[RS6000] PowerPC64 soft-float
[official-gcc.git] / gcc / profile-count.h
blob620d6b7145790ee311dd90d0e0c97c8da92f4175
1 /* Profile counter container type.
2 Copyright (C) 2017-2018 Free Software Foundation, Inc.
3 Contributed by Jan Hubicka
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 3, 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 COPYING3. If not see
19 <http://www.gnu.org/licenses/>. */
21 #ifndef GCC_PROFILE_COUNT_H
22 #define GCC_PROFILE_COUNT_H
24 struct function;
25 class profile_count;
27 /* Quality of the profile count. Because gengtype does not support enums
28 inside of classes, this is in global namespace. */
29 enum profile_quality {
30 /* Uninitialized value. */
31 profile_uninitialized,
32 /* Profile is based on static branch prediction heuristics and may
33 or may not match reality. It is local to function and can not be compared
34 inter-procedurally. Never used by probabilities (they are always local).
36 profile_guessed_local,
37 /* Profile was read by feedback and was 0, we used local heuristics to guess
38 better. This is the case of functions not run in profile fedback.
39 Never used by probabilities. */
40 profile_guessed_global0,
42 /* Same as profile_guessed_global0 but global count is adjusted 0. */
43 profile_guessed_global0adjusted,
45 /* Profile is based on static branch prediction heuristics. It may or may
46 not reflect the reality but it can be compared interprocedurally
47 (for example, we inlined function w/o profile feedback into function
48 with feedback and propagated from that).
49 Never used by probablities. */
50 profile_guessed,
51 /* Profile was determined by autofdo. */
52 profile_afdo,
53 /* Profile was originally based on feedback but it was adjusted
54 by code duplicating optimization. It may not precisely reflect the
55 particular code path. */
56 profile_adjusted,
57 /* Profile was read from profile feedback or determined by accurate static
58 method. */
59 profile_precise
62 extern const char *profile_quality_as_string (enum profile_quality);
64 /* The base value for branch probability notes and edge probabilities. */
65 #define REG_BR_PROB_BASE 10000
67 #define RDIV(X,Y) (((X) + (Y) / 2) / (Y))
69 bool slow_safe_scale_64bit (uint64_t a, uint64_t b, uint64_t c, uint64_t *res);
71 /* Compute RES=(a*b + c/2)/c capping and return false if overflow happened. */
73 inline bool
74 safe_scale_64bit (uint64_t a, uint64_t b, uint64_t c, uint64_t *res)
76 #if (GCC_VERSION >= 5000)
77 uint64_t tmp;
78 if (!__builtin_mul_overflow (a, b, &tmp)
79 && !__builtin_add_overflow (tmp, c/2, &tmp))
81 *res = tmp / c;
82 return true;
84 if (c == 1)
86 *res = (uint64_t) -1;
87 return false;
89 #else
90 if (a < ((uint64_t)1 << 31)
91 && b < ((uint64_t)1 << 31)
92 && c < ((uint64_t)1 << 31))
94 *res = (a * b + (c / 2)) / c;
95 return true;
97 #endif
98 return slow_safe_scale_64bit (a, b, c, res);
101 /* Data type to hold probabilities. It implements fixed point arithmetics
102 with capping so probability is always in range [0,1] and scaling requiring
103 values greater than 1 needs to be represented otherwise.
105 In addition to actual value the quality of profile is tracked and propagated
106 through all operations. Special value UNINITIALIZED is used for probabilities
107 that has not been determined yet (for example bacause of
108 -fno-guess-branch-probability)
110 Typically probabilities are derived from profile feedback (via
111 probability_in_gcov_type), autoFDO or guessed statically and then propagated
112 thorough the compilation.
114 Named probabilities are available:
115 - never (0 probability)
116 - guessed_never
117 - very_unlikely (1/2000 probability)
118 - unlikely (1/5 probablity)
119 - even (1/2 probability)
120 - likely (4/5 probability)
121 - very_likely (1999/2000 probability)
122 - guessed_always
123 - always
125 Named probabilities except for never/always are assumed to be statically
126 guessed and thus not necessarily accurate. The difference between never
127 and guessed_never is that the first one should be used only in case that
128 well behaving program will very likely not execute the "never" path.
129 For example if the path is going to abort () call or it exception handling.
131 Always and guessed_always probabilities are symmetric.
133 For legacy code we support conversion to/from REG_BR_PROB_BASE based fixpoint
134 integer arithmetics. Once the code is converted to branch probabilities,
135 these conversions will probably go away because they are lossy.
