OpenCores
URL https://opencores.org/ocsvn/openrisc/openrisc/trunk

Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [gnu-old/] [gcc-4.2.2/] [gcc/] [params.def] - Blame information for rev 38

Go to most recent revision | Details | Compare with Previous | View Log

Line No. Rev Author Line
1 38 julius
/* params.def - Run-time parameters.
2
   Copyright (C) 2001, 2002, 2004, 2005 Free Software Foundation, Inc.
3
   Written by Mark Mitchell .
4
 
5
This file is part of GCC.
6
 
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 3, or (at your option) any later
10
version.
11
 
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.
16
 
17
You should have received a copy of the GNU General Public License
18
along with GCC; see the file COPYING3.  If not see
19
.  */
20
 
21
/* This file contains definitions for language-independent
22
   parameters.  The DEFPARAM macro takes 6 arguments:
23
 
24
     - The enumeral corresponding to this parameter.
25
 
26
     - The name that can be used to set this parameter using the
27
       command-line option `--param ='.
28
 
29
     - A help string explaining how the parameter is used.
30
 
31
     - A default value for the parameter.
32
 
33
     - The minimum acceptable value for the parameter.
34
 
35
     - The maximum acceptable value for the parameter (if greater than
36
     the minimum).
37
 
38
   Be sure to add an entry to invoke.texi summarizing the parameter.  */
39
 
40
/* The maximum number of fields in a variable with only implicit uses
41
   for which structure aliasing will consider trying to track each
42
   field.  The default is 5.  */
43
DEFPARAM (PARAM_SALIAS_MAX_IMPLICIT_FIELDS,
44
          "salias-max-implicit-fields",
45
          "The maximum number of fields in a structure variable without direct structure accesses that GCC will attempt to track separately",
46
          5, 0, 0)
47
 
48
/* The maximum number of array elements structure aliasing will decompose
49
   an array for.  The default is 4.  */
50
DEFPARAM (PARAM_SALIAS_MAX_ARRAY_ELEMENTS,
51
          "salias-max-array-elements",
52
          "The maximum number of elements in an array for wich we track its elements separately",
53
          4, 0, 0)
54
 
55
/* The maximum structure size at which the scalar replacement of
56
   aggregates (SRA) pass will perform block copies.  The default
57
   value, 0, implies that GCC will select the most appropriate size
58
   itself.  */
59
DEFPARAM (PARAM_SRA_MAX_STRUCTURE_SIZE,
60
          "sra-max-structure-size",
61
          "The maximum structure size (in bytes) for which GCC will "
62
          "use by-element copies",
63
          0, 0, 0)
64
 
65
/* The maximum number of structure fields which the SRA pass will
66
   instantiate to avoid block copies.  The default value, 0, implies
67
   that GCC will select the appropriate value itself.  */
68
DEFPARAM (PARAM_SRA_MAX_STRUCTURE_COUNT,
69
          "sra-max-structure-count",
70
          "The maximum number of structure fields for which GCC will "
71
          "use by-element copies",
72
          0, 0, 0)
73
 
74
/* The ratio between instantiated fields and the complete structure
75
   size.  We say that if the ratio of the number of bytes in
76
   instantiated fields to the number of bytes in the complete
77
   structure exceeds this parameter, or if the number of instantiated
78
   fields to the total number of fields exceeds this parameter, then
79
   block copies are not used.  The default is 75%.  */
80
DEFPARAM (PARAM_SRA_FIELD_STRUCTURE_RATIO,
81
          "sra-field-structure-ratio",
82
          "The threshold ratio between instantiated fields and the total structure size",
83
          75, 0, 100)
84
 
85
/* The single function inlining limit. This is the maximum size
86
   of a function counted in internal gcc instructions (not in
87
   real machine instructions) that is eligible for inlining
88
   by the tree inliner.
89
   The default value is 450.
90
   Only functions marked inline (or methods defined in the class
91
   definition for C++) are affected by this.
92
   There are more restrictions to inlining: If inlined functions
93
   call other functions, the already inlined instructions are
94
   counted and once the recursive inline limit (see
95
   "max-inline-insns" parameter) is exceeded, the acceptable size
96
   gets decreased.  */
97
DEFPARAM (PARAM_MAX_INLINE_INSNS_SINGLE,
98
          "max-inline-insns-single",
99
          "The maximum number of instructions in a single function eligible for inlining",
100
          450, 0, 0)
101
 
