1 /* Gcov.c: prepend line execution counts and branch probabilities to a
3 Copyright (C) 1990-2017 Free Software Foundation, Inc.
4 Contributed by James E. Wilson of Cygnus Support.
5 Mangled by Bob Manson of Cygnus Support.
6 Mangled further by Nathan Sidwell <nathan@codesourcery.com>
8 Gcov is free software; you can redistribute it and/or modify
9 it under the terms of the GNU General Public License as published by
10 the Free Software Foundation; either version 3, or (at your option)
13 Gcov is distributed in the hope that it will be useful,
14 but WITHOUT ANY WARRANTY; without even the implied warranty of
15 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 GNU General Public License for more details.
18 You should have received a copy of the GNU General Public License
19 along with Gcov; see the file COPYING3. If not see
20 <http://www.gnu.org/licenses/>. */
22 /* ??? Print a list of the ten blocks with the highest execution counts,
23 and list the line numbers corresponding to those blocks. Also, perhaps
24 list the line numbers with the highest execution counts, only printing
25 the first if there are several which are all listed in the same block. */
27 /* ??? Should have an option to print the number of basic blocks, and the
28 percent of them that are covered. */
30 /* Need an option to show individual block counts, and show
31 probabilities of fall through arcs. */
35 #include "coretypes.h"
38 #include "diagnostic.h"
54 /* The gcno file is generated by -ftest-coverage option. The gcda file is
55 generated by a program compiled with -fprofile-arcs. Their formats
56 are documented in gcov-io.h. */
58 /* The functions in this file for creating and solution program flow graphs
59 are very similar to functions in the gcc source file profile.c. In
60 some places we make use of the knowledge of how profile.c works to
61 select particular algorithms here. */
63 /* The code validates that the profile information read in corresponds
64 to the code currently being compiled. Rather than checking for
65 identical files, the code below compares a checksum on the CFG
66 (based on the order of basic blocks and the arcs in the CFG). If
67 the CFG checksum in the gcda file match the CFG checksum in the
68 gcno file, the profile data will be used. */
70 /* This is the size of the buffer used to read in source file lines. */
76 /* Describes an arc between two basic blocks. */
78 typedef struct arc_info
80 /* source and destination blocks. */
81 struct block_info
*src
;
82 struct block_info
*dst
;
84 /* transition counts. */
86 /* used in cycle search, so that we do not clobber original counts. */
89 unsigned int count_valid
: 1;
90 unsigned int on_tree
: 1;
91 unsigned int fake
: 1;
92 unsigned int fall_through
: 1;
94 /* Arc to a catch handler. */
95 unsigned int is_throw
: 1;
97 /* Arc is for a function that abnormally returns. */
98 unsigned int is_call_non_return
: 1;
100 /* Arc is for catch/setjmp. */
101 unsigned int is_nonlocal_return
: 1;
103 /* Is an unconditional branch. */
104 unsigned int is_unconditional
: 1;
106 /* Loop making arc. */
107 unsigned int cycle
: 1;
109 /* Next branch on line. */
110 struct arc_info
*line_next
;
112 /* Links to next arc on src and dst lists. */
113 struct arc_info
*succ_next
;
114 struct arc_info
*pred_next
;
117 /* Describes a basic block. Contains lists of arcs to successor and
118 predecessor blocks. */
120 typedef struct block_info
122 /* Chain of exit and entry arcs. */
126 /* Number of unprocessed exit and entry arcs. */
130 /* Block execution count. */
133 unsigned count_valid
: 1;
134 unsigned valid_chain
: 1;
135 unsigned invalid_chain
: 1;
136 unsigned exceptional
: 1;
138 /* Block is a call instrumenting site. */
139 unsigned is_call_site
: 1; /* Does the call. */
140 unsigned is_call_return
: 1; /* Is the return. */
142 /* Block is a landing pad for longjmp or throw. */
143 unsigned is_nonlocal_return
: 1;
149 /* Array of line numbers and source files. source files are
150 introduced by a linenumber of zero, the next 'line number' is
151 the number of the source file. Always starts with a source
155 } line
; /* Valid until blocks are linked onto lines */
158 /* Single line graph cycle workspace. Used for all-blocks
162 } cycle
; /* Used in all-blocks mode, after blocks are linked onto
166 /* Temporary chain for solving graph, and for chaining blocks on one
168 struct block_info
*chain
;
172 /* Describes a single function. Contains an array of basic blocks. */
174 typedef struct function_info
176 /* Name of function. */
178 char *demangled_name
;
180 unsigned lineno_checksum
;
181 unsigned cfg_checksum
;
183 /* The graph contains at least one fake incoming edge. */
184 unsigned has_catch
: 1;
186 /* Array of basic blocks. Like in GCC, the entry block is
187 at blocks[0] and the exit block is at blocks[1]. */
188 #define ENTRY_BLOCK (0)
189 #define EXIT_BLOCK (1)
192 unsigned blocks_executed
;
194 /* Raw arc coverage counts. */
198 /* First line number & file. */
202 /* Next function in same source file. */
203 struct function_info
*next_file_fn
;
206 struct function_info
*next
;
209 /* Describes coverage of a file or function. */
211 typedef struct coverage_info
217 int branches_executed
;
226 /* Describes a single line of source. Contains a chain of basic blocks
229 typedef struct line_info
231 /* Return true when NEEDLE is one of basic blocks the line belongs to. */
232 bool has_block (block_t
*needle
);
234 gcov_type count
; /* execution count */
237 arc_t
*branches
; /* branches from blocks that end on this
238 line. Used for branch-counts when not
240 block_t
*blocks
; /* blocks which start on this line. Used
241 in all-blocks mode. */
244 unsigned unexceptional
: 1;
248 line_t::has_block (block_t
*needle
)
250 for (block_t
*n
= u
.blocks
; n
; n
= n
->chain
)
257 /* Describes a file mentioned in the block graph. Contains an array
260 typedef struct source_info
262 /* Canonical name of source file. */
266 /* Array of line information. */
272 /* Functions in this source file. These are in ascending line
274 function_t
*functions
;
277 typedef struct name_map
279 char *name
; /* Source file name */
280 unsigned src
; /* Source file */
283 /* Holds a list of function basic block graphs. */
285 static function_t
*functions
;
286 static function_t
**fn_end
= &functions
;
288 static source_t
*sources
; /* Array of source files */
289 static unsigned n_sources
; /* Number of sources */
290 static unsigned a_sources
; /* Allocated sources */
292 static name_map_t
*names
; /* Mapping of file names to sources */
293 static unsigned n_names
; /* Number of names */
294 static unsigned a_names
; /* Allocated names */
296 /* This holds data summary information. */
298 static unsigned object_runs
;
299 static unsigned program_count
;
301 static unsigned total_lines
;
302 static unsigned total_executed
;
304 /* Modification time of graph file. */
306 static time_t bbg_file_time
;
308 /* Name of the notes (gcno) output file. The "bbg" prefix is for
309 historical reasons, when the notes file contained only the
310 basic block graph notes. */
312 static char *bbg_file_name
;
314 /* Stamp of the bbg file */
315 static unsigned bbg_stamp
;
317 /* Name and file pointer of the input file for the count data (gcda). */
319 static char *da_file_name
;
321 /* Data file is missing. */
323 static int no_data_file
;
325 /* If there is several input files, compute and display results after
326 reading all data files. This way if two or more gcda file refer to
327 the same source file (eg inline subprograms in a .h file), the
330 static int multiple_files
= 0;
332 /* Output branch probabilities. */
334 static int flag_branches
= 0;
336 /* Show unconditional branches too. */
337 static int flag_unconditional
= 0;
339 /* Output a gcov file if this is true. This is on by default, and can
340 be turned off by the -n option. */
342 static int flag_gcov_file
= 1;
344 /* Output progress indication if this is true. This is off by default
345 and can be turned on by the -d option. */
347 static int flag_display_progress
= 0;
349 /* Output *.gcov file in intermediate format used by 'lcov'. */
351 static int flag_intermediate_format
= 0;
353 /* Output demangled function names. */
355 static int flag_demangled_names
= 0;
357 /* For included files, make the gcov output file name include the name
358 of the input source file. For example, if x.h is included in a.c,
359 then the output file name is a.c##x.h.gcov instead of x.h.gcov. */
361 static int flag_long_names
= 0;
363 /* For situations when a long name can potentially hit filesystem path limit,
364 let's calculate md5sum of the path and append it to a file name. */
366 static int flag_hash_filenames
= 0;
368 /* Output count information for every basic block, not merely those
369 that contain line number information. */
371 static int flag_all_blocks
= 0;
373 /* Output summary info for each function. */
375 static int flag_function_summary
= 0;
377 /* Object directory file prefix. This is the directory/file where the
378 graph and data files are looked for, if nonzero. */
380 static char *object_directory
= 0;
382 /* Source directory prefix. This is removed from source pathnames
383 that match, when generating the output file name. */
385 static char *source_prefix
= 0;
386 static size_t source_length
= 0;
388 /* Only show data for sources with relative pathnames. Absolute ones
389 usually indicate a system header file, which although it may
390 contain inline functions, is usually uninteresting. */
391 static int flag_relative_only
= 0;
393 /* Preserve all pathname components. Needed when object files and
394 source files are in subdirectories. '/' is mangled as '#', '.' is
395 elided and '..' mangled to '^'. */
397 static int flag_preserve_paths
= 0;
399 /* Output the number of times a branch was taken as opposed to the percentage
400 of times it was taken. */
402 static int flag_counts
= 0;
404 /* Forward declarations. */
405 static int process_args (int, char **);
406 static void print_usage (int) ATTRIBUTE_NORETURN
;
407 static void print_version (void) ATTRIBUTE_NORETURN
;
408 static void process_file (const char *);
409 static void generate_results (const char *);
410 static void create_file_names (const char *);
411 static int name_search (const void *, const void *);
412 static int name_sort (const void *, const void *);
413 static char *canonicalize_name (const char *);
414 static unsigned find_source (const char *);
415 static function_t
*read_graph_file (void);
416 static int read_count_file (function_t
*);
417 static void solve_flow_graph (function_t
*);
418 static void find_exception_blocks (function_t
*);
419 static void add_branch_counts (coverage_t
*, const arc_t
*);
420 static void add_line_counts (coverage_t
*, function_t
*);
421 static void executed_summary (unsigned, unsigned);
422 static void function_summary (const coverage_t
*, const char *);
423 static const char *format_gcov (gcov_type
, gcov_type
, int);
424 static void accumulate_line_counts (source_t
*);
425 static void output_gcov_file (const char *, source_t
*);
426 static int output_branch_count (FILE *, int, const arc_t
*);
427 static void output_lines (FILE *, const source_t
*);
428 static char *make_gcov_file_name (const char *, const char *);
429 static char *mangle_name (const char *, char *);
430 static void release_structures (void);
431 static void release_function (function_t
*);
432 extern int main (int, char **);
435 There are a bajillion algorithms that do this. Boost's function is named
436 hawick_cycles, so I used the algorithm by K. A. Hawick and H. A. James in
437 "Enumerating Circuits and Loops in Graphs with Self-Arcs and Multiple-Arcs"
438 (url at <http://complexity.massey.ac.nz/cstn/013/cstn-013.pdf>).