138 class GTY((user)) profile_probability
140 static const int n_bits = 29;
141 /* We can technically use ((uint32_t) 1 << (n_bits - 1)) - 2 but that
142 will lead to harder multiplication sequences. */
143 static const uint32_t max_probability = (uint32_t) 1 << (n_bits - 2);
144 static const uint32_t uninitialized_probability
145 = ((uint32_t) 1 << (n_bits - 1)) - 1;
147 uint32_t m_val : 29;
148 enum profile_quality m_quality : 3;
150 friend class profile_count;
151 public:
153 /* Named probabilities. */
154 static profile_probability never ()
156 profile_probability ret;
157 ret.m_val = 0;
158 ret.m_quality = profile_precise;
159 return ret;
161 static profile_probability guessed_never ()
163 profile_probability ret;
164 ret.m_val = 0;
165 ret.m_quality = profile_guessed;
166 return ret;
168 static profile_probability very_unlikely ()
170 /* Be consistent with PROB_VERY_UNLIKELY in predict.h. */
171 profile_probability r
172 = profile_probability::guessed_always ().apply_scale (1, 2000);
173 r.m_val--;
174 return r;
176 static profile_probability unlikely ()
178 /* Be consistent with PROB_VERY_LIKELY in predict.h. */
179 profile_probability r
180 = profile_probability::guessed_always ().apply_scale (1, 5);
181 r.m_val--;
182 return r;
184 static profile_probability even ()
186 return profile_probability::guessed_always ().apply_scale (1, 2);
188 static profile_probability very_likely ()
190 return profile_probability::always () - very_unlikely ();
192 static profile_probability likely ()
194 return profile_probability::always () - unlikely ();
196 static profile_probability guessed_always ()
198 profile_probability ret;
199 ret.m_val = max_probability;
200 ret.m_quality = profile_guessed;
201 return ret;
203 static profile_probability always ()
205 profile_probability ret;
206 ret.m_val = max_probability;
207 ret.m_quality = profile_precise;
208 return ret;
210 /* Probabilities which has not been initialized. Either because
211 initialization did not happen yet or because profile is unknown. */
212 static profile_probability uninitialized ()
214 profile_probability c;
215 c.m_val = uninitialized_probability;
216 c.m_quality = profile_guessed;
217 return c;
221 /* Return true if value has been initialized. */
222 bool initialized_p () const
224 return m_val != uninitialized_probability;
226 /* Return true if value can be trusted. */
227 bool reliable_p () const
229 return m_quality >= profile_adjusted;
232 /* Conversion from and to REG_BR_PROB_BASE integer fixpoint arithmetics.
233 this is mostly to support legacy code and should go away. */
234 static profile_probability from_reg_br_prob_base (int v)
236 profile_probability ret;
237 gcc_checking_assert (v >= 0 && v <= REG_BR_PROB_BASE);
238 ret.m_val = RDIV (v * (uint64_t) max_probability, REG_BR_PROB_BASE);
239 ret.m_quality = profile_guessed;
240 return ret;
242 int to_reg_br_prob_base () const
244 gcc_checking_assert (initialized_p ());
245 return RDIV (m_val * (uint64_t) REG_BR_PROB_BASE, max_probability);
248 /* Conversion to and from RTL representation of profile probabilities. */
249 static profile_probability from_reg_br_prob_note (int v)
251 profile_probability ret;
252 ret.m_val = ((unsigned int)v) / 8;
253 ret.m_quality = (enum profile_quality)(v & 7);
254 return ret;
256 int to_reg_br_prob_note () const
258 gcc_checking_assert (initialized_p ());
259 int ret = m_val * 8 + m_quality;
260 gcc_checking_assert (profile_probability::from_reg_br_prob_note (ret)
261 == *this);
262 return ret;
265 /* Return VAL1/VAL2. */
266 static profile_probability probability_in_gcov_type
267 (gcov_type val1, gcov_type val2)
269 profile_probability ret;
270 gcc_checking_assert (val1 >= 0 && val2 > 0);
271 if (val1 > val2)
272 ret.m_val = max_probability;
273 else
275 uint64_t tmp;
276 safe_scale_64bit (val1, max_probability, val2, &tmp);
277 gcc_checking_assert (tmp <= max_probability);
278 ret.m_val = tmp;
280 ret.m_quality = profile_precise;
281 return ret;
284 /* Basic operations. */
285 bool operator== (const profile_probability &other) const
287 return m_val == other.m_val && m_quality == other.m_quality;
289 profile_probability operator+ (const profile_probability &other) const
291 if (other == profile_probability::never ())
292 return *this;
293 if (*this == profile_probability::never ())
294 return other;
295 if (!initialized_p () || !other.initialized_p ())
296 return profile_probability::uninitialized ();
298 profile_probability ret;
299 ret.m_val = MIN ((uint32_t)(m_val + other.m_val), max_probability);
300 ret.m_quality = MIN (m_quality, other.m_quality);
301 return ret;
303 profile_probability &operator+= (const profile_probability &other)
