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/usr/bin/break_filelist is in sloccount 2.26-5.1.

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#!/usr/bin/perl -w

# break_filelist
# Take a list of dirs which contain a "filelist";
# creates files in each directory identifying which are C, C++, Perl, etc.
# For example, "ansic.dat" lists all ANSI C files contained in filelist.
# Note: ".h" files are ambiguous (they could be C or C++); the program
# uses heuristics to determine this.
# The list of .h files is also contained in h_list.dat.

# This is part of SLOCCount, a toolsuite that counts
# source lines of code (SLOC).
# Copyright (C) 2001-2004 David A. Wheeler.
# 
# This program 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 2 of the License, or
# (at your option) any later version.
# 
# This program 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 this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
# 
# To contact David A. Wheeler, see his website at:
#  http://www.dwheeler.com.


# If adding a new language: add the logic to open the file,
# close the file, and detect & write to the file listing that language.

# Debatable decisions:
#  Doesn't count .dsl files (stylesheets, which are partially LISP).
#  Doesn't count .sql files (SQL queries & commands)

# Note - I don't try to distinguish between TCL and [incr TCL] (itcl),
# an OO extended version of TCL.  For our purposes, it's all TCL.


use FileHandle;


# Set default configuration:

$duplicates_okay = 0;  # Set to 1 if you want to count file duplicates.
$crossdups_okay = 0;   # Set to 1 if duplicates okay in different filelists.
$autogen_okay = 0;     # Set to 1 if you want to count autogen'ed files.
$noisy = 0;            # Set to 1 if you want noisy reports.
%lang_list_files = ();

# The following extensions are NOT code:
%not_code_extensions = (
   "html" => 1,
   "in" => 1,    # Debatable.
   "xpm" => 1,
   "po" => 1,
   "am" => 1,    # Debatable.
   "1" => 1,     # Man pages (documentation):
   "2" => 1,
   "3" => 1,
   "4" => 1,
   "5" => 1,
   "6" => 1,
   "7" => 1,
   "8" => 1,
   "9" => 1,
   "n" => 1,
   "gif" => 1,
   "tfm" => 1,
   "png" => 1,
   "m4" => 1,    # Debatable.
   "bdf" => 1,
   "sgml" => 1,
   "mf" => 1,
   "txt" => 1, "text" => 1,
   "man" => 1,
   "xbm" => 1,
   "Tag" => 1,
   "sgm" => 1,
   "vf" => 1,
   "tex" => 1,
   "elc" => 1,
   "gz" => 1,
   "dic" => 1,
   "pfb" => 1,
   "fig" => 1,
   "afm" => 1,  # font metrics
   "jpg" => 1,
   "bmp" => 1,
   "htm" => 1,
   "kdelnk" => 1,
   "desktop" => 1,
   "pbm" => 1,
   "pdf" => 1,
   "ps" => 1,    # Postscript is _USUALLY_ generated automatically.
   "eps" => 1,
   "doc" => 1,
   "man" => 1,
   "o" => 1,    # Object code is generated from source code.
   "a" => 1,    # Static object code.
   "so" => 1,   # Dynamically-loaded object code.
   "Y" => 1,    # file compressed with "Yabba"
   "Z" => 1,    # file compressed with "compress"
   "ad" => 1,   # X application default resource file.
   "arc" => 1,  # arc(1) archive
   "arj" => 1,  # arj(1) archive
   "au" => 1,   # Audio sound filearj(1) archive
   "wav" => 1,
   "bak" => 1,  # Backup files - we only want to count the "real" files.
   "bz2" => 1,  # bzip2(1) compressed file
   "mp3" => 1,  # zip archive
   "tgz" => 1,  # tarball
   "zip" => 1,  # zip archive
);

# The following filenames are NOT code:
%not_code_filenames = (
   "README" => 1,
   "Readme" => 1,
   "readme" => 1,
   "README.tk" => 1, # used in kdemultimedia, it's confusing.
   "Changelog" => 1,
   "ChangeLog" => 1,
   "Repository" => 1,
   "CHANGES" => 1,
   "Changes" => 1,
   ".cvsignore" => 1,
   "Root" => 1,       # CVS.
   "BUGS" => 1,
   "TODO" => 1,
   "COPYING" => 1,
   "MAINTAINERS" => 1,
   "Entries" => 1,
        # Skip "iconfig.h" files; they're used in Imakefiles
        # (used in xlockmore):
   "iconfig.h" => 1,
);