440 The basic algorithm is simple: effectively, we're finding all simple paths
441 in a subgraph (that shrinks every iteration). Duplicates are filtered by
442 "blocking" a path when a node is added to the path (this also prevents non-
443 simple paths)--the node is unblocked only when it participates in a cycle.
446 typedef vector
<arc_t
*> arc_vector_t
;
447 typedef vector
<const block_t
*> block_vector_t
;
449 /* Enum with types of loop in CFG. */
458 /* Loop_type operator that merges two values: A and B. */
460 inline loop_type
& operator |= (loop_type
& a
, loop_type b
)
462 return a
= static_cast<loop_type
> (a
| b
);
465 /* Handle cycle identified by EDGES, where the function finds minimum cs_count
466 and subtract the value from all counts. The subtracted value is added
467 to COUNT. Returns type of loop. */
470 handle_cycle (const arc_vector_t
&edges
, int64_t &count
)
472 /* Find the minimum edge of the cycle, and reduce all nodes in the cycle by
474 int64_t cycle_count
= INTTYPE_MAXIMUM (int64_t);
475 for (unsigned i
= 0; i
< edges
.size (); i
++)
477 int64_t ecount
= edges
[i
]->cs_count
;
478 if (cycle_count
> ecount
)
479 cycle_count
= ecount
;
481 count
+= cycle_count
;
482 for (unsigned i
= 0; i
< edges
.size (); i
++)
483 edges
[i
]->cs_count
-= cycle_count
;
485 return cycle_count
< 0 ? NEGATIVE_LOOP
: LOOP
;
488 /* Unblock a block U from BLOCKED. Apart from that, iterate all blocks
489 blocked by U in BLOCK_LISTS. */
492 unblock (const block_t
*u
, block_vector_t
&blocked
,
493 vector
<block_vector_t
> &block_lists
)
495 block_vector_t::iterator it
= find (blocked
.begin (), blocked
.end (), u
);
496 if (it
== blocked
.end ())
499 unsigned index
= it
- blocked
.begin ();
502 for (block_vector_t::iterator it2
= block_lists
[index
].begin ();
503 it2
!= block_lists
[index
].end (); it2
++)
504 unblock (*it2
, blocked
, block_lists
);
505 for (unsigned j
= 0; j
< block_lists
[index
].size (); j
++)
506 unblock (u
, blocked
, block_lists
);
508 block_lists
.erase (block_lists
.begin () + index
);
511 /* Find circuit going to block V, PATH is provisional seen cycle.
512 BLOCKED is vector of blocked vertices, BLOCK_LISTS contains vertices
513 blocked by a block. COUNT is accumulated count of the current LINE.
514 Returns what type of loop it contains. */
517 circuit (block_t
*v
, arc_vector_t
&path
, block_t
*start
,
518 block_vector_t
&blocked
, vector
<block_vector_t
> &block_lists
,
519 line_t
&linfo
, int64_t &count
)
521 loop_type result
= NO_LOOP
;
523 /* Add v to the block list. */
524 gcc_assert (find (blocked
.begin (), blocked
.end (), v
) == blocked
.end ());
525 blocked
.push_back (v
);
526 block_lists
.push_back (block_vector_t ());
528 for (arc_t
*arc
= v
->succ
; arc
; arc
= arc
->succ_next
)
530 block_t
*w
= arc
->dst
;
531 if (w
< start
|| !linfo
.has_block (w
))
534 path
.push_back (arc
);
536 /* Cycle has been found. */
537 result
|= handle_cycle (path
, count
);
538 else if (find (blocked
.begin (), blocked
.end (), w
) == blocked
.end ())
539 result
|= circuit (w
, path
, start
, blocked
, block_lists
, linfo
, count
);
544 if (result
!= NO_LOOP
)
545 unblock (v
, blocked
, block_lists
);
547 for (arc_t
*arc
= v
->succ
; arc
; arc
= arc
->succ_next
)
549 block_t
*w
= arc
->dst
;
550 if (w
< start
|| !linfo
.has_block (w
))
554 = find (blocked
.begin (), blocked
.end (), w
) - blocked
.begin ();
555 gcc_assert (index
< blocked
.size ());
556 block_vector_t
&list
= block_lists
[index
];
557 if (find (list
.begin (), list
.end (), v
) == list
.end ())
564 /* Find cycles for a LINFO. If HANDLE_NEGATIVE_CYCLES is set and the line
565 contains a negative loop, then perform the same function once again. */
568 get_cycles_count (line_t
&linfo
, bool handle_negative_cycles
= true)
570 /* Note that this algorithm works even if blocks aren't in sorted order.
571 Each iteration of the circuit detection is completely independent
572 (except for reducing counts, but that shouldn't matter anyways).