305 if (other == profile_probability::never ())
306 return *this;
307 if (*this == profile_probability::never ())
309 *this = other;
310 return *this;
312 if (!initialized_p () || !other.initialized_p ())
313 return *this = profile_probability::uninitialized ();
314 else
316 m_val = MIN ((uint32_t)(m_val + other.m_val), max_probability);
317 m_quality = MIN (m_quality, other.m_quality);
319 return *this;
321 profile_probability operator- (const profile_probability &other) const
323 if (*this == profile_probability::never ()
324 || other == profile_probability::never ())
325 return *this;
326 if (!initialized_p () || !other.initialized_p ())
327 return profile_probability::uninitialized ();
328 profile_probability ret;
329 ret.m_val = m_val >= other.m_val ? m_val - other.m_val : 0;
330 ret.m_quality = MIN (m_quality, other.m_quality);
331 return ret;
333 profile_probability &operator-= (const profile_probability &other)
335 if (*this == profile_probability::never ()
336 || other == profile_probability::never ())
337 return *this;
338 if (!initialized_p () || !other.initialized_p ())
339 return *this = profile_probability::uninitialized ();
340 else
342 m_val = m_val >= other.m_val ? m_val - other.m_val : 0;
343 m_quality = MIN (m_quality, other.m_quality);
345 return *this;
347 profile_probability operator* (const profile_probability &other) const
349 if (*this == profile_probability::never ()
350 || other == profile_probability::never ())
351 return profile_probability::never ();
352 if (!initialized_p () || !other.initialized_p ())
353 return profile_probability::uninitialized ();
354 profile_probability ret;
355 ret.m_val = RDIV ((uint64_t)m_val * other.m_val, max_probability);
356 ret.m_quality = MIN (MIN (m_quality, other.m_quality), profile_adjusted);
357 return ret;
359 profile_probability &operator*= (const profile_probability &other)
361 if (*this == profile_probability::never ()
362 || other == profile_probability::never ())
363 return *this = profile_probability::never ();
364 if (!initialized_p () || !other.initialized_p ())
365 return *this = profile_probability::uninitialized ();
366 else
368 m_val = RDIV ((uint64_t)m_val * other.m_val, max_probability);
369 m_quality = MIN (MIN (m_quality, other.m_quality), profile_adjusted);
371 return *this;
373 profile_probability operator/ (const profile_probability &other) const
375 if (*this == profile_probability::never ())
376 return profile_probability::never ();
377 if (!initialized_p () || !other.initialized_p ())
378 return profile_probability::uninitialized ();
379 profile_probability ret;
380 /* If we get probability above 1, mark it as unreliable and return 1. */
381 if (m_val >= other.m_val)
383 ret.m_val = max_probability;
384 ret.m_quality = MIN (MIN (m_quality, other.m_quality),
385 profile_guessed);
386 return ret;
388 else if (!m_val)
389 ret.m_val = 0;
390 else
392 gcc_checking_assert (other.m_val);
393 ret.m_val = MIN (RDIV ((uint64_t)m_val * max_probability,
394 other.m_val),
395 max_probability);
397 ret.m_quality = MIN (MIN (m_quality, other.m_quality), profile_adjusted);
398 return ret;
400 profile_probability &operator/= (const profile_probability &other)
402 if (*this == profile_probability::never ())
403 return *this = profile_probability::never ();
404 if (!initialized_p () || !other.initialized_p ())
405 return *this = profile_probability::uninitialized ();
406 else
408 /* If we get probability above 1, mark it as unreliable
409 and return 1. */
410 if (m_val > other.m_val)
412 m_val = max_probability;
413 m_quality = MIN (MIN (m_quality, other.m_quality),
414 profile_guessed);
415 return *this;
417 else if (!m_val)
419 else
421 gcc_checking_assert (other.m_val);
422 m_val = MIN (RDIV ((uint64_t)m_val * max_probability,
423 other.m_val),
424 max_probability);
426 m_quality = MIN (MIN (m_quality, other.m_quality), profile_adjusted);
428 return *this;
431 /* Split *THIS (ORIG) probability into 2 probabilities, such that
432 the returned one (FIRST) is *THIS * CPROB and *THIS is
433 adjusted (SECOND) so that FIRST + FIRST.invert () * SECOND
434 == ORIG. This is useful e.g. when splitting a conditional
435 branch like:
436 if (cond)
437 goto lab; // ORIG probability
438 into
439 if (cond1)
440 goto lab; // FIRST = ORIG * CPROB probability
441 if (cond2)
442 goto lab; // SECOND probability
443 such that the overall probability of jumping to lab remains
444 the same. CPROB gives the relative probability between the
445 branches. */
446 profile_probability split (const profile_probability &cprob)
448 profile_probability ret = *this * cprob;
449 /* The following is equivalent to:
450 *this = cprob.invert () * *this / ret.invert ();