102
/* The single function inlining limit for functions that are
103
   inlined by virtue of -finline-functions (-O3).
104
   This limit should be chosen to be below or equal to the limit
105
   that is applied to functions marked inlined (or defined in the
106
   class declaration in C++) given by the "max-inline-insns-single"
107
   parameter.
108
   The default value is 90.  */
109
DEFPARAM (PARAM_MAX_INLINE_INSNS_AUTO,
110
          "max-inline-insns-auto",
111
          "The maximum number of instructions when automatically inlining",
112
          90, 0, 0)
113
 
114
DEFPARAM (PARAM_MAX_INLINE_INSNS_RECURSIVE,
115
          "max-inline-insns-recursive",
116
          "The maximum number of instructions inline function can grow to via recursive inlining",
117
          450, 0, 0)
118
 
119
DEFPARAM (PARAM_MAX_INLINE_INSNS_RECURSIVE_AUTO,
120
          "max-inline-insns-recursive-auto",
121
          "The maximum number of instructions non-inline function can grow to via recursive inlining",
122
          450, 0, 0)
123
 
124
DEFPARAM (PARAM_MAX_INLINE_RECURSIVE_DEPTH,
125
          "max-inline-recursive-depth",
126
          "The maximum depth of recursive inlining for inline functions",
127
          8, 0, 0)
128
 
129
DEFPARAM (PARAM_MAX_INLINE_RECURSIVE_DEPTH_AUTO,
130
          "max-inline-recursive-depth-auto",
131
          "The maximum depth of recursive inlining for non-inline functions",
132
          8, 0, 0)
133
 
134
DEFPARAM (PARAM_MIN_INLINE_RECURSIVE_PROBABILITY,
135
          "min-inline-recursive-probability",
136
          "Inline recursively only when the probability of call being executed exceeds the parameter",
137
          10, 0, 0)
138
 
139
/* Limit the number of expansions created by the variable expansion
140
   optimization to avoid register pressure.  */
141
DEFPARAM (PARAM_MAX_VARIABLE_EXPANSIONS,
142
          "max-variable-expansions-in-unroller",
143
          "If -fvariable-expansion-in-unroller is used, the maximum number of times that an individual variable will be expanded during loop unrolling",
144
          1, 0, 0)
145
 
146
/* The maximum number of instructions to consider when looking for an
147
   instruction to fill a delay slot.  If more than this arbitrary
148
   number of instructions is searched, the time savings from filling
149
   the delay slot will be minimal so stop searching.  Increasing
150
   values mean more aggressive optimization, making the compile time
151
   increase with probably small improvement in executable run time.  */
152
DEFPARAM (PARAM_MAX_DELAY_SLOT_INSN_SEARCH,
153
          "max-delay-slot-insn-search",
154
          "The maximum number of instructions to consider to fill a delay slot",
155
          100, 0, 0)
156
 
157
/* When trying to fill delay slots, the maximum number of instructions
158
   to consider when searching for a block with valid live register
159
   information.  Increasing this arbitrarily chosen value means more
160
   aggressive optimization, increasing the compile time.  This
161
   parameter should be removed when the delay slot code is rewritten
162
   to maintain the control-flow graph.  */
163
DEFPARAM(PARAM_MAX_DELAY_SLOT_LIVE_SEARCH,
164
         "max-delay-slot-live-search",
165
         "The maximum number of instructions to consider to find accurate live register information",
166
         333, 0, 0)
167
 
168
/* This parameter limits the number of branch elements that the
169
   scheduler will track anti-dependencies through without resetting
170
   the tracking mechanism.  Large functions with few calls or barriers
171
   can generate lists containing many 1000's of dependencies.  Generally
172
   the compiler either uses all available memory, or runs for far too long.  */
173
DEFPARAM(PARAM_MAX_PENDING_LIST_LENGTH,
174
         "max-pending-list-length",
175
         "The maximum length of scheduling's pending operations list",
176
         32, 0, 0)
177
 
