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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.5.1/] [gcc/] [regs.h] - Blame information for rev 433

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1 280 jeremybenn
/* Define per-register tables for data flow info and register allocation.
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   Copyright (C) 1987, 1993, 1994, 1995, 1996, 1997, 1998,
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   1999, 2000, 2003, 2004, 2005, 2006, 2007, 2008 Free Software
4
   Foundation, Inc.
5
 
6
This file is part of GCC.
7
 
8
GCC is free software; you can redistribute it and/or modify it under
9
the terms of the GNU General Public License as published by the Free
10
Software Foundation; either version 3, or (at your option) any later
11
version.
12
 
13
GCC is distributed in the hope that it will be useful, but WITHOUT ANY
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WARRANTY; without even the implied warranty of MERCHANTABILITY or
15
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
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for more details.
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18
You should have received a copy of the GNU General Public License
19
along with GCC; see the file COPYING3.  If not see
20
<http://www.gnu.org/licenses/>.  */
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22
#ifndef GCC_REGS_H
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#define GCC_REGS_H
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#include "varray.h"
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#include "obstack.h"
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#include "hard-reg-set.h"
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#include "basic-block.h"
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30
#define REG_BYTES(R) mode_size[(int) GET_MODE (R)]
31
 
32
/* When you only have the mode of a pseudo register before it has a hard
33
   register chosen for it, this reports the size of each hard register
34
   a pseudo in such a mode would get allocated to.  A target may
35
   override this.  */
36
 
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#ifndef REGMODE_NATURAL_SIZE
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#define REGMODE_NATURAL_SIZE(MODE)      UNITS_PER_WORD
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#endif
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41
#ifndef SMALL_REGISTER_CLASSES
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#define SMALL_REGISTER_CLASSES 0
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#endif
44
 
45
/* Maximum register number used in this function, plus one.  */
46
 
47
extern int max_regno;
48
 
49
/* REG_N_REFS and REG_N_SETS are initialized by a call to
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   regstat_init_n_sets_and_refs from the current values of
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   DF_REG_DEF_COUNT and DF_REG_USE_COUNT.  REG_N_REFS and REG_N_SETS
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   should only be used if a pass need to change these values in some
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   magical way or or the pass needs to have accurate values for these
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   and is not using incremental df scanning.
55
 
56
   At the end of a pass that uses REG_N_REFS and REG_N_SETS, a call
57
   should be made to regstat_free_n_sets_and_refs.
58
 
59
   Local alloc seems to play pretty loose with these values.
60
   REG_N_REFS is set to 0 if the register is used in an asm.
61
   Furthermore, local_alloc calls regclass to hack both REG_N_REFS and
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   REG_N_SETS for three address insns.  Other passes seem to have
63
   other special values.  */
64
 
65
 
66
 
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/* Structure to hold values for REG_N_SETS (i) and REG_N_REFS (i). */
68
 
69
struct regstat_n_sets_and_refs_t
70
{
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  int sets;                     /* # of times (REG n) is set */
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  int refs;                     /* # of times (REG n) is used or set */
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};
74
 
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extern struct regstat_n_sets_and_refs_t *regstat_n_sets_and_refs;
76
 
77
/* Indexed by n, gives number of times (REG n) is used or set.  */
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static inline int
79
REG_N_REFS(int regno)
80
{
81
  return regstat_n_sets_and_refs[regno].refs;
82
}
83
 
84
/* Indexed by n, gives number of times (REG n) is used or set.  */
85
#define SET_REG_N_REFS(N,V) (regstat_n_sets_and_refs[N].refs = V)
86
#define INC_REG_N_REFS(N,V) (regstat_n_sets_and_refs[N].refs += V)
87
 
88
/* Indexed by n, gives number of times (REG n) is set.  */
89
static inline int
90
REG_N_SETS (int regno)
91
{
92
  return regstat_n_sets_and_refs[regno].sets;
93
}
94
 
95
/* Indexed by n, gives number of times (REG n) is set.  */
96
#define SET_REG_N_SETS(N,V) (regstat_n_sets_and_refs[N].sets = V)
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#define INC_REG_N_SETS(N,V) (regstat_n_sets_and_refs[N].sets += V)
98
 