451 Avoid scaling when overall outcome is supposed to be always.
452 Without knowing that one is inverse of toher, the result would be
453 conservative. */
454 if (!(*this == profile_probability::always ()))
455 *this = (*this - ret) / ret.invert ();
456 return ret;
459 gcov_type apply (gcov_type val) const
461 if (*this == profile_probability::uninitialized ())
462 return val / 2;
463 return RDIV (val * m_val, max_probability);
466 /* Return 1-*THIS. */
467 profile_probability invert () const
469 return profile_probability::always() - *this;
472 /* Return THIS with quality dropped to GUESSED. */
473 profile_probability guessed () const
475 profile_probability ret = *this;
476 ret.m_quality = profile_guessed;
477 return ret;
480 /* Return THIS with quality dropped to AFDO. */
481 profile_probability afdo () const
483 profile_probability ret = *this;
484 ret.m_quality = profile_afdo;
485 return ret;
488 /* Return *THIS * NUM / DEN. */
489 profile_probability apply_scale (int64_t num, int64_t den) const
491 if (*this == profile_probability::never ())
492 return *this;
493 if (!initialized_p ())
494 return profile_probability::uninitialized ();
495 profile_probability ret;
496 uint64_t tmp;
497 safe_scale_64bit (m_val, num, den, &tmp);
498 ret.m_val = MIN (tmp, max_probability);
499 ret.m_quality = MIN (m_quality, profile_adjusted);
500 return ret;
503 /* Return true when the probability of edge is reliable.
505 The profile guessing code is good at predicting branch outcome (ie.
506 taken/not taken), that is predicted right slightly over 75% of time.
507 It is however notoriously poor on predicting the probability itself.
508 In general the profile appear a lot flatter (with probabilities closer
509 to 50%) than the reality so it is bad idea to use it to drive optimization
510 such as those disabling dynamic branch prediction for well predictable
511 branches.
513 There are two exceptions - edges leading to noreturn edges and edges
514 predicted by number of iterations heuristics are predicted well. This macro
515 should be able to distinguish those, but at the moment it simply check for
516 noreturn heuristic that is only one giving probability over 99% or bellow
517 1%. In future we might want to propagate reliability information across the
518 CFG if we find this information useful on multiple places. */
520 bool probably_reliable_p () const
522 if (m_quality >= profile_adjusted)
523 return true;
524 if (!initialized_p ())
525 return false;
526 return m_val < max_probability / 100
527 || m_val > max_probability - max_probability / 100;
530 /* Return false if profile_probability is bogus. */
531 bool verify () const
533 gcc_checking_assert (m_quality != profile_uninitialized);
534 if (m_val == uninitialized_probability)
535 return m_quality == profile_guessed;
536 else if (m_quality < profile_guessed)
537 return false;
538 return m_val <= max_probability;
541 /* Comparsions are three-state and conservative. False is returned if
542 the inequality can not be decided. */
543 bool operator< (const profile_probability &other) const
545 return initialized_p () && other.initialized_p () && m_val < other.m_val;
547 bool operator> (const profile_probability &other) const
549 return initialized_p () && other.initialized_p () && m_val > other.m_val;
552 bool operator<= (const profile_probability &other) const
554 return initialized_p () && other.initialized_p () && m_val <= other.m_val;
556 bool operator>= (const profile_probability &other) const
558 return initialized_p () && other.initialized_p () && m_val >= other.m_val;
561 /* Output THIS to F. */
562 void dump (FILE *f) const;
564 /* Print THIS to stderr. */
565 void debug () const;
567 /* Return true if THIS is known to differ significantly from OTHER. */
568 bool differs_from_p (profile_probability other) const;
569 /* Return if difference is greater than 50%. */
570 bool differs_lot_from_p (profile_probability other) const;
571 /* COUNT1 times event happens with *THIS probability, COUNT2 times OTHER
572 happens with COUNT2 probablity. Return probablity that either *THIS or
573 OTHER happens. */
574 profile_probability combine_with_count (profile_count count1,
575 profile_probability other,
576 profile_count count2) const;
578 /* LTO streaming support. */
579 static profile_probability stream_in (struct lto_input_block *);
580 void stream_out (struct output_block *);
581 void stream_out (struct lto_output_stream *);
584 /* Main data type to hold profile counters in GCC. Profile counts originate
585 either from profile feedback, static profile estimation or both. We do not
586 perform whole program profile propagation and thus profile estimation
587 counters are often local to function, while counters from profile feedback
588 (or special cases of profile estimation) can be used inter-procedurally.