# A filename ending in the following extensions usually maps to the
# given language:

# TODO: See suffixes(7)
# .al Perl autoload file
# .am automake input

%file_extensions = (
  "am" => "makefile",
  "c" => "ansic",
  "ec" => "ansic",   # Informix C.
  "ecp" => "ansic",  # Informix C.
  "pgc" => "ansic",  # Postgres embedded C/C++ (guess C)
  "C" => "cpp", "cpp" => "cpp", "cxx" => "cpp", "cc" => "cpp",
  "pcc" => "cpp", # Input to Oracle C++ preproc.
  "m" => "objc",
  # C# (C-sharp) is named 'cs', not 'c#', because
  # the '#' is a comment character and I'm trying to
  # avoid bug-prone conventions.
  #  C# doesn't support header files.
  "cs" => "cs",
  # Header files are allocated to the "h" language, and then
  # copied to the correct location later so that C/C++/Objective-C
  # can be separated.
  "h" => "h", "H" => "h", "hpp" => "h", "hh" => "h",
  "ada" => "ada", "adb" => "ada", "ads" => "ada",
  "erl" => "erlang",
  "pad" => "ada",     # Oracle Ada preprocessor.
  "f" => "fortran", "F" => "fortran", # This catches "wokka.F" as Fortran.
  # Warning: "Freeze" format also uses .f.  Haven't heard of problems,
  # freeze is extremely rare and even more rare in source code directories.
  "f77" => "fortran", "F77" => "fortran",
  "f90" => "f90", "F90" => "f90",
  "cob" => "cobol", "cbl" => "cobol",
  "COB" => "cobol", "CBL" => "cobol",  # Yes, people do create wokka.CBL files
  "p" => "pascal", "pas" => "pascal", "pp" => "pascal", "dpr" => "pascal",
  "py" => "python",
  "s" => "asm", "S" => "asm", "asm" => "asm",
  "sh" => "sh", "bash" => "sh",
  "csh" => "csh", "tcsh" => "csh", 
  "java" => "java",
  "lisp" => "lisp", "el" => "lisp", "scm" => "lisp", "sc" => "lisp", 
  "lsp" => "lisp", "cl" => "lisp",
  "jl" => "lisp",
  "tcl" => "tcl", "tk" => "tcl", "itk" => "tcl",
  "exp" => "exp",
  "pl" => "perl", "pm" => "perl", "perl" => "perl", "ph" => "perl",
  "awk" => "awk",
  "sed" => "sed",
  "y" => "yacc",
  "yy" => "yacc",
  "l" => "lex",
  "ll" => "lex",
  "makefile" => "makefile",
  "sql" => "sql",
  "php" => "php", "php3" => "php", "php4" => "php", "php5" => "php",
  "php6" => "php",
  "inc" => "inc", # inc MAY be PHP - we'll handle it specially.
  "m3" => "modula3", "i3" => "modula3",
  "mg" => "modula3", "ig" => "modula3",
  "ml" => "ml", "mli" => "ml",
  "mly" => "ml", # ocamlyacc. In fact this is half-yacc half-ML, especially
  		 # comments in yacc part are C-like, not ML like.
  "mll" => "ml", # ocamllex, no such problems as in ocamlyacc
  "rb" => "ruby",
  "hs" => "haskell", "lhs" => "haskell",
   # ???: .pco is Oracle Cobol
  "jsp" => "jsp",  # Java server pages
  "vhd" => "vhdl", # VHDL code
  "xml" => "xml",  # XML files
);


# GLOBAL VARIABLES

$dup_count = 0;

$warning_from_first_line = "";

%examined_directories = ();  # Keys = Names of directories examined this run.

$duplistfile = "";

###########


# Handle re-opening individual CODE_FILEs.
# CODE_FILE is public

# Private value:
$opened_file_name = "";

sub reopen {
 # Open file if it isn't already, else rewind.
 # If filename is "", close any open file.
 my $filename = shift;
 chomp($filename);
 # print("DEBUG: reopen($filename)\n");
 if ($filename eq "") {
    if ($opened_file_name) {close(CODE_FILE);}
    $opened_file_name = "";
    return;
 }
 if ($filename eq $opened_file_name) {
   seek CODE_FILE, 0, 0;  # Rewind.
 } else {   # We're opening a new file.
   if ($opened_file_name) {close(CODE_FILE)}
   open(CODE_FILE, "<$filename\0") || die "Can't open $filename";
   $opened_file_name = $filename;
 }
}

###########

sub looks_like_cpp {
 # returns a confidence level - does the file looks like it's C++?
 my $filename = shift;
 my $confidence = 0;
 chomp($filename);
 open( SUSPECT, "<$filename");
 while (defined($_ = <SUSPECT>)) {
    if (m/^\s*class\b.*\{/) {  # "}"
       close(SUSPECT);
       return 2;
    }
    if (m/^\s*class\b/) {
       $confidence = 1;
    }
 }
 close(SUSPECT);
 return $confidence;
}


# Cache which files are objective-C or not.
# Key is the full file pathname; value is 1 if objective-C (else 0).
%objective_c_files = ();

sub really_is_objc {
# Given filename, returns TRUE if its contents really are objective-C.
 my $filename = shift;
 chomp($filename);

 my $is_objc = 0;      # Value to determine.
 my $brace_lines = 0;  # Lines that begin/end with curly braces.
 my $plus_minus = 0;   # Lines that begin with + or -.
 my $word_main = 0;    # Did we find "main("?
 my $special = 0;      # Did we find a special Objective-C pattern?

 # Return cached result, if available:
 if ($objective_c_files{$filename}) { return $objective_c_files{$filename};}

 open(OBJC_FILE, "<$filename") ||
      die "Can't open $filename to determine if it's objective C.\n";
 while(<OBJC_FILE>) {

   if (m/^\s*[{}]/ || m/[{}];?\s*$/) { $brace_lines++;}
   if (m/^\s*[+-]/) {$plus_minus++;}
   if (m/\bmain\s*\(/) {$word_main++;} # "main" followed by "("?
   # Handle /usr/src/redhat/BUILD/egcs-1.1.2/gcc/objc/linking.m:
   if (m/^\s*\[object name\];\s*$/i) {$special=1;}
 }
 close(OBJC_FILE);

 if (($brace_lines > 1) && (($plus_minus > 1) || $word_main || $special))
          {$is_objc = 1;}

 $objective_c_files{$filename} = $is_objc; # Store result in cache.

 return $is_objc;
}


# Cache which files are lex or not.
# Key is the full file pathname; value is 1 if lex (else 0).
%lex_files = ();

sub really_is_lex {
# Given filename, returns TRUE if its contents really is lex.
# lex file must have "%%", "%{", and "%}".
# In theory, a lex file doesn't need "%{" and "%}", but in practice
# they all have them, and requiring them avoid mislabeling a
# non-lexfile as a lex file.