178
DEFPARAM(PARAM_LARGE_FUNCTION_INSNS,
179
         "large-function-insns",
180
         "The size of function body to be considered large",
181
         2700, 0, 0)
182
DEFPARAM(PARAM_LARGE_FUNCTION_GROWTH,
183
         "large-function-growth",
184
         "Maximal growth due to inlining of large function (in percent)",
185
         100, 0, 0)
186
DEFPARAM(PARAM_LARGE_UNIT_INSNS,
187
         "large-unit-insns",
188
         "The size of translation unit to be considered large",
189
         10000, 0, 0)
190
DEFPARAM(PARAM_INLINE_UNIT_GROWTH,
191
         "inline-unit-growth",
192
         "how much can given compilation unit grow because of the inlining (in percent)",
193
         50, 0, 0)
194
DEFPARAM(PARAM_INLINE_CALL_COST,
195
         "inline-call-cost",
196
         "expense of call operation relative to ordinary arithmetic operations",
197
         16, 0, 0)
198
 
199
/* The GCSE optimization will be disabled if it would require
200
   significantly more memory than this value.  */
201
DEFPARAM(PARAM_MAX_GCSE_MEMORY,
202
         "max-gcse-memory",
203
         "The maximum amount of memory to be allocated by GCSE",
204
         50 * 1024 * 1024, 0, 0)
205
/* The number of repetitions of copy/const prop and PRE to run.  */
206
DEFPARAM(PARAM_MAX_GCSE_PASSES,
207
        "max-gcse-passes",
208
        "The maximum number of passes to make when doing GCSE",
209
        1, 1, 0)
210
/* This is the threshold ratio when to perform partial redundancy
211
   elimination after reload. We perform partial redundancy elimination
212
   when the following holds:
213
   (Redundant load execution count)
214
   ------------------------------- >= GCSE_AFTER_RELOAD_PARTIAL_FRACTION
215
   (Added loads execution count)                                          */
216
DEFPARAM(PARAM_GCSE_AFTER_RELOAD_PARTIAL_FRACTION,
217
        "gcse-after-reload-partial-fraction",
218
        "The threshold ratio for performing partial redundancy elimination after reload",
219
        3, 0, 0)
220
/* This is the threshold ratio of the critical edges execution count compared to
221
   the redundant loads execution count that permits performing the load
222
   redundancy elimination in gcse after reload.  */
223
DEFPARAM(PARAM_GCSE_AFTER_RELOAD_CRITICAL_FRACTION,
224
        "gcse-after-reload-critical-fraction",
225
        "The threshold ratio of critical edges execution count that permit performing redundancy elimination after reload",
226
        10, 0, 0)
227
/* This parameter limits the number of insns in a loop that will be unrolled,
228
   and by how much the loop is unrolled.
229
 
230
   This limit should be at most half of the peeling limits:  loop unroller
231
   decides to not unroll loops that iterate fewer than 2*number of allowed
232
   unrollings and thus we would have loops that are neither peeled or unrolled
233
   otherwise.  */
234
DEFPARAM(PARAM_MAX_UNROLLED_INSNS,
235
         "max-unrolled-insns",
236
         "The maximum number of instructions to consider to unroll in a loop",
237
         200, 0, 0)
238
/* This parameter limits how many times the loop is unrolled depending
239
   on number of insns really executed in each iteration.  */
240
DEFPARAM(PARAM_MAX_AVERAGE_UNROLLED_INSNS,
241
         "max-average-unrolled-insns",
242
         "The maximum number of instructions to consider to unroll in a loop on average",
243
         80, 0, 0)
244
/* The maximum number of unrollings of a single loop.  */
245
DEFPARAM(PARAM_MAX_UNROLL_TIMES,
246
        "max-unroll-times",
247
        "The maximum number of unrollings of a single loop",
248
        8, 0, 0)
249
/* The maximum number of insns of a peeled loop.  */
250
DEFPARAM(PARAM_MAX_PEELED_INSNS,
251
        "max-peeled-insns",
252
        "The maximum number of insns of a peeled loop",
253
        400, 0, 0)
254
/* The maximum number of peelings of a single loop.  */
255
DEFPARAM(PARAM_MAX_PEEL_TIMES,
256
        "max-peel-times",
257
        "The maximum number of peelings of a single loop",
258
        16, 0, 0)
259
/* The maximum number of insns of a peeled loop.  */
260
DEFPARAM(PARAM_MAX_COMPLETELY_PEELED_INSNS,
261
        "max-completely-peeled-insns",
262
        "The maximum number of insns of a completely peeled loop",
263
        400, 0, 0)
264
/* The maximum number of peelings of a single loop that is peeled completely.  */
265
DEFPARAM(PARAM_MAX_COMPLETELY_PEEL_TIMES,
266
        "max-completely-peel-times",
267
        "The maximum number of peelings of a single loop that is peeled completely",
268
        16, 0, 0)
269
/* The maximum number of insns of a peeled loop that rolls only once.  */
270
DEFPARAM(PARAM_MAX_ONCE_PEELED_INSNS,
271
        "max-once-peeled-insns",
272
        "The maximum number of insns of a peeled loop that rolls only once",
273
        400, 0, 0)
274
 