573 Therefore, operating on a permuted order (i.e., non-sorted) only
574 has the effect of permuting the output cycles. */
576 loop_type result
= NO_LOOP
;
578 for (block_t
*block
= linfo
.u
.blocks
; block
; block
= block
->chain
)
581 block_vector_t blocked
;
582 vector
<block_vector_t
> block_lists
;
583 result
|= circuit (block
, path
, block
, blocked
, block_lists
, linfo
,
587 /* If we have a negative cycle, repeat the find_cycles routine. */
588 if (result
== NEGATIVE_LOOP
&& handle_negative_cycles
)
589 count
+= get_cycles_count (linfo
, false);
595 main (int argc
, char **argv
)
601 p
= argv
[0] + strlen (argv
[0]);
602 while (p
!= argv
[0] && !IS_DIR_SEPARATOR (p
[-1]))
606 xmalloc_set_program_name (progname
);
608 /* Unlock the stdio streams. */
609 unlock_std_streams ();
613 diagnostic_initialize (global_dc
, 0);
615 /* Handle response files. */
616 expandargv (&argc
, &argv
);
619 names
= XNEWVEC (name_map_t
, a_names
);
621 sources
= XNEWVEC (source_t
, a_sources
);
623 argno
= process_args (argc
, argv
);
627 if (argc
- argno
> 1)
632 for (; argno
!= argc
; argno
++)
634 if (flag_display_progress
)
635 printf ("Processing file %d out of %d\n", argno
- first_arg
+ 1,
637 process_file (argv
[argno
]);
640 generate_results (multiple_files
? NULL
: argv
[argc
- 1]);
642 release_structures ();
647 /* Print a usage message and exit. If ERROR_P is nonzero, this is an error,
648 otherwise the output of --help. */
651 print_usage (int error_p
)
653 FILE *file
= error_p
? stderr
: stdout
;
654 int status
= error_p
? FATAL_EXIT_CODE
: SUCCESS_EXIT_CODE
;
656 fnotice (file
, "Usage: gcov [OPTION]... SOURCE|OBJ...\n\n");
657 fnotice (file
, "Print code coverage information.\n\n");
658 fnotice (file
, " -h, --help Print this help, then exit\n");
659 fnotice (file
, " -a, --all-blocks Show information for every basic block\n");
660 fnotice (file
, " -b, --branch-probabilities Include branch probabilities in output\n");
661 fnotice (file
, " -c, --branch-counts Output counts of branches taken\n\
662 rather than percentages\n");
663 fnotice (file
, " -d, --display-progress Display progress information\n");
664 fnotice (file
, " -f, --function-summaries Output summaries for each function\n");
665 fnotice (file
, " -i, --intermediate-format Output .gcov file in intermediate text format\n");
666 fnotice (file
, " -l, --long-file-names Use long output file names for included\n\
668 fnotice (file
, " -m, --demangled-names Output demangled function names\n");
669 fnotice (file
, " -n, --no-output Do not create an output file\n");
670 fnotice (file
, " -o, --object-directory DIR|FILE Search for object files in DIR or called FILE\n");
671 fnotice (file
, " -p, --preserve-paths Preserve all pathname components\n");
672 fnotice (file
, " -r, --relative-only Only show data for relative sources\n");
673 fnotice (file
, " -s, --source-prefix DIR Source prefix to elide\n");
674 fnotice (file
, " -u, --unconditional-branches Show unconditional branch counts too\n");
675 fnotice (file
, " -v, --version Print version number, then exit\n");
676 fnotice (file
, " -x, --hash-filenames Hash long pathnames\n");
677 fnotice (file
, "\nFor bug reporting instructions, please see:\n%s.\n",
682 /* Print version information and exit. */
687 fnotice (stdout
, "gcov %s%s\n", pkgversion_string
, version_string
);
688 fprintf (stdout
, "Copyright %s 2017 Free Software Foundation, Inc.\n",
691 _("This is free software; see the source for copying conditions.\n"
692 "There is NO warranty; not even for MERCHANTABILITY or \n"
693 "FITNESS FOR A PARTICULAR PURPOSE.\n\n"));
694 exit (SUCCESS_EXIT_CODE
);
697 static const struct option options
[] =
699 { "help", no_argument
, NULL
, 'h' },
700 { "version", no_argument
, NULL
, 'v' },
701 { "all-blocks", no_argument
, NULL
, 'a' },
702 { "branch-probabilities", no_argument
, NULL
, 'b' },
703 { "branch-counts", no_argument
, NULL
, 'c' },
704 { "intermediate-format", no_argument
, NULL
, 'i' },
705 { "no-output", no_argument
, NULL
, 'n' },
706 { "long-file-names", no_argument
, NULL
, 'l' },
707 { "function-summaries", no_argument
, NULL
, 'f' },
708 { "demangled-names", no_argument
, NULL
, 'm' },
709 { "preserve-paths", no_argument
, NULL
, 'p' },
710 { "relative-only", no_argument
, NULL
, 'r' },
711 { "object-directory", required_argument
, NULL
, 'o' },
712 { "object-file", required_argument
, NULL
, 'o' },
713 { "source-prefix", required_argument
, NULL
, 's' },
714 { "unconditional-branches", no_argument
, NULL
, 'u' },
715 { "display-progress", no_argument
, NULL
, 'd' },
716 { "hash-filenames", no_argument
, NULL
, 'x' },
720 /* Process args, return index to first non-arg. */
723 process_args (int argc
, char **argv
)
727 const char *opts
= "abcdfhilmno:prs:uvx";
728 while ((opt
= getopt_long (argc
, argv
, opts
, options
, NULL
)) != -1)
742 flag_function_summary
= 1;
746 /* print_usage will exit. */
751 flag_demangled_names
= 1;
757 object_directory
= optarg
;
760 source_prefix
= optarg
;
761 source_length
= strlen (source_prefix
);
764 flag_relative_only
= 1;
767 flag_preserve_paths
= 1;
770 flag_unconditional
= 1;
773 flag_intermediate_format
= 1;
777 flag_display_progress
= 1;
782 flag_hash_filenames
= 1;
784 /* print_version will exit. */
787 /* print_usage will exit. */
794 /* Get the name of the gcov file. The return value must be free'd.
796 It appends the '.gcov' extension to the *basename* of the file.
797 The resulting file name will be in PWD.
800 input: foo.da, output: foo.da.gcov
801 input: a/b/foo.cc, output: foo.cc.gcov */
804 get_gcov_intermediate_filename (const char *file_name
)
806 const char *gcov
= ".gcov";
810 /* Find the 'basename'. */
811 cptr
= lbasename (file_name
);
813 result
= XNEWVEC (char, strlen (cptr
) + strlen (gcov
) + 1);
814 sprintf (result
, "%s%s", cptr
, gcov
);
819 /* Output the result in intermediate format used by 'lcov'.
821 The intermediate format contains a single file named 'foo.cc.gcov',
822 with no source code included. A sample output is
827 function:19,1,_GLOBAL__sub_I__Z3foov
828 function:19,1,_Z41__static_initialization_and_destruction_0ii
835 file:/.../basic_ios.h
838 function:157,0,_ZStorSt12_Ios_IostateS_
840 file:/.../char_traits.h
841 function:258,0,_ZNSt11char_traitsIcE6lengthEPKc
845 The default gcov outputs multiple files: 'foo.cc.gcov',
846 'iostream.gcov', 'ios_base.h.gcov', etc. with source code
847 included. Instead the intermediate format here outputs only a single
848 file 'foo.cc.gcov' similar to the above example. */
851 output_intermediate_file (FILE *gcov_file
, source_t
*src
)
853 unsigned line_num
; /* current line number. */
854 const line_t
*line
; /* current line info ptr. */
855 function_t
*fn
; /* current function info ptr. */
857 fprintf (gcov_file
, "file:%s\n", src
->name
); /* source file name */
859 for (fn
= src
->functions
; fn
; fn
= fn
->next_file_fn
)
861 /* function:<name>,<line_number>,<execution_count> */
862 fprintf (gcov_file
, "function:%d,%s,%s\n", fn
->line
,
863 format_gcov (fn
->blocks
[0].count
, 0, -1),
864 flag_demangled_names
? fn
->demangled_name
: fn
->name
);
867 for (line_num
= 1, line
= &src
->lines
[line_num
];
868 line_num
< src
->num_lines
;
873 fprintf (gcov_file
, "lcount:%u,%s\n", line_num
,
874 format_gcov (line
->count
, 0, -1));
876 for (arc
= line
->u
.branches
; arc
; arc
= arc
->line_next
)
878 if (!arc
->is_unconditional
&& !arc
->is_call_non_return
)
880 const char *branch_type
;
881 /* branch:<line_num>,<branch_coverage_type>
883 : notexec (Branch not executed)
884 : taken (Branch executed and taken)
