summaryrefslogtreecommitdiff
path: root/gcc/gcov.c
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/* Gcov.c: prepend line execution counts and branch probabilities to a
   source file.
   Copyright (C) 1990-2017 Free Software Foundation, Inc.
   Contributed by James E. Wilson of Cygnus Support.
   Mangled by Bob Manson of Cygnus Support.
   Mangled further by Nathan Sidwell <nathan@codesourcery.com>

Gcov is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.

Gcov is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Gcov; see the file COPYING3.  If not see
<http://www.gnu.org/licenses/>.  */

/* ??? Print a list of the ten blocks with the highest execution counts,
   and list the line numbers corresponding to those blocks.  Also, perhaps
   list the line numbers with the highest execution counts, only printing
   the first if there are several which are all listed in the same block.  */

/* ??? Should have an option to print the number of basic blocks, and the
   percent of them that are covered.  */

/* Need an option to show individual block counts, and show
   probabilities of fall through arcs.  */

#include "config.h"
#define INCLUDE_ALGORITHM
#define INCLUDE_VECTOR
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "intl.h"
#include "diagnostic.h"
#include "version.h"
#include "demangle.h"

#include <getopt.h>

#include "md5.h"

using namespace std;

#define IN_GCOV 1
#include "gcov-io.h"
#include "gcov-io.c"

/* The gcno file is generated by -ftest-coverage option. The gcda file is
   generated by a program compiled with -fprofile-arcs. Their formats
   are documented in gcov-io.h.  */

/* The functions in this file for creating and solution program flow graphs
   are very similar to functions in the gcc source file profile.c.  In
   some places we make use of the knowledge of how profile.c works to
   select particular algorithms here.  */

/* The code validates that the profile information read in corresponds
   to the code currently being compiled.  Rather than checking for
   identical files, the code below compares a checksum on the CFG
   (based on the order of basic blocks and the arcs in the CFG).  If
   the CFG checksum in the gcda file match the CFG checksum in the
   gcno file, the profile data will be used.  */

/* This is the size of the buffer used to read in source file lines.  */

struct function_info;
struct block_info;
struct source_info;

/* Describes an arc between two basic blocks.  */

typedef struct arc_info
{
  /* source and destination blocks.  */
  struct block_info *src;
  struct block_info *dst;

  /* transition counts.  */
  gcov_type count;
  /* used in cycle search, so that we do not clobber original counts.  */
  gcov_type cs_count;

  unsigned int count_valid : 1;
  unsigned int on_tree : 1;
  unsigned int fake : 1;
  unsigned int fall_through : 1;

  /* Arc to a catch handler.  */
  unsigned int is_throw : 1;

  /* Arc is for a function that abnormally returns.  */
  unsigned int is_call_non_return : 1;

  /* Arc is for catch/setjmp.  */
  unsigned int is_nonlocal_return : 1;

  /* Is an unconditional branch.  */
  unsigned int is_unconditional : 1;

  /* Loop making arc.  */
  unsigned int cycle : 1;

  /* Next branch on line.  */
  struct arc_info *line_next;

  /* Links to next arc on src and dst lists.  */
  struct arc_info *succ_next;
  struct arc_info *pred_next;
} arc_t;

/* Describes a basic block. Contains lists of arcs to successor and
   predecessor blocks.  */

typedef struct block_info
{
  /* Chain of exit and entry arcs.  */
  arc_t *succ;
  arc_t *pred;

  /* Number of unprocessed exit and entry arcs.  */
  gcov_type num_succ;
  gcov_type num_pred;

  /* Block execution count.  */
  gcov_type count;
  unsigned flags : 12;
  unsigned count_valid : 1;
  unsigned valid_chain : 1;
  unsigned invalid_chain : 1;
  unsigned exceptional : 1;

  /* Block is a call instrumenting site.  */
  unsigned is_call_site : 1; /* Does the call.  */
  unsigned is_call_return : 1; /* Is the return.  */

  /* Block is a landing pad for longjmp or throw.  */
  unsigned is_nonlocal_return : 1;

  union
  {
    struct
    {
     /* Array of line numbers and source files. source files are
        introduced by a linenumber of zero, the next 'line number' is
        the number of the source file.  Always starts with a source
        file.  */
      unsigned *encoding;
      unsigned num;
    } line; /* Valid until blocks are linked onto lines */
    struct
    {
      /* Single line graph cycle workspace.  Used for all-blocks
	 mode.  */
      arc_t *arc;
      unsigned ident;
    } cycle; /* Used in all-blocks mode, after blocks are linked onto
	       lines.  */
  } u;

  /* Temporary chain for solving graph, and for chaining blocks on one
     line.  */
  struct block_info *chain;

} block_t;

/* Describes a single function. Contains an array of basic blocks.  */

typedef struct function_info
{
  /* Name of function.  */
  char *name;
  char *demangled_name;
  unsigned ident;
  unsigned lineno_checksum;
  unsigned cfg_checksum;

  /* The graph contains at least one fake incoming edge.  */
  unsigned has_catch : 1;

  /* Array of basic blocks.  Like in GCC, the entry block is
     at blocks[0] and the exit block is at blocks[1].  */
#define ENTRY_BLOCK (0)
#define EXIT_BLOCK (1)
  block_t *blocks;
  unsigned num_blocks;
  unsigned blocks_executed;

  /* Raw arc coverage counts.  */
  gcov_type *counts;
  unsigned num_counts;

  /* First line number & file.  */
  unsigned line;
  unsigned src;

  /* Next function in same source file.  */
  struct function_info *next_file_fn;

  /* Next function.  */
  struct function_info *next;
} function_t;

/* Describes coverage of a file or function.  */

typedef struct coverage_info
{
  int lines;
  int lines_executed;

  int branches;
  int branches_executed;
  int branches_taken;

  int calls;
  int calls_executed;

  char *name;
} coverage_t;

/* Describes a single line of source. Contains a chain of basic blocks
   with code on it.  */

typedef struct line_info
{
  /* Return true when NEEDLE is one of basic blocks the line belongs to.  */
  bool has_block (block_t *needle);

  gcov_type count;	   /* execution count */
  union
  {
    arc_t *branches;	   /* branches from blocks that end on this
			      line. Used for branch-counts when not
			      all-blocks mode.  */
    block_t *blocks;       /* blocks which start on this line.  Used
			      in all-blocks mode.  */
  } u;
  unsigned exists : 1;
  unsigned unexceptional : 1;
} line_t;

bool
line_t::has_block (block_t *needle)
{
  for (block_t *n = u.blocks; n; n = n->chain)
    if (n == needle)
      return true;

  return false;
}

/* Describes a file mentioned in the block graph.  Contains an array
   of line info.  */

typedef struct source_info
{
  /* Canonical name of source file.  */
  char *name;
  time_t file_time;

  /* Array of line information.  */
  line_t *lines;
  unsigned num_lines;

  coverage_t coverage;

  /* Functions in this source file.  These are in ascending line
     number order.  */
  function_t *functions;
} source_t;

typedef struct name_map
{
  char *name;  /* Source file name */
  unsigned src;  /* Source file */
} name_map_t;

/* Holds a list of function basic block graphs.  */

static function_t *functions;
static function_t **fn_end = &functions;

static source_t *sources;   /* Array of source files  */
static unsigned n_sources;  /* Number of sources */
static unsigned a_sources;  /* Allocated sources */

static name_map_t *names;   /* Mapping of file names to sources */
static unsigned n_names;    /* Number of names */
static unsigned a_names;    /* Allocated names */

/* This holds data summary information.  */

static unsigned object_runs;
static unsigned program_count;

static unsigned total_lines;
static unsigned total_executed;

/* Modification time of graph file.  */

static time_t bbg_file_time;

/* Name of the notes (gcno) output file.  The "bbg" prefix is for
   historical reasons, when the notes file contained only the
   basic block graph notes.  */

static char *bbg_file_name;

/* Stamp of the bbg file */
static unsigned bbg_stamp;

/* Name and file pointer of the input file for the count data (gcda).  */

static char *da_file_name;

/* Data file is missing.  */

static int no_data_file;

/* If there is several input files, compute and display results after
   reading all data files.  This way if two or more gcda file refer to
   the same source file (eg inline subprograms in a .h file), the
   counts are added.  */

static int multiple_files = 0;

/* Output branch probabilities.  */

static int flag_branches = 0;

/* Show unconditional branches too.  */
static int flag_unconditional = 0;

/* Output a gcov file if this is true.  This is on by default, and can
   be turned off by the -n option.  */

static int flag_gcov_file = 1;

/* Output progress indication if this is true.  This is off by default
   and can be turned on by the -d option.  */

static int flag_display_progress = 0;

/* Output *.gcov file in intermediate format used by 'lcov'.  */

static int flag_intermediate_format = 0;

/* Output demangled function names.  */

static int flag_demangled_names = 0;

/* For included files, make the gcov output file name include the name
   of the input source file.  For example, if x.h is included in a.c,
   then the output file name is a.c##x.h.gcov instead of x.h.gcov.  */

static int flag_long_names = 0;

/* For situations when a long name can potentially hit filesystem path limit,
   let's calculate md5sum of the path and append it to a file name.  */

static int flag_hash_filenames = 0;

/* Output count information for every basic block, not merely those
   that contain line number information.  */

static int flag_all_blocks = 0;

/* Output summary info for each function.  */

static int flag_function_summary = 0;

/* Object directory file prefix.  This is the directory/file where the
   graph and data files are looked for, if nonzero.  */

static char *object_directory = 0;

