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[official-gcc.git] / gcc / reload.h
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1 /* Communication between reload.c, reload1.c and the rest of compiler.
2 Copyright (C) 1987-2014 Free Software Foundation, Inc.
4 This file is part of GCC.
6 GCC is free software; you can redistribute it and/or modify it under
7 the terms of the GNU General Public License as published by the Free
8 Software Foundation; either version 3, or (at your option) any later
9 version.
11 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
12 WARRANTY; without even the implied warranty of MERCHANTABILITY or
13 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
14 for more details.
16 You should have received a copy of the GNU General Public License
17 along with GCC; see the file COPYING3. If not see
18 <http://www.gnu.org/licenses/>. */
21 /* If secondary reloads are the same for inputs and outputs, define those
22 macros here. */
24 #ifdef SECONDARY_RELOAD_CLASS
25 #define SECONDARY_INPUT_RELOAD_CLASS(CLASS, MODE, X) \
26 SECONDARY_RELOAD_CLASS (CLASS, MODE, X)
27 #define SECONDARY_OUTPUT_RELOAD_CLASS(CLASS, MODE, X) \
28 SECONDARY_RELOAD_CLASS (CLASS, MODE, X)
29 #endif
31 extern int register_move_cost (enum machine_mode, reg_class_t, reg_class_t);
32 extern int memory_move_cost (enum machine_mode, reg_class_t, bool);
33 extern int memory_move_secondary_cost (enum machine_mode, reg_class_t, bool);
35 /* Maximum number of reloads we can need. */
36 #define MAX_RELOADS (2 * MAX_RECOG_OPERANDS * (MAX_REGS_PER_ADDRESS + 1))
38 /* Encode the usage of a reload. The following codes are supported:
40 RELOAD_FOR_INPUT reload of an input operand
41 RELOAD_FOR_OUTPUT likewise, for output
42 RELOAD_FOR_INSN a reload that must not conflict with anything
43 used in the insn, but may conflict with
44 something used before or after the insn
45 RELOAD_FOR_INPUT_ADDRESS reload for parts of the address of an object
46 that is an input reload
47 RELOAD_FOR_INPADDR_ADDRESS reload needed for RELOAD_FOR_INPUT_ADDRESS
48 RELOAD_FOR_OUTPUT_ADDRESS like RELOAD_FOR INPUT_ADDRESS, for output
49 RELOAD_FOR_OUTADDR_ADDRESS reload needed for RELOAD_FOR_OUTPUT_ADDRESS
50 RELOAD_FOR_OPERAND_ADDRESS reload for the address of a non-reloaded
51 operand; these don't conflict with
52 any other addresses.
53 RELOAD_FOR_OPADDR_ADDR reload needed for RELOAD_FOR_OPERAND_ADDRESS
54 reloads; usually secondary reloads
55 RELOAD_OTHER none of the above, usually multiple uses
56 RELOAD_FOR_OTHER_ADDRESS reload for part of the address of an input
57 that is marked RELOAD_OTHER.
59 This used to be "enum reload_when_needed" but some debuggers have trouble
60 with an enum tag and variable of the same name. */
62 enum reload_type
64 RELOAD_FOR_INPUT, RELOAD_FOR_OUTPUT, RELOAD_FOR_INSN,
65 RELOAD_FOR_INPUT_ADDRESS, RELOAD_FOR_INPADDR_ADDRESS,
66 RELOAD_FOR_OUTPUT_ADDRESS, RELOAD_FOR_OUTADDR_ADDRESS,
67 RELOAD_FOR_OPERAND_ADDRESS, RELOAD_FOR_OPADDR_ADDR,
68 RELOAD_OTHER, RELOAD_FOR_OTHER_ADDRESS
71 #ifdef GCC_INSN_CODES_H
72 /* Each reload is recorded with a structure like this. */
73 struct reload
75 /* The value to reload from */
76 rtx in;
77 /* Where to store reload-reg afterward if nec (often the same as
78 reload_in) */
79 rtx out;
81 /* The class of registers to reload into. */
82 enum reg_class rclass;
84 /* The mode this operand should have when reloaded, on input. */
85 enum machine_mode inmode;
86 /* The mode this operand should have when reloaded, on output. */
87 enum machine_mode outmode;
89 /* The mode of the reload register. */
90 enum machine_mode mode;
92 /* the largest number of registers this reload will require. */
93 unsigned int nregs;
95 /* Positive amount to increment or decrement by if
96 reload_in is a PRE_DEC, PRE_INC, POST_DEC, POST_INC.
97 Ignored otherwise (don't assume it is zero). */
98 int inc;
99 /* A reg for which reload_in is the equivalent.