885 : nottaken (Branch executed, but not taken)
888 branch_type
= (arc
->count
> 0) ? "taken" : "nottaken";
890 branch_type
= "notexec";
891 fprintf (gcov_file
, "branch:%d,%s\n", line_num
, branch_type
);
897 /* Process a single input file. */
900 process_file (const char *file_name
)
904 create_file_names (file_name
);
905 fns
= read_graph_file ();
909 read_count_file (fns
);
912 function_t
*fn
= fns
;
916 if (fn
->counts
|| no_data_file
)
918 unsigned src
= fn
->src
;
919 unsigned line
= fn
->line
;
921 function_t
*probe
, **prev
;
923 /* Now insert it into the source file's list of
924 functions. Normally functions will be encountered in
925 ascending order, so a simple scan is quick. Note we're
926 building this list in reverse order. */
927 for (prev
= &sources
[src
].functions
;
928 (probe
= *prev
); prev
= &probe
->next_file_fn
)
929 if (probe
->line
<= line
)
931 fn
->next_file_fn
= probe
;
934 /* Mark last line in files touched by function. */
935 for (block_no
= 0; block_no
!= fn
->num_blocks
; block_no
++)
937 unsigned *enc
= fn
->blocks
[block_no
].u
.line
.encoding
;
938 unsigned num
= fn
->blocks
[block_no
].u
.line
.num
;
945 if (line
>= sources
[src
].num_lines
)
946 sources
[src
].num_lines
= line
+ 1;
953 else if (*enc
> line
)
956 if (line
>= sources
[src
].num_lines
)
957 sources
[src
].num_lines
= line
+ 1;
959 solve_flow_graph (fn
);
961 find_exception_blocks (fn
);
966 /* The function was not in the executable -- some other
967 instance must have been selected. */
968 release_function (fn
);
973 output_gcov_file (const char *file_name
, source_t
*src
)
975 char *gcov_file_name
= make_gcov_file_name (file_name
, src
->coverage
.name
);
977 if (src
->coverage
.lines
)
979 FILE *gcov_file
= fopen (gcov_file_name
, "w");
982 fnotice (stdout
, "Creating '%s'\n", gcov_file_name
);
983 output_lines (gcov_file
, src
);
984 if (ferror (gcov_file
))
985 fnotice (stderr
, "Error writing output file '%s'\n", gcov_file_name
);
989 fnotice (stderr
, "Could not open output file '%s'\n", gcov_file_name
);
993 unlink (gcov_file_name
);
994 fnotice (stdout
, "Removing '%s'\n", gcov_file_name
);
996 free (gcov_file_name
);
1000 generate_results (const char *file_name
)
1005 FILE *gcov_intermediate_file
= NULL
;
1006 char *gcov_intermediate_filename
= NULL
;
1008 for (ix
= n_sources
, src
= sources
; ix
--; src
++)
1010 src
->lines
= XCNEWVEC (line_t
, src
->num_lines
);
1012 for (fn
= functions
; fn
; fn
= fn
->next
)
1014 coverage_t coverage
;
1016 memset (&coverage
, 0, sizeof (coverage
));
1017 coverage
.name
= flag_demangled_names
? fn
->demangled_name
: fn
->name
;
1018 add_line_counts (flag_function_summary
? &coverage
: NULL
, fn
);
1019 if (flag_function_summary
)
1021 function_summary (&coverage
, "Function");
1022 fnotice (stdout
, "\n");
1028 name_map_t
*name_map
= (name_map_t
*)bsearch
1029 (file_name
, names
, n_names
, sizeof (*names
), name_search
);
1031 file_name
= sources
[name_map
->src
].coverage
.name
;
1033 file_name
= canonicalize_name (file_name
);
1036 if (flag_gcov_file
&& flag_intermediate_format
)
1038 /* Open the intermediate file. */
1039 gcov_intermediate_filename
= get_gcov_intermediate_filename (file_name
);
1040 gcov_intermediate_file
= fopen (gcov_intermediate_filename
, "w");
1041 if (!gcov_intermediate_file
)
1043 fnotice (stderr
, "Cannot open intermediate output file %s\n",
1044 gcov_intermediate_filename
);
1049 for (ix
= n_sources
, src
= sources
; ix
--; src
++)
1051 if (flag_relative_only
)
1053 /* Ignore this source, if it is an absolute path (after
1054 source prefix removal). */
1055 char first
= src
->coverage
.name
[0];
1057 #if HAVE_DOS_BASED_FILE_SYSTEM
1058 if (first
&& src
->coverage
.name
[1] == ':')
1059 first
= src
->coverage
.name
[2];
1061 if (IS_DIR_SEPARATOR (first
))
1065 accumulate_line_counts (src
);
1066 function_summary (&src
->coverage
, "File");
1067 total_lines
+= src
->coverage
.lines
;
1068 total_executed
+= src
->coverage
.lines_executed
;
1071 if (flag_intermediate_format
)
1072 /* Output the intermediate format without requiring source
1073 files. This outputs a section to a *single* file. */
1074 output_intermediate_file (gcov_intermediate_file
, src
);
1076 output_gcov_file (file_name
, src
);
1077 fnotice (stdout
, "\n");
1081 if (flag_gcov_file
&& flag_intermediate_format
)
1083 /* Now we've finished writing the intermediate file. */
1084 fclose (gcov_intermediate_file
);
1085 XDELETEVEC (gcov_intermediate_filename
);
1089 executed_summary (total_lines
, total_executed
);
1092 /* Release a function structure */
1095 release_function (function_t
*fn
)
1100 for (ix
= fn
->num_blocks
, block
= fn
->blocks
; ix
--; block
++)
1104 for (arc
= block
->succ
; arc
; arc
= arc_n
)
1106 arc_n
= arc
->succ_next
;
1112 if (flag_demangled_names
&& fn
->demangled_name
!= fn
->name
)
1113 free (fn
->demangled_name
);
1117 /* Release all memory used. */
1120 release_structures (void)
1125 for (ix
= n_sources
; ix
--;)
1126 free (sources
[ix
].lines
);
1129 for (ix
= n_names
; ix
--;)
1130 free (names
[ix
].name
);
1133 while ((fn
= functions
))
1135 functions
= fn
->next
;
1136 release_function (fn
);
1140 /* Generate the names of the graph and data files. If OBJECT_DIRECTORY
1141 is not specified, these are named from FILE_NAME sans extension. If
1142 OBJECT_DIRECTORY is specified and is a directory, the files are in that
1143 directory, but named from the basename of the FILE_NAME, sans extension.
1144 Otherwise OBJECT_DIRECTORY is taken to be the name of the object *file*
1145 and the data files are named from that. */
1148 create_file_names (const char *file_name
)
1152 int length
= strlen (file_name
);
1155 /* Free previous file names. */
1156 free (bbg_file_name
);
1157 free (da_file_name
);
1158 da_file_name
= bbg_file_name
= NULL
;
1162 if (object_directory
&& object_directory
[0])
1166 length
+= strlen (object_directory
) + 2;
1167 name
= XNEWVEC (char, length
);
1170 base
= !stat (object_directory
, &status
) && S_ISDIR (status
.st_mode
);
1171 strcat (name
, object_directory
);
1172 if (base
&& (!IS_DIR_SEPARATOR (name
[strlen (name
) - 1])))
1177 name
= XNEWVEC (char, length
+ 1);
1178 strcpy (name
, file_name
);
1184 /* Append source file name. */
1185 const char *cptr
= lbasename (file_name
);
1186 strcat (name
, cptr
? cptr
: file_name
);
1189 /* Remove the extension. */
1190 cptr
= strrchr (CONST_CAST (char *, lbasename (name
)), '.');
1194 length
= strlen (name
);
1196 bbg_file_name
= XNEWVEC (char, length
+ strlen (GCOV_NOTE_SUFFIX
) + 1);
1197 strcpy (bbg_file_name
, name
);
1198 strcpy (bbg_file_name
+ length
, GCOV_NOTE_SUFFIX
);
1200 da_file_name
= XNEWVEC (char, length
+ strlen (GCOV_DATA_SUFFIX
) + 1);
1201 strcpy (da_file_name
, name
);
1202 strcpy (da_file_name
+ length
, GCOV_DATA_SUFFIX
);
1208 /* A is a string and B is a pointer to name_map_t. Compare for file
1209 name orderability. */
1212 name_search (const void *a_
, const void *b_
)
1214 const char *a
= (const char *)a_
;
1215 const name_map_t
*b
= (const name_map_t
*)b_
;
1217 #if HAVE_DOS_BASED_FILE_SYSTEM
1218 return strcasecmp (a
, b
->name
);
1220 return strcmp (a
, b
->name
);
1224 /* A and B are a pointer to name_map_t. Compare for file name
1228 name_sort (const void *a_
, const void *b_
)
1230 const name_map_t
*a
= (const name_map_t
*)a_
;
1231 return name_search (a
->name
, b_
);
1234 /* Find or create a source file structure for FILE_NAME. Copies
1235 FILE_NAME on creation */
1238 find_source (const char *file_name
)
1240 name_map_t
*name_map
;
1246 file_name
= "<unknown>";
1247 name_map