99
 
100
/* Functions defined in reg-stat.c.  */
101
extern void regstat_init_n_sets_and_refs (void);
102
extern void regstat_free_n_sets_and_refs (void);
103
extern void regstat_compute_ri (void);
104
extern void regstat_free_ri (void);
105
extern bitmap regstat_get_setjmp_crosses (void);
106
extern void regstat_compute_calls_crossed (void);
107
extern void regstat_free_calls_crossed (void);
108
 
109
 
110
/* Register information indexed by register number.  This structure is
111
   initialized by calling regstat_compute_ri and is destroyed by
112
   calling regstat_free_ri.  */
113
struct reg_info_t
114
{
115
  int freq;                     /* # estimated frequency (REG n) is used or set */
116
  int deaths;                   /* # of times (REG n) dies */
117
  int live_length;              /* # of instructions (REG n) is live */
118
  int calls_crossed;            /* # of calls (REG n) is live across */
119
  int freq_calls_crossed;       /* # estimated frequency (REG n) crosses call */
120
  int throw_calls_crossed;      /* # of calls that may throw (REG n) is live across */
121
  int basic_block;              /* # of basic blocks (REG n) is used in */
122
};
123
 
124
extern struct reg_info_t *reg_info_p;
125
 
126
/* The number allocated elements of reg_info_p.  */
127
extern size_t reg_info_p_size;
128
 
129
/* Estimate frequency of references to register N.  */
130
 
131
#define REG_FREQ(N) (reg_info_p[N].freq)
132
 
133
/* The weights for each insn varies from 0 to REG_FREQ_BASE.
134
   This constant does not need to be high, as in infrequently executed
135
   regions we want to count instructions equivalently to optimize for
136
   size instead of speed.  */
137
#define REG_FREQ_MAX 1000
138
 
139
/* Compute register frequency from the BB frequency.  When optimizing for size,
140
   or profile driven feedback is available and the function is never executed,
141
   frequency is always equivalent.  Otherwise rescale the basic block
142
   frequency.  */
143
#define REG_FREQ_FROM_BB(bb) (optimize_size                                   \
144
                              || (flag_branch_probabilities                   \
145
                                  && !ENTRY_BLOCK_PTR->count)                 \
146
                              ? REG_FREQ_MAX                                  \
147
                              : ((bb)->frequency * REG_FREQ_MAX / BB_FREQ_MAX)\
148
                              ? ((bb)->frequency * REG_FREQ_MAX / BB_FREQ_MAX)\
149
                              : 1)
150
 
151
/* Indexed by N, gives number of insns in which register N dies.
152
   Note that if register N is live around loops, it can die
153
   in transitions between basic blocks, and that is not counted here.
154
   So this is only a reliable indicator of how many regions of life there are
155
   for registers that are contained in one basic block.  */
156
 
157
#define REG_N_DEATHS(N) (reg_info_p[N].deaths)
158
 
159
/* Get the number of consecutive words required to hold pseudo-reg N.  */
160
 
161
#define PSEUDO_REGNO_SIZE(N) \
162
  ((GET_MODE_SIZE (PSEUDO_REGNO_MODE (N)) + UNITS_PER_WORD - 1)         \
163
   / UNITS_PER_WORD)
164
 
165
/* Get the number of bytes required to hold pseudo-reg N.  */
166
 
167
#define PSEUDO_REGNO_BYTES(N) \
168
  GET_MODE_SIZE (PSEUDO_REGNO_MODE (N))
169
 
170
/* Get the machine mode of pseudo-reg N.  */
171
 
172
#define PSEUDO_REGNO_MODE(N) GET_MODE (regno_reg_rtx[N])
173
 
174
/* Indexed by N, gives number of CALL_INSNS across which (REG n) is live.  */
175
 
176
#define REG_N_CALLS_CROSSED(N)  (reg_info_p[N].calls_crossed)
177
#define REG_FREQ_CALLS_CROSSED(N)  (reg_info_p[N].freq_calls_crossed)
178
 