 my $filename = shift;
 chomp($filename);

 my $is_lex = 0;      # Value to determine.
 my $percent_percent = 0;
 my $percent_opencurly = 0;
 my $percent_closecurly = 0;

 # Return cached result, if available:
 if ($lex_files{$filename}) { return $lex_files{$filename};}

 open(LEX_FILE, "<$filename") ||
      die "Can't open $filename to determine if it's lex.\n";
 while(<LEX_FILE>) {
   $percent_percent++     if (m/^\s*\%\%/);
   $percent_opencurly++   if (m/^\s*\%\{/);
   $percent_closecurly++   if (m/^\s*\%\}/);
 }
 close(LEX_FILE);

 if ($percent_percent && $percent_opencurly && $percent_closecurly)
          {$is_lex = 1;}

 $lex_files{$filename} = $is_lex; # Store result in cache.

 return $is_lex;
}


# Cache which files are expect or not.
# Key is the full file pathname; value is 1 if it is (else 0).
%expect_files = ();

sub really_is_expect {
# Given filename, returns TRUE if its contents really are Expect.
# Many "exp" files (such as in Apache and Mesa) are just "export" data,
# summarizing something else # (e.g., its interface).
# Sometimes (like in RPM) it's just misc. data.
# Thus, we need to look at the file to determine
# if it's really an "expect" file.

 my $filename = shift;
 chomp($filename);

# The heuristic is as follows: it's Expect _IF_ it:
# 1. has "load_lib" command and either "#" comments or {}.
# 2. {, }, and one of: proc, if, [...], expect

 my $is_expect = 0;      # Value to determine.

 my $begin_brace = 0;  # Lines that begin with curly braces.
 my $end_brace = 0;    # Lines that begin with curly braces.
 my $load_lib = 0;     # Lines with the Load_lib command.
 my $found_proc = 0;
 my $found_if = 0;
 my $found_brackets = 0;
 my $found_expect = 0;
 my $found_pound = 0;

 # Return cached result, if available:
 if ($expect_files{$filename}) { return expect_files{$filename};}

 open(EXPECT_FILE, "<$filename") ||
      die "Can't open $filename to determine if it's expect.\n";
 while(<EXPECT_FILE>) {

   if (m/#/) {$found_pound++; s/#.*//;}
   if (m/^\s*\{/) { $begin_brace++;}
   if (m/\{\s*$/) { $begin_brace++;}
   if (m/^\s*\}/) { $end_brace++;}
   if (m/\};?\s*$/) { $end_brace++;}
   if (m/^\s*load_lib\s+\S/) { $load_lib++;}
   if (m/^\s*proc\s/) { $found_proc++;}
   if (m/^\s*if\s/) { $found_if++;}
   if (m/\[.*\]/) { $found_brackets++;}
   if (m/^\s*expect\s/) { $found_expect++;}
 }
 close(EXPECT_FILE);

 if ($load_lib && ($found_pound || ($begin_brace && $end_brace)))
          {$is_expect = 1;}
 if ( $begin_brace && $end_brace &&
      ($found_proc || $found_if || $found_brackets || $found_expect))
          {$is_expect = 1;}

 $expect_files{$filename} = $is_expect; # Store result in cache.

 return $is_expect;
}


# Cached values.
%pascal_files = ();

sub really_is_pascal {
# Given filename, returns TRUE if its contents really are Pascal.

# This isn't as obvious as it seems.
# Many ".p" files are Perl files
# (such as /usr/src/redhat/BUILD/ispell-3.1/dicts/czech/glob.p),
# others are C extractions
# (such as /usr/src/redhat/BUILD/linux/include/linux/umsdos_fs.p
# and some files in linuxconf).
# However, test files in "p2c" really are Pascal, for example.

# Note that /usr/src/redhat/BUILD/ucd-snmp-4.1.1/ov/bitmaps/UCD.20.p
# is actually C code.  The heuristics determine that they're not Pascal,
# but because it ends in ".p" it's not counted as C code either.
# I believe this is actually correct behavior, because frankly it
# looks like it's automatically generated (it's a bitmap expressed as code).
# Rather than guess otherwise, we don't include it in a list of
# source files.  Let's face it, someone who creates C files ending in ".p"
# and expects them to be counted by default as C files in SLOCCount needs
# their head examined.  I suggest examining their head
# with a sucker rod (see syslogd(8) for more on sucker rods).

# This heuristic counts as Pascal such files such as:
#  /usr/src/redhat/BUILD/teTeX-1.0/texk/web2c/tangleboot.p
# Which is hand-generated.  We don't count woven documents now anyway,
# so this is justifiable.

 my $filename = shift;
 chomp($filename);

# The heuristic is as follows: it's Pascal _IF_ it has all of the following
# (ignoring {...} and (*...*) comments):
# 1. "^..program NAME" or "^..unit NAME",
# 2. "procedure", "function", "^..interface", or "^..implementation",
# 3. a "begin", and
# 4. it ends with "end.",
#
# Or it has all of the following:
# 1. "^..module NAME" and
# 2. it ends with "end.".
#
# Or it has all of the following:
# 1. "^..program NAME",
# 2. a "begin", and
# 3. it ends with "end.".
#
# The "end." requirements in particular filter out non-Pascal.
#
# Note (jgb): this does not detect Pascal main files in fpc, like
# fpc-1.0.4/api/test/testterminfo.pas, which does not have "program" in
# it

 my $is_pascal = 0;      # Value to determine.