= (name_map_t
*)bsearch
1248 (file_name
, names
, n_names
, sizeof (*names
), name_search
);
1251 idx
= name_map
->src
;
1255 if (n_names
+ 2 > a_names
)
1257 /* Extend the name map array -- we'll be inserting one or two
1260 name_map
= XNEWVEC (name_map_t
, a_names
);
1261 memcpy (name_map
, names
, n_names
* sizeof (*names
));
1266 /* Not found, try the canonical name. */
1267 canon
= canonicalize_name (file_name
);
1268 name_map
= (name_map_t
*) bsearch (canon
, names
, n_names
, sizeof (*names
),
1272 /* Not found with canonical name, create a new source. */
1275 if (n_sources
== a_sources
)
1278 src
= XNEWVEC (source_t
, a_sources
);
1279 memcpy (src
, sources
, n_sources
* sizeof (*sources
));
1286 name_map
= &names
[n_names
++];
1287 name_map
->name
= canon
;
1288 name_map
->src
= idx
;
1290 src
= &sources
[n_sources
++];
1291 memset (src
, 0, sizeof (*src
));
1293 src
->coverage
.name
= src
->name
;
1295 #if HAVE_DOS_BASED_FILE_SYSTEM
1296 /* You lose if separators don't match exactly in the
1298 && !strncasecmp (source_prefix
, src
->coverage
.name
, source_length
)
1300 && !strncmp (source_prefix
, src
->coverage
.name
, source_length
)
1302 && IS_DIR_SEPARATOR (src
->coverage
.name
[source_length
]))
1303 src
->coverage
.name
+= source_length
+ 1;
1304 if (!stat (src
->name
, &status
))
1305 src
->file_time
= status
.st_mtime
;
1308 idx
= name_map
->src
;
1310 if (name_search (file_name
, name_map
))
1312 /* Append the non-canonical name. */
1313 name_map
= &names
[n_names
++];
1314 name_map
->name
= xstrdup (file_name
);
1315 name_map
->src
= idx
;
1318 /* Resort the name map. */
1319 qsort (names
, n_names
, sizeof (*names
), name_sort
);
1322 if (sources
[idx
].file_time
> bbg_file_time
)
1324 static int info_emitted
;
1326 fnotice (stderr
, "%s:source file is newer than notes file '%s'\n",
1327 file_name
, bbg_file_name
);
1331 "(the message is displayed only once per source file)\n");
1334 sources
[idx
].file_time
= 0;
1340 /* Read the notes file. Return list of functions read -- in reverse order. */
1343 read_graph_file (void)
1346 unsigned current_tag
= 0;
1347 function_t
*fn
= NULL
;
1348 function_t
*fns
= NULL
;
1349 function_t
**fns_end
= &fns
;
1350 unsigned src_idx
= 0;
1354 if (!gcov_open (bbg_file_name
, 1))
1356 fnotice (stderr
, "%s:cannot open notes file\n", bbg_file_name
);
1359 bbg_file_time
= gcov_time ();
1360 if (!gcov_magic (gcov_read_unsigned (), GCOV_NOTE_MAGIC
))
1362 fnotice (stderr
, "%s:not a gcov notes file\n", bbg_file_name
);
1367 version
= gcov_read_unsigned ();
1368 if (version
!= GCOV_VERSION
)
1372 GCOV_UNSIGNED2STRING (v
, version
);
1373 GCOV_UNSIGNED2STRING (e
, GCOV_VERSION
);
1375 fnotice (stderr
, "%s:version '%.4s', prefer '%.4s'\n",
1376 bbg_file_name
, v
, e
);
1378 bbg_stamp
= gcov_read_unsigned ();
1380 while ((tag
= gcov_read_unsigned ()))
1382 unsigned length
= gcov_read_unsigned ();
1383 gcov_position_t base
= gcov_position ();
1385 if (tag
== GCOV_TAG_FUNCTION
)
1387 char *function_name
;
1388 unsigned ident
, lineno
;
1389 unsigned lineno_checksum
, cfg_checksum
;
1391 ident
= gcov_read_unsigned ();
1392 lineno_checksum
= gcov_read_unsigned ();
1393 cfg_checksum
= gcov_read_unsigned ();
1394 function_name
= xstrdup (gcov_read_string ());
1395 src_idx
= find_source (gcov_read_string ());
1396 lineno
= gcov_read_unsigned ();
1398 fn
= XCNEW (function_t
);
1399 fn
->name
= function_name
;
1400 if (flag_demangled_names
)
1402 fn
->demangled_name
= cplus_demangle (fn
->name
, DMGL_PARAMS
);
1403 if (!fn
->demangled_name
)
1404 fn
->demangled_name
= fn
->name
;
1407 fn
->lineno_checksum
= lineno_checksum
;
1408 fn
->cfg_checksum
= cfg_checksum
;
1412 fn
->next_file_fn
= NULL
;
1415 fns_end
= &fn
->next
;
1418 else if (fn
&& tag
== GCOV_TAG_BLOCKS
)
1421 fnotice (stderr
, "%s:already seen blocks for '%s'\n",
1422 bbg_file_name
, fn
->name
);
1425 unsigned ix
, num_blocks
= GCOV_TAG_BLOCKS_NUM (length
);
1426 fn
->num_blocks
= num_blocks
;
1428 fn
->blocks
= XCNEWVEC (block_t
, fn
->num_blocks
);
1429 for (ix
= 0; ix
!= num_blocks
; ix
++)
1430 fn
->blocks
[ix
].flags
= gcov_read_unsigned ();
1433 else if (fn
&& tag
== GCOV_TAG_ARCS
)
1435 unsigned src
= gcov_read_unsigned ();
1436 unsigned num_dests
= GCOV_TAG_ARCS_NUM (length
);
1437 block_t
*src_blk
= &fn
->blocks
[src
];
1438 unsigned mark_catches
= 0;
1439 struct arc_info
*arc
;
1441 if (src
>= fn
->num_blocks
|| fn
->blocks
[src
].succ
)
1446 unsigned dest
= gcov_read_unsigned ();
1447 unsigned flags
= gcov_read_unsigned ();
1449 if (dest
>= fn
->num_blocks
)
1451 arc
= XCNEW (arc_t
);
1453 arc
->dst
= &fn
->blocks
[dest
];
1457 arc
->count_valid
= 0;
1458 arc
->on_tree
= !!(flags
& GCOV_ARC_ON_TREE
);
1459 arc
->fake
= !!(flags
& GCOV_ARC_FAKE
);
1460 arc
->fall_through
= !!(flags
& GCOV_ARC_FALLTHROUGH
);
1462 arc
->succ_next
= src_blk
->succ
;
1463 src_blk
->succ
= arc
;
1464 src_blk
->num_succ
++;
1466 arc
->pred_next
= fn
->blocks
[dest
].pred
;
1467 fn
->blocks
[dest
].pred
= arc
;
1468 fn
->blocks
[dest
].num_pred
++;
1474 /* Exceptional exit from this function, the
1475 source block must be a call. */
1476 fn
->blocks
[src
].is_call_site
= 1;
1477 arc
->is_call_non_return
= 1;
1482 /* Non-local return from a callee of this
1483 function. The destination block is a setjmp. */
1484 arc
->is_nonlocal_return
= 1;
1485 fn
->blocks
[dest
].is_nonlocal_return
= 1;
1495 /* We have a fake exit from this block. The other
1496 non-fall through exits must be to catch handlers.
1497 Mark them as catch arcs. */
1499 for (arc
= src_blk
->succ
; arc
; arc
= arc
->succ_next
)
1500 if (!arc
->fake
&& !arc
->fall_through
)
1507 else if (fn
&& tag
== GCOV_TAG_LINES
)
1509 unsigned blockno
= gcov_read_unsigned ();
1510 unsigned *line_nos
= XCNEWVEC (unsigned, length
- 1);
1512 if (blockno
>= fn
->num_blocks
|| fn
->blocks
[blockno
].u
.line
.encoding
)
1517 unsigned lineno
= gcov_read_unsigned ();
1524 line_nos
[ix
++] = src_idx
;
1526 line_nos
[ix
++] = lineno
;
1530 const char *file_name
= gcov_read_string ();
1534 src_idx
= find_source (file_name
);
1536 line_nos
[ix
++] = src_idx
;
1540 fn
->blocks
[blockno
].u
.line
.encoding
= line_nos
;
1541 fn
->blocks
[blockno
].u
.line
.num
= ix
;
1543 else if (current_tag
&& !GCOV_TAG_IS_SUBTAG (current_tag
, tag
))
1548 gcov_sync (base
, length
);
1549 if (gcov_is_error ())
1552 fnotice (stderr
, "%s:corrupted\n", bbg_file_name
);
1559 fnotice (stderr
, "%s:no functions found\n", bbg_file_name
);
1564 /* Reads profiles from the count file and attach to each
1565 function. Return nonzero if fatal error. */
1568 read_count_file (function_t
*fns
)
1573 function_t
*fn
= NULL
;
1576 if (!gcov_open (da_file_name
, 1))
1578 fnotice (stderr
, "%s:cannot open data file, assuming not executed\n",
1583 if (!gcov_magic (gcov_read_unsigned (), GCOV_DATA_MAGIC
))
1585 fnotice (stderr
, "%s:not a gcov data file\n", da_file_name
);
1590 version
= gcov_read_unsigned ();
1591 if (version
!= GCOV_VERSION
)
1595 GCOV_UNSIGNED2STRING (v
, version
);
1596 GCOV_UNSIGNED2STRING (e
, GCOV_VERSION
);
1598 fnotice (stderr
, "%s:version '%.4s', prefer version '%.4s'\n",
1599 da_file_name
, v
, e
);
1601 tag
= gcov_read_unsigned ();
1602 if (tag
!= bbg_stamp
)
1604 fnotice (stderr
, "%s:stamp mismatch with notes file\n", da_file_name
);
1608 while ((tag
= gcov_read_unsigned ()))
1610 unsigned length
= gcov_read_unsigned ();
1611 unsigned long base
= gcov_position ();
1613 if (tag
== GCOV_TAG_PROGRAM_SUMMARY
)
1615 struct gcov_summary summary
;
1616 gcov_read_summary (&summary
);
1617 object_runs
+= summary
.ctrs
[GCOV_COUNTER_ARCS