100 If reload_in is a symbol_ref which came from
101 reg_equiv_constant, then this is the pseudo
102 which has that symbol_ref as equivalent. */
103 rtx in_reg;
104 rtx out_reg;
106 /* Used in find_reload_regs to record the allocated register. */
107 int regno;
108 /* This is the register to reload into. If it is zero when `find_reloads'
109 returns, you must find a suitable register in the class specified by
110 reload_reg_class, and store here an rtx for that register with mode from
111 reload_inmode or reload_outmode. */
112 rtx reg_rtx;
113 /* The operand number being reloaded. This is used to group related reloads
114 and need not always be equal to the actual operand number in the insn,
115 though it current will be; for in-out operands, it is one of the two
116 operand numbers. */
117 int opnum;
119 /* Gives the reload number of a secondary input reload, when needed;
120 otherwise -1. */
121 int secondary_in_reload;
122 /* Gives the reload number of a secondary output reload, when needed;
123 otherwise -1. */
124 int secondary_out_reload;
125 /* If a secondary input reload is required, gives the INSN_CODE that uses the
126 secondary reload as a scratch register, or CODE_FOR_nothing if the
127 secondary reload register is to be an intermediate register. */
128 enum insn_code secondary_in_icode;
129 /* Likewise, for a secondary output reload. */
130 enum insn_code secondary_out_icode;
132 /* Classifies reload as needed either for addressing an input reload,
133 addressing an output, for addressing a non-reloaded mem ref, or for
134 unspecified purposes (i.e., more than one of the above). */
135 enum reload_type when_needed;
137 /* Nonzero for an optional reload. Optional reloads are ignored unless the
138 value is already sitting in a register. */
139 unsigned int optional:1;
140 /* nonzero if this reload shouldn't be combined with another reload. */
141 unsigned int nocombine:1;
142 /* Nonzero if this is a secondary register for one or more reloads. */
143 unsigned int secondary_p:1;
144 /* Nonzero if this reload must use a register not already allocated to a
145 group. */
146 unsigned int nongroup:1;
149 extern struct reload rld[MAX_RELOADS];
150 extern int n_reloads;
151 #endif
153 /* Target-dependent globals. */
154 struct target_reload {
155 /* Nonzero if indirect addressing is supported when the innermost MEM is
156 of the form (MEM (SYMBOL_REF sym)). It is assumed that the level to
157 which these are valid is the same as spill_indirect_levels, above. */
158 bool x_indirect_symref_ok;
160 /* Nonzero if an address (plus (reg frame_pointer) (reg ...)) is valid. */
161 bool x_double_reg_address_ok;
163 /* Nonzero if indirect addressing is supported on the machine; this means
164 that spilling (REG n) does not require reloading it into a register in
165 order to do (MEM (REG n)) or (MEM (PLUS (REG n) (CONST_INT c))). The
166 value indicates the level of indirect addressing supported, e.g., two
167 means that (MEM (MEM (REG n))) is also valid if (REG n) does not get
168 a hard register. */
169 bool x_spill_indirect_levels;
171 /* True if caller-save has been reinitialized. */
172 bool x_caller_save_initialized_p;
174 /* Modes for each hard register that we can save. The smallest mode is wide
175 enough to save the entire contents of the register. When saving the
176 register because it is live we first try to save in multi-register modes.
177 If that is not possible the save is done one register at a time. */
178 enum machine_mode (x_regno_save_mode
179 [FIRST_PSEUDO_REGISTER]
180 [MAX_MOVE_MAX / MIN_UNITS_PER_WORD + 1]);
182 /* We will only make a register eligible for caller-save if it can be
183 saved in its widest mode with a simple SET insn as long as the memory
184 address is valid. We record the INSN_CODE is those insns here since
185 when we emit them, the addresses might not be valid, so they might not
186 be recognized. */
187 int x_cached_reg_save_code[FIRST_PSEUDO_REGISTER][MAX_MACHINE_MODE];
188 int x_cached_reg_restore_code[FIRST_PSEUDO_REGISTER][MAX_MACHINE_MODE];
191 extern struct target_reload default_target_reload;
192 #if SWITCHABLE_TARGET
193 extern struct target_reload *this_target_reload;
194 #else
195 #define this_target_reload (&default_target_reload)
196 #endif
198 #define indirect_symref_ok \
199 (this_target_reload->x_indirect_symref_ok)
200 #define double_reg_address_ok \
201 (this_target_reload->x_double_reg_address_ok)
202 #define caller_save_initialized_p \
203 (this_target_reload->x_caller_save_initialized_p)
205 /* Register equivalences. Indexed by register number. */
206 struct reg_equivs_t
208 /* The constant value to which pseudo reg N is equivalent,
209 or zero if pseudo reg N is not equivalent to a constant.
210 find_reloads looks at this in order to replace pseudo reg N
211 with the constant it stands for. */
212 rtx constant;
214 /* An invariant value to which pseudo reg N is equivalent.