/* Source directory prefix.  This is removed from source pathnames
   that match, when generating the output file name.  */

static char *source_prefix = 0;
static size_t source_length = 0;

/* Only show data for sources with relative pathnames.  Absolute ones
   usually indicate a system header file, which although it may
   contain inline functions, is usually uninteresting.  */
static int flag_relative_only = 0;

/* Preserve all pathname components. Needed when object files and
   source files are in subdirectories. '/' is mangled as '#', '.' is
   elided and '..' mangled to '^'.  */

static int flag_preserve_paths = 0;

/* Output the number of times a branch was taken as opposed to the percentage
   of times it was taken.  */

static int flag_counts = 0;

/* Forward declarations.  */
static int process_args (int, char **);
static void print_usage (int) ATTRIBUTE_NORETURN;
static void print_version (void) ATTRIBUTE_NORETURN;
static void process_file (const char *);
static void generate_results (const char *);
static void create_file_names (const char *);
static int name_search (const void *, const void *);
static int name_sort (const void *, const void *);
static char *canonicalize_name (const char *);
static unsigned find_source (const char *);
static function_t *read_graph_file (void);
static int read_count_file (function_t *);
static void solve_flow_graph (function_t *);
static void find_exception_blocks (function_t *);
static void add_branch_counts (coverage_t *, const arc_t *);
static void add_line_counts (coverage_t *, function_t *);
static void executed_summary (unsigned, unsigned);
static void function_summary (const coverage_t *, const char *);
static const char *format_gcov (gcov_type, gcov_type, int);
static void accumulate_line_counts (source_t *);
static void output_gcov_file (const char *, source_t *);
static int output_branch_count (FILE *, int, const arc_t *);
static void output_lines (FILE *, const source_t *);
static char *make_gcov_file_name (const char *, const char *);
static char *mangle_name (const char *, char *);
static void release_structures (void);
static void release_function (function_t *);
extern int main (int, char **);

/* Cycle detection!
   There are a bajillion algorithms that do this.  Boost's function is named
   hawick_cycles, so I used the algorithm by K. A. Hawick and H. A. James in
   "Enumerating Circuits and Loops in Graphs with Self-Arcs and Multiple-Arcs"
   (url at <http://complexity.massey.ac.nz/cstn/013/cstn-013.pdf>).

   The basic algorithm is simple: effectively, we're finding all simple paths
   in a subgraph (that shrinks every iteration).  Duplicates are filtered by
   "blocking" a path when a node is added to the path (this also prevents non-
   simple paths)--the node is unblocked only when it participates in a cycle.
   */

typedef vector<arc_t *> arc_vector_t;
typedef vector<const block_t *> block_vector_t;

/* Enum with types of loop in CFG.  */

enum loop_type
{
  NO_LOOP = 0,
  LOOP = 1,
  NEGATIVE_LOOP = 3
};

/* Loop_type operator that merges two values: A and B.  */

inline loop_type& operator |= (loop_type& a, loop_type b)
{
    return a = static_cast<loop_type> (a | b);
}

/* Handle cycle identified by EDGES, where the function finds minimum cs_count
   and subtract the value from all counts.  The subtracted value is added
   to COUNT.  Returns type of loop.  */

static loop_type
handle_cycle (const arc_vector_t &edges, int64_t &count)
{
  /* Find the minimum edge of the cycle, and reduce all nodes in the cycle by
     that amount.  */
  int64_t cycle_count = INTTYPE_MAXIMUM (int64_t);
  for (unsigned i = 0; i < edges.size (); i++)
    {
      int64_t ecount = edges[i]->cs_count;
      if (cycle_count > ecount)
	cycle_count = ecount;
    }
  count += cycle_count;
  for (unsigned i = 0; i < edges.size (); i++)
    edges[i]->cs_count -= cycle_count;

  return cycle_count < 0 ? NEGATIVE_LOOP : LOOP;
}

/* Unblock a block U from BLOCKED.  Apart from that, iterate all blocks
   blocked by U in BLOCK_LISTS.  */

static void
unblock (const block_t *u, block_vector_t &blocked,
	 vector<block_vector_t > &block_lists)
{
  block_vector_t::iterator it = find (blocked.begin (), blocked.end (), u);
  if (it == blocked.end ())
    return;

  unsigned index = it - blocked.begin ();
  blocked.erase (it);

  block_vector_t to_unblock (block_lists[index]);

  block_lists.erase (block_lists.begin () + index);

  for (block_vector_t::iterator it = to_unblock.begin ();
       it != to_unblock.end (); it++)
    unblock (*it, blocked, block_lists);
}

/* Find circuit going to block V, PATH is provisional seen cycle.
   BLOCKED is vector of blocked vertices, BLOCK_LISTS contains vertices
   blocked by a block.  COUNT is accumulated count of the current LINE.
   Returns what type of loop it contains.  */

static loop_type
circuit (block_t *v, arc_vector_t &path, block_t *start,
	 block_vector_t &blocked, vector<block_vector_t> &block_lists,
	 line_t &linfo, int64_t &count)
{
  loop_type result = NO_LOOP;

  /* Add v to the block list.  */
  gcc_assert (find (blocked.begin (), blocked.end (), v) == blocked.end ());
  blocked.push_back (v);
  block_lists.push_back (block_vector_t ());

  for (arc_t *arc = v->succ; arc; arc = arc->succ_next)
    {
      block_t *w = arc->dst;
      if (w < start || !linfo.has_block (w))
	continue;

      path.push_back (arc);
      if (w == start)
	/* Cycle has been found.  */
	result |= handle_cycle (path, count);
      else if (find (blocked.begin (), blocked.end (), w) == blocked.end ())
	result |= circuit (w, path, start, blocked, block_lists, linfo, count);

      path.pop_back ();
    }

  if (result != NO_LOOP)
    unblock (v, blocked, block_lists);
  else
    for (arc_t *arc = v->succ; arc; arc = arc->succ_next)
      {
	block_t *w = arc->dst;
	if (w < start || !linfo.has_block (w))
	  continue;

	size_t index
	  = find (blocked.begin (), blocked.end (), w) - blocked.begin ();
	gcc_assert (index < blocked.size ());
	block_vector_t &list = block_lists[index];
	if (find (list.begin (), list.end (), v) == list.end ())
	  list.push_back (v);
      }

  return result;
}

/* Find cycles for a LINFO.  If HANDLE_NEGATIVE_CYCLES is set and the line
   contains a negative loop, then perform the same function once again.  */

static gcov_type
get_cycles_count (line_t &linfo, bool handle_negative_cycles = true)
{
  /* Note that this algorithm works even if blocks aren't in sorted order.
     Each iteration of the circuit detection is completely independent
     (except for reducing counts, but that shouldn't matter anyways).
     Therefore, operating on a permuted order (i.e., non-sorted) only
     has the effect of permuting the output cycles.  */

  loop_type result = NO_LOOP;
  gcov_type count = 0;
  for (block_t *block = linfo.u.blocks; block; block = block->chain)
    {
      arc_vector_t path;
      block_vector_t blocked;
      vector<block_vector_t > block_lists;
      result |= circuit (block, path, block, blocked, block_lists, linfo,
			 count);
    }

  /* If we have a negative cycle, repeat the find_cycles routine.  */
  if (result == NEGATIVE_LOOP && handle_negative_cycles)
    count += get_cycles_count (linfo, false);

  return count;
}

int
main (int argc, char **argv)
{
  int argno;
  int first_arg;
  const char *p;

  p = argv[0] + strlen (argv[0]);
  while (p != argv[0] && !IS_DIR_SEPARATOR (p[-1]))
    --p;
  progname = p;

  xmalloc_set_program_name (progname);

  /* Unlock the stdio streams.  */
  unlock_std_streams ();

  gcc_init_libintl ();

  diagnostic_initialize (global_dc, 0);

  /* Handle response files.  */
  expandargv (&argc, &argv);

  a_names = 10;
  names = XNEWVEC (name_map_t, a_names);
  a_sources = 10;
  sources = XNEWVEC (source_t, a_sources);

  argno = process_args (argc, argv);
  if (optind == argc)
    print_usage (true);

  if (argc - argno > 1)
    multiple_files = 1;

  first_arg = argno;

  for (; argno != argc; argno++)
    {
      if (flag_display_progress)
	printf ("Processing file %d out of %d\n", argno - first_arg + 1,
		argc - first_arg);
      process_file (argv[argno]);
    }

  generate_results (multiple_files ? NULL : argv[argc - 1]);

  release_structures ();

  return 0;
}

/* Print a usage message and exit.  If ERROR_P is nonzero, this is an error,
   otherwise the output of --help.  */

static void
print_usage (int error_p)
{
  FILE *file = error_p ? stderr : stdout;
  int status = error_p ? FATAL_EXIT_CODE : SUCCESS_EXIT_CODE;

  fnotice (file, "Usage: gcov [OPTION...] SOURCE|OBJ...\n\n");
  fnotice (file, "Print code coverage information.\n\n");
  fnotice (file, "  -a, --all-blocks                Show information for every basic block\n");
  fnotice (file, "  -b, --branch-probabilities      Include branch probabilities in output\n");
  fnotice (file, "  -c, --branch-counts             Output counts of branches taken\n\
                                    rather than percentages\n");
  fnotice (file, "  -d, --display-progress          Display progress information\n");
  fnotice (file, "  -f, --function-summaries        Output summaries for each function\n");
  fnotice (file, "  -h, --help                      Print this help, then exit\n");
  fnotice (file, "  -i, --intermediate-format       Output .gcov file in intermediate text format\n");
  fnotice (file, "  -l, --long-file-names           Use long output file names for included\n\
                                    source files\n");
  fnotice (file, "  -m, --demangled-names           Output demangled function names\n");
  fnotice (file, "  -n, --no-output                 Do not create an output file\n");
  fnotice (file, "  -o, --object-directory DIR|FILE Search for object files in DIR or called FILE\n");
  fnotice (file, "  -p, --preserve-paths            Preserve all pathname components\n");
  fnotice (file, "  -r, --relative-only             Only show data for relative sources\n");
  fnotice (file, "  -s, --source-prefix DIR         Source prefix to elide\n");
  fnotice (file, "  -u, --unconditional-branches    Show unconditional branch counts too\n");
  fnotice (file, "  -v, --version                   Print version number, then exit\n");
  fnotice (file, "  -x, --hash-filenames            Hash long pathnames\n");
  fnotice (file, "\nFor bug reporting instructions, please see:\n%s.\n",
	   bug_report_url);
  exit (status);
}