].runs
;
1620 else if (tag
== GCOV_TAG_FUNCTION
&& !length
)
1622 else if (tag
== GCOV_TAG_FUNCTION
&& length
== GCOV_TAG_FUNCTION_LENGTH
)
1625 struct function_info
*fn_n
;
1627 /* Try to find the function in the list. To speed up the
1628 search, first start from the last function found. */
1629 ident
= gcov_read_unsigned ();
1631 for (fn
= fn
? fn
->next
: NULL
; ; fn
= fn
->next
)
1635 else if ((fn
= fn_n
))
1639 fnotice (stderr
, "%s:unknown function '%u'\n",
1640 da_file_name
, ident
);
1643 if (fn
->ident
== ident
)
1649 else if (gcov_read_unsigned () != fn
->lineno_checksum
1650 || gcov_read_unsigned () != fn
->cfg_checksum
)
1653 fnotice (stderr
, "%s:profile mismatch for '%s'\n",
1654 da_file_name
, fn
->name
);
1658 else if (tag
== GCOV_TAG_FOR_COUNTER (GCOV_COUNTER_ARCS
) && fn
)
1660 if (length
!= GCOV_TAG_COUNTER_LENGTH (fn
->num_counts
))
1664 fn
->counts
= XCNEWVEC (gcov_type
, fn
->num_counts
);
1666 for (ix
= 0; ix
!= fn
->num_counts
; ix
++)
1667 fn
->counts
[ix
] += gcov_read_counter ();
1669 gcov_sync (base
, length
);
1670 if ((error
= gcov_is_error ()))
1672 fnotice (stderr
, error
< 0 ? "%s:overflowed\n" : "%s:corrupted\n",
1682 /* Solve the flow graph. Propagate counts from the instrumented arcs
1683 to the blocks and the uninstrumented arcs. */
1686 solve_flow_graph (function_t
*fn
)
1690 gcov_type
*count_ptr
= fn
->counts
;
1692 block_t
*valid_blocks
= NULL
; /* valid, but unpropagated blocks. */
1693 block_t
*invalid_blocks
= NULL
; /* invalid, but inferable blocks. */
1695 /* The arcs were built in reverse order. Fix that now. */
1696 for (ix
= fn
->num_blocks
; ix
--;)
1698 arc_t
*arc_p
, *arc_n
;
1700 for (arc_p
= NULL
, arc
= fn
->blocks
[ix
].succ
; arc
;
1701 arc_p
= arc
, arc
= arc_n
)
1703 arc_n
= arc
->succ_next
;
1704 arc
->succ_next
= arc_p
;
1706 fn
->blocks
[ix
].succ
= arc_p
;
1708 for (arc_p
= NULL
, arc
= fn
->blocks
[ix
].pred
; arc
;
1709 arc_p
= arc
, arc
= arc_n
)
1711 arc_n
= arc
->pred_next
;
1712 arc
->pred_next
= arc_p
;
1714 fn
->blocks
[ix
].pred
= arc_p
;
1717 if (fn
->num_blocks
< 2)
1718 fnotice (stderr
, "%s:'%s' lacks entry and/or exit blocks\n",
1719 bbg_file_name
, fn
->name
);
1722 if (fn
->blocks
[ENTRY_BLOCK
].num_pred
)
1723 fnotice (stderr
, "%s:'%s' has arcs to entry block\n",
1724 bbg_file_name
, fn
->name
);
1726 /* We can't deduce the entry block counts from the lack of
1728 fn
->blocks
[ENTRY_BLOCK
].num_pred
= ~(unsigned)0;
1730 if (fn
->blocks
[EXIT_BLOCK
].num_succ
)
1731 fnotice (stderr
, "%s:'%s' has arcs from exit block\n",
1732 bbg_file_name
, fn
->name
);
1734 /* Likewise, we can't deduce exit block counts from the lack
1735 of its successors. */
1736 fn
->blocks
[EXIT_BLOCK
].num_succ
= ~(unsigned)0;
1739 /* Propagate the measured counts, this must be done in the same
1740 order as the code in profile.c */
1741 for (ix
= 0, blk
= fn
->blocks
; ix
!= fn
->num_blocks
; ix
++, blk
++)
1743 block_t
const *prev_dst
= NULL
;
1744 int out_of_order
= 0;
1745 int non_fake_succ
= 0;
1747 for (arc
= blk
->succ
; arc
; arc
= arc
->succ_next
)
1755 arc
->count
= *count_ptr
++;
1756 arc
->count_valid
= 1;
1758 arc
->dst
->num_pred
--;
1760 if (prev_dst
&& prev_dst
> arc
->dst
)
1762 prev_dst
= arc
->dst
;
1764 if (non_fake_succ
== 1)
1766 /* If there is only one non-fake exit, it is an
1767 unconditional branch. */
1768 for (arc
= blk
->succ
; arc
; arc
= arc
->succ_next
)
1771 arc
->is_unconditional
= 1;
1772 /* If this block is instrumenting a call, it might be
1773 an artificial block. It is not artificial if it has
1774 a non-fallthrough exit, or the destination of this
1775 arc has more than one entry. Mark the destination
1776 block as a return site, if none of those conditions
1778 if (blk
->is_call_site
&& arc
->fall_through
1779 && arc
->dst
->pred
== arc
&& !arc
->pred_next
)
1780 arc
->dst
->is_call_return
= 1;
1784 /* Sort the successor arcs into ascending dst order. profile.c
1785 normally produces arcs in the right order, but sometimes with
1786 one or two out of order. We're not using a particularly
1790 arc_t
*start
= blk
->succ
;
1791 unsigned changes
= 1;
1795 arc_t
*arc
, *arc_p
, *arc_n
;
1798 for (arc_p
= NULL
, arc
= start
; (arc_n
= arc
->succ_next
);)
1800 if (arc
->dst
> arc_n
->dst
)
1804 arc_p
->succ_next
= arc_n
;
1807 arc
->succ_next
= arc_n
->succ_next
;
1808 arc_n
->succ_next
= arc
;
1821 /* Place it on the invalid chain, it will be ignored if that's
1823 blk
->invalid_chain
= 1;
1824 blk
->chain
= invalid_blocks
;
1825 invalid_blocks
= blk
;
1828 while (invalid_blocks
|| valid_blocks
)
1830 while ((blk
= invalid_blocks
))
1832 gcov_type total
= 0;
1835 invalid_blocks
= blk
->chain
;
1836 blk
->invalid_chain
= 0;
1838 for (arc
= blk
->succ
; arc
; arc
= arc
->succ_next
)
1839 total
+= arc
->count
;
1840 else if (!blk
->num_pred
)
1841 for (arc
= blk
->pred
; arc
; arc
= arc
->pred_next
)
1842 total
+= arc
->count
;
1847 blk
->count_valid
= 1;
1848 blk
->chain
= valid_blocks
;
1849 blk
->valid_chain
= 1;
1852 while ((blk
= valid_blocks
))
1855 arc_t
*arc
, *inv_arc
;
1857 valid_blocks
= blk
->chain
;
1858 blk
->valid_chain
= 0;
1859 if (blk
->num_succ
== 1)
1865 for (arc
= blk
->succ
; arc
; arc
= arc
->succ_next
)
1867 total
-= arc
->count
;
1868 if (!arc
->count_valid
)
1872 inv_arc
->count_valid
= 1;
1873 inv_arc
->count
= total
;
1876 if (dst
->count_valid
)
1878 if (dst
->num_pred
== 1 && !dst
->valid_chain
)
1880 dst
->chain
= valid_blocks
;
1881 dst
->valid_chain
= 1;
1887 if (!dst
->num_pred
&& !dst
->invalid_chain
)
1889 dst
->chain
= invalid_blocks
;
1890 dst
->invalid_chain
= 1;
1891 invalid_blocks
= dst
;
1895 if (blk
->num_pred
== 1)
1901 for (arc
= blk
->pred
; arc
; arc
= arc
->pred_next
)
1903 total
-= arc
->count
;
1904 if (!arc
->count_valid
)
1908 inv_arc
->count_valid
= 1;
1909 inv_arc
->count
= total
;
1912 if (src
->count_valid
)
1914 if (src
->num_succ
== 1 && !src
->valid_chain
)
1916 src
->chain
= valid_blocks
;
1917 src
->valid_chain
= 1;
1923 if (!src
->num_succ
&& !src
->invalid_chain
)
1925 src
->chain
= invalid_blocks
;
1926 src
->invalid_chain
= 1;
1927 invalid_blocks
= src
;
1934 /* If the graph has been correctly solved, every block will have a
1936 for (ix
= 0; ix
< fn
->num_blocks
; ix
++)
1937 if (!fn
->blocks
[ix
].count_valid
)
1939 fnotice (stderr
, "%s:graph is unsolvable for '%s'\n",
1940 bbg_file_name
, fn
->name
);
1945 /* Mark all the blocks only reachable via an incoming catch. */
1948 find_exception_blocks (function_t
*fn
)
1951 block_t
**queue
= XALLOCAVEC (block_t
*, fn
->num_blocks
);
1953 /* First mark all blocks as exceptional. */
1954 for (ix
= fn
->num_blocks
; ix
--;)
1955 fn
->blocks
[ix
].exceptional
= 1;
1957 /* Now mark all the blocks reachable via non-fake edges */
1958 queue
[0] = fn
->blocks
;
1959 queue
[0]->exceptional
= 0;
1962 block_t
*block
= queue
[--ix
];
1965 for (arc
= block
->succ
; arc
; arc
= arc
->succ_next
)
1966 if (!arc
->fake
&& !arc
->is_throw
&& arc
->dst
->exceptional
)
1968 arc
->dst
->exceptional
= 0;
1969 queue
[ix
++] = arc
->dst
;
1975 /* Increment totals in COVERAGE according to arc ARC. */
1978 add_branch_counts (coverage_t
*coverage
, const arc_t
*arc
)
1980 if (arc
->is_call_non_return
)
1983 if (arc
->src
->count
)
1984 coverage
->calls_executed
++;
1986 else if (!arc
->is_unconditional
)
1988 coverage
->branches
++;
1989 if (arc
->src
->count
)
1990 coverage
->branches_executed
++;
1992 coverage
->branches_taken
++;
1996 /* Format a GCOV_TYPE integer as either a percent ratio, or absolute
1997 count. If dp >= 0, format TOP/BOTTOM * 100 to DP decimal places.