275
/* The maximum number of insns of an unswitched loop.  */
276
DEFPARAM(PARAM_MAX_UNSWITCH_INSNS,
277
        "max-unswitch-insns",
278
        "The maximum number of insns of an unswitched loop",
279
        50, 0, 0)
280
/* The maximum level of recursion in unswitch_single_loop.  */
281
DEFPARAM(PARAM_MAX_UNSWITCH_LEVEL,
282
        "max-unswitch-level",
283
        "The maximum number of unswitchings in a single loop",
284
        3, 0, 0)
285
 
286
/* The maximum number of iterations of a loop the brute force algorithm
287
   for analysis of # of iterations of the loop tries to evaluate.  */
288
DEFPARAM(PARAM_MAX_ITERATIONS_TO_TRACK,
289
        "max-iterations-to-track",
290
        "Bound on the number of iterations the brute force # of iterations analysis algorithm evaluates",
291
        1000, 0, 0)
292
/* A cutoff to avoid costly computations of the number of iterations in
293
   the doloop transformation.  */
294
DEFPARAM(PARAM_MAX_ITERATIONS_COMPUTATION_COST,
295
        "max-iterations-computation-cost",
296
        "Bound on the cost of an expression to compute the number of iterations",
297
        10, 0, 0)
298
 
299
DEFPARAM(PARAM_MAX_SMS_LOOP_NUMBER,
300
         "max-sms-loop-number",
301
         "Maximum number of loops to perform swing modulo scheduling on (mainly for debugging)",
302
         -1, -1, -1)
303
 
304
/* This parameter is used to tune SMS MAX II calculations.  */
305
DEFPARAM(PARAM_SMS_MAX_II_FACTOR,
306
         "sms-max-ii-factor",
307
         "A factor for tuning the upper bound that swing modulo scheduler uses for scheduling a loop",
308
         100, 0, 0)
309
DEFPARAM(PARAM_SMS_DFA_HISTORY,
310
         "sms-dfa-history",
311
         "The number of cycles the swing modulo scheduler considers when checking conflicts using DFA",
312
         0, 0, 0)
313
DEFPARAM(PARAM_SMS_LOOP_AVERAGE_COUNT_THRESHOLD,
314
         "sms-loop-average-count-threshold",
315
         "A threshold on the average loop count considered by the swing modulo scheduler",
316
         0, 0, 0)
317
 
318
DEFPARAM(HOT_BB_COUNT_FRACTION,
319
         "hot-bb-count-fraction",
320
         "Select fraction of the maximal count of repetitions of basic block in program given basic block needs to have to be considered hot",
321
         10000, 0, 0)
322
DEFPARAM(HOT_BB_FREQUENCY_FRACTION,
323
         "hot-bb-frequency-fraction",
324
         "Select fraction of the maximal frequency of executions of basic block in function given basic block needs to have to be considered hot",
325
         1000, 0, 0)
326
 
327
/* For guessed profiles, the loops having unknown number of iterations
328
   are predicted to iterate relatively few (10) times at average.
329
   For functions containing one loop with large known number of iterations
330
   and other loops having unbounded loops we would end up predicting all
331
   the other loops cold that is not usually the case.  So we need to artificially
332
   flatten the profile.
333
 
334
   We need to cut the maximal predicted iterations to large enough iterations
335
   so the loop appears important, but safely within HOT_BB_COUNT_FRACTION
336
   range.  */
337
 