/* Print version information and exit.  */

static void
print_version (void)
{
  fnotice (stdout, "gcov %s%s\n", pkgversion_string, version_string);
  fprintf (stdout, "Copyright %s 2017 Free Software Foundation, Inc.\n",
	   _("(C)"));
  fnotice (stdout,
	   _("This is free software; see the source for copying conditions.\n"
	     "There is NO warranty; not even for MERCHANTABILITY or \n"
	     "FITNESS FOR A PARTICULAR PURPOSE.\n\n"));
  exit (SUCCESS_EXIT_CODE);
}

static const struct option options[] =
{
  { "help",                 no_argument,       NULL, 'h' },
  { "version",              no_argument,       NULL, 'v' },
  { "all-blocks",           no_argument,       NULL, 'a' },
  { "branch-probabilities", no_argument,       NULL, 'b' },
  { "branch-counts",        no_argument,       NULL, 'c' },
  { "intermediate-format",  no_argument,       NULL, 'i' },
  { "no-output",            no_argument,       NULL, 'n' },
  { "long-file-names",      no_argument,       NULL, 'l' },
  { "function-summaries",   no_argument,       NULL, 'f' },
  { "demangled-names",      no_argument,       NULL, 'm' },
  { "preserve-paths",       no_argument,       NULL, 'p' },
  { "relative-only",        no_argument,       NULL, 'r' },
  { "object-directory",     required_argument, NULL, 'o' },
  { "object-file",          required_argument, NULL, 'o' },
  { "source-prefix",        required_argument, NULL, 's' },
  { "unconditional-branches", no_argument,     NULL, 'u' },
  { "display-progress",     no_argument,       NULL, 'd' },
  { "hash-filenames",	    no_argument,       NULL, 'x' },
  { 0, 0, 0, 0 }
};

/* Process args, return index to first non-arg.  */

static int
process_args (int argc, char **argv)
{
  int opt;

  const char *opts = "abcdfhilmno:prs:uvx";
  while ((opt = getopt_long (argc, argv, opts, options, NULL)) != -1)
    {
      switch (opt)
	{
	case 'a':
	  flag_all_blocks = 1;
	  break;
	case 'b':
	  flag_branches = 1;
	  break;
	case 'c':
	  flag_counts = 1;
	  break;
	case 'f':
	  flag_function_summary = 1;
	  break;
	case 'h':
	  print_usage (false);
	  /* print_usage will exit.  */
	case 'l':
	  flag_long_names = 1;
	  break;
	case 'm':
	  flag_demangled_names = 1;
	  break;
	case 'n':
	  flag_gcov_file = 0;
	  break;
	case 'o':
	  object_directory = optarg;
	  break;
	case 's':
	  source_prefix = optarg;
	  source_length = strlen (source_prefix);
	  break;
	case 'r':
	  flag_relative_only = 1;
	  break;
	case 'p':
	  flag_preserve_paths = 1;
	  break;
	case 'u':
	  flag_unconditional = 1;
	  break;
	case 'i':
          flag_intermediate_format = 1;
          flag_gcov_file = 1;
          break;
        case 'd':
          flag_display_progress = 1;
          break;
	case 'x':
	  flag_hash_filenames = 1;
	  break;
	case 'v':
	  print_version ();
	  /* print_version will exit.  */
	default:
	  print_usage (true);
	  /* print_usage will exit.  */
	}
    }

  return optind;
}

/* Output the result in intermediate format used by 'lcov'.

The intermediate format contains a single file named 'foo.cc.gcov',
with no source code included. A sample output is

file:foo.cc
function:5,1,_Z3foov
function:13,1,main
function:19,1,_GLOBAL__sub_I__Z3foov
function:19,1,_Z41__static_initialization_and_destruction_0ii
lcount:5,1
lcount:7,9
lcount:9,8
lcount:11,1
file:/.../iostream
lcount:74,1
file:/.../basic_ios.h
file:/.../ostream
file:/.../ios_base.h
function:157,0,_ZStorSt12_Ios_IostateS_
lcount:157,0
file:/.../char_traits.h
function:258,0,_ZNSt11char_traitsIcE6lengthEPKc
lcount:258,0
...

The default gcov outputs multiple files: 'foo.cc.gcov',
'iostream.gcov', 'ios_base.h.gcov', etc. with source code
included. Instead the intermediate format here outputs only a single
file 'foo.cc.gcov' similar to the above example. */

static void
output_intermediate_file (FILE *gcov_file, source_t *src)
{
  unsigned line_num;    /* current line number.  */
  const line_t *line;   /* current line info ptr.  */
  function_t *fn;       /* current function info ptr. */

  fprintf (gcov_file, "file:%s\n", src->name);    /* source file name */

  for (fn = src->functions; fn; fn = fn->next_file_fn)
    {
      /* function:<name>,<line_number>,<execution_count> */
      fprintf (gcov_file, "function:%d,%s,%s\n", fn->line,
	       format_gcov (fn->blocks[0].count, 0, -1),
	       flag_demangled_names ? fn->demangled_name : fn->name);
    }

  for (line_num = 1, line = &src->lines[line_num];
       line_num < src->num_lines;
       line_num++, line++)
    {
      arc_t *arc;
      if (line->exists)
	fprintf (gcov_file, "lcount:%u,%s\n", line_num,
		 format_gcov (line->count, 0, -1));
      if (flag_branches)
        for (arc = line->u.branches; arc; arc = arc->line_next)
          {
            if (!arc->is_unconditional && !arc->is_call_non_return)
              {
                const char *branch_type;
                /* branch:<line_num>,<branch_coverage_type>
                   branch_coverage_type
                     : notexec (Branch not executed)
                     : taken (Branch executed and taken)
                     : nottaken (Branch executed, but not taken)
                */
                if (arc->src->count)
                  branch_type = (arc->count > 0) ? "taken" : "nottaken";
                else
                  branch_type = "notexec";
                fprintf (gcov_file, "branch:%d,%s\n", line_num, branch_type);
              }
          }
    }
}

/* Process a single input file.  */

static void
process_file (const char *file_name)
{
  function_t *fns;

  create_file_names (file_name);
  fns = read_graph_file ();
  if (!fns)
    return;

  read_count_file (fns);
  while (fns)
    {
      function_t *fn = fns;

      fns = fn->next;
      fn->next = NULL;
      if (fn->counts || no_data_file)
	{
	  unsigned src = fn->src;
	  unsigned line = fn->line;
	  unsigned block_no;
	  function_t *probe, **prev;
	  
	  /* Now insert it into the source file's list of
	     functions. Normally functions will be encountered in
	     ascending order, so a simple scan is quick.  Note we're
	     building this list in reverse order.  */
	  for (prev = &sources[src].functions;
	       (probe = *prev); prev = &probe->next_file_fn)
	    if (probe->line <= line)
	      break;
	  fn->next_file_fn = probe;
	  *prev = fn;

	  /* Mark last line in files touched by function.  */
	  for (block_no = 0; block_no != fn->num_blocks; block_no++)
	    {
	      unsigned *enc = fn->blocks[block_no].u.line.encoding;
	      unsigned num = fn->blocks[block_no].u.line.num;

	      for (; num--; enc++)
		if (!*enc)
		  {
		    if (enc[1] != src)
		      {
			if (line >= sources[src].num_lines)
			  sources[src].num_lines = line + 1;
			line = 0;
			src = enc[1];
		      }
		    enc++;
		    num--;
		  }
		else if (*enc > line)
		  line = *enc;
	    }
	  if (line >= sources[src].num_lines)
	    sources[src].num_lines = line + 1;

	  solve_flow_graph (fn);
	  if (fn->has_catch)
	    find_exception_blocks (fn);
	  *fn_end = fn;
	  fn_end = &fn->next;
	}
      else
	/* The function was not in the executable -- some other
	   instance must have been selected.  */
	release_function (fn);
    }
}

static void
output_gcov_file (const char *file_name, source_t *src)
{
  char *gcov_file_name = make_gcov_file_name (file_name, src->coverage.name);

  if (src->coverage.lines)
    {
      FILE *gcov_file = fopen (gcov_file_name, "w");
      if (gcov_file)
        {
          fnotice (stdout, "Creating '%s'\n", gcov_file_name);

	  if (flag_intermediate_format)
	    output_intermediate_file (gcov_file, src);
	  else
	    output_lines (gcov_file, src);
          if (ferror (gcov_file))
            fnotice (stderr, "Error writing output file '%s'\n", gcov_file_name);
          fclose (gcov_file);
        }
      else
        fnotice (stderr, "Could not open output file '%s'\n", gcov_file_name);
    }
  else
    {
      unlink (gcov_file_name);
      fnotice (stdout, "Removing '%s'\n", gcov_file_name);
    }
  free (gcov_file_name);
}