 my $has_program = 0;
 my $has_unit = 0;
 my $has_module = 0;
 my $has_procedure_or_function = 0;
 my $found_begin = 0;
 my $found_terminating_end = 0;

 # Return cached result, if available:
 if ($pascal_files{$filename}) { return pascal_files{$filename};}

 open(PASCAL_FILE, "<$filename") ||
      die "Can't open $filename to determine if it's pascal.\n";
 while(<PASCAL_FILE>) {
   s/\{.*?\}//g;  # Ignore {...} comments on this line; imperfect, but effective.
   s/\(\*.*?\*\)//g;  # Ignore (*...*) comments on this line; imperfect, but effective.
   if (m/\bprogram\s+[A-Za-z]/i)  {$has_program=1;}
   if (m/\bunit\s+[A-Za-z]/i)     {$has_unit=1;}
   if (m/\bmodule\s+[A-Za-z]/i)   {$has_module=1;}
   if (m/\bprocedure\b/i)         { $has_procedure_or_function = 1; }
   if (m/\bfunction\b/i)          { $has_procedure_or_function = 1; }
   if (m/^\s*interface\s+/i)      { $has_procedure_or_function = 1; }
   if (m/^\s*implementation\s+/i) { $has_procedure_or_function = 1; }
   if (m/\bbegin\b/i) { $has_begin = 1; }
   # Originally I said:
   # "This heuristic fails if there are multi-line comments after
   # "end."; I haven't seen that in real Pascal programs:"
   # But jgb found there are a good quantity of them in Debian, specially in 
   # fpc (at the end of a lot of files there is a multiline comment
   # with the changelog for the file).
   # Therefore, assume Pascal if "end." appears anywhere in the file.
   if (m/end\.\s*$/i) {$found_terminating_end = 1;}
#   elsif (m/\S/) {$found_terminating_end = 0;}
 }
 close(PASCAL_FILE);

 # Okay, we've examined the entire file looking for clues;
 # let's use those clues to determine if it's really Pascal:

 if ( ( ($has_unit || $has_program) && $has_procedure_or_function &&
     $has_begin && $found_terminating_end ) ||
      ( $has_module && $found_terminating_end ) ||
      ( $has_program && $has_begin && $found_terminating_end ) )
          {$is_pascal = 1;}

 $pascal_files{$filename} = $is_pascal; # Store result in cache.

 return $is_pascal;
}

sub really_is_incpascal {
# Given filename, returns TRUE if its contents really are Pascal.
# For .inc files (mainly seen in fpc)

 my $filename = shift;
 chomp($filename);

# The heuristic is as follows: it is Pacal if any of the following:
# 1. really_is_pascal returns true
# 2. Any usual reserverd word is found (program, unit, const, begin...)

 # If the general routine for Pascal files works, we have it
 if (&really_is_pascal ($filename)) { 
   $pascal_files{$filename} = 1;
   return 1;
 }

 my $is_pascal = 0;      # Value to determine.
 my $found_begin = 0;

 open(PASCAL_FILE, "<$filename") ||
      die "Can't open $filename to determine if it's pascal.\n";
 while(<PASCAL_FILE>) {
   s/\{.*?\}//g;  # Ignore {...} comments on this line; imperfect, but effective.
   s/\(\*.*?\*\)//g;  # Ignore (*...*) comments on this line; imperfect, but effective.
   if (m/\bprogram\s+[A-Za-z]/i)  {$is_pascal=1;}
   if (m/\bunit\s+[A-Za-z]/i)     {$is_pascal=1;}
   if (m/\bmodule\s+[A-Za-z]/i)   {$is_pascal=1;}
   if (m/\bprocedure\b/i)         {$is_pascal = 1; }
   if (m/\bfunction\b/i)          {$is_pascal = 1; }
   if (m/^\s*interface\s+/i)      {$is_pascal = 1; }
   if (m/^\s*implementation\s+/i) {$is_pascal = 1; }
   if (m/\bconstant\s+/i)         {$is_pascal=1;}
   if (m/\bbegin\b/i) { $found_begin = 1; }
   if ((m/end\.\s*$/i) && ($found_begin = 1)) {$is_pascal = 1;}
   if ($is_pascal) {
     last;
   }
 }

 close(PASCAL_FILE);
 $pascal_files{$filename} = $is_pascal; # Store result in cache.
 return $is_pascal;
}

# Cache which files are php or not.
# Key is the full file pathname; value is 1 if it is (else 0).
%php_files = ();

sub really_is_php {
# Given filename, returns TRUE if its contents really is php.

 my $filename = shift;
 chomp($filename);

 my $is_php = 0;      # Value to determine.
 # Need to find a matching pair of surrounds, with ending after beginning:
 my $normal_surround = 0;  # <?; bit 0 = <?, bit 1 = ?>
 my $script_surround = 0;  # <script..>; bit 0 = <script language="php">
 my $asp_surround = 0;     # <%; bit 0 = <%, bit 1 = %>

 # Return cached result, if available:
 if ($php_files{$filename}) { return $php_files{$filename};}

 open(PHP_FILE, "<$filename") ||
      die "Can't open $filename to determine if it's php.\n";
 while(<PHP_FILE>) {
   if (m/\<\?/)                           { $normal_surround |= 1; }
   if (m/\?\>/ && ($normal_surround & 1)) { $normal_surround |= 2; }
   if (m/\<script.*language="?php"?/i)    { $script_surround |= 1; }
   if (m/\<\/script\>/i && ($script_surround & 1)) { $script_surround |= 2; }
   if (m/\<\%/)                           { $asp_surround |= 1; }
   if (m/\%\>/ && ($asp_surround & 1)) { $asp_surround |= 2; }
 }
 close(PHP_FILE);

 if ( ($normal_surround == 3) || ($script_surround == 3) ||
      ($asp_surround == 3)) {
   $is_php = 1;
 }