338
DEFPARAM(PARAM_MAX_PREDICTED_ITERATIONS,
339
         "max-predicted-iterations",
340
         "The maximum number of loop iterations we predict statically",
341
         100, 0, 0)
342
DEFPARAM(TRACER_DYNAMIC_COVERAGE_FEEDBACK,
343
         "tracer-dynamic-coverage-feedback",
344
         "The percentage of function, weighted by execution frequency, that must be covered by trace formation. Used when profile feedback is available",
345
         95, 0, 100)
346
DEFPARAM(TRACER_DYNAMIC_COVERAGE,
347
         "tracer-dynamic-coverage",
348
         "The percentage of function, weighted by execution frequency, that must be covered by trace formation. Used when profile feedback is not available",
349
         75, 0, 100)
350
DEFPARAM(TRACER_MAX_CODE_GROWTH,
351
         "tracer-max-code-growth",
352
         "Maximal code growth caused by tail duplication (in percent)",
353
         100, 0, 0)
354
DEFPARAM(TRACER_MIN_BRANCH_RATIO,
355
         "tracer-min-branch-ratio",
356
         "Stop reverse growth if the reverse probability of best edge is less than this threshold (in percent)",
357
         10, 0, 100)
358
DEFPARAM(TRACER_MIN_BRANCH_PROBABILITY_FEEDBACK,
359
         "tracer-min-branch-probability-feedback",
360
         "Stop forward growth if the probability of best edge is less than this threshold (in percent). Used when profile feedback is available",
361
         80, 0, 100)
362
DEFPARAM(TRACER_MIN_BRANCH_PROBABILITY,
363
         "tracer-min-branch-probability",
364
         "Stop forward growth if the probability of best edge is less than this threshold (in percent). Used when profile feedback is not available",
365
         50, 0, 100)
366
 
367
/* The maximum number of incoming edges to consider for crossjumping.  */
368
DEFPARAM(PARAM_MAX_CROSSJUMP_EDGES,
369
         "max-crossjump-edges",
370
         "The maximum number of incoming edges to consider for crossjumping",
371
         100, 0, 0)
372
 
373
/* The minimum number of matching instructions to consider for crossjumping.  */
374
DEFPARAM(PARAM_MIN_CROSSJUMP_INSNS,
375
     "min-crossjump-insns",
376
     "The minimum number of matching instructions to consider for crossjumping",
377
     5, 0, 0)
378
 
379
/* The maximum number expansion factor when copying basic blocks.  */
380
DEFPARAM(PARAM_MAX_GROW_COPY_BB_INSNS,
381
     "max-grow-copy-bb-insns",
382
     "The maximum expansion factor when copying basic blocks",
383
     8, 0, 0)
384
 
385
/* The maximum number of insns to duplicate when unfactoring computed gotos.  */
386
DEFPARAM(PARAM_MAX_GOTO_DUPLICATION_INSNS,
387
     "max-goto-duplication-insns",
388
     "The maximum number of insns to duplicate when unfactoring computed gotos",
389
     8, 0, 0)
390
 
391
/* The maximum length of path considered in cse.  */
392
DEFPARAM(PARAM_MAX_CSE_PATH_LENGTH,
393
         "max-cse-path-length",
394
         "The maximum length of path considered in cse",
395
         10, 0, 0)
396
DEFPARAM(PARAM_MAX_CSE_INSNS,
397
         "max-cse-insns",
398
         "The maximum instructions CSE process before flushing",
399
         1000, 0, 0)
400
 
401
/* The cost of expression in loop invariant motion that is considered
402
   expensive.  */
403
DEFPARAM(PARAM_LIM_EXPENSIVE,
404
         "lim-expensive",
405
         "The minimum cost of an expensive expression in the loop invariant motion",
406
         20, 0, 0)
407
 
408
/* Bound on number of candidates for induction variables below that
409
   all candidates are considered for each use in induction variable
410
   optimizations.  */
411
 
412
DEFPARAM(PARAM_IV_CONSIDER_ALL_CANDIDATES_BOUND,
413
         "iv-consider-all-candidates-bound",
414
         "Bound on number of candidates below that all candidates are considered in iv optimizations",
415
         30, 0, 0)
416
 
417
/* The induction variable optimizations give up on loops that contain more
418
   induction variable uses.  */
419
 
420
DEFPARAM(PARAM_IV_MAX_CONSIDERED_USES,
421
         "iv-max-considered-uses",
422
         "Bound on number of iv uses in loop optimized in iv optimizations",
423
         250, 0, 0)
424
 
425
/* If there are at most this number of ivs in the set, try removing unnecessary
426
   ivs from the set always.  */
427
 
428
DEFPARAM(PARAM_IV_ALWAYS_PRUNE_CAND_SET_BOUND,
429
         "iv-always-prune-cand-set-bound",
430
         "If number of candidates in the set is smaller, we always try to remove unused ivs during its optimization",
431
         10, 0, 0)
432
 
