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1 /* Calculate branch probabilities, and basic block execution counts.
2 Copyright (C) 1990, 1991, 1992, 1993, 1994, 1996, 1997, 1998, 1999,
3 2000, 2001, 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
4 Contributed by James E. Wilson, UC Berkeley/Cygnus Support;
5 based on some ideas from Dain Samples of UC Berkeley.
6 Further mangling by Bob Manson, Cygnus Support.
8 This file is part of GCC.
10 GCC is free software; you can redistribute it and/or modify it under
11 the terms of the GNU General Public License as published by the Free
12 Software Foundation; either version 2, or (at your option) any later
13 version.
15 GCC is distributed in the hope that it will be useful, but WITHOUT ANY
16 WARRANTY; without even the implied warranty of MERCHANTABILITY or
17 FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
18 for more details.
20 You should have received a copy of the GNU General Public License
21 along with GCC; see the file COPYING. If not, write to the Free
22 Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
23 02110-1301, USA. */
25 /* Generate basic block profile instrumentation and auxiliary files.
26 Profile generation is optimized, so that not all arcs in the basic
27 block graph need instrumenting. First, the BB graph is closed with
28 one entry (function start), and one exit (function exit). Any
29 ABNORMAL_EDGE cannot be instrumented (because there is no control
30 path to place the code). We close the graph by inserting fake
31 EDGE_FAKE edges to the EXIT_BLOCK, from the sources of abnormal
32 edges that do not go to the exit_block. We ignore such abnormal
33 edges. Naturally these fake edges are never directly traversed,
34 and so *cannot* be directly instrumented. Some other graph
35 massaging is done. To optimize the instrumentation we generate the
36 BB minimal span tree, only edges that are not on the span tree
37 (plus the entry point) need instrumenting. From that information
38 all other edge counts can be deduced. By construction all fake
39 edges must be on the spanning tree. We also attempt to place
40 EDGE_CRITICAL edges on the spanning tree.
42 The auxiliary files generated are <dumpbase>.gcno (at compile time)
43 and <dumpbase>.gcda (at run time). The format is
44 described in full in gcov-io.h. */
46 /* ??? Register allocation should use basic block execution counts to
47 give preference to the most commonly executed blocks. */
49 /* ??? Should calculate branch probabilities before instrumenting code, since
50 then we can use arc counts to help decide which arcs to instrument. */
72 /* Hooks for profiling. */
75 /* Additional information about the edges we need. */
79 /* Is on the spanning tree. */
82 /* Pretend this edge does not exist (it is abnormal and we've
83 inserted a fake to compensate). */
85 };
90 /* Number of successor and predecessor edges. */
91 gcov_type succ_count;
92 gcov_type pred_count;
93 };
95 #define EDGE_INFO(e) ((struct edge_info *) (e)->aux)
96 #define BB_INFO(b) ((struct bb_info *) (b)->aux)
98 /* Counter summary from the last set of coverage counts read. */
102 /* Collect statistics on the performance of this pass for the entire source
103 file. */
116 /* Forward declarations. */
126 \f
127 /* Add edge instrumentation code to the entire insn chain.
129 F is the first insn of the chain.
130 NUM_BLOCKS is the number of basic blocks found in F. */
132 static unsigned
134 {
137 basic_block bb;
140 {
141 edge e;
142 edge_iterator ei;
145 {
149 {
156 }
157 }
158 }
164 }
166 /* Add code to measure histograms for values in list VALUES. */
167 static void
169 {
172 /* Emit code to generate the histograms before the insns. */
175 {
178 {
197 }
202 {
221 }
222 }
223 }
224 \f
226 /* Computes hybrid profile for all matching entries in da_file. */
230 {
232 basic_block bb;
235 /* Count the edges to be (possibly) instrumented. */
237 {
238 edge e;
239 edge_iterator ei;
243 num_edges++;
244 }
255 }
256 \f
258 /* Compute the branch probabilities for the various branches.
259 Annotate them accordingly. */
261 static void
263 {
264 basic_block bb;
275 /* Very simple sanity checks so we catch bugs in our profiling code. */
277 {
279 {
282 }
285 {
288 }
289 }
291 /* Attach extra info block to each bb. */
295 {
296 edge e;
297 edge_iterator ei;
305 }
307 /* Avoid predicting entry on exit nodes. */
311 /* For each edge not on the spanning tree, set its execution count from
312 the .da file. */
314 /* The first count in the .da file is the number of times that the function
315 was entered. This is the exec_count for block zero. */
318 {
319 edge e;
320 edge_iterator ei;
324 {
325 num_edges++;
327 {
330 {
333 }
334 }
335 else
342 {
347 }
348 }
349 }
354 /* For every block in the file,
355 - if every exit/entrance edge has a known count, then set the block count
356 - if the block count is known, and every exit/entrance edge but one has
357 a known execution count, then set the count of the remaining edge
359 As edge counts are set, decrement the succ/pred count, but don't delete
360 the edge, that way we can easily tell when all edges are known, or only
361 one edge is unknown. */
363 /* The order that the basic blocks are iterated through is important.