 $php_files{$filename} = $is_php; # Store result in cache.

 return $is_php;
}



sub examine_dir {
 # Given a file, determine if there are only C++, OBJC, C, or a mixture
 # in the same directory. Returns "ansic", "cpp", "objc" or "mix"
 my $filename = shift;
 chomp($filename);
 my $dirname = $filename;
 $dirname =~ s/\/[^\/]*$//;
 my $saw_ansic_in_dir = 0;
 my $saw_pc_in_dir = 0;  # ".pc" may mean Oracle C.
 my $saw_pcc_in_dir = 0;  # ".pc" may mean Oracle C++.
 my $saw_cpp_in_dir = 0;
 my $saw_objc_in_dir = 0;
 opendir(DIR, $dirname) || die "can't opendir $dirname";
 while (defined($_ = readdir(DIR))) {
   chomp;
   next if (!$_);
   if (m/\.(cpp|C|cxx|cc)$/ && -f "$dirname/$_") {$saw_cpp_in_dir = 1;}
   if (m/\.c$/ && -f "$dirname/$_")           {$saw_ansic_in_dir = 1;}
   if (m/\.pc$/ && -f "$dirname/$_")          {$saw_pc_in_dir = 1;}
   if (m/\.pcc$/ && -f "$dirname/$_")         {$saw_pcc_in_dir = 1;}
   if (m/\.m$/ && -f "$dirname/$_" && &really_is_objc($dirname . "/" . $_))
                                              {$saw_objc_in_dir = 1;}
   if (($saw_ansic_in_dir + $saw_cpp_in_dir + $saw_objc_in_dir) > 1) {
    closedir(DIR);
    return "mix";
   }
 }
 # Done searching; we saw at most one type.
 if ($saw_ansic_in_dir) {return "c";}
 elsif ($saw_cpp_in_dir) {return "cpp";}
 elsif ($saw_objc_in_dir) {return "objc";}
 elsif ($saw_pc_in_dir && (!$saw_pcc_in_dir)) {return "c";} # Guess "C".
 elsif ($saw_pcc_in_dir && (!$saw_pc_in_dir)) {return "cpp";} # Guess "C".
 else {return "mix";}  # We didn't see anything... so let's say "mix".
}

sub was_generated_automatically() {
 # Determine if the file was generated automatically.
 # Use a simple heuristic: check if first few lines have phrases like
 # "generated automatically", "automatically generated", "Generated by",
 # or "do not edit" as the first
 # words in the line (after possible comment markers and spaces).
 my $filename = shift;

 if ($autogen_okay) {return 0;};

 chomp($filename);
 reopen($filename);
 $i = 15;  # Look at first 15 lines.
 while (defined($_ = <CODE_FILE>)) {
   if (m/^[\s#\/\*;\-\%]*generated automatically/i ||
       m/^[\s#\/\*;\-\%]*automatically generated/i ||
       m/^[\s#\/\*;\-\%]*generated by /i || # libtool uses this.
       m/^[\s#\/\*;\-\%]*a lexical scanner generated by flex/i ||
       m/^[\s#\/\*;\-\%]*this is a generated file/i ||     # TeTex uses this.
       m/^[\s#\/\*;\-\%]*generated with the.*utility/i ||  # TeTex uses this.
       m/^[\s#\/\*;\-\%]*do not edit/i) {
     return 1;
   }
   $i--;
   last if $i <= 0;
 }
 return 0;
}


# Previous files added, indexed by digest:

%previous_files = ();

$cached_digest = "";
$cached_digest_filename = "";

$digest_method = undef;

sub compute_digest_given_method {
 my $filename = shift;
 my $method = shift;
 my $result;

 if ($method eq "md5sum") {
   open(FH, "-|", "md5sum", $filename) or return undef;
   $result = <FH>;
   close FH;
   return undef if ! defined($result);
   chomp($result);
   $result =~ s/^\s*//;  # Not needed for GNU Textutils.
   $result =~ s/[^a-fA-F0-9].*//; # Strip away end.
 } elsif ($method eq "md5") {
   open(FH, "-|", "md5", $filename) or return undef;
   $result = <FH>;
   close FH;
   return undef if ! defined($result);
   chomp($result);
   $result =~ s/^.* //; # Strip away beginning.
 } elsif ($method eq "openssl") {
   open(FH, "-|", "openssl", "dgst", "-md5", $filename) or return undef;
   $result = <FH>;
   close FH;
   return undef if ! defined($result);
   chomp($result);
   $result =~ s/^.* //; # Strip away beginning.
 } else {
   # "Can't happen"
   die "Unknown method";
 }
 return $result;
}

sub compute_digest {
 my $filename = shift;
 my $result;
 if (defined($digest_method)) {
   $result = compute_digest_given_method($filename, $digest_method);
 } else {
   # Try each method in turn until one works.
   # There doesn't seem to be a way in perl to disable an error message
   # display if the command is missing, which is annoying.  However, the
   # program is more robust if we check for the command each time we run.
   print "Finding a working MD5 command....\n";
   foreach $m ("md5sum", "md5", "openssl") {
     $result = compute_digest_given_method($filename, $m);
     if (defined($result)) {
       $digest_method = $m;
       last;
     }
   }
   if (!defined($digest_method)) {
     die "Failure - could not find a working md5 program using $filename.";
   }
   print "Found a working MD5 command.\n";
 }
 return $result;
}

sub get_digest {
 my $filename = shift;
 my $result;
 # First, check the cache -- did we just compute this?
 if ($filename eq $cached_digest_filename) {
   return $cached_digest;  # We did, so here's what it was.
 }

