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1 /* Loop optimization definitions for GNU C-Compiler
2 Copyright (C) 1991, 1995, 1998, 1999, 2000, 2001, 2002
3 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. */
27 /* Flags passed to loop_optimize. */
28 #define LOOP_UNROLL 1
29 #define LOOP_BCT 2
30 #define LOOP_PREFETCH 4
31 #define LOOP_FIRST_PASS 8
33 /* Get the loop info pointer of a loop. */
34 #define LOOP_INFO(LOOP) ((struct loop_info *) (LOOP)->aux)
36 /* Get a pointer to the loop movables structure. */
37 #define LOOP_MOVABLES(LOOP) (&LOOP_INFO (LOOP)->movables)
39 /* Get a pointer to the loop registers structure. */
40 #define LOOP_REGS(LOOP) (&LOOP_INFO (LOOP)->regs)
42 /* Get a pointer to the loop induction variables structure. */
43 #define LOOP_IVS(LOOP) (&LOOP_INFO (LOOP)->ivs)
45 /* Get the luid of an insn. Catch the error of trying to reference the LUID
46 of an insn added during loop, since these don't have LUIDs. */
48 #define INSN_LUID(INSN) \
49 (INSN_UID (INSN) < max_uid_for_loop ? uid_luid[INSN_UID (INSN)] \
50 : (abort (), -1))
52 #define REGNO_FIRST_LUID(REGNO) uid_luid[REGNO_FIRST_UID (REGNO)]
53 #define REGNO_LAST_LUID(REGNO) uid_luid[REGNO_LAST_UID (REGNO)]
56 /* A "basic induction variable" or biv is a pseudo reg that is set
57 (within this loop) only by incrementing or decrementing it. */
58 /* A "general induction variable" or giv is a pseudo reg whose
59 value is a linear function of a biv. */
61 /* Bivs are recognized by `basic_induction_var';
62 Givs by `general_induction_var'. */
64 /* An enum for the two different types of givs, those that are used
65 as memory addresses and those that are calculated into registers. */
66 enum g_types
67 {
68 DEST_ADDR,
69 DEST_REG
70 };
73 /* A `struct induction' is created for every instruction that sets
74 an induction variable (either a biv or a giv). */
76 struct induction
77 {
80 version of this giv. */
82 (If this is a biv, then this is the biv.) */
85 register which was the biv or giv.
86 For a biv, this equals src_reg.
87 For a DEST_ADDR type giv, this is 0. */
89 If GIV_TYPE is DEST_REG, this is 0. */
90 /* For a biv, this is the place where add_val
91 was found. */
98 final value could be calculated, it is put
99 here, and the giv is made replaceable. Set
100 the giv to this value before the loop. */
102 combined with. If nonzero, this giv
103 cannot combine with any other giv. */
105 variable for the original variable.
106 0 means they must be kept separate and the
107 new one must be copied into the old pseudo
108 reg each time the old one is set. */
110 1 if we know that the giv definitely can
111 not be made replaceable, in which case we
112 don't bother checking the variable again
113 even if further info is available.
114 Both this and the above can be zero. */
117 iteration. */
120 update may be done multiple times per
121 iteration. */
123 another giv. This occurs in many cases
124 where a giv's lifetime spans an update to
125 a biv. */
127 we won't use it to eliminate a biv, it
128 would probably lose. */
130 to it to try to form an auto-inc address. */
132 initialized in unrolled loop. */
137 subtracted from add_val when this giv
138 derives another. This occurs when the
139 giv spans a biv update by incrementation. */
141 if a biv on which this giv is dependent. */
143 based on the same biv. For bivs, links
144 together all biv entries that refer to the
145 same biv register. */
147 giv, this points to the base giv. The base
148 giv will have COMBINED_WITH non-zero. */
150 is split, and a constant is eliminated from
151 the address, the -constant is stored here
152 for later use. */
154 the same insn, then all but one have this
155 field set, and they all point to the giv
156 that doesn't have this field set. */
158 a substitute for the lifetime information. */
159 };
162 /* A `struct iv_class' is created for each biv. */
164 struct iv_class
165 {
170 biv. The resulting count is only used in
171 check_dbra_loop. */
173 from this reg. */
183 elimination. */
185 this. */
187 biv controls. */
189 been reduced. */
190 };
193 /* Definitions used by the basic induction variable discovery code. */
194 enum iv_mode
195 {
196 UNKNOWN_INDUCT,
197 BASIC_INDUCT,
198 NOT_BASIC_INDUCT,
199 GENERAL_INDUCT
200 };
203 /* A `struct iv' is created for every register. */
205 struct iv
206 {
208 union
209 {
213 };
216 #define REG_IV_TYPE(ivs, n) ivs->regs[n].type
217 #define REG_IV_INFO(ivs, n) ivs->regs[n].iv.info
218 #define REG_IV_CLASS(ivs, n) ivs->regs[n].iv.class
221 struct loop_ivs
222 {
223 /* Indexed by register number, contains pointer to `struct
224 iv' if register is an induction variable. */
227 /* Size of regs array. */
230 /* The head of a list which links together (via the next field)
231 every iv class for the current loop. */
233 };
237 {
245 struct loop_reg
246 {
247 /* Number of times the reg is set during the loop being scanned.