1998 If DP is zero, no decimal point is printed. Only print 100% when
1999 TOP==BOTTOM and only print 0% when TOP=0. If dp < 0, then simply
2000 format TOP. Return pointer to a static string. */
2003 format_gcov (gcov_type top
, gcov_type bottom
, int dp
)
2005 static char buffer
[20];
2009 float ratio
= bottom
? (float)top
/ bottom
: 0;
2011 unsigned limit
= 100;
2014 for (ix
= dp
; ix
--; )
2017 percent
= (unsigned) (ratio
* limit
+ (float)0.5);
2018 if (percent
<= 0 && top
)
2020 else if (percent
>= limit
&& top
!= bottom
)
2021 percent
= limit
- 1;
2022 ix
= sprintf (buffer
, "%.*u%%", dp
+ 1, percent
);
2028 buffer
[ix
+1] = buffer
[ix
];
2032 buffer
[ix
+ 1] = '.';
2036 sprintf (buffer
, "%" PRId64
, (int64_t)top
);
2041 /* Summary of execution */
2044 executed_summary (unsigned lines
, unsigned executed
)
2047 fnotice (stdout
, "Lines executed:%s of %d\n",
2048 format_gcov (executed
, lines
, 2), lines
);
2050 fnotice (stdout
, "No executable lines\n");
2053 /* Output summary info for a function or file. */
2056 function_summary (const coverage_t
*coverage
, const char *title
)
2058 fnotice (stdout
, "%s '%s'\n", title
, coverage
->name
);
2059 executed_summary (coverage
->lines
, coverage
->lines_executed
);
2063 if (coverage
->branches
)
2065 fnotice (stdout
, "Branches executed:%s of %d\n",
2066 format_gcov (coverage
->branches_executed
,
2067 coverage
->branches
, 2),
2068 coverage
->branches
);
2069 fnotice (stdout
, "Taken at least once:%s of %d\n",
2070 format_gcov (coverage
->branches_taken
,
2071 coverage
->branches
, 2),
2072 coverage
->branches
);
2075 fnotice (stdout
, "No branches\n");
2076 if (coverage
->calls
)
2077 fnotice (stdout
, "Calls executed:%s of %d\n",
2078 format_gcov (coverage
->calls_executed
, coverage
->calls
, 2),
2081 fnotice (stdout
, "No calls\n");
2085 /* Canonicalize the filename NAME by canonicalizing directory
2086 separators, eliding . components and resolving .. components
2087 appropriately. Always returns a unique string. */
2090 canonicalize_name (const char *name
)
2092 /* The canonical name cannot be longer than the incoming name. */
2093 char *result
= XNEWVEC (char, strlen (name
) + 1);
2094 const char *base
= name
, *probe
;
2099 #if HAVE_DOS_BASED_FILE_SYSTEM
2100 if (base
[0] && base
[1] == ':')
2102 result
[0] = base
[0];
2108 for (dd_base
= ptr
; *base
; base
= probe
)
2112 for (probe
= base
; *probe
; probe
++)
2113 if (IS_DIR_SEPARATOR (*probe
))
2117 if (len
== 1 && base
[0] == '.')
2118 /* Elide a '.' directory */
2120 else if (len
== 2 && base
[0] == '.' && base
[1] == '.')
2122 /* '..', we can only elide it and the previous directory, if
2123 we're not a symlink. */
2124 struct stat ATTRIBUTE_UNUSED buf
;
2128 #if defined (S_ISLNK)
2129 /* S_ISLNK is not POSIX.1-1996. */
2130 || stat (result
, &buf
) || S_ISLNK (buf
.st_mode
)
2134 /* Cannot elide, or unreadable or a symlink. */
2135 dd_base
= ptr
+ 2 + slash
;
2138 while (ptr
!= dd_base
&& *ptr
!= '/')
2140 slash
= ptr
!= result
;
2145 /* Regular pathname component. */
2148 memcpy (ptr
, base
, len
);
2153 for (; IS_DIR_SEPARATOR (*probe
); probe
++)
2161 /* Print hex representation of 16 bytes from SUM and write it to BUFFER. */
2164 md5sum_to_hex (const char *sum
, char *buffer
)
2166 for (unsigned i
= 0; i
< 16; i
++)
2167 sprintf (buffer
+ (2 * i
), "%02x", sum
[i
]);
2170 /* Generate an output file name. INPUT_NAME is the canonicalized main
2171 input file and SRC_NAME is the canonicalized file name.
2172 LONG_OUTPUT_NAMES and PRESERVE_PATHS affect name generation. With
2173 long_output_names we prepend the processed name of the input file
2174 to each output name (except when the current source file is the
2175 input file, so you don't get a double concatenation). The two
2176 components are separated by '##'. With preserve_paths we create a
2177 filename from all path components of the source file, replacing '/'
2178 with '#', and .. with '^', without it we simply take the basename
2179 component. (Remember, the canonicalized name will already have
2180 elided '.' components and converted \\ separators.) */
2183 make_gcov_file_name (const char *input_name
, const char *src_name
)
2188 if (flag_long_names
&& input_name
&& strcmp (src_name
, input_name
))
2190 /* Generate the input filename part. */
2191 result
= XNEWVEC (char, strlen (input_name
) + strlen (src_name
) + 10);
2194 ptr
= mangle_name (input_name
, ptr
);
2195 ptr
[0] = ptr
[1] = '#';
2200 result
= XNEWVEC (char, strlen (src_name
) + 10);
2204 ptr
= mangle_name (src_name
, ptr
);
2205 strcpy (ptr
, ".gcov");
2207 /* When hashing filenames, we shorten them by only using the filename
2208 component and appending a hash of the full (mangled) pathname. */
2209 if (flag_hash_filenames
)
2213 char md5sum_hex
[33];
2215 md5_init_ctx (&ctx
);
2216 md5_process_bytes (result
, strlen (result
), &ctx
);
2217 md5_finish_ctx (&ctx
, md5sum
);
2218 md5sum_to_hex (md5sum
, md5sum_hex
);
2221 result
= XNEWVEC (char, strlen (src_name
) + 50);
2223 ptr
= mangle_name (src_name
, ptr
);
2224 ptr
[0] = ptr
[1] = '#';
2226 memcpy (ptr
, md5sum_hex
, 32);
2228 strcpy (ptr
, ".gcov");
2235 mangle_name (char const *base
, char *ptr
)
2239 /* Generate the source filename part. */
2240 if (!flag_preserve_paths
)
2242 base
= lbasename (base
);
2243 len
= strlen (base
);
2244 memcpy (ptr
, base
, len
);
2249 /* Convert '/' to '#', convert '..' to '^',
2250 convert ':' to '~' on DOS based file system. */
2253 #if HAVE_DOS_BASED_FILE_SYSTEM
2254 if (base
[0] && base
[1] == ':')
2262 for (; *base
; base
= probe
)
2266 for (probe
= base
; *probe
; probe
++)
2270 if (len
== 2 && base
[0] == '.' && base
[1] == '.')