179
/* Indexed by N, gives number of CALL_INSNS that may throw, across which
180
   (REG n) is live.  */
181
 
182
#define REG_N_THROWING_CALLS_CROSSED(N) (reg_info_p[N].throw_calls_crossed)
183
 
184
/* Total number of instructions at which (REG n) is live.  The larger
185
   this is, the less priority (REG n) gets for allocation in a hard
186
   register (in global-alloc).  This is set in df-problems.c whenever
187
   register info is requested and remains valid for the rest of the
188
   compilation of the function; it is used to control register
189
   allocation.
190
 
191
   local-alloc.c may alter this number to change the priority.
192
 
193
   Negative values are special.
194
   -1 is used to mark a pseudo reg which has a constant or memory equivalent
195
   and is used infrequently enough that it should not get a hard register.
196
   -2 is used to mark a pseudo reg for a parameter, when a frame pointer
197
   is not required.  global.c makes an allocno for this but does
198
   not try to assign a hard register to it.  */
199
 
200
#define REG_LIVE_LENGTH(N)  (reg_info_p[N].live_length)
201
 
202
/* Indexed by n, gives number of basic block that  (REG n) is used in.
203
   If the value is REG_BLOCK_GLOBAL (-1),
204
   it means (REG n) is used in more than one basic block.
205
   REG_BLOCK_UNKNOWN (0) means it hasn't been seen yet so we don't know.
206
   This information remains valid for the rest of the compilation
207
   of the current function; it is used to control register allocation.  */
208
 
209
#define REG_BLOCK_UNKNOWN 0
210
#define REG_BLOCK_GLOBAL -1
211
 
212
#define REG_BASIC_BLOCK(N) (reg_info_p[N].basic_block)
213
 
214
/* Vector of substitutions of register numbers,
215
   used to map pseudo regs into hardware regs.
216
 
217
   This can't be folded into reg_n_info without changing all of the
218
   machine dependent directories, since the reload functions
219
   in the machine dependent files access it.  */
220
 
221
extern short *reg_renumber;
222
 
223
/* Vector indexed by machine mode saying whether there are regs of that mode.  */
224
 
225
extern bool have_regs_of_mode [MAX_MACHINE_MODE];
226
 
227
/* For each hard register, the widest mode object that it can contain.
228
   This will be a MODE_INT mode if the register can hold integers.  Otherwise
229
   it will be a MODE_FLOAT or a MODE_CC mode, whichever is valid for the
230
   register.  */
231
 
232
extern enum machine_mode reg_raw_mode[FIRST_PSEUDO_REGISTER];
233
 
234
/* Flag set by local-alloc or global-alloc if they decide to allocate
235
   something in a call-clobbered register.  */
236
 
237
extern int caller_save_needed;
238
 
239
/* Predicate to decide whether to give a hard reg to a pseudo which
240
   is referenced REFS times and would need to be saved and restored
241
   around a call CALLS times.  */
242
 
243
#ifndef CALLER_SAVE_PROFITABLE
244
#define CALLER_SAVE_PROFITABLE(REFS, CALLS)  (4 * (CALLS) < (REFS))
245
#endif
246
 
247
/* On most machines a register class is likely to be spilled if it
248
   only has one register.  */
249
#ifndef CLASS_LIKELY_SPILLED_P
250
#define CLASS_LIKELY_SPILLED_P(CLASS) (reg_class_size[(int) (CLASS)] == 1)
251
#endif
252
 
253
/* Select a register mode required for caller save of hard regno REGNO.  */
254
#ifndef HARD_REGNO_CALLER_SAVE_MODE
255
#define HARD_REGNO_CALLER_SAVE_MODE(REGNO, NREGS, MODE) \
256
  choose_hard_reg_mode (REGNO, NREGS, false)
257
#endif
258
 
259
/* Registers that get partially clobbered by a call in a given mode.
260
   These must not be call used registers.  */
261
#ifndef HARD_REGNO_CALL_PART_CLOBBERED
262
#define HARD_REGNO_CALL_PART_CLOBBERED(REGNO, MODE) 0
263
#endif
264
 