static void
generate_results (const char *file_name)
{
  unsigned ix;
  source_t *src;
  function_t *fn;

  for (ix = n_sources, src = sources; ix--; src++)
    if (src->num_lines)
      src->lines = XCNEWVEC (line_t, src->num_lines);

  for (fn = functions; fn; fn = fn->next)
    {
      coverage_t coverage;

      memset (&coverage, 0, sizeof (coverage));
      coverage.name = flag_demangled_names ? fn->demangled_name : fn->name;
      add_line_counts (flag_function_summary ? &coverage : NULL, fn);
      if (flag_function_summary)
	{
	  function_summary (&coverage, "Function");
	  fnotice (stdout, "\n");
	}
    }

  if (file_name)
    {
      name_map_t *name_map = (name_map_t *)bsearch
	(file_name, names, n_names, sizeof (*names), name_search);
      if (name_map)
	file_name = sources[name_map->src].coverage.name;
      else
	file_name = canonicalize_name (file_name);
    }

  for (ix = n_sources, src = sources; ix--; src++)
    {
      if (flag_relative_only)
	{
	  /* Ignore this source, if it is an absolute path (after
	     source prefix removal).  */
	  char first = src->coverage.name[0];

#if HAVE_DOS_BASED_FILE_SYSTEM
	  if (first && src->coverage.name[1] == ':')
	    first = src->coverage.name[2];
#endif
	  if (IS_DIR_SEPARATOR (first))
	    continue;
	}

      accumulate_line_counts (src);
      function_summary (&src->coverage, "File");
      total_lines += src->coverage.lines;
      total_executed += src->coverage.lines_executed;
      if (flag_gcov_file)
	{
	  output_gcov_file (file_name, src);
          fnotice (stdout, "\n");
        }
    }

  if (!file_name)
    executed_summary (total_lines, total_executed);
}

/* Release a function structure */

static void
release_function (function_t *fn)
{
  unsigned ix;
  block_t *block;

  for (ix = fn->num_blocks, block = fn->blocks; ix--; block++)
    {
      arc_t *arc, *arc_n;

      for (arc = block->succ; arc; arc = arc_n)
	{
	  arc_n = arc->succ_next;
	  free (arc);
	}
    }
  free (fn->blocks);
  free (fn->counts);
  if (flag_demangled_names && fn->demangled_name != fn->name)
    free (fn->demangled_name);
  free (fn->name);
}

/* Release all memory used.  */

static void
release_structures (void)
{
  unsigned ix;
  function_t *fn;

  for (ix = n_sources; ix--;)
    free (sources[ix].lines);
  free (sources);

  for (ix = n_names; ix--;)
    free (names[ix].name);
  free (names);

  while ((fn = functions))
    {
      functions = fn->next;
      release_function (fn);
    }
}

/* Generate the names of the graph and data files.  If OBJECT_DIRECTORY
   is not specified, these are named from FILE_NAME sans extension.  If
   OBJECT_DIRECTORY is specified and is a directory, the files are in that
   directory, but named from the basename of the FILE_NAME, sans extension.
   Otherwise OBJECT_DIRECTORY is taken to be the name of the object *file*
   and the data files are named from that.  */

static void
create_file_names (const char *file_name)
{
  char *cptr;
  char *name;
  int length = strlen (file_name);
  int base;

  /* Free previous file names.  */
  free (bbg_file_name);
  free (da_file_name);
  da_file_name = bbg_file_name = NULL;
  bbg_file_time = 0;
  bbg_stamp = 0;

  if (object_directory && object_directory[0])
    {
      struct stat status;

      length += strlen (object_directory) + 2;
      name = XNEWVEC (char, length);
      name[0] = 0;

      base = !stat (object_directory, &status) && S_ISDIR (status.st_mode);
      strcat (name, object_directory);
      if (base && (!IS_DIR_SEPARATOR (name[strlen (name) - 1])))
	strcat (name, "/");
    }
  else
    {
      name = XNEWVEC (char, length + 1);
      strcpy (name, file_name);
      base = 0;
    }

  if (base)
    {
      /* Append source file name.  */
      const char *cptr = lbasename (file_name);
      strcat (name, cptr ? cptr : file_name);
    }

  /* Remove the extension.  */
  cptr = strrchr (CONST_CAST (char *, lbasename (name)), '.');
  if (cptr)
    *cptr = 0;

  length = strlen (name);

  bbg_file_name = XNEWVEC (char, length + strlen (GCOV_NOTE_SUFFIX) + 1);
  strcpy (bbg_file_name, name);
  strcpy (bbg_file_name + length, GCOV_NOTE_SUFFIX);

  da_file_name = XNEWVEC (char, length + strlen (GCOV_DATA_SUFFIX) + 1);
  strcpy (da_file_name, name);
  strcpy (da_file_name + length, GCOV_DATA_SUFFIX);

  free (name);
  return;
}

/* A is a string and B is a pointer to name_map_t.  Compare for file
   name orderability.  */

static int
name_search (const void *a_, const void *b_)
{
  const char *a = (const char *)a_;
  const name_map_t *b = (const name_map_t *)b_;

#if HAVE_DOS_BASED_FILE_SYSTEM
  return strcasecmp (a, b->name);
#else
  return strcmp (a, b->name);
#endif
}

/* A and B are a pointer to name_map_t.  Compare for file name
   orderability.  */

static int
name_sort (const void *a_, const void *b_)
{
  const name_map_t *a = (const name_map_t *)a_;
  return name_search (a->name, b_);
}

/* Find or create a source file structure for FILE_NAME. Copies
   FILE_NAME on creation */

static unsigned
find_source (const char *file_name)
{
  name_map_t *name_map;
  char *canon;
  unsigned idx;
  struct stat status;

  if (!file_name)
    file_name = "<unknown>";
  name_map = (name_map_t *)bsearch
    (file_name, names, n_names, sizeof (*names), name_search);
  if (name_map)
    {
      idx = name_map->src;
      goto check_date;
    }

  if (n_names + 2 > a_names)
    {
      /* Extend the name map array -- we'll be inserting one or two
	 entries.  */
      a_names *= 2;
      name_map = XNEWVEC (name_map_t, a_names);
      memcpy (name_map, names, n_names * sizeof (*names));
      free (names);
      names = name_map;
    }

  /* Not found, try the canonical name. */
  canon = canonicalize_name (file_name);
  name_map = (name_map_t *) bsearch (canon, names, n_names, sizeof (*names),
				     name_search);
  if (!name_map)
    {
      /* Not found with canonical name, create a new source.  */
      source_t *src;

      if (n_sources == a_sources)
	{
	  a_sources *= 2;
	  src = XNEWVEC (source_t, a_sources);
	  memcpy (src, sources, n_sources * sizeof (*sources));
	  free (sources);
	  sources = src;
	}

      idx = n_sources;

      name_map = &names[n_names++];
      name_map->name = canon;
      name_map->src = idx;

      src = &sources[n_sources++];
      memset (src, 0, sizeof (*src));
      src->name = canon;
      src->coverage.name = src->name;
      if (source_length
#if HAVE_DOS_BASED_FILE_SYSTEM
	  /* You lose if separators don't match exactly in the
	     prefix.  */
	  && !strncasecmp (source_prefix, src->coverage.name, source_length)
#else
	  && !strncmp (source_prefix, src->coverage.name, source_length)
#endif
	  && IS_DIR_SEPARATOR (src->coverage.name[source_length]))
	src->coverage.name += source_length + 1;
      if (!stat (src->name, &status))
	src->file_time = status.st_mtime;
    }
  else
    idx = name_map->src;

  if (name_search (file_name, name_map))
    {
      /* Append the non-canonical name.  */
      name_map = &names[n_names++];
      name_map->name = xstrdup (file_name);
      name_map->src = idx;
    }

  /* Resort the name map.  */
  qsort (names, n_names, sizeof (*names), name_sort);
  
 check_date:
  if (sources[idx].file_time > bbg_file_time)
    {
      static int info_emitted;

      fnotice (stderr, "%s:source file is newer than notes file '%s'\n",
	       file_name, bbg_file_name);
      if (!info_emitted)
	{
	  fnotice (stderr,
		   "(the message is displayed only once per source file)\n");
	  info_emitted = 1;
	}
      sources[idx].file_time = 0;
    }

  return idx;
}

/* Read the notes file.  Return list of functions read -- in reverse order.  */

static function_t *
read_graph_file (void)
{
  unsigned version;
  unsigned current_tag = 0;
  function_t *fn = NULL;
  function_t *fns = NULL;
  function_t **fns_end = &fns;
  unsigned src_idx = 0;
  unsigned ix;
  unsigned tag;

  if (!gcov_open (bbg_file_name, 1))
    {
      fnotice (stderr, "%s:cannot open notes file\n", bbg_file_name);
      return fns;
    }
  bbg_file_time = gcov_time ();
  if (!gcov_magic (gcov_read_unsigned (), GCOV_NOTE_MAGIC))
    {
      fnotice (stderr, "%s:not a gcov notes file\n", bbg_file_name);
      gcov_close ();
      return fns;
    }

  version = gcov_read_unsigned ();
  if (version != GCOV_VERSION)
    {
      char v[4], e[4];