433
DEFPARAM(PARAM_SCEV_MAX_EXPR_SIZE,
434
         "scev-max-expr-size",
435
         "Bound on size of expressions used in the scalar evolutions analyzer",
436
         20, 0, 0)
437
 
438
DEFPARAM(PARAM_VECT_MAX_VERSION_CHECKS,
439
         "vect-max-version-checks",
440
         "Bound on number of runtime checks inserted by the vectorizer's loop versioning",
441
         6, 0, 0)
442
 
443
/* The product of the next two is used to decide whether or not to
444
   use .GLOBAL_VAR.  See tree-dfa.c.  */
445
DEFPARAM(PARAM_GLOBAL_VAR_THRESHOLD,
446
        "global-var-threshold",
447
        "Given N calls and V call-clobbered vars in a function.  Use .GLOBAL_VAR if NxV is larger than this limit",
448
        500000, 0, 0)
449
 
450
DEFPARAM(PARAM_MAX_CSELIB_MEMORY_LOCATIONS,
451
         "max-cselib-memory-locations",
452
         "The maximum memory locations recorded by cselib",
453
         500, 0, 0)
454
DEFPARAM(PARAM_MAX_FLOW_MEMORY_LOCATIONS,
455
         "max-flow-memory-locations",
456
         "The maximum memory locations recorded by flow",
457
         100, 0, 0)
458
 
459
#ifdef ENABLE_GC_ALWAYS_COLLECT
460
# define GGC_MIN_EXPAND_DEFAULT 0
461
# define GGC_MIN_HEAPSIZE_DEFAULT 0
462
#else
463
# define GGC_MIN_EXPAND_DEFAULT 30
464
# define GGC_MIN_HEAPSIZE_DEFAULT 4096
465
#endif
466
 
467
DEFPARAM(GGC_MIN_EXPAND,
468
         "ggc-min-expand",
469
         "Minimum heap expansion to trigger garbage collection, as a percentage of the total size of the heap",
470
         GGC_MIN_EXPAND_DEFAULT, 0, 0)
471
 
472
DEFPARAM(GGC_MIN_HEAPSIZE,
473
         "ggc-min-heapsize",
474
         "Minimum heap size before we start collecting garbage, in kilobytes",
475
         GGC_MIN_HEAPSIZE_DEFAULT, 0, 0)
476
 
477
#undef GGC_MIN_EXPAND_DEFAULT
478
#undef GGC_MIN_HEAPSIZE_DEFAULT
479
 
480
DEFPARAM(PARAM_MAX_RELOAD_SEARCH_INSNS,
481
         "max-reload-search-insns",
482
         "The maximum number of instructions to search backward when looking for equivalent reload",
483
         100, 0, 0)
484
 
485
DEFPARAM(PARAM_MAX_ALIASED_VOPS,
486
         "max-aliased-vops",
487
         "The maximum number of virtual operands allowed to represent aliases before triggering alias grouping",
488
         500, 0, 0)
489
 
490
DEFPARAM(PARAM_MAX_SCHED_REGION_BLOCKS,
491
         "max-sched-region-blocks",
492
         "The maximum number of blocks in a region to be considered for interblock scheduling",
493
         10, 0, 0)
494
 
495
DEFPARAM(PARAM_MAX_SCHED_REGION_INSNS,
496
         "max-sched-region-insns",
497
         "The maximum number of insns in a region to be considered for interblock scheduling",
498
         100, 0, 0)
499
 
500
DEFPARAM(PARAM_MIN_SPEC_PROB,
501
         "min-spec-prob",
502
         "The minimum probability of reaching a source block for interblock speculative scheduling",
503
         40, 0, 0)
504
 
505
DEFPARAM(PARAM_MAX_SCHED_EXTEND_REGIONS_ITERS,
506
         "max-sched-extend-regions-iters",
507
         "The maximum number of iterations through CFG to extend regions",
508
         0, 0, 0)
509
 
510
DEFPARAM(PARAM_MAX_SCHED_INSN_CONFLICT_DELAY,
511
         "max-sched-insn-conflict-delay",
512
         "The maximum conflict delay for an insn to be considered for speculative motion",
513
         3, 1, 10)
514
 