590 There are 3 basic types
591 1) local counters which are result of intra-procedural static profile
592 estimation.
593 2) ipa counters which are result of profile feedback or special case
594 of static profile estimation (such as in function main).
595 3) counters which counts as 0 inter-procedurally (beause given function
596 was never run in train feedback) but they hold local static profile
597 estimate.
599 Counters of type 1 and 3 can not be mixed with counters of different type
600 within operation (because whole function should use one type of counter)
601 with exception that global zero mix in most operations where outcome is
602 well defined.
604 To take local counter and use it inter-procedurally use ipa member function
605 which strips information irelevant at the inter-procedural level.
607 Counters are 61bit integers representing number of executions during the
608 train run or normalized frequency within the function.
610 As the profile is maintained during the compilation, many adjustments are
611 made. Not all transformations can be made precisely, most importantly
612 when code is being duplicated. It also may happen that part of CFG has
613 profile counts known while other do not - for example when LTO optimizing
614 partly profiled program or when profile was lost due to COMDAT merging.
616 For this reason profile_count tracks more information than
617 just unsigned integer and it is also ready for profile mismatches.
618 The API of this data type represent operations that are natural
619 on profile counts - sum, difference and operation with scales and
620 probabilities. All operations are safe by never getting negative counts
621 and they do end up in uninitialized scale if any of the parameters is
622 uninitialized.
624 All comparsions that are three state and handling of probabilities. Thus
625 a < b is not equal to !(a >= b).
627 The following pre-defined counts are available:
629 profile_count::zero () for code that is known to execute zero times at
630 runtime (this can be detected statically i.e. for paths leading to
631 abort ();
632 profile_count::one () for code that is known to execute once (such as
633 main () function
634 profile_count::uninitialized () for unknown execution count.
638 class sreal;
640 class GTY(()) profile_count
642 public:
643 /* Use 62bit to hold basic block counters. Should be at least
644 64bit. Although a counter cannot be negative, we use a signed
645 type to hold various extra stages. */
647 static const int n_bits = 61;
648 static const uint64_t max_count = ((uint64_t) 1 << n_bits) - 2;
649 private:
650 static const uint64_t uninitialized_count = ((uint64_t) 1 << n_bits) - 1;
652 uint64_t m_val : n_bits;
653 enum profile_quality m_quality : 3;
655 /* Return true if both values can meaningfully appear in single function
656 body. We have either all counters in function local or global, otherwise
657 operations between them are not really defined well. */
658 bool compatible_p (const profile_count other) const
660 if (!initialized_p () || !other.initialized_p ())
661 return true;
662 if (*this == profile_count::zero ()
663 || other == profile_count::zero ())
664 return true;
665 return ipa_p () == other.ipa_p ();
667 public:
669 /* Used for counters which are expected to be never executed. */
670 static profile_count zero ()
672 return from_gcov_type (0);
674 static profile_count adjusted_zero ()
676 profile_count c;
677 c.m_val = 0;
678 c.m_quality = profile_adjusted;
679 return c;
681 static profile_count guessed_zero ()
683 profile_count c;
684 c.m_val = 0;
685 c.m_quality = profile_guessed;
686 return c;
688 static profile_count one ()
690 return from_gcov_type (1);
692 /* Value of counters which has not been initialized. Either because
693 initialization did not happen yet or because profile is unknown. */
694 static profile_count uninitialized ()
696 profile_count c;
697 c.m_val = uninitialized_count;
698 c.m_quality = profile_guessed_local;
699 return c;
702 /* Conversion to gcov_type is lossy. */
703 gcov_type to_gcov_type () const
705 gcc_checking_assert (initialized_p ());
706 return m_val;
709 /* Return true if value has been initialized. */
710 bool initialized_p () const
712 return m_val != uninitialized_count;
714 /* Return true if value can be trusted. */
715 bool reliable_p () const
717 return m_quality >= profile_adjusted;
719 /* Return true if vlaue can be operated inter-procedurally. */
720 bool ipa_p () const
722 return !initialized_p () || m_quality >= profile_guessed_global0;
724 /* Return true if quality of profile is precise. */
725 bool precise_p () const
727 return m_quality == profile_precise;
730 /* Get the quality of the count. */
731 enum profile_quality quality () const { return m_quality; }
733 /* When merging basic blocks, the two different profile counts are unified.