      GCOV_UNSIGNED2STRING (v, version);
      GCOV_UNSIGNED2STRING (e, GCOV_VERSION);

      fnotice (stderr, "%s:version '%.4s', prefer '%.4s'\n",
	       bbg_file_name, v, e);
    }
  bbg_stamp = gcov_read_unsigned ();

  while ((tag = gcov_read_unsigned ()))
    {
      unsigned length = gcov_read_unsigned ();
      gcov_position_t base = gcov_position ();

      if (tag == GCOV_TAG_FUNCTION)
	{
	  char *function_name;
	  unsigned ident, lineno;
	  unsigned lineno_checksum, cfg_checksum;

	  ident = gcov_read_unsigned ();
	  lineno_checksum = gcov_read_unsigned ();
	  cfg_checksum = gcov_read_unsigned ();
	  function_name = xstrdup (gcov_read_string ());
	  src_idx = find_source (gcov_read_string ());
	  lineno = gcov_read_unsigned ();

	  fn = XCNEW (function_t);
	  fn->name = function_name;
	  if (flag_demangled_names)
	    {
	      fn->demangled_name = cplus_demangle (fn->name, DMGL_PARAMS);
	      if (!fn->demangled_name)
		fn->demangled_name = fn->name;
	    }
	  fn->ident = ident;
	  fn->lineno_checksum = lineno_checksum;
	  fn->cfg_checksum = cfg_checksum;
	  fn->src = src_idx;
	  fn->line = lineno;

	  fn->next_file_fn = NULL;
	  fn->next = NULL;
	  *fns_end = fn;
	  fns_end = &fn->next;
	  current_tag = tag;
	}
      else if (fn && tag == GCOV_TAG_BLOCKS)
	{
	  if (fn->blocks)
	    fnotice (stderr, "%s:already seen blocks for '%s'\n",
		     bbg_file_name, fn->name);
	  else
	    {
	      unsigned ix, num_blocks = GCOV_TAG_BLOCKS_NUM (length);
	      fn->num_blocks = num_blocks;

	      fn->blocks = XCNEWVEC (block_t, fn->num_blocks);
	      for (ix = 0; ix != num_blocks; ix++)
		fn->blocks[ix].flags = gcov_read_unsigned ();
	    }
	}
      else if (fn && tag == GCOV_TAG_ARCS)
	{
	  unsigned src = gcov_read_unsigned ();
	  unsigned num_dests = GCOV_TAG_ARCS_NUM (length);
	  block_t *src_blk = &fn->blocks[src];
	  unsigned mark_catches = 0;
	  struct arc_info *arc;

	  if (src >= fn->num_blocks || fn->blocks[src].succ)
	    goto corrupt;

	  while (num_dests--)
	    {
	      unsigned dest = gcov_read_unsigned ();
	      unsigned flags = gcov_read_unsigned ();

	      if (dest >= fn->num_blocks)
		goto corrupt;
	      arc = XCNEW (arc_t);

	      arc->dst = &fn->blocks[dest];
	      arc->src = src_blk;

	      arc->count = 0;
	      arc->count_valid = 0;
	      arc->on_tree = !!(flags & GCOV_ARC_ON_TREE);
	      arc->fake = !!(flags & GCOV_ARC_FAKE);
	      arc->fall_through = !!(flags & GCOV_ARC_FALLTHROUGH);

	      arc->succ_next = src_blk->succ;
	      src_blk->succ = arc;
	      src_blk->num_succ++;

	      arc->pred_next = fn->blocks[dest].pred;
	      fn->blocks[dest].pred = arc;
	      fn->blocks[dest].num_pred++;

	      if (arc->fake)
		{
		  if (src)
		    {
		      /* Exceptional exit from this function, the
			 source block must be a call.  */
		      fn->blocks[src].is_call_site = 1;
		      arc->is_call_non_return = 1;
		      mark_catches = 1;
		    }
		  else
		    {
		      /* Non-local return from a callee of this
			 function.  The destination block is a setjmp.  */
		      arc->is_nonlocal_return = 1;
		      fn->blocks[dest].is_nonlocal_return = 1;
		    }
		}

	      if (!arc->on_tree)
		fn->num_counts++;
	    }

	  if (mark_catches)
	    {
	      /* We have a fake exit from this block.  The other
		 non-fall through exits must be to catch handlers.
		 Mark them as catch arcs.  */

	      for (arc = src_blk->succ; arc; arc = arc->succ_next)
		if (!arc->fake && !arc->fall_through)
		  {
		    arc->is_throw = 1;
		    fn->has_catch = 1;
		  }
	    }
	}
      else if (fn && tag == GCOV_TAG_LINES)
	{
	  unsigned blockno = gcov_read_unsigned ();
	  unsigned *line_nos = XCNEWVEC (unsigned, length - 1);

	  if (blockno >= fn->num_blocks || fn->blocks[blockno].u.line.encoding)
	    goto corrupt;

	  for (ix = 0; ;  )
	    {
	      unsigned lineno = gcov_read_unsigned ();

	      if (lineno)
		{
		  if (!ix)
		    {
		      line_nos[ix++] = 0;
		      line_nos[ix++] = src_idx;
		    }
		  line_nos[ix++] = lineno;
		}
	      else
		{
		  const char *file_name = gcov_read_string ();

		  if (!file_name)
		    break;
		  src_idx = find_source (file_name);
		  line_nos[ix++] = 0;
		  line_nos[ix++] = src_idx;
		}
	    }

	  fn->blocks[blockno].u.line.encoding = line_nos;
	  fn->blocks[blockno].u.line.num = ix;
	}
      else if (current_tag && !GCOV_TAG_IS_SUBTAG (current_tag, tag))
	{
	  fn = NULL;
	  current_tag = 0;
	}
      gcov_sync (base, length);
      if (gcov_is_error ())
	{
	corrupt:;
	  fnotice (stderr, "%s:corrupted\n", bbg_file_name);
	  break;
	}
    }
  gcov_close ();

  if (!fns)
    fnotice (stderr, "%s:no functions found\n", bbg_file_name);

  return fns;
}

/* Reads profiles from the count file and attach to each
   function. Return nonzero if fatal error.  */

static int
read_count_file (function_t *fns)
{
  unsigned ix;
  unsigned version;
  unsigned tag;
  function_t *fn = NULL;
  int error = 0;

  if (!gcov_open (da_file_name, 1))
    {
      fnotice (stderr, "%s:cannot open data file, assuming not executed\n",
	       da_file_name);
      no_data_file = 1;
      return 0;
    }
  if (!gcov_magic (gcov_read_unsigned (), GCOV_DATA_MAGIC))
    {
      fnotice (stderr, "%s:not a gcov data file\n", da_file_name);
    cleanup:;
      gcov_close ();
      return 1;
    }
  version = gcov_read_unsigned ();
  if (version != GCOV_VERSION)
    {
      char v[4], e[4];

      GCOV_UNSIGNED2STRING (v, version);
      GCOV_UNSIGNED2STRING (e, GCOV_VERSION);

      fnotice (stderr, "%s:version '%.4s', prefer version '%.4s'\n",
	       da_file_name, v, e);
    }
  tag = gcov_read_unsigned ();
  if (tag != bbg_stamp)
    {
      fnotice (stderr, "%s:stamp mismatch with notes file\n", da_file_name);
      goto cleanup;
    }

  while ((tag = gcov_read_unsigned ()))
    {
      unsigned length = gcov_read_unsigned ();
      unsigned long base = gcov_position ();

      if (tag == GCOV_TAG_PROGRAM_SUMMARY)
	{
	  struct gcov_summary summary;
	  gcov_read_summary (&summary);
	  object_runs += summary.ctrs[GCOV_COUNTER_ARCS].runs;
	  program_count++;
	}
      else if (tag == GCOV_TAG_FUNCTION && !length)
	; /* placeholder  */
      else if (tag == GCOV_TAG_FUNCTION && length == GCOV_TAG_FUNCTION_LENGTH)
	{
	  unsigned ident;
	  struct function_info *fn_n;

	  /* Try to find the function in the list.  To speed up the
	     search, first start from the last function found.  */
	  ident = gcov_read_unsigned ();
	  fn_n = fns;
	  for (fn = fn ? fn->next : NULL; ; fn = fn->next)
	    {
	      if (fn)
		;
	      else if ((fn = fn_n))
		fn_n = NULL;
	      else
		{
		  fnotice (stderr, "%s:unknown function '%u'\n",
			   da_file_name, ident);
		  break;
		}
	      if (fn->ident == ident)
		break;
	    }

	  if (!fn)
	    ;
	  else if (gcov_read_unsigned () != fn->lineno_checksum
		   || gcov_read_unsigned () != fn->cfg_checksum)
	    {
	    mismatch:;
	      fnotice (stderr, "%s:profile mismatch for '%s'\n",
		       da_file_name, fn->name);
	      goto cleanup;
	    }
	}
      else if (tag == GCOV_TAG_FOR_COUNTER (GCOV_COUNTER_ARCS) && fn)
	{
	  if (length != GCOV_TAG_COUNTER_LENGTH (fn->num_counts))
	    goto mismatch;

	  if (!fn->counts)
	    fn->counts = XCNEWVEC (gcov_type, fn->num_counts);

	  for (ix = 0; ix != fn->num_counts; ix++)
	    fn->counts[ix] += gcov_read_counter ();
	}
      gcov_sync (base, length);
      if ((error = gcov_is_error ()))
	{
	  fnotice (stderr,
		   error < 0
		   ? N_("%s:overflowed\n")
		   : N_("%s:corrupted\n"),
		   da_file_name);
	  goto cleanup;
	}
    }

  gcov_close ();
  return 0;
}

/* Solve the flow graph. Propagate counts from the instrumented arcs
   to the blocks and the uninstrumented arcs.  */

static void
solve_flow_graph (function_t *fn)
{
  unsigned ix;
  arc_t *arc;
  gcov_type *count_ptr = fn->counts;
  block_t *blk;
  block_t *valid_blocks = NULL;    /* valid, but unpropagated blocks.  */
  block_t *invalid_blocks = NULL;  /* invalid, but inferable blocks.  */