215 eliminate_regs_in_insn uses this to replace pseudos in particular
216 contexts. */
217 rtx invariant;
219 /* A memory location to which pseudo reg N is equivalent,
220 prior to any register elimination (such as frame pointer to stack
221 pointer). Depending on whether or not it is a valid address, this value
222 is transferred to either equiv_address or equiv_mem. */
223 rtx memory_loc;
225 /* The address of stack slot to which pseudo reg N is equivalent.
226 This is used when the address is not valid as a memory address
227 (because its displacement is too big for the machine.) */
228 rtx address;
230 /* The memory slot to which pseudo reg N is equivalent,
231 or zero if pseudo reg N is not equivalent to a memory slot. */
232 rtx mem;
234 /* An EXPR_LIST of REG_EQUIVs containing MEMs with
235 alternate representations of the location of pseudo reg N. */
236 rtx alt_mem_list;
238 /* The list of insns that initialized reg N from its equivalent
239 constant or memory slot. */
240 rtx init;
243 #define reg_equiv_constant(ELT) \
244 (*reg_equivs)[(ELT)].constant
245 #define reg_equiv_invariant(ELT) \
246 (*reg_equivs)[(ELT)].invariant
247 #define reg_equiv_memory_loc(ELT) \
248 (*reg_equivs)[(ELT)].memory_loc
249 #define reg_equiv_address(ELT) \
250 (*reg_equivs)[(ELT)].address
251 #define reg_equiv_mem(ELT) \
252 (*reg_equivs)[(ELT)].mem
253 #define reg_equiv_alt_mem_list(ELT) \
254 (*reg_equivs)[(ELT)].alt_mem_list
255 #define reg_equiv_init(ELT) \
256 (*reg_equivs)[(ELT)].init
258 extern vec<reg_equivs_t, va_gc> *reg_equivs;
260 /* All the "earlyclobber" operands of the current insn
261 are recorded here. */
262 extern int n_earlyclobbers;
263 extern rtx reload_earlyclobbers[MAX_RECOG_OPERANDS];
265 /* Save the number of operands. */
266 extern int reload_n_operands;
268 /* First uid used by insns created by reload in this function.
269 Used in find_equiv_reg. */
270 extern int reload_first_uid;
272 extern int num_not_at_initial_offset;
274 #if defined SET_HARD_REG_BIT && defined CLEAR_REG_SET
275 /* This structure describes instructions which are relevant for reload.
276 Apart from all regular insns, this also includes CODE_LABELs, since they
277 must be examined for register elimination. */
278 struct insn_chain
280 /* Links to the neighbor instructions. */
281 struct insn_chain *next, *prev;
283 /* Link through a chains set up by calculate_needs_all_insns, containing
284 all insns that need reloading. */
285 struct insn_chain *next_need_reload;
287 /* The rtx of the insn. */
288 rtx insn;
290 /* The basic block this insn is in. */
291 int block;
293 /* Nonzero if find_reloads said the insn requires reloading. */
294 unsigned int need_reload:1;
295 /* Nonzero if find_reloads needs to be run during reload_as_needed to
296 perform modifications on any operands. */
297 unsigned int need_operand_change:1;
298 /* Nonzero if eliminate_regs_in_insn said it requires eliminations. */
299 unsigned int need_elim:1;
300 /* Nonzero if this insn was inserted by perform_caller_saves. */
301 unsigned int is_caller_save_insn:1;
303 /* Register life information: record all live hard registers, and
304 all live pseudos that have a hard register. This set also
305 contains pseudos spilled by IRA. */
306 bitmap_head live_throughout;
307 bitmap_head dead_or_set;
309 /* Copies of the global variables computed by find_reloads. */
310 struct reload *rld;
311 int n_reloads;
313 /* Indicates which registers have already been used for spills. */
314 HARD_REG_SET used_spill_regs;
317 /* A chain of insn_chain structures to describe all non-note insns in
318 a function. */
319 extern struct insn_chain *reload_insn_chain;
321 /* Allocate a new insn_chain structure. */
322 extern struct insn_chain *new_insn_chain (void);
323 #endif
325 #if defined SET_HARD_REG_BIT
326 extern void compute_use_by_pseudos (HARD_REG_SET *, bitmap);
327 #endif
329 /* Functions from reload.c: */
331 extern reg_class_t secondary_reload_class (bool, reg_class_t,
332 enum machine_mode, rtx);
334 #ifdef GCC_INSN_CODES_H
335 extern enum reg_class scratch_reload_class (enum insn_code);
336 #endif
338 /* Return a memory location that will be used to copy X in mode MODE.
