that cross calls. This may
269 overestimate slightly (especially if some of these registers are later
270 used as spill registers), but it should not be significant.
272 Future work:
274 In the fallback case we should iterate backwards across all possible
275 modes for the save, choosing the largest available one instead of
276 falling back to the smallest mode immediately. (eg TF -> DF -> SF).
278 We do not try to use "move multiple" instructions that exist
279 on some machines (such as the 68k moveml). It could be a win to try
280 and use them when possible. The hard part is doing it in a way that is
281 machine independent since they might be saving non-consecutive
282 registers. (imagine caller-saving d0,d1,a0,a1 on the 68k) */
284 void
286 {
289 HARD_REG_SET hard_regs_used;
291 /* Allocate space in the save area for the largest multi-register
292 pseudos first, then work backwards to single register
293 pseudos. */
295 /* Find and record all call-used hard-registers in this function. */
299 {
301 unsigned int endregno
307 }
309 /* Now run through all the call-used hard-registers and allocate
310 space for them in the caller-save area. Try to allocate space
311 in a manner which allows multi-register saves/restores to be done. */
315 {
318 /* If no mode exists for this size, try another. Also break out
319 if we have already saved this hard register. */
323 /* See if any register in this group has been saved. */
326 {
329 }
335 {
338 }
342 /* We have found an acceptable mode to store in. */
347 /* Setup single word save area just in case... */
349 /* This should not depend on WORDS_BIG_ENDIAN.
350 The order of words in regs is the same as in memory. */
355 }
357 /* Now loop again and set the alias set of any save areas we made to
358 the alias set used to represent frame objects. */
363 }
364 \f
365 /* Find the places where hard regs are live across calls and save them. */
367 void
369 {
377 {
386 {
387 /* If some registers have been saved, see if INSN references
388 any of them. We must restore them before the insn if so. */
391 {
395 /* Restore all registers if this is a JUMP_INSN. */
397 else
398 {
402 }
407 }
410 {
412 HARD_REG_SET hard_regs_to_save;
413 reg_set_iterator rsi;
415 /* Use the register life information in CHAIN to compute which
416 regs are live during the call. */
419 /* Save hard registers always in the widest mode available. */
423 else
426 /* Look through all live pseudos, mark their hard registers
427 and choose proper mode for saving. */
428 EXECUTE_IF_SET_IN_REG_SET
430 {
437 mode = HARD_REGNO_CALLER_SAVE_MODE
444 }
446 /* Record all registers set in this call insn. These don't need
447 to be saved. N.B. the call insn might set a subreg of a
448 multi-hard-reg pseudo; then the pseudo is considered live
449 during the call, but the subreg that is set isn't. */
453 /* Compute which hard regs must be saved before this call. */
463 /* Must recompute n_regs_saved. */
467 n_regs_saved++;
468 }
469 }
472 {
474 /* At the end of the basic block, we must restore any registers that
475 remain saved. If the last insn in the block is a JUMP_INSN, put
476 the restore before the insn, otherwise, put it after the insn. */
483 }
484 }
485 }
487 /* Here from note_stores when an insn stores a value in a register.
488 Set the proper bit or bits in this_insn_sets. All pseudos that have
489 been assigned hard regs have had their register number changed already,
490 so we can ignore pseudos. */
491 static void
494 {
499 {
505 }
509 else
516 }
518 /* Here from note_stores when an insn stores a value in a register.
519 Set the proper bit or bits in the passed regset. All pseudos that have
520 been assigned hard regs have had their register number changed already,
521 so we can ignore pseudos. */
522 static void
524 {
533 {
539 }
549 }
551 /* Walk X and record all referenced registers in REFERENCED_REGS. */
552 static void
554 {
562 {
569 /* If we're setting only part of a multi-word register,
570 we shall mark it as referenced, because the words
571 that are not being set should be restored. */
577 }
579 {
582 }
585 {
591 {
595 }
596 /* If this is a pseudo that did not get a hard register, scan its
597 memory location, since it might involve the use of another
598 register, which might be saved. */
604 }
608 {
614 }
615 }
616 \f
617 /* Insert a sequence of insns to restore. Place these insns in front of
618 CHAIN if BEFORE_P is nonzero, behind the insn otherwise. MAXRESTORE is
619 the maximum number of registers which should be restored during this call.
620 It should never be less than 1 since we only work with entire registers.
622 Note that we have verified in init_caller_save that we can do this
623 with a simple SET, so use it. Set INSN_CODE to what we save there
624 since the address might not be valid so the insn might not be recognized.
625 These insns will be reloaded and have register elimination done by
626 find_reload, so we need not worry about that here.
628 Return the extra number of registers saved. */
630 static int
633 {
639 rtx mem;
641 /* A common failure mode if register status is not correct in the RTL
642 is for this routine to be called with a REGNO we didn't expect to
643 save. That will cause us to write an insn with a (nil) SET_DEST
644 or SET_SRC. Instead of doing so and causing a crash later, check
645 for this common case and abort here instead. This will remove one
646 step in debugging such problems. */
649 /* Get the pattern to emit and update our status.
651 See if we can restore `maxrestore' registers at once. Work
652 backwards to the single register case. */
654 {
663 {
666 }
667 /* Must do this one restore at a time. */
673 }
680 else
688 /* Clear status for all registers we restored. */
690 {
693 n_regs_saved--;
694 }
696 /* Tell our callers how many extra registers we saved/restored. */
698 }
700 /* Like insert_restore above, but save registers instead. */
702 static int
705 {
712 rtx mem;
714 /* A common failure mode if register status is not correct in the RTL
715 is for this routine to be called with a REGNO we didn't expect to
716 save. That will cause us to write an insn with a (nil) SET_DEST
717 or SET_SRC. Instead of doing so and causing a crash later, check
718 for this common case and abort here instead. This will remove one
719 step in debugging such problems. */
722 /* Get the pattern to emit and update our status.
724 See if we can save several registers with a single instruction.
725 Work backwards to the single register case. */
727 {
735 {
738 }
739 /* Must do this one save at a time. */
745 }
752 else
756 regno));
760 /* Set hard_regs_saved and dead_or_set for all the registers we saved. */
762 {
765 n_regs_saved++;
766 }
768 /* Tell our callers how many extra registers we saved/restored. */
770 }
772 /* Emit a new caller-save insn and set the code. */
775 {
779 #ifdef HAVE_cc0
780 /* If INSN references CC0, put our insns in front of the insn that sets
781 CC0. This is always safe, since the only way we could be passed an
782 insn that references CC0 is for a restore, and doing a restore earlier
783 isn't a problem. We do, however, assume here that CALL_INSNs don't
784 reference CC0. Guard against non-INSN's like CODE_LABEL. */
787 && before_p
790 #endif
794 {
795 rtx link;
800 else
806 /* ??? It would be nice if we could exclude the already / still saved
807 registers from the live sets. */
809 /* Registers that die in CHAIN->INSN still live in the new insn. */
811 {
813 {
826 }
827 }
831 }
832 else
833 {
840 /* ??? It would be nice if we could exclude the already / still saved
841 registers from the live sets, and observe REG_UNUSED notes. */
843 /* Registers that are set in CHAIN->INSN live in the new insn.
844 (Unless there is a REG_UNUSED note for them, but we don't
845 look for them here.) */
851 }
857 }