  /* The arcs were built in reverse order.  Fix that now.  */
  for (ix = fn->num_blocks; ix--;)
    {
      arc_t *arc_p, *arc_n;

      for (arc_p = NULL, arc = fn->blocks[ix].succ; arc;
	   arc_p = arc, arc = arc_n)
	{
	  arc_n = arc->succ_next;
	  arc->succ_next = arc_p;
	}
      fn->blocks[ix].succ = arc_p;

      for (arc_p = NULL, arc = fn->blocks[ix].pred; arc;
	   arc_p = arc, arc = arc_n)
	{
	  arc_n = arc->pred_next;
	  arc->pred_next = arc_p;
	}
      fn->blocks[ix].pred = arc_p;
    }

  if (fn->num_blocks < 2)
    fnotice (stderr, "%s:'%s' lacks entry and/or exit blocks\n",
	     bbg_file_name, fn->name);
  else
    {
      if (fn->blocks[ENTRY_BLOCK].num_pred)
	fnotice (stderr, "%s:'%s' has arcs to entry block\n",
		 bbg_file_name, fn->name);
      else
	/* We can't deduce the entry block counts from the lack of
	   predecessors.  */
	fn->blocks[ENTRY_BLOCK].num_pred = ~(unsigned)0;

      if (fn->blocks[EXIT_BLOCK].num_succ)
	fnotice (stderr, "%s:'%s' has arcs from exit block\n",
		 bbg_file_name, fn->name);
      else
	/* Likewise, we can't deduce exit block counts from the lack
	   of its successors.  */
	fn->blocks[EXIT_BLOCK].num_succ = ~(unsigned)0;
    }

  /* Propagate the measured counts, this must be done in the same
     order as the code in profile.c  */
  for (ix = 0, blk = fn->blocks; ix != fn->num_blocks; ix++, blk++)
    {
      block_t const *prev_dst = NULL;
      int out_of_order = 0;
      int non_fake_succ = 0;

      for (arc = blk->succ; arc; arc = arc->succ_next)
	{
	  if (!arc->fake)
	    non_fake_succ++;

	  if (!arc->on_tree)
	    {
	      if (count_ptr)
		arc->count = *count_ptr++;
	      arc->count_valid = 1;
	      blk->num_succ--;
	      arc->dst->num_pred--;
	    }
	  if (prev_dst && prev_dst > arc->dst)
	    out_of_order = 1;
	  prev_dst = arc->dst;
	}
      if (non_fake_succ == 1)
	{
	  /* If there is only one non-fake exit, it is an
	     unconditional branch.  */
	  for (arc = blk->succ; arc; arc = arc->succ_next)
	    if (!arc->fake)
	      {
		arc->is_unconditional = 1;
		/* If this block is instrumenting a call, it might be
		   an artificial block. It is not artificial if it has
		   a non-fallthrough exit, or the destination of this
		   arc has more than one entry.  Mark the destination
		   block as a return site, if none of those conditions
		   hold.  */
		if (blk->is_call_site && arc->fall_through
		    && arc->dst->pred == arc && !arc->pred_next)
		  arc->dst->is_call_return = 1;
	      }
	}

      /* Sort the successor arcs into ascending dst order. profile.c
	 normally produces arcs in the right order, but sometimes with
	 one or two out of order.  We're not using a particularly
	 smart sort.  */
      if (out_of_order)
	{
	  arc_t *start = blk->succ;
	  unsigned changes = 1;

	  while (changes)
	    {
	      arc_t *arc, *arc_p, *arc_n;

	      changes = 0;
	      for (arc_p = NULL, arc = start; (arc_n = arc->succ_next);)
		{
		  if (arc->dst > arc_n->dst)
		    {
		      changes = 1;
		      if (arc_p)
			arc_p->succ_next = arc_n;
		      else
			start = arc_n;
		      arc->succ_next = arc_n->succ_next;
		      arc_n->succ_next = arc;
		      arc_p = arc_n;
		    }
		  else
		    {
		      arc_p = arc;
		      arc = arc_n;
		    }
		}
	    }
	  blk->succ = start;
	}

      /* Place it on the invalid chain, it will be ignored if that's
	 wrong.  */
      blk->invalid_chain = 1;
      blk->chain = invalid_blocks;
      invalid_blocks = blk;
    }

  while (invalid_blocks || valid_blocks)
    {
      while ((blk = invalid_blocks))
	{
	  gcov_type total = 0;
	  const arc_t *arc;

	  invalid_blocks = blk->chain;
	  blk->invalid_chain = 0;
	  if (!blk->num_succ)
	    for (arc = blk->succ; arc; arc = arc->succ_next)
	      total += arc->count;
	  else if (!blk->num_pred)
	    for (arc = blk->pred; arc; arc = arc->pred_next)
	      total += arc->count;
	  else
	    continue;

	  blk->count = total;
	  blk->count_valid = 1;
	  blk->chain = valid_blocks;
	  blk->valid_chain = 1;
	  valid_blocks = blk;
	}
      while ((blk = valid_blocks))
	{
	  gcov_type total;
	  arc_t *arc, *inv_arc;

	  valid_blocks = blk->chain;
	  blk->valid_chain = 0;
	  if (blk->num_succ == 1)
	    {
	      block_t *dst;

	      total = blk->count;
	      inv_arc = NULL;
	      for (arc = blk->succ; arc; arc = arc->succ_next)
		{
		  total -= arc->count;
		  if (!arc->count_valid)
		    inv_arc = arc;
		}
	      dst = inv_arc->dst;
	      inv_arc->count_valid = 1;
	      inv_arc->count = total;
	      blk->num_succ--;
	      dst->num_pred--;
	      if (dst->count_valid)
		{
		  if (dst->num_pred == 1 && !dst->valid_chain)
		    {
		      dst->chain = valid_blocks;
		      dst->valid_chain = 1;
		      valid_blocks = dst;
		    }
		}
	      else
		{
		  if (!dst->num_pred && !dst->invalid_chain)
		    {
		      dst->chain = invalid_blocks;
		      dst->invalid_chain = 1;
		      invalid_blocks = dst;
		    }
		}
	    }
	  if (blk->num_pred == 1)
	    {
	      block_t *src;

	      total = blk->count;
	      inv_arc = NULL;
	      for (arc = blk->pred; arc; arc = arc->pred_next)
		{
		  total -= arc->count;
		  if (!arc->count_valid)
		    inv_arc = arc;
		}
	      src = inv_arc->src;
	      inv_arc->count_valid = 1;
	      inv_arc->count = total;
	      blk->num_pred--;
	      src->num_succ--;
	      if (src->count_valid)
		{
		  if (src->num_succ == 1 && !src->valid_chain)
		    {
		      src->chain = valid_blocks;
		      src->valid_chain = 1;
		      valid_blocks = src;
		    }
		}
	      else
		{
		  if (!src->num_succ && !src->invalid_chain)
		    {
		      src->chain = invalid_blocks;
		      src->invalid_chain = 1;
		      invalid_blocks = src;
		    }
		}
	    }
	}
    }

  /* If the graph has been correctly solved, every block will have a
     valid count.  */
  for (ix = 0; ix < fn->num_blocks; ix++)
    if (!fn->blocks[ix].count_valid)
      {
	fnotice (stderr, "%s:graph is unsolvable for '%s'\n",
		 bbg_file_name, fn->name);
	break;
      }
}

/* Mark all the blocks only reachable via an incoming catch.  */

static void
find_exception_blocks (function_t *fn)
{
  unsigned ix;
  block_t **queue = XALLOCAVEC (block_t *, fn->num_blocks);

  /* First mark all blocks as exceptional.  */
  for (ix = fn->num_blocks; ix--;)
    fn->blocks[ix].exceptional = 1;

  /* Now mark all the blocks reachable via non-fake edges */
  queue[0] = fn->blocks;
  queue[0]->exceptional = 0;
  for (ix = 1; ix;)
    {
      block_t *block = queue[--ix];
      const arc_t *arc;

      for (arc = block->succ; arc; arc = arc->succ_next)
	if (!arc->fake && !arc->is_throw && arc->dst->exceptional)
	  {
	    arc->dst->exceptional = 0;
	    queue[ix++] = arc->dst;
	  }
    }
}


/* Increment totals in COVERAGE according to arc ARC.  */

static void
add_branch_counts (coverage_t *coverage, const arc_t *arc)
{
  if (arc->is_call_non_return)
    {
      coverage->calls++;
      if (arc->src->count)
	coverage->calls_executed++;
    }
  else if (!arc->is_unconditional)
    {
      coverage->branches++;
      if (arc->src->count)
	coverage->branches_executed++;
      if (arc->count)
	coverage->branches_taken++;
    }
}

/* Format a GCOV_TYPE integer as either a percent ratio, or absolute
   count.  If dp >= 0, format TOP/BOTTOM * 100 to DP decimal places.
   If DP is zero, no decimal point is printed. Only print 100% when
   TOP==BOTTOM and only print 0% when TOP=0.  If dp < 0, then simply
   format TOP.  Return pointer to a static string.  */

static char const *
format_gcov (gcov_type top, gcov_type bottom, int dp)
{
  static char buffer[20];