734 Return true if this can be done without losing info about profile.
735 The only case we care about here is when first BB contains something
736 that makes it terminate in a way not visible in CFG. */
737 bool ok_for_merging (profile_count other) const
739 if (m_quality < profile_adjusted
740 || other.m_quality < profile_adjusted)
741 return true;
742 return !(other < *this);
745 /* When merging two BBs with different counts, pick common count that looks
746 most representative. */
747 profile_count merge (profile_count other) const
749 if (*this == other || !other.initialized_p ()
750 || m_quality > other.m_quality)
751 return *this;
752 if (other.m_quality > m_quality
753 || other > *this)
754 return other;
755 return *this;
758 /* Basic operations. */
759 bool operator== (const profile_count &other) const
761 return m_val == other.m_val && m_quality == other.m_quality;
763 profile_count operator+ (const profile_count &other) const
765 if (other == profile_count::zero ())
766 return *this;
767 if (*this == profile_count::zero ())
768 return other;
769 if (!initialized_p () || !other.initialized_p ())
770 return profile_count::uninitialized ();
772 profile_count ret;
773 gcc_checking_assert (compatible_p (other));
774 ret.m_val = m_val + other.m_val;
775 ret.m_quality = MIN (m_quality, other.m_quality);
776 return ret;
778 profile_count &operator+= (const profile_count &other)
780 if (other == profile_count::zero ())
781 return *this;
782 if (*this == profile_count::zero ())
784 *this = other;
785 return *this;
787 if (!initialized_p () || !other.initialized_p ())
788 return *this = profile_count::uninitialized ();
789 else
791 gcc_checking_assert (compatible_p (other));
792 m_val += other.m_val;
793 m_quality = MIN (m_quality, other.m_quality);
795 return *this;
797 profile_count operator- (const profile_count &other) const
799 if (*this == profile_count::zero () || other == profile_count::zero ())
800 return *this;
801 if (!initialized_p () || !other.initialized_p ())
802 return profile_count::uninitialized ();
803 gcc_checking_assert (compatible_p (other));
804 profile_count ret;
805 ret.m_val = m_val >= other.m_val ? m_val - other.m_val : 0;
806 ret.m_quality = MIN (m_quality, other.m_quality);
807 return ret;
809 profile_count &operator-= (const profile_count &other)
811 if (*this == profile_count::zero () || other == profile_count::zero ())
812 return *this;
813 if (!initialized_p () || !other.initialized_p ())
814 return *this = profile_count::uninitialized ();
815 else
817 gcc_checking_assert (compatible_p (other));
818 m_val = m_val >= other.m_val ? m_val - other.m_val: 0;
819 m_quality = MIN (m_quality, other.m_quality);
821 return *this;
824 /* Return false if profile_count is bogus. */
825 bool verify () const
827 gcc_checking_assert (m_quality != profile_uninitialized);
828 return m_val != uninitialized_count || m_quality == profile_guessed_local;
831 /* Comparsions are three-state and conservative. False is returned if
832 the inequality can not be decided. */
833 bool operator< (const profile_count &other) const
835 if (!initialized_p () || !other.initialized_p ())
836 return false;
837 if (*this == profile_count::zero ())
838 return !(other == profile_count::zero ());
839 if (other == profile_count::zero ())
840 return false;
841 gcc_checking_assert (compatible_p (other));
842 return m_val < other.m_val;
844 bool operator> (const profile_count &other) const
846 if (!initialized_p () || !other.initialized_p ())
847 return false;
848 if (*this == profile_count::zero ())
849 return false;
850 if (other == profile_count::zero ())
851 return !(*this == profile_count::zero ());
852 gcc_checking_assert (compatible_p (other));
853 return initialized_p () && other.initialized_p () && m_val > other.m_val;
855 bool operator< (const gcov_type other) const
857 gcc_checking_assert (ipa_p ());
858 gcc_checking_assert (other >= 0);
859 return initialized_p () && m_val < (uint64_t) other;
861 bool operator> (const gcov_type other) const
863 gcc_checking_assert (ipa_p ());
864 gcc_checking_assert (other >= 0);
865 return initialized_p () && m_val > (uint64_t) other;
868 bool operator<= (const profile_count &other) const
870 if (!initialized_p () || !other.initialized_p ())
871 return false;
872 if (*this == profile_count::zero ())
873 return true;
874 if (other == profile_count::zero ())
875 return (*this == profile_count::zero ());
876 gcc_checking_assert (compatible_p (other));
877 return m_val <= other.m_val;
879 bool operator>= (const profile_count &other) const
881 if (!initialized_p () || !other.initialized_p ())
882 return false;
883 if (other == profile_count::zero ())
884 return true;
885 if (*this == profile_count::zero ())
886 return !(other == profile_count::zero ());
887 gcc_checking_assert (compatible_p (other));
888 return m_val >= other.m_val;
890 bool operator<= (const gcov_type other) const
892 gcc_checking_assert (ipa_p ());
893 gcc_checking_assert (other >= 0);
894 return initialized_p () && m_val <= (uint64_t) other;
896 bool operator>= (const gcov_type other) const
898 gcc_checking_assert (ipa_p ());
899 gcc_checking_assert (other >= 0);
900 return initialized_p () && m_val >= (uint64_t) other;
902 /* Return true when value is not zero and can be used for scaling.