339 If we haven't already made a location for this mode in this insn,
340 call find_reloads_address on the location being returned. */
341 extern rtx get_secondary_mem (rtx, enum machine_mode, int, enum reload_type);
343 /* Clear any secondary memory locations we've made. */
344 extern void clear_secondary_mem (void);
346 /* Transfer all replacements that used to be in reload FROM to be in
347 reload TO. */
348 extern void transfer_replacements (int, int);
350 /* IN_RTX is the value loaded by a reload that we now decided to inherit,
351 or a subpart of it. If we have any replacements registered for IN_RTX,
352 cancel the reloads that were supposed to load them.
353 Return nonzero if we canceled any reloads. */
354 extern int remove_address_replacements (rtx in_rtx);
356 /* Like rtx_equal_p except that it allows a REG and a SUBREG to match
357 if they are the same hard reg, and has special hacks for
358 autoincrement and autodecrement. */
359 extern int operands_match_p (rtx, rtx);
361 /* Return 1 if altering OP will not modify the value of CLOBBER. */
362 extern int safe_from_earlyclobber (rtx, rtx);
364 /* Search the body of INSN for values that need reloading and record them
365 with push_reload. REPLACE nonzero means record also where the values occur
366 so that subst_reloads can be used. */
367 extern int find_reloads (rtx, int, int, int, short *);
369 /* Compute the sum of X and Y, making canonicalizations assumed in an
370 address, namely: sum constant integers, surround the sum of two
371 constants with a CONST, put the constant as the second operand, and
372 group the constant on the outermost sum. */
373 extern rtx form_sum (enum machine_mode, rtx, rtx);
375 /* Substitute into the current INSN the registers into which we have reloaded
376 the things that need reloading. */
377 extern void subst_reloads (rtx);
379 /* Make a copy of any replacements being done into X and move those copies
380 to locations in Y, a copy of X. We only look at the highest level of
381 the RTL. */
382 extern void copy_replacements (rtx, rtx);
384 /* Change any replacements being done to *X to be done to *Y */
385 extern void move_replacements (rtx *x, rtx *y);
387 /* If LOC was scheduled to be replaced by something, return the replacement.
388 Otherwise, return *LOC. */
389 extern rtx find_replacement (rtx *);
391 /* Nonzero if modifying X will affect IN. */
392 extern int reg_overlap_mentioned_for_reload_p (rtx, rtx);
394 /* Check the insns before INSN to see if there is a suitable register
395 containing the same value as GOAL. */
396 extern rtx find_equiv_reg (rtx, rtx, enum reg_class, int, short *,
397 int, enum machine_mode);
399 /* Return 1 if register REGNO is the subject of a clobber in insn INSN. */
400 extern int regno_clobbered_p (unsigned int, rtx, enum machine_mode, int);
402 /* Return 1 if X is an operand of an insn that is being earlyclobbered. */
403 extern int earlyclobber_operand_p (rtx);
405 /* Record one reload that needs to be performed. */
406 extern int push_reload (rtx, rtx, rtx *, rtx *, enum reg_class,
407 enum machine_mode, enum machine_mode,
408 int, int, int, enum reload_type);
410 /* Functions in reload1.c: */
412 /* Initialize the reload pass once per compilation. */
413 extern void init_reload (void);
415 /* The reload pass itself. */
416 extern bool reload (rtx, int);
418 /* Mark the slots in regs_ever_live for the hard regs
419 used by pseudo-reg number REGNO. */
420 extern void mark_home_live (int);
422 /* Scan X and replace any eliminable registers (such as fp) with a
423 replacement (such as sp), plus an offset. */
424 extern rtx eliminate_regs (rtx, enum machine_mode, rtx);
425 extern bool elimination_target_reg_p (rtx);
427 /* Called from the register allocator to estimate costs of eliminating
428 invariant registers. */
429 extern void calculate_elim_costs_all_insns (void);
431 /* Deallocate the reload register used by reload number R. */
432 extern void deallocate_reload_reg (int r);
434 /* Functions in caller-save.c: */
436 /* Initialize for caller-save. */
437 extern void init_caller_save (void);
439 /* Initialize save areas by showing that we haven't allocated any yet. */
440 extern void init_save_areas (void);
442 /* Allocate save areas for any hard registers that might need saving. */
443 extern void setup_save_areas (void);
445 /* Find the places where hard regs are live across calls and save them. */
446 extern void save_call_clobbered_regs (void);
448 /* Replace (subreg (reg)) with the appropriate (reg) for any operands. */
449 extern void cleanup_subreg_operands (rtx);
451 /* Debugging support. */
452 extern void debug_reload_to_stream (FILE *);
453 extern void debug_reload (void);
455 /* Compute the actual register we should reload to, in case we're
456 reloading to/from a register that is wider than a word. */
457 extern rtx reload_adjust_reg_for_mode (rtx, enum machine_mode);
459 /* Allocate or grow the reg_equiv tables, initializing new entries to 0. */
460 extern void grow_reg_equivs (void);