515
DEFPARAM(PARAM_SCHED_SPEC_PROB_CUTOFF,
516
         "sched-spec-prob-cutoff",
517
         "The minimal probability of speculation success (in percents), so that speculative insn will be scheduled.",
518
         40, 0, 100)
519
 
520
DEFPARAM(PARAM_MAX_LAST_VALUE_RTL,
521
         "max-last-value-rtl",
522
         "The maximum number of RTL nodes that can be recorded as combiner's last value",
523
         10000, 0, 0)
524
 
525
/* INTEGER_CST nodes are shared for values [{-1,0} .. N) for
526
   {signed,unsigned} integral types.  This determines N.
527
   Experimentation shows 256 to be a good value.  */
528
DEFPARAM (PARAM_INTEGER_SHARE_LIMIT,
529
          "integer-share-limit",
530
          "The upper bound for sharing integer constants",
531
          256, 2, 2)
532
 
533
/* Incremental SSA updates for virtual operands may be very slow if
534
   there is a large number of mappings to process.  In those cases, it
535
   is faster to rewrite the virtual symbols from scratch as if they
536
   had been recently introduced.  This heuristic cannot be applied to
537
   SSA mappings for real SSA names, only symbols kept in FUD chains.
538
 
539
   PARAM_MIN_VIRTUAL_MAPPINGS specifies the minimum number of virtual
540
   mappings that should be registered to trigger the heuristic.
541
 
542
   PARAM_VIRTUAL_MAPPINGS_TO_SYMS_RATIO specifies the ratio between
543
   mappings and symbols.  If the number of virtual mappings is
544
   PARAM_VIRTUAL_MAPPINGS_TO_SYMS_RATIO bigger than the number of
545
   virtual symbols to be updated, then the updater switches to a full
546
   update for those symbols.  */
547
DEFPARAM (PARAM_MIN_VIRTUAL_MAPPINGS,
548
          "min-virtual-mappings",
549
          "Minimum number of virtual mappings to consider switching to full virtual renames",
550
          100, 0, 0)
551
 
552
DEFPARAM (PARAM_VIRTUAL_MAPPINGS_TO_SYMS_RATIO,
553
          "virtual-mappings-ratio",
554
          "Ratio between virtual mappings and virtual symbols to do full virtual renames",
555
          3, 0, 0)
556
 
557
DEFPARAM (PARAM_SSP_BUFFER_SIZE,
558
          "ssp-buffer-size",
559
          "The lower bound for a buffer to be considered for stack smashing protection",
560
          8, 1, 0)
561
 
562
/* When we thread through a block we have to make copies of the
563
   statements within the block.  Clearly for large blocks the code
564
   duplication is bad.
565
 
566
   PARAM_MAX_JUMP_THREAD_DUPLICATION_STMTS specifies the maximum number
567
   of statements and PHI nodes allowed in a block which is going to
568
   be duplicated for thread jumping purposes.
569
 
570
   Some simple analysis showed that more than 99% of the jump
571
   threading opportunities are for blocks with less than 15
572
   statements.  So we can get the benefits of jump threading
573
   without excessive code bloat for pathological cases with the
574
   throttle set at 15 statements.  */
575
DEFPARAM (PARAM_MAX_JUMP_THREAD_DUPLICATION_STMTS,
576
          "max-jump-thread-duplication-stmts",
577
          "Maximum number of statements allowed in a block that needs to be duplicated when threading jumps",
578
          15, 0, 0)
579
 
580
/* This is the maximum number of fields a variable may have before the pointer analysis machinery
581
   will stop trying to treat it in a field-sensitive manner.
582
   There are programs out there with thousands of fields per structure, and handling them
583
   field-sensitively is not worth the cost.  */
584
DEFPARAM (PARAM_MAX_FIELDS_FOR_FIELD_SENSITIVE,
585
          "max-fields-for-field-sensitive",
586
          "Maximum number of fields in a structure before pointer analysis treats the structure as a single variable",
587
          100, 0, 0)
588
 
589
DEFPARAM(PARAM_MAX_SCHED_READY_INSNS,
590
         "max-sched-ready-insns",
591
         "The maximum number of instructions ready to be issued to be considered by the scheduler during the first scheduling pass",
592
         100, 0, 0)
593
 
594
/*
595
Local variables:
596
mode:c
597
End: */

powered by: WebSVN 2.1.0

© copyright 1999-2024 OpenCores.org, equivalent to Oliscience, all rights reserved. OpenCores®, registered trademark.