903 This is different from *this > 0 because that requires counter to
904 be IPA. */
905 bool nonzero_p () const
907 return initialized_p () && m_val != 0;
910 /* Make counter forcingly nonzero. */
911 profile_count force_nonzero () const
913 if (!initialized_p ())
914 return *this;
915 profile_count ret = *this;
916 if (ret.m_val == 0)
918 ret.m_val = 1;
919 ret.m_quality = MIN (m_quality, profile_adjusted);
921 return ret;
924 profile_count max (profile_count other) const
926 if (!initialized_p ())
927 return other;
928 if (!other.initialized_p ())
929 return *this;
930 if (*this == profile_count::zero ())
931 return other;
932 if (other == profile_count::zero ())
933 return *this;
934 gcc_checking_assert (compatible_p (other));
935 if (m_val < other.m_val || (m_val == other.m_val
936 && m_quality < other.m_quality))
937 return other;
938 return *this;
941 /* PROB is a probability in scale 0...REG_BR_PROB_BASE. Scale counter
942 accordingly. */
943 profile_count apply_probability (int prob) const
945 gcc_checking_assert (prob >= 0 && prob <= REG_BR_PROB_BASE);
946 if (m_val == 0)
947 return *this;
948 if (!initialized_p ())
949 return profile_count::uninitialized ();
950 profile_count ret;
951 ret.m_val = RDIV (m_val * prob, REG_BR_PROB_BASE);
952 ret.m_quality = MIN (m_quality, profile_adjusted);
953 return ret;
956 /* Scale counter according to PROB. */
957 profile_count apply_probability (profile_probability prob) const
959 if (*this == profile_count::zero ())
960 return *this;
961 if (prob == profile_probability::never ())
962 return profile_count::zero ();
963 if (!initialized_p ())
964 return profile_count::uninitialized ();
965 profile_count ret;
966 uint64_t tmp;
967 safe_scale_64bit (m_val, prob.m_val, profile_probability::max_probability,
968 &tmp);
969 ret.m_val = tmp;
970 ret.m_quality = MIN (m_quality, prob.m_quality);
971 return ret;
973 /* Return *THIS * NUM / DEN. */
974 profile_count apply_scale (int64_t num, int64_t den) const
976 if (m_val == 0)
977 return *this;
978 if (!initialized_p ())
979 return profile_count::uninitialized ();
980 profile_count ret;
981 uint64_t tmp;
983 gcc_checking_assert (num >= 0 && den > 0);
984 safe_scale_64bit (m_val, num, den, &tmp);
985 ret.m_val = MIN (tmp, max_count);
986 ret.m_quality = MIN (m_quality, profile_adjusted);
987 return ret;
989 profile_count apply_scale (profile_count num, profile_count den) const
991 if (*this == profile_count::zero ())
992 return *this;
993 if (num == profile_count::zero ())
994 return num;
995 if (!initialized_p () || !num.initialized_p () || !den.initialized_p ())
996 return profile_count::uninitialized ();
997 if (num == den)
998 return *this;
999 gcc_checking_assert (den.m_val);
1001 profile_count ret;
1002 uint64_t val;
1003 safe_scale_64bit (m_val, num.m_val, den.m_val, &val);
1004 ret.m_val = MIN (val, max_count);
1005 ret.m_quality = MIN (MIN (MIN (m_quality, profile_adjusted),
1006 num.m_quality), den.m_quality);
1007 if (num.ipa_p () && !ret.ipa_p ())
1008 ret.m_quality = MIN (num.m_quality, profile_guessed);
1009 return ret;
1012 /* Return THIS with quality dropped to GUESSED_LOCAL. */
1013 profile_count guessed_local () const
1015 profile_count ret = *this;
1016 if (!initialized_p ())
1017 return *this;
1018 ret.m_quality = profile_guessed_local;
1019 return ret;
1022 /* We know that profile is globally 0 but keep local profile if present. */
1023 profile_count global0 () const
1025 profile_count ret = *this;
1026 if (!initialized_p ())
1027 return *this;
1028 ret.m_quality = profile_guessed_global0;
1029 return ret;