265
/* 1 if the corresponding class does contain register of given
266
   mode.  */
267
extern char contains_reg_of_mode [N_REG_CLASSES] [MAX_MACHINE_MODE];
268
 
269
typedef unsigned short move_table[N_REG_CLASSES];
270
 
271
/* Maximum cost of moving from a register in one class to a register
272
   in another class.  */
273
extern move_table *move_cost[MAX_MACHINE_MODE];
274
 
275
/* Specify number of hard registers given machine mode occupy.  */
276
extern unsigned char hard_regno_nregs[FIRST_PSEUDO_REGISTER][MAX_MACHINE_MODE];
277
 
278
/* Similar, but here we don't have to move if the first index is a
279
   subset of the second so in that case the cost is zero.  */
280
extern move_table *may_move_in_cost[MAX_MACHINE_MODE];
281
 
282
/* Similar, but here we don't have to move if the first index is a
283
   superset of the second so in that case the cost is zero.  */
284
extern move_table *may_move_out_cost[MAX_MACHINE_MODE];
285
 
286
/* Return an exclusive upper bound on the registers occupied by hard
287
   register (reg:MODE REGNO).  */
288
 
289
static inline unsigned int
290
end_hard_regno (enum machine_mode mode, unsigned int regno)
291
{
292
  return regno + hard_regno_nregs[regno][(int) mode];
293
}
294
 
295
/* Likewise for hard register X.  */
296
 
297
#define END_HARD_REGNO(X) end_hard_regno (GET_MODE (X), REGNO (X))
298
 
299
/* Likewise for hard or pseudo register X.  */
300
 
301
#define END_REGNO(X) (HARD_REGISTER_P (X) ? END_HARD_REGNO (X) : REGNO (X) + 1)
302
 
303
/* Add to REGS all the registers required to store a value of mode MODE
304
   in register REGNO.  */
305
 
306
static inline void
307
add_to_hard_reg_set (HARD_REG_SET *regs, enum machine_mode mode,
308
                     unsigned int regno)
309
{
310
  unsigned int end_regno;
311
 
312
  end_regno = end_hard_regno (mode, regno);
313
  do
314
    SET_HARD_REG_BIT (*regs, regno);
315
  while (++regno < end_regno);
316
}
317
 
318
/* Likewise, but remove the registers.  */
319
 
320
static inline void
321
remove_from_hard_reg_set (HARD_REG_SET *regs, enum machine_mode mode,
322
                          unsigned int regno)
323
{
324
  unsigned int end_regno;
325
 
326
  end_regno = end_hard_regno (mode, regno);
327
  do
328
    CLEAR_HARD_REG_BIT (*regs, regno);
329
  while (++regno < end_regno);
330
}
331
 
332
/* Return true if REGS contains the whole of (reg:MODE REGNO).  */
333
 
334
static inline bool
335
in_hard_reg_set_p (const HARD_REG_SET regs, enum machine_mode mode,
336
                   unsigned int regno)
337
{
338
  unsigned int end_regno;
339
 
340
  if (!TEST_HARD_REG_BIT (regs, regno))
341
    return false;
342
 
343
  end_regno = end_hard_regno (mode, regno);
344
  while (++regno < end_regno)
345
    if (!TEST_HARD_REG_BIT (regs, regno))
346
      return false;
347
 
348
  return true;
349
}
350
 
351
/* Return true if (reg:MODE REGNO) includes an element of REGS.  */
352
 
353
static inline bool
354
overlaps_hard_reg_set_p (const HARD_REG_SET regs, enum machine_mode mode,
355
                         unsigned int regno)
356
{
357
  unsigned int end_regno;
358
 
359
  if (TEST_HARD_REG_BIT (regs, regno))
360
    return true;
361
 
362
  end_regno = end_hard_regno (mode, regno);
363
  while (++regno < end_regno)
364
    if (TEST_HARD_REG_BIT (regs, regno))
365
      return true;
366
 
367
  return false;
368
}
369
 
370
#endif /* GCC_REGS_H */

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