 $result = compute_digest($filename);
 # Store in most-recently-used cache.
 $cached_digest = $result;
 $cached_digest_filename = $filename;
 return $result;
}

sub already_added {
 # returns the first file's name with the same contents,
 # else returns the empty string.

 my $filename = shift;
 my $digest = &get_digest($filename);

 if ($previous_files{$digest}) {
   return $previous_files{$digest};
 } else {
   return "";
 }
}

sub close_lang_lists {
  my $lang;
  my $file;
  while (($lang, $file) = each(%lang_list_files)) {
    $file->close();  # Ignore any errors on close, there's little we can do.
  }
  %lang_list_files = ();
}

sub force_record_file_type {
  my ($filename, $type) = @_;

  if (!$type) {die "ERROR! File $filename, type $file_type\n";}
  if ($type eq "c") {$type = "ansic";};
  if (!defined($lang_list_files{$type})) {
    $lang_list_files{$type} = new FileHandle("${dir}/${type}_list.dat", "w") ||
         die "Could not open ${dir}/${type}_list.dat";
  }
  $lang_list_files{$type}->printf("%s\n", $filename);
}


sub record_file_type {
 my ($filename, $type) = @_;
 # First check if the file should be auto, dup, or zero - and add there
 # if so.  Otherwise, add to record of 'type'.

 my $first_filename;

 if (-z $filename) {
   force_record_file_type($filename, "zero");
   return;
 }

 if (&was_generated_automatically($filename)) {
   force_record_file_type($filename, "auto");
   return;
 }

 unless (($duplicates_okay) || ($type eq "not") || ($type eq "unknown")) {
   $first_filename = &already_added($filename);
   if ($first_filename) {
    print "Note: $filename dups $first_filename\n" if $noisy;
    force_record_file_type("$filename dups $first_filename", "dup");
    $dup_count++;
    return;
   } else { # This isn't a duplicate - record that info, as needed.
     my $digest = &get_digest($filename);
     $previous_files{$digest} = $filename;
     if ($duplistfile) {
       print DUPLIST "$digest $filename\n";
     }
   }
 }

 force_record_file_type($filename, $type);
}



sub file_type_from_contents() {
 # Determine if file type is a scripting language, and if so, return it.
 # Returns its type as a string, or the empty string if it's undetermined.
 my $filename = shift;
 my $command;
 chomp($filename);
 reopen($filename);
 # Don't do $firstline = <CODE_FILE> here because the file may be binary;
 # instead, read in a fixed number of bytes:
 read CODE_FILE, $firstline, 200;
 return "" if (!$_);
 chomp($firstline);
 if (!$_)         {return "";}
 if (!$firstline) {return "";}

 # Handle weirdness: If there's a ".cpp" file beginning with .\"
 # then it clearly isn't C/C++... it's a man page.  People who create
 # and distribute man pages with such filename extensions should have
 # a fingernail removed, slowly :-).
 if (($firstline =~ m@^[,.]\\"@) &&
     $filename =~ m@\.(c|cpp|C|cxx|cc)$@) {return "not";}

 # Make some more tests for Bison-generated files
 if ($firstline =~ m@A Bison parser, made by GNU Bison@) {
   print "Note: found bison-generated file $filename\n"
       if $noisy;
   return "auto";
 }

 if (!($firstline =~ m@^#!@)) {return "";} # No script indicator here.

 # studying $firstline doesn't speed things up, unfortunately.

 # I once used a pattern that only acknowledged very specific directories,
 # but I found that many test cases use unusual script locations
 # (to ensure that they're invoking the correct program they're testing).
 # Thus, we depend on the program being named with postfixed whitespace,
 # and either begin named by itself or with a series of lowercase
 # directories ending in "/".

 # I developed these patterns by starting with patterns that appeared
 # correct, and then examined the output (esp. warning messages) to see
 # what I'd missed.

 $command = "";

 # Strip out any calls to sudo
 if ($firstline =~ m@^#!\s*/(usr/)?bin/sudo\s+(/.*)@)  {
   $firstline = "#!" . $2;
 }

 if ($firstline =~ m@^#!\s*/(usr/)?bin/env\s+([a-zA-Z0-9\._]+)(\s|\Z)@i) {
  $command = $2;
 } elsif ($firstline =~ m@^#!\s*([a-zA-Z0-9\/\.]+\/)?([a-zA-Z0-9\._]+)(\s|\Z)@)  {
  $command = $2;
 }