1032 /* We know that profile is globally adjusted 0 but keep local profile
1033 if present. */
1034 profile_count global0adjusted () const
1036 profile_count ret = *this;
1037 if (!initialized_p ())
1038 return *this;
1039 ret.m_quality = profile_guessed_global0adjusted;
1040 return ret;
1043 /* Return THIS with quality dropped to GUESSED. */
1044 profile_count guessed () const
1046 profile_count ret = *this;
1047 ret.m_quality = MIN (ret.m_quality, profile_guessed);
1048 return ret;
1051 /* Return variant of profile counte which is always safe to compare
1052 acorss functions. */
1053 profile_count ipa () const
1055 if (m_quality > profile_guessed_global0adjusted)
1056 return *this;
1057 if (m_quality == profile_guessed_global0)
1058 return profile_count::zero ();
1059 if (m_quality == profile_guessed_global0adjusted)
1060 return profile_count::adjusted_zero ();
1061 return profile_count::uninitialized ();
1064 /* Return THIS with quality dropped to AFDO. */
1065 profile_count afdo () const
1067 profile_count ret = *this;
1068 ret.m_quality = profile_afdo;
1069 return ret;
1072 /* Return probability of event with counter THIS within event with counter
1073 OVERALL. */
1074 profile_probability probability_in (const profile_count overall) const
1076 if (*this == profile_count::zero ()
1077 && !(overall == profile_count::zero ()))
1078 return profile_probability::never ();
1079 if (!initialized_p () || !overall.initialized_p ()
1080 || !overall.m_val)
1081 return profile_probability::uninitialized ();
1082 if (*this == overall && m_quality == profile_precise)
1083 return profile_probability::always ();
1084 profile_probability ret;
1085 gcc_checking_assert (compatible_p (overall));
1087 if (overall.m_val < m_val)
1089 ret.m_val = profile_probability::max_probability;
1090 ret.m_quality = profile_guessed;
1091 return ret;
1093 else
1094 ret.m_val = RDIV (m_val * profile_probability::max_probability,
1095 overall.m_val);
1096 ret.m_quality = MIN (MAX (MIN (m_quality, overall.m_quality),
1097 profile_guessed), profile_adjusted);
1098 return ret;
1101 int to_frequency (struct function *fun) const;
1102 int to_cgraph_frequency (profile_count entry_bb_count) const;
1103 sreal to_sreal_scale (profile_count in, bool *known = NULL) const;
1105 /* Output THIS to F. */
1106 void dump (FILE *f) const;
1108 /* Print THIS to stderr. */
1109 void debug () const;
1111 /* Return true if THIS is known to differ significantly from OTHER. */
1112 bool differs_from_p (profile_count other) const;
1114 /* We want to scale profile across function boundary from NUM to DEN.
1115 Take care of the side case when NUM and DEN are zeros of incompatible
1116 kinds. */
1117 static void adjust_for_ipa_scaling (profile_count *num, profile_count *den);
1119 /* THIS is a count of bb which is known to be executed IPA times.
1120 Combine this information into bb counter. This means returning IPA
1121 if it is nonzero, not changing anything if IPA is uninitialized
1122 and if IPA is zero, turning THIS into corresponding local profile with
1123 global0. */
1124 profile_count combine_with_ipa_count (profile_count ipa);
1126 /* The profiling runtime uses gcov_type, which is usually 64bit integer.
1127 Conversions back and forth are used to read the coverage and get it
1128 into internal representation. */
1129 static profile_count from_gcov_type (gcov_type v);
1131 /* LTO streaming support. */
1132 static profile_count stream_in (struct lto_input_block *);
1133 void stream_out (struct output_block *);
1134 void stream_out (struct lto_output_stream *);
1136 #endif