2274 memcpy (ptr
, base
, len
);
2288 /* Scan through the bb_data for each line in the block, increment
2289 the line number execution count indicated by the execution count of
2290 the appropriate basic block. */
2293 add_line_counts (coverage_t
*coverage
, function_t
*fn
)
2296 line_t
*line
= NULL
; /* This is propagated from one iteration to the
2299 /* Scan each basic block. */
2300 for (ix
= 0; ix
!= fn
->num_blocks
; ix
++)
2302 block_t
*block
= &fn
->blocks
[ix
];
2304 const source_t
*src
= NULL
;
2307 if (block
->count
&& ix
&& ix
+ 1 != fn
->num_blocks
)
2308 fn
->blocks_executed
++;
2309 for (jx
= 0, encoding
= block
->u
.line
.encoding
;
2310 jx
!= block
->u
.line
.num
; jx
++, encoding
++)
2313 src
= &sources
[*++encoding
];
2318 line
= &src
->lines
[*encoding
];
2324 if (!line
->count
&& block
->count
)
2325 coverage
->lines_executed
++;
2328 if (!block
->exceptional
)
2329 line
->unexceptional
= 1;
2330 line
->count
+= block
->count
;
2332 free (block
->u
.line
.encoding
);
2333 block
->u
.cycle
.arc
= NULL
;
2334 block
->u
.cycle
.ident
= ~0U;
2336 if (!ix
|| ix
+ 1 == fn
->num_blocks
)
2337 /* Entry or exit block */;
2338 else if (flag_all_blocks
)
2340 line_t
*block_line
= line
;
2343 block_line
= &sources
[fn
->src
].lines
[fn
->line
];
2345 block
->chain
= block_line
->u
.blocks
;
2346 block_line
->u
.blocks
= block
;
2348 else if (flag_branches
)
2352 for (arc
= block
->succ
; arc
; arc
= arc
->succ_next
)
2354 arc
->line_next
= line
->u
.branches
;
2355 line
->u
.branches
= arc
;
2356 if (coverage
&& !arc
->is_unconditional
)
2357 add_branch_counts (coverage
, arc
);
2362 fnotice (stderr
, "%s:no lines for '%s'\n", bbg_file_name
, fn
->name
);
2365 /* Accumulate the line counts of a file. */
2368 accumulate_line_counts (source_t
*src
)
2371 function_t
*fn
, *fn_p
, *fn_n
;
2374 /* Reverse the function order. */
2375 for (fn
= src
->functions
, fn_p
= NULL
; fn
; fn_p
= fn
, fn
= fn_n
)
2377 fn_n
= fn
->next_file_fn
;
2378 fn
->next_file_fn
= fn_p
;
2380 src
->functions
= fn_p
;
2382 for (ix
= src
->num_lines
, line
= src
->lines
; ix
--; line
++)
2384 if (!flag_all_blocks
)
2386 arc_t
*arc
, *arc_p
, *arc_n
;
2388 /* Total and reverse the branch information. */
2389 for (arc
= line
->u
.branches
, arc_p
= NULL
; arc
;
2390 arc_p
= arc
, arc
= arc_n
)
2392 arc_n
= arc
->line_next
;
2393 arc
->line_next
= arc_p
;
2395 add_branch_counts (&src
->coverage
, arc
);
2397 line
->u
.branches
= arc_p
;
2399 else if (line
->u
.blocks
)
2401 /* The user expects the line count to be the number of times
2402 a line has been executed. Simply summing the block count
2403 will give an artificially high number. The Right Thing
2404 is to sum the entry counts to the graph of blocks on this
2405 line, then find the elementary cycles of the local graph
2406 and add the transition counts of those cycles. */
2407 block_t
*block
, *block_p
, *block_n
;
2408 gcov_type count
= 0;
2410 /* Reverse the block information. */
2411 for (block
= line
->u
.blocks
, block_p
= NULL
; block
;
2412 block_p
= block
, block
= block_n
)
2414 block_n
= block
->chain
;
2415 block
->chain
= block_p
;
2416 block
->u
.cycle
.ident
= ix
;
2418 line
->u
.blocks
= block_p
;
2420 /* Sum the entry arcs. */
2421 for (block
= line
->u
.blocks
; block
; block
= block
->chain
)
2425 for (arc
= block
->pred
; arc
; arc
= arc
->pred_next
)
2427 add_branch_counts (&src
->coverage
, arc
);
2430 /* Cycle detection. */
2431 for (block
= line
->u
.blocks
; block
; block
= block
->chain
)
2433 for (arc_t
*arc
= block
->pred
; arc
; arc
= arc
->pred_next
)
2434 if (!line
->has_block (arc
->src
))
2435 count
+= arc
->count
;
2436 for (arc_t
*arc
= block
->succ
; arc
; arc
= arc
->succ_next
)
2437 arc
->cs_count
= arc
->count
;
2440 /* Now, add the count of loops entirely on this line. */
2441 count
+= get_cycles_count (*line
);
2442 line
->count
= count
;
2447 src
->coverage
.lines
++;
2449 src
->coverage
.lines_executed
++;
2454 /* Output information about ARC number IX. Returns nonzero if
2455 anything is output. */
2458 output_branch_count (FILE *gcov_file
, int ix
, const arc_t
*arc
)
2460 if (arc
->is_call_non_return
)
2462 if (arc
->src
->count
)
2464 fnotice (gcov_file
, "call %2d returned %s\n", ix
,
2465 format_gcov (arc
->src
->count
- arc
->count
,
2466 arc
->src
->count
, -flag_counts
));
2469 fnotice (gcov_file
, "call %2d never executed\n", ix
);
2471 else if (!arc
->is_unconditional
)
2473 if (arc
->src
->count
)
2474 fnotice (gcov_file
, "branch %2d taken %s%s\n", ix
,
2475 format_gcov (arc
->count
, arc
->src
->count
, -flag_counts
),
2476 arc
->fall_through
? " (fallthrough)"
2477 : arc
->is_throw
? " (throw)" : "");
2479 fnotice (gcov_file
, "branch %2d never executed\n", ix
);
2481 else if (flag_unconditional
&& !arc
->dst
->is_call_return
)
2483 if (arc
->src
->count
)
2484 fnotice (gcov_file
, "unconditional %2d taken %s\n", ix
,
2485 format_gcov (arc
->count
, arc
->src
->count
, -flag_counts
));
2487 fnotice (gcov_file
, "unconditional %2d never executed\n", ix
);
2495 read_line (FILE *file
)
2497 static char *string
;
2498 static size_t string_len
;
2505 string
= XNEWVEC (char, string_len
);
2508 while ((ptr
= fgets (string
+ pos
, string_len
- pos
, file
)))
2510 size_t len
= strlen (string
+ pos
);
2512 if (string
[pos
+ len
- 1] == '\n')
2514 string
[pos
+ len
- 1] = 0;
2518 string
= XRESIZEVEC (char, string
, string_len
* 2);
2522 return pos
? string
: NULL
;
2525 /* Read in the source file one line at a time, and output that line to
2526 the gcov file preceded by its execution count and other
2530 output_lines (FILE *gcov_file
, const source_t
*src
)
2533 unsigned line_num
; /* current line number. */
2534 const line_t
*line
; /* current line info ptr. */
2535 const char *retval
= ""; /* status of source file reading. */
2536 function_t
*fn
= NULL
;
2538 fprintf (gcov_file
, "%9s:%5d:Source:%s\n", "-", 0, src
->coverage
.name
);
2539 if (!multiple_files
)
2541 fprintf (gcov_file
, "%9s:%5d:Graph:%s\n", "-", 0, bbg_file_name
);
2542 fprintf (gcov_file
, "%9s:%5d:Data:%s\n", "-", 0,
2543 no_data_file
? "-" : da_file_name
);
2544 fprintf (gcov_file
, "%9s:%5d:Runs:%u\n", "-", 0, object_runs
);
2546 fprintf (gcov_file
, "%9s:%5d:Programs:%u\n", "-", 0, program_count
);
2548 source_file
= fopen (src
->name
, "r");
2551 fnotice (stderr
, "Cannot open source file %s\n", src
->name
);
2554 else if (src
->file_time
== 0)
2555 fprintf (gcov_file
, "%9s:%5d:Source is newer than graph\n", "-", 0);
2558 fn
= src
->functions
;
2560 for (line_num
= 1, line
= &src
->lines
[line_num
];
2561 line_num
< src
->num_lines
; line_num
++, line
++)
2563 for (; fn
&& fn
->line
== line_num
; fn
= fn
->next_file_fn
)
2565 arc_t
*arc
= fn
->blocks
[EXIT_BLOCK
].pred
;
2566 gcov_type return_count
= fn
->blocks
[EXIT_BLOCK
].count
;
2567 gcov_type called_count
= fn
->blocks
[ENTRY_BLOCK
].count
;
2569 for (; arc
; arc
= arc
->pred_next
)
2571 return_count
-= arc
->count
;
2573 fprintf (gcov_file
, "function %s", flag_demangled_names
?
2574 fn
->demangled_name
: fn
->name
);
2575 fprintf (gcov_file
, " called %s",
2576 format_gcov (called_count
, 0, -1));
2577 fprintf (gcov_file
, " returned %s",
2578 format_gcov (return_count
, called_count
, 0));
2579 fprintf (gcov_file
, " blocks executed %s",
2580 format_gcov (fn
->blocks_executed
, fn
->num_blocks
- 2, 0));
2581 fprintf (gcov_file
, "\n");
2585 retval
= read_line (source_file
);
2587 /* For lines which don't exist in the .bb file, print '-' before
2588 the source line. For lines which exist but were never
2589 executed, print '#####' or '=====' before the source line.
2590 Otherwise, print the execution count before the source line.
2591 There are 16 spaces of indentation added before the source
2592 line so that tabs won't be messed up. */
2593 fprintf (gcov_file
, "%9s:%5u:%s\n",
2594 !line
->exists
? "-" : line
->count
2595 ? format_gcov (line
->count
, 0, -1)
2596 : line
->unexceptional
? "#####" : "=====", line_num
,
2597 retval
? retval
: "/*EOF*/");
2599 if (flag_all_blocks
)
2605 for (ix
= jx
= 0, block
= line
->u
.blocks
; block
;
2606 block
= block
->chain
)
2608 if (!block
->is_call_return
)
2609 fprintf (gcov_file
, "%9s:%5u-block %2d\n",
2610 !line
->exists
? "-" : block
->count
2611 ? format_gcov (block
->count
, 0, -1)
2612 : block
->exceptional
? "%%%%%" : "$$$$$",
2615 for (arc
= block
->succ
; arc
; arc
= arc
->succ_next
)
2616 jx
+= output_branch_count (gcov_file
, jx
, arc
);
2619 else if (flag_branches
)
2624 for (ix
= 0, arc
= line
->u
.branches
; arc
; arc
= arc
->line_next
)
2625 ix
+= output_branch_count (gcov_file
, ix
, arc
);
2629 /* Handle all remaining source lines. There may be lines after the
2630 last line of code. */
2633 for (; (retval
= read_line (source_file
)); line_num
++)
2634 fprintf (gcov_file
, "%9s:%5u:%s\n", "-", line_num
, retval
);
2638 fclose (source_file
);