364 Since the code that finds spanning trees starts with block 0, low numbered
365 edges are put on the spanning tree in preference to high numbered edges.
366 Hence, most instrumented edges are at the end. Graph solving works much
367 faster if we propagate numbers from the end to the start.
369 This takes an average of slightly more than 3 passes. */
374 {
375 passes++;
378 {
381 {
383 {
384 edge e;
385 edge_iterator ei;
393 }
395 {
396 edge e;
397 edge_iterator ei;
405 }
406 }
408 {
410 {
411 edge e;
412 edge_iterator ei;
415 /* One of the counts will be invalid, but it is zero,
416 so adding it in also doesn't hurt. */
420 /* Seedgeh for the invalid edge, and set its count. */
425 /* Calculate count for remaining edge by conservation. */
435 }
437 {
438 edge e;
439 edge_iterator ei;
442 /* One of the counts will be invalid, but it is zero,
443 so adding it in also doesn't hurt. */
447 /* Search for the invalid edge, and set its count. */
452 /* Calculate count for remaining edge by conservation. */
462 }
463 }
464 }
465 }
473 /* If the graph has been correctly solved, every block will have a
474 succ and pred count of zero. */
476 {
478 }
480 /* For every edge, calculate its branch probability and add a reg_note
481 to the branch insn to indicate this. */
489 {
490 edge e;
491 edge_iterator ei;
494 {
498 }
500 {
501 /* Function may return twice in the cased the called function is
502 setjmp or calls fork, but we can't represent this by extra
503 edge from the entry, since extra edge from the exit is
504 already present. We get negative frequency from the entry
505 point. */
510 {
513 }
515 {
520 }
521 }
523 {
529 {
531 edge e;
534 /* Find the branch edge. It is possible that we do have fake
535 edges here. */
547 num_branches++;
548 }
549 }
550 /* As a last resort, distribute the probabilities evenly.
551 Use simple heuristics that if there are normal edges,
552 give all abnormals frequency of 0, otherwise distribute the
553 frequency over abnormals (this is the case of noreturn
554 calls). */
556 {
561 total ++;
563 {
567 else
569 }
570 else
571 {
575 }
580 }
581 }
585 {
588 num_never_executed);
602 }
605 }
607 /* Load value histograms values whose description is stored in VALUES array
608 from .gcda file. */
610 static void
612 {
623 {
626 }
630 {
632 {
635 }
643 }
648 {
661 }
666 }
668 /* The entry basic block will be moved around so that it has index=1,
669 there is nothing at index 0 and the exit is at n_basic_block. */
670 #define BB_TO_GCOV_INDEX(bb) ((bb)->index - 1)
671 /* When passed NULL as file_name, initialize.
672 When passed something else, output the necessary commands to change
673 line to LINE and offset to FILE_NAME. */
674 static void
677 {
683 {
687 }
693 {
695 {
699 }
701 /* If this is a new source file, then output the
702 file's name to the .bb file. */
704 {
708 }
710 {
713 }
714 }
715 }
717 /* Instrument and/or analyze program behavior based on program flow graph.
718 In either case, this function builds a flow graph for the function being
719 compiled. The flow graph is stored in BB_GRAPH.
721 When FLAG_PROFILE_ARCS is nonzero, this function instruments the edges in
722 the flow graph that are needed to reconstruct the dynamic behavior of the
723 flow graph.
725 When FLAG_BRANCH_PROBABILITIES is nonzero, this function reads auxiliary
726 information from a data file containing edge count information from previous
727 executions of the function being compiled. In this case, the flow graph is
728 annotated with actual execution counts, which are later propagated into the
729 rtl for optimization purposes.
731 Main entry point of this file. */
733 void
735 {
736 basic_block bb;
743 total_num_times_called++;
748 /* We can't handle cyclic regions constructed using abnormal edges.
749 To avoid these we replace every source of abnormal edge by a fake
750 edge from entry node and every destination by fake edge to exit.
751 This keeps graph acyclic and our calculation exact for all normal
752 edges except for exit and entrance ones.
754 We also add fake exit edges for each call and asm statement in the
755 basic, since it may not return. */
758 {
761 edge e;
762 edge_iterator ei;
764 /* Functions returning multiple times are not handled by extra edges.