 if ( ($command =~ m/^(bash|ksh|zsh|pdksh|sh)[0-9\.]*(\.exe)?$/i) ||
     ($firstline =~
          m~^#!\s*\@_?(SCRIPT_)?(PATH_)?(BA|K)?SH(ELL)?(\d+)?\@?(\s|\Z)~)) {
    # Note: wish(1) uses a funny trick; see wish(1) for more info.
    # The following code detects this unusual wish convention.
    if ($firstline =~ m@exec wish(\s|\Z)@i) {
      return "tcl"; # return the type for wish.
    }
    # Otherwise, it's shell.
    return "sh";
 }
 if ( ($command =~ m/^(t?csh\d*)[0-9\.]*(\.exe)?$/i) ||
      ($firstline =~ m@^#!\s*xCSH_PATHx(\s|\Z)@)) {
    return "csh";
 } 
 if ( ($command =~ m/^(mini)?perl[0-9\.]*(\.exe)?$/i) ||
      ($command =~ m/^speedycgi[0-9\.]*(\.exe)?$/i) ||
      ($firstline =~ m~^#!\s*\@_?(PATH_)?PERL\d*(PROG)?\@(\s|\Z)~)  ||
      ($firstline =~ m~^#!\s*xPERL_PATHx(\s|\Z)~)) {
    return "perl";
 } 
 if ($command =~ m/^python[0-9\.]*(\.exe)?$/i) {
    return "python";
 } 
 if ($command =~ m/^ruby[0-9\.]*(\.exe)?$/i) {
	 return "ruby";
 } 
 if ($command =~ m/^(tcl|tclsh|bltwish|wish|wishx|WISH)[0-9\.]*(\.exe)?$/i) {
    return "tcl";
 } 
 if ($command =~ m/^expectk?[0-9\.]*(\.exe)?$/i) { return "exp"; } 
 if ($command =~ m/^[ng]?awk[0-9\.]*(\.exe)?$/i) { return "awk"; } 
 if ($command =~ m/^sed$/i) { return "sed"; } 
 if ($command =~ m/^guile[0-9\.]*$/i) { return "lisp"; } 
 if ($firstline =~ m@^#!.*make\b@i) {  # We'll claim that #! make is a makefile.
    return "makefile";
 } 
 if ($firstline =~ m@^#!\s*\.(\s|\Z)@) {  # Lonely period.
    return "";  # Ignore the first line, it's not helping.
 } 
 if ($firstline =~ m@^#!\s*\Z@) {  # Empty line.
    return "";  # Ignore the first line, it's not helping.
 } 
 if ($firstline =~ m@^#!\s*/dev/null@) {  # /dev/null is the script?!?
    return "";  # Ignore nonsense ("/dev/null").
 } 
 if ($firstline =~ m@^#!\s*/unix(\s|Z)@) {
    return "";  # Ignore nonsense ("/unix").
 } 
 if (($filename =~ m@\.pl$@) || ($filename =~ m@\.pm$@)) {
    return "";  # Don't warn about files that will be ID'd as perl files.
 } 
 if (($filename =~ m@\.sh$@)) {
    return "";  # Don't warn about files that will be ID'd as sh files.
 } 
 if ($firstline =~ m@^#!\s*\S@) {
    $firstline =~ s/\n.*//s;  # Delete everything after first line.
    $warning_from_first_line = "WARNING! File $filename has unknown start: $firstline";
    return "";
 }
 return "";
}


sub get_file_type {
   my $file_to_examine = shift;
   # Return the given file's type.
   # Consider the file's contents, filename, and file extension.

   $warning_from_first_line = "";

   # Skip file names known to not be program files.
   $basename = $file_to_examine;
   $basename =~ s!^.*/!!;
   if ($not_code_filenames{$basename}) {
     print "Note: Skipping non-program filename: $file_to_examine\n"
           if $noisy;
     return "not";
   }

   # Skip "configure" files if there's a corresponding "configure.in"
   # file; such a situation suggests that "configure" is automatically
   # generated by "autoconf" from "configure.in".
   if (($file_to_examine =~ m!/configure$!) &&
       (-s "${file_to_examine}.in")) {
     print "Note: Auto-generated configure file $file_to_examine\n"
           if $noisy;
     return "auto";
   }

   # Skip files generated by auto-* tools. These can be identified by a
   # matching file with an ".in" or ".am" extension.
   if (-s "${file_to_examine}.in") {
     print "Note: Auto-generated file $file_to_examine\n"
         if $noisy;
     return "auto";
   }
   if ($file_to_examine =~ m/\.in$/) {
     $possible_auto = $file_to_examine;
     $possible_auto =~ s/\.in$/\.am/;
     if (-s "$possible_auto") {
       print "Note: Auto-generated file $file_to_examine\n"
           if $noisy;
       return "auto";
     }
   }

   if (($basename eq "lex.yy.c") ||    # Flex/Lex output!
       ($basename eq "lex.yy.cc") ||   # Flex/Lex output - C++ scanner.
       ($basename eq "y.code.c") ||    # yacc/bison output.
       ($basename eq "y.tab.c") ||     # yacc output.
       ($basename eq "y.tab.h")) {     # yacc output.
     print "Note: Auto-generated lex/yacc file $file_to_examine\n"
           if $noisy;
     return "auto";
   }

   # Bison is more flexible than yacc -- it can create arbitrary
   # .c/.h files.  If we have a .tab.[ch] file, with a corresponding
   # .y file, then it's been automatically generated.
   # Bison can actually save to any filename, and of course a Makefile
   # can rename any file, but we can't help that.
   if ($basename =~ m/\.tab\.[ch]$/) {
     $possible_bison = $file_to_examine;
     $possible_bison =~ s/\.tab\.[ch]$/\.y/;
     if  (-s "$possible_bison") {
       print "Note: found bison-generated file $file_to_examine\n"
           if $noisy;
       return "auto";
     }
   }
   if ($basename =~ m/\.tab\.[ch]{2}$/) {
     $possible_bison = $file_to_examine;
     $possible_bison =~ s/\.tab\.[ch]{2}$/\.yy/;
     if  (-s "$possible_bison") {
       print "Note: found bison-generated file $file_to_examine\n"
           if $noisy;
       return "auto";
     }
   }