  /* Handle invalid values that would result in a misleading value.  */
  if (bottom != 0 && top > bottom && dp >= 0)
    {
      sprintf (buffer, "NAN %%");
      return buffer;
    }

  if (dp >= 0)
    {
      float ratio = bottom ? (float)top / bottom : 0;
      int ix;
      unsigned limit = 100;
      unsigned percent;

      for (ix = dp; ix--; )
	limit *= 10;

      percent = (unsigned) (ratio * limit + (float)0.5);
      if (percent <= 0 && top)
	percent = 1;
      else if (percent >= limit && top != bottom)
	percent = limit - 1;
      ix = sprintf (buffer, "%.*u%%", dp + 1, percent);
      if (dp)
	{
	  dp++;
	  do
	    {
	      buffer[ix+1] = buffer[ix];
	      ix--;
	    }
	  while (dp--);
	  buffer[ix + 1] = '.';
	}
    }
  else
    sprintf (buffer, "%" PRId64, (int64_t)top);

  return buffer;
}

/* Summary of execution */

static void
executed_summary (unsigned lines, unsigned executed)
{
  if (lines)
    fnotice (stdout, "Lines executed:%s of %d\n",
	     format_gcov (executed, lines, 2), lines);
  else
    fnotice (stdout, "No executable lines\n");
}

/* Output summary info for a function or file.  */

static void
function_summary (const coverage_t *coverage, const char *title)
{
  fnotice (stdout, "%s '%s'\n", title, coverage->name);
  executed_summary (coverage->lines, coverage->lines_executed);

  if (flag_branches)
    {
      if (coverage->branches)
	{
	  fnotice (stdout, "Branches executed:%s of %d\n",
		   format_gcov (coverage->branches_executed,
				coverage->branches, 2),
		   coverage->branches);
	  fnotice (stdout, "Taken at least once:%s of %d\n",
		   format_gcov (coverage->branches_taken,
				coverage->branches, 2),
		   coverage->branches);
	}
      else
	fnotice (stdout, "No branches\n");
      if (coverage->calls)
	fnotice (stdout, "Calls executed:%s of %d\n",
		 format_gcov (coverage->calls_executed, coverage->calls, 2),
		 coverage->calls);
      else
	fnotice (stdout, "No calls\n");
    }
}

/* Canonicalize the filename NAME by canonicalizing directory
   separators, eliding . components and resolving .. components
   appropriately.  Always returns a unique string.  */

static char *
canonicalize_name (const char *name)
{
  /* The canonical name cannot be longer than the incoming name.  */
  char *result = XNEWVEC (char, strlen (name) + 1);
  const char *base = name, *probe;
  char *ptr = result;
  char *dd_base;
  int slash = 0;

#if HAVE_DOS_BASED_FILE_SYSTEM
  if (base[0] && base[1] == ':')
    {
      result[0] = base[0];
      result[1] = ':';
      base += 2;
      ptr += 2;
    }
#endif
  for (dd_base = ptr; *base; base = probe)
    {
      size_t len;

      for (probe = base; *probe; probe++)
	if (IS_DIR_SEPARATOR (*probe))
	  break;

      len = probe - base;
      if (len == 1 && base[0] == '.')
	/* Elide a '.' directory */
	;
      else if (len == 2 && base[0] == '.' && base[1] == '.')
	{
	  /* '..', we can only elide it and the previous directory, if
	     we're not a symlink.  */
	  struct stat ATTRIBUTE_UNUSED buf;

	  *ptr = 0;
	  if (dd_base == ptr
#if defined (S_ISLNK)
	      /* S_ISLNK is not POSIX.1-1996.  */
	      || stat (result, &buf) || S_ISLNK (buf.st_mode)
#endif
		)
	    {
	      /* Cannot elide, or unreadable or a symlink.  */
	      dd_base = ptr + 2 + slash;
	      goto regular;
	    }
	  while (ptr != dd_base && *ptr != '/')
	    ptr--;
	  slash = ptr != result;
	}
      else
	{
	regular:
	  /* Regular pathname component.  */
	  if (slash)
	    *ptr++ = '/';
	  memcpy (ptr, base, len);
	  ptr += len;
	  slash = 1;
	}

      for (; IS_DIR_SEPARATOR (*probe); probe++)
	continue;
    }
  *ptr = 0;

  return result;
}

/* Print hex representation of 16 bytes from SUM and write it to BUFFER.  */

static void
md5sum_to_hex (const char *sum, char *buffer)
{
  for (unsigned i = 0; i < 16; i++)
    sprintf (buffer + (2 * i), "%02x", (unsigned char)sum[i]);
}

/* Generate an output file name. INPUT_NAME is the canonicalized main
   input file and SRC_NAME is the canonicalized file name.
   LONG_OUTPUT_NAMES and PRESERVE_PATHS affect name generation.  With
   long_output_names we prepend the processed name of the input file
   to each output name (except when the current source file is the
   input file, so you don't get a double concatenation). The two
   components are separated by '##'.  With preserve_paths we create a
   filename from all path components of the source file, replacing '/'
   with '#', and .. with '^', without it we simply take the basename
   component.  (Remember, the canonicalized name will already have
   elided '.' components and converted \\ separators.)  */

static char *
make_gcov_file_name (const char *input_name, const char *src_name)
{
  char *ptr;
  char *result;

  if (flag_long_names && input_name && strcmp (src_name, input_name))
    {
      /* Generate the input filename part.  */
      result = XNEWVEC (char, strlen (input_name) + strlen (src_name) + 10);

      ptr = result;
      ptr = mangle_name (input_name, ptr);
      ptr[0] = ptr[1] = '#';
      ptr += 2;
    }
  else
    {
      result = XNEWVEC (char, strlen (src_name) + 10);
      ptr = result;
    }

  ptr = mangle_name (src_name, ptr);
  strcpy (ptr, ".gcov");

  /* When hashing filenames, we shorten them by only using the filename
     component and appending a hash of the full (mangled) pathname.  */
  if (flag_hash_filenames)
    {
      md5_ctx ctx;
      char md5sum[16];
      char md5sum_hex[33];

      md5_init_ctx (&ctx);
      md5_process_bytes (src_name, strlen (src_name), &ctx);
      md5_finish_ctx (&ctx, md5sum);
      md5sum_to_hex (md5sum, md5sum_hex);
      free (result);

      result = XNEWVEC (char, strlen (src_name) + 50);
      ptr = result;
      ptr = mangle_name (src_name, ptr);
      ptr[0] = ptr[1] = '#';
      ptr += 2;
      memcpy (ptr, md5sum_hex, 32);
      ptr += 32;
      strcpy (ptr, ".gcov");
    }

  return result;
}

static char *
mangle_name (char const *base, char *ptr)
{
  size_t len;

  /* Generate the source filename part.  */
  if (!flag_preserve_paths)
    {
      base = lbasename (base);
      len = strlen (base);
      memcpy (ptr, base, len);
      ptr += len;
    }
  else
    {
      /* Convert '/' to '#', convert '..' to '^',
	 convert ':' to '~' on DOS based file system.  */
      const char *probe;

#if HAVE_DOS_BASED_FILE_SYSTEM
      if (base[0] && base[1] == ':')
	{
	  ptr[0] = base[0];
	  ptr[1] = '~';
	  ptr += 2;
	  base += 2;
	}
#endif
      for (; *base; base = probe)
	{
	  size_t len;

	  for (probe = base; *probe; probe++)
	    if (*probe == '/')
	      break;
	  len = probe - base;
	  if (len == 2 && base[0] == '.' && base[1] == '.')
	    *ptr++ = '^';
	  else
	    {
	      memcpy (ptr, base, len);
	      ptr += len;
	    }
	  if (*probe)
	    {
	      *ptr++ = '#';
	      probe++;
	    }
	}
    }

  return ptr;
}

/* Scan through the bb_data for each line in the block, increment
   the line number execution count indicated by the execution count of
   the appropriate basic block.  */

static void
add_line_counts (coverage_t *coverage, function_t *fn)
{
  unsigned ix;
  line_t *line = NULL; /* This is propagated from one iteration to the
			  next.  */

  /* Scan each basic block.  */
  for (ix = 0; ix != fn->num_blocks; ix++)
    {
      block_t *block = &fn->blocks[ix];
      unsigned *encoding;
      const source_t *src = NULL;
      unsigned jx;

      if (block->count && ix && ix + 1 != fn->num_blocks)
	fn->blocks_executed++;
      for (jx = 0, encoding = block->u.line.encoding;
	   jx != block->u.line.num; jx++, encoding++)
	if (!*encoding)
	  {
	    src = &sources[*++encoding];
	    jx++;
	  }
	else
	  {
	    line = &src->lines[*encoding];

	    if (coverage)
	      {
		if (!line->exists)
		  coverage->lines++;
		if (!line->count && block->count)
		  coverage->lines_executed++;
	      }
	    line->exists = 1;
	    if (!block->exceptional)
	      line->unexceptional = 1;
	    line->count += block->count;
	  }
      free (block->u.line.encoding);
      block->u.cycle.arc = NULL;
      block->u.cycle.ident = ~0U;

      if (!ix || ix + 1 == fn->num_blocks)
	/* Entry or exit block */;
      else if (flag_all_blocks)
	{
	  line_t *block_line = line;

	  if (!block_line)
	    block_line = &sources[fn->src].lines[fn->line];

	  block->chain = block_line->u.blocks;
	  block_line->u.blocks = block;
	}
      else if (flag_branches)
	{
	  arc_t *arc;

	  for (arc = block->succ; arc; arc = arc->succ_next)
	    {
	      arc->line_next = line->u.branches;
	      line->u.branches = arc;
	      if (coverage && !arc->is_unconditional)
		add_branch_counts (coverage, arc);
	    }
	}
    }
  if (!line)
    fnotice (stderr, "%s:no lines for '%s'\n", bbg_file_name, fn->name);
}