765 Instead we simply allow negative counts on edges from exit to the
766 block past call and corresponding probabilities. We can't go
767 with the extra edges because that would result in flowgraph that
768 needs to have fake edges outside the spanning tree. */
771 {
772 block_stmt_iterator bsi;
775 /* It may happen that there are compiler generated statements
776 without a locus at all. Go through the basic block from the
777 last to the first statement looking for a locus. */
779 {
783 }
785 /* Edge with goto locus might get wrong coverage info unless
786 it is the only edge out of BB.
787 Don't do that when the locuses match, so
788 if (blah) goto something;
789 is not computed twice. */
793 #ifdef USE_MAPPED_LOCATION
798 #else
801 #endif
802 {
805 }
811 }
813 {
819 }
822 {
827 }
829 {
834 }
835 }
841 /* The basic blocks are expected to be numbered sequentially. */
846 {
850 /* Mark edges we've replaced by fake edges above as ignored. */
853 {
855 ignored_edges++;
856 }
857 }
859 /* Create spanning tree from basic block graph, mark each edge that is
860 on the spanning tree. We insert as many abnormal and critical edges
861 as possible to minimize number of edge splits necessary. */
865 /* Fake edges that are not on the tree will not be instrumented, so
866 mark them ignored. */
868 {
875 {
877 ignored_edges++;
878 }
879 else
880 num_instrumented++;
881 }
895 /* Write the data from which gcov can reconstruct the basic block
896 graph. */
898 /* Basic block flags */
900 {
901 gcov_position_t offset;
907 }
909 /* Keep all basic block indexes nonnegative in the gcov output.
910 Index 0 is used for entry block, last index is for exit block.
911 */
915 /* Arcs */
917 {
918 gcov_position_t offset;
921 {
922 edge e;
923 edge_iterator ei;
929 {
932 {
941 /* On trees we don't have fallthru flags, but we can
942 recompute them from CFG shape. */
949 }
950 }
953 }
954 }
956 /* Line numbers. */
958 {
959 gcov_position_t offset;
961 /* Initialize the output. */
965 {
966 block_stmt_iterator bsi;
971 {
972 expanded_location curr_location =
976 }
979 {
984 }
986 /* Notice GOTO expressions we eliminated while constructing the
987 CFG. */
989 {
990 /* ??? source_locus type is marked deprecated in input.h. */
992 /* ??? The FILE/LINE API is inconsistent for these cases. */
993 #ifdef USE_MAPPED_LOCATION
996 #else
999 #endif
1000 }
1003 {
1004 /* A file of NULL indicates the end of run. */
1008 }
1009 }
1010 }
1014 #undef BB_TO_GCOV_INDEX
1020 {
1024 }
1028 /* For each edge not on the spanning tree, add counting code. */
1031 {
1043 /* Commit changes done by instrumentation. */
1045 }
1054 }
1055 \f
1056 /* Union find algorithm implementation for the basic blocks using
1057 aux fields. */
1059 static basic_block
1061 {
1067 /* Compress path. */
1069 {
1073 }
1075 }
1077 static void
1079 {
1083 /* ??? I don't have a place for the rank field. OK. Lets go w/o it,
1084 this code is unlikely going to be performance problem anyway. */
1088 }
1089 \f
1090 /* This function searches all of the edges in the program flow graph, and puts
1091 as many bad edges as possible onto the spanning tree. Bad edges include
1092 abnormals edges, which can't be instrumented at the moment. Since it is
1093 possible for fake edges to form a cycle, we will have to develop some
1094 better way in the future. Also put critical edges to the tree, since they
1095 are more expensive to instrument. */
1097 static void
1099 {
1102 basic_block bb;
1104 /* We use aux field for standard union-find algorithm. */
1108 /* Add fake edge exit to entry we can't instrument. */
1111 /* First add all abnormal edges to the tree unless they form a cycle. Also
1112 add all edges to EXIT_BLOCK_PTR to avoid inserting profiling code behind
1113 setting return value from function. */
1115 {
1121 {
1127 }
1128 }
1130 /* Now insert all critical edges to the tree unless they form a cycle. */
1132 {
1136 {
1142 }
1143 }
1145 /* And now the rest. */
1147 {
1151 {
1157 }
1158 }
1162 }
1163 \f
1164 /* Perform file-level initialization for branch-prob processing. */
1166 void
1168 {
1182 }
1184 /* Performs file-level cleanup after branch-prob processing
1185 is completed. */
1187 void
1189 {
1191 {
1194 total_num_blocks);
1197 total_num_edges_ignored);
1199 total_num_edges_instrumented);
1201 total_num_blocks_created);
1203 total_num_passes);
1209 total_num_branches);
1211 total_num_never_executed);
1213 {
1220 }
1221 }
1222 }
1224 /* Set up hooks to enable tree-based profiling. */
1226 void
1228 {
1231 }