248 During code motion, a negative value indicates a reg that has
249 been made a candidate; in particular -2 means that it is an
250 candidate that we know is equal to a constant and -1 means that
251 it is an candidate not known equal to a constant. After code
252 motion, regs moved have 0 (which is accurate now) while the
253 failed candidates have the original number of times set.
255 Therefore, at all times, == 0 indicates an invariant register;
256 < 0 a conditionally invariant one. */
259 /* Original value of set_in_loop; same except that this value
260 is not set negative for a reg whose sets have been made candidates
261 and not set to 0 for a reg that is moved. */
264 /* Contains the insn in which a register was used if it was used
265 exactly once; contains const0_rtx if it was used more than once. */
266 rtx single_usage;
268 /* Nonzero indicates that the register cannot be moved or strength
269 reduced. */
272 /* Nonzero means reg N has already been moved out of one loop.
273 This reduces the desire to move it out of another. */
275 };
278 struct loop_regs
279 {
284 };
288 struct loop_movables
289 {
290 /* Head of movable chain. */
292 /* Last movable in chain. */
294 };
297 /* Information pertaining to a loop. */
299 struct loop_info
300 {
301 /* Nonzero if there is a subroutine call in the current loop. */
303 /* Nonzero if there is a libcall in the current loop. */
305 /* Nonzero if there is a non constant call in the current loop. */
307 /* Nonzero if there is a prefetch instruction in the current loop. */
309 /* Nonzero if there is a volatile memory reference in the current
310 loop. */
312 /* Nonzero if there is a tablejump in the current loop. */
314 /* Nonzero if there are ways to leave the loop other than falling
315 off the end. */
317 /* Nonzero if there is an indirect jump in the current function. */
319 /* Register or constant initial loop value. */
320 rtx initial_value;
321 /* Register or constant value used for comparison test. */
322 rtx comparison_value;
323 /* Register or constant approximate final value. */
324 rtx final_value;
325 /* Register or constant initial loop value with term common to
326 final_value removed. */
327 rtx initial_equiv_value;
328 /* Register or constant final loop value with term common to
329 initial_value removed. */
330 rtx final_equiv_value;
331 /* Register corresponding to iteration variable. */
332 rtx iteration_var;
333 /* Constant loop increment. */
334 rtx increment;
336 /* Holds the number of loop iterations. It is zero if the number
337 could not be calculated. Must be unsigned since the number of
338 iterations can be as high as 2^wordsize - 1. For loops with a
339 wider iterator, this number will be zero if the number of loop
340 iterations is too large for an unsigned integer to hold. */
342 /* The number of times the loop body was unrolled. */
345 /* The loop iterator induction variable. */
347 /* List of MEMs that are stored in this loop. */
348 rtx store_mems;
349 /* Array of MEMs that are used (read or written) in this loop, but
350 cannot be aliased by anything in this loop, except perhaps
351 themselves. In other words, if mems[i] is altered during
352 the loop, it is altered by an expression that is rtx_equal_p to
353 it. */
355 /* The index of the next available slot in MEMS. */
357 /* The number of elements allocated in MEMS. */
359 /* Nonzero if we don't know what MEMs were changed in the current
360 loop. This happens if the loop contains a call (in which case
361 `has_call' will also be set) or if we store into more than
362 NUM_STORES MEMs. */
364 /* The above doesn't count any readonly memory locations that are
365 stored. This does. */
367 /* Count of memory write instructions discovered in the loop. */
369 /* The insn where the first of these was found. */
370 rtx first_loop_store_insn;
371 /* The chain of movable insns in loop. */
373 /* The registers used the in loop. */
375 /* The induction variable information in loop. */
377 /* Non-zero if call is in pre_header extended basic block. */
379 };
382 /* Variables declared in loop.c, but also needed in unroll.c. */
391 /* Forward declarations for non-static functions declared in loop.c and
392 unroll.c. */
422 /* Forward declarations for non-static functions declared in doloop.c. */