/* Accumulate the line counts of a file.  */

static void
accumulate_line_counts (source_t *src)
{
  line_t *line;
  function_t *fn, *fn_p, *fn_n;
  unsigned ix;

  /* Reverse the function order.  */
  for (fn = src->functions, fn_p = NULL; fn; fn_p = fn, fn = fn_n)
    {
      fn_n = fn->next_file_fn;
      fn->next_file_fn = fn_p;
    }
  src->functions = fn_p;

  for (ix = src->num_lines, line = src->lines; ix--; line++)
    {
      if (!flag_all_blocks)
	{
	  arc_t *arc, *arc_p, *arc_n;

	  /* Total and reverse the branch information.  */
	  for (arc = line->u.branches, arc_p = NULL; arc;
	       arc_p = arc, arc = arc_n)
	    {
	      arc_n = arc->line_next;
	      arc->line_next = arc_p;

	      add_branch_counts (&src->coverage, arc);
	    }
	  line->u.branches = arc_p;
	}
      else if (line->u.blocks)
	{
	  /* The user expects the line count to be the number of times
	     a line has been executed. Simply summing the block count
	     will give an artificially high number.  The Right Thing
	     is to sum the entry counts to the graph of blocks on this
	     line, then find the elementary cycles of the local graph
	     and add the transition counts of those cycles.  */
	  block_t *block, *block_p, *block_n;
	  gcov_type count = 0;

	  /* Reverse the block information.  */
	  for (block = line->u.blocks, block_p = NULL; block;
	       block_p = block, block = block_n)
	    {
	      block_n = block->chain;
	      block->chain = block_p;
	      block->u.cycle.ident = ix;
	    }
	  line->u.blocks = block_p;

	  /* Sum the entry arcs.  */
	  for (block = line->u.blocks; block; block = block->chain)
	    {
	      arc_t *arc;

	      for (arc = block->pred; arc; arc = arc->pred_next)
		if (flag_branches)
		  add_branch_counts (&src->coverage, arc);
	    }

	  /* Cycle detection.  */
	  for (block = line->u.blocks; block; block = block->chain)
	    {
	      for (arc_t *arc = block->pred; arc; arc = arc->pred_next)
		if (!line->has_block (arc->src))
		  count += arc->count;
	      for (arc_t *arc = block->succ; arc; arc = arc->succ_next)
		arc->cs_count = arc->count;
	    }

	  /* Now, add the count of loops entirely on this line.  */
	  count += get_cycles_count (*line);
	  line->count = count;
	}

      if (line->exists)
	{
	  src->coverage.lines++;
	  if (line->count)
	    src->coverage.lines_executed++;
	}
    }
}

/* Output information about ARC number IX.  Returns nonzero if
   anything is output.  */

static int
output_branch_count (FILE *gcov_file, int ix, const arc_t *arc)
{
  if (arc->is_call_non_return)
    {
      if (arc->src->count)
	{
	  fnotice (gcov_file, "call   %2d returned %s\n", ix,
		   format_gcov (arc->src->count - arc->count,
				arc->src->count, -flag_counts));
	}
      else
	fnotice (gcov_file, "call   %2d never executed\n", ix);
    }
  else if (!arc->is_unconditional)
    {
      if (arc->src->count)
	fnotice (gcov_file, "branch %2d taken %s%s\n", ix,
		 format_gcov (arc->count, arc->src->count, -flag_counts),
		 arc->fall_through ? " (fallthrough)"
		 : arc->is_throw ? " (throw)" : "");
      else
	fnotice (gcov_file, "branch %2d never executed\n", ix);
    }
  else if (flag_unconditional && !arc->dst->is_call_return)
    {
      if (arc->src->count)
	fnotice (gcov_file, "unconditional %2d taken %s\n", ix,
		 format_gcov (arc->count, arc->src->count, -flag_counts));
      else
	fnotice (gcov_file, "unconditional %2d never executed\n", ix);
    }
  else
    return 0;
  return 1;
}

static const char *
read_line (FILE *file)
{
  static char *string;
  static size_t string_len;
  size_t pos = 0;
  char *ptr;

  if (!string_len)
    {
      string_len = 200;
      string = XNEWVEC (char, string_len);
    }

  while ((ptr = fgets (string + pos, string_len - pos, file)))
    {
      size_t len = strlen (string + pos);

      if (len && string[pos + len - 1] == '\n')
	{
	  string[pos + len - 1] = 0;
	  return string;
	}
      pos += len;
      /* If the file contains NUL characters or an incomplete
	 last line, which can happen more than once in one run,
	 we have to avoid doubling the STRING_LEN unnecessarily.  */
      if (pos > string_len / 2)
	{
	  string_len *= 2;
	  string = XRESIZEVEC (char, string, string_len);
	}
    }

  return pos ? string : NULL;
}

/* Read in the source file one line at a time, and output that line to
   the gcov file preceded by its execution count and other
   information.  */

static void
output_lines (FILE *gcov_file, const source_t *src)
{
  FILE *source_file;
  unsigned line_num;	/* current line number.  */
  const line_t *line;           /* current line info ptr.  */
  const char *retval = "";	/* status of source file reading.  */
  function_t *fn = NULL;

  fprintf (gcov_file, "%9s:%5d:Source:%s\n", "-", 0, src->coverage.name);
  if (!multiple_files)
    {
      fprintf (gcov_file, "%9s:%5d:Graph:%s\n", "-", 0, bbg_file_name);
      fprintf (gcov_file, "%9s:%5d:Data:%s\n", "-", 0,
	       no_data_file ? "-" : da_file_name);
      fprintf (gcov_file, "%9s:%5d:Runs:%u\n", "-", 0, object_runs);
    }
  fprintf (gcov_file, "%9s:%5d:Programs:%u\n", "-", 0, program_count);

  source_file = fopen (src->name, "r");
  if (!source_file)
    {
      fnotice (stderr, "Cannot open source file %s\n", src->name);
      retval = NULL;
    }
  else if (src->file_time == 0)
    fprintf (gcov_file, "%9s:%5d:Source is newer than graph\n", "-", 0);

  if (flag_branches)
    fn = src->functions;

  for (line_num = 1, line = &src->lines[line_num];
       line_num < src->num_lines; line_num++, line++)
    {
      for (; fn && fn->line == line_num; fn = fn->next_file_fn)
	{
	  arc_t *arc = fn->blocks[EXIT_BLOCK].pred;
	  gcov_type return_count = fn->blocks[EXIT_BLOCK].count;
	  gcov_type called_count = fn->blocks[ENTRY_BLOCK].count;

	  for (; arc; arc = arc->pred_next)
	    if (arc->fake)
	      return_count -= arc->count;

	  fprintf (gcov_file, "function %s", flag_demangled_names ?
                   fn->demangled_name : fn->name);
	  fprintf (gcov_file, " called %s",
		   format_gcov (called_count, 0, -1));
	  fprintf (gcov_file, " returned %s",
		   format_gcov (return_count, called_count, 0));
	  fprintf (gcov_file, " blocks executed %s",
		   format_gcov (fn->blocks_executed, fn->num_blocks - 2, 0));
	  fprintf (gcov_file, "\n");
	}

      if (retval)
	retval = read_line (source_file);

      /* For lines which don't exist in the .bb file, print '-' before
	 the source line.  For lines which exist but were never
	 executed, print '#####' or '=====' before the source line.
	 Otherwise, print the execution count before the source line.
	 There are 16 spaces of indentation added before the source
	 line so that tabs won't be messed up.  */
      fprintf (gcov_file, "%9s:%5u:%s\n",
	       !line->exists ? "-" : line->count
	       ? format_gcov (line->count, 0, -1)
	       : line->unexceptional ? "#####" : "=====", line_num,
	       retval ? retval : "/*EOF*/");

      if (flag_all_blocks)
	{
	  block_t *block;
	  arc_t *arc;
	  int ix, jx;

	  for (ix = jx = 0, block = line->u.blocks; block;
	       block = block->chain)
	    {
	      if (!block->is_call_return)
		fprintf (gcov_file, "%9s:%5u-block %2d\n",
			 !line->exists ? "-" : block->count
			 ? format_gcov (block->count, 0, -1)
			 : block->exceptional ? "%%%%%" : "$$$$$",
			 line_num, ix++);
	      if (flag_branches)
		for (arc = block->succ; arc; arc = arc->succ_next)
		  jx += output_branch_count (gcov_file, jx, arc);
	    }
	}
      else if (flag_branches)
	{
	  int ix;
	  arc_t *arc;

	  for (ix = 0, arc = line->u.branches; arc; arc = arc->line_next)
	    ix += output_branch_count (gcov_file, ix, arc);
	}
    }

  /* Handle all remaining source lines.  There may be lines after the
     last line of code.  */
  if (retval)
    {
      for (; (retval = read_line (source_file)); line_num++)
	fprintf (gcov_file, "%9s:%5u:%s\n", "-", line_num, retval);
    }

  if (source_file)
    fclose (source_file);
}