   # Flex may generate arbitraty files. Try to be a bit clever about the
   # generated file. (Flex generates only C/C++ files - no header files.)
   if ($basename =~ m/.c$/) {
     $possible_flex = $file_to_examine;
     $possible_flex =~ s/.c$/\.l/;
     if (-s "$possible_flex") {
       print "Note: found flex-generated file $file_to_examine\n"
           if $noisy;
       return "auto";
     }
   }
   if ($basename =~ m/.cc$/) {
     $possible_flex = $file_to_examine;
     $possible_flex =~ s/.cc$/\.ll/;
     if (-s "$possible_flex") {
       print "Note: found flex-generated file $file_to_examine\n"
           if $noisy;
       return "auto";
     }
   }


   # If there's a corresponding ".MASTER" file, treat this file
   # as automatically-generated derivative.  This handles "exmh".
   if (-s "${file_to_examine}.MASTER") {
     print "Note: Auto-generated non-.MASTER file $file_to_examine\n"
           if $noisy;
       return "auto";
   }

   # Peek at first line to determine type.  Note that the file contents
   # take precedence over the filename extension, because there are files
   # (such as /usr/src/redhat/BUILD/teTeX-1.0/texmf/doc/mkhtml.nawk)
   # which have one extension (say, ".nawk") but actually contain 
   # something else (at least in part):
   $type = &file_type_from_contents($file_to_examine);
   if ($type) {
      return $type;
   }

   # Use filename to determine if it's a makefile:
   if (($file_to_examine =~ m/\bmakefile$/i) ||
        ($file_to_examine =~ m/\bmakefile\.txt$/i) ||
        ($file_to_examine =~ m/\bmakefile\.pc$/i) ||
        ($file_to_examine =~ m/\bmakefile\.in$/i) ||
        ($file_to_examine =~ m/\bmakefile\.am$/i) ||
        ($file_to_examine =~ m/\bdebian\/rules$/i)) {  # "debian/rules" too.
      return "makefile";
   }

   # Try to use filename extension to determine type:
   if ($file_to_examine =~ m/\.([^.\/]+)$/) {
      $type = $1;

      # More ugly problems: some source filenames only use
      # UPPERCASE, and they can be mixed with regular files.
      # Since normally filenames are lowercase or mixed case,
      # presume that an all-uppercase filename means we have to assume
      # that the extension must be lowercased.  This particularly affects
      # .C, which usually means C++ but in this case would mean plain C.
      my $uppercase_filename = 0;
      if (($file_to_examine =~ m/[A-Z]/) &&
          (! ($file_to_examine =~ m/[a-z]/))) {
        $uppercase_filename = 1;
        $type = lc($type);  # Use lowercase version of type.
      }

      # Is this type known to NOT be a program?
      if ($not_code_extensions{$type}) {
         return "not";
      }

      # Handle weirdness: ".hpp" is a C/C++ header file, UNLESS it's
      # makefile.hpp (a makefile); see /usr/src/redhat/BUILD,
      # pine4.21/pine/makefile.hpp and pine4.21/pico/makefile.hpp
      # Note that pine also includes pine4.21/pine/osdep/diskquot.hpp.
      # Kaffe uses .hpp for C++ header files.
      if (($type eq "hpp") && ($file_to_examine =~ m/makefile\.hpp$/i))
            {return "makefile";}

      # If it's a C file but there's a ".pc" or ".pgc" file, then presume that
      # it was automatically generated:
      if ($type eq "c") {
        $pc_name = $file_to_examine;
        if ($uppercase_filename) { $pc_name =~ s/\.C$/\.PC/; }
        else                     { $pc_name =~ s/\.c$/\.pc/; }
        if (-s "$pc_name" ) {
          print "Note: Auto-generated C file (from .pc file) $file_to_examine\n"
              if $noisy;
          return "auto";
        }
        $pc_name = $file_to_examine;
        if ($uppercase_filename) { $pc_name =~ s/\.C$/\.PGC/; }
        else                     { $pc_name =~ s/\.c$/\.pgc/; }
        if (-s "$pc_name" ) {
          print "Note: Auto-generated C file (from .pgc file) $file_to_examine\n"
              if $noisy;
          return "auto";
        }
      }

      # ".pc" is the official extension for Oracle C programs with
      # Embedded C commands, but many programs use ".pc" to indicate
      # the "PC" (MS-DOS/Windows) version of a file.
      # We'll use heuristics to detect when it's not really C,
      # otherwise claim it's C and move on.
      if ($type eq "pc") {  # If it has one of these filenames, it's not C.
         if ($file_to_examine =~ m/\bmakefile\.pc$/i) { return "makefile"; }
         if   (($file_to_examine =~ m/\bREADME\.pc$/i) ||
              ($file_to_examine =~ m/\binstall\.pc$/i) ||
              ($file_to_examine =~ m/\bchanges\.pc$/i)) {return "not";}
         else {  return "c";}
      }

      if (defined($file_extensions{$type})) {
        $type = $file_extensions{$type};
        if ( (($type eq "exp") && (!&really_is_expect($file_to_examine))) ||
             (($type eq "tk") && (!&really_is_expect($file_to_examine))) ||
             (($type eq "objc") && (!&really_is_objc($file_to_examine))) ||
             (($type eq "lex") && (!&really_is_lex($file_to_examine))) ||
             (($type eq "pascal") && (!&really_is_pascal($file_to_examine)))) {
	  $type = "unknown";
	} elsif ($type eq "inc") {
	  if (&really_is_php($file_to_examine)) {
	    $type = "php";  # Hey, the .inc is PHP!
	  } elsif (&really_is_incpascal($file_to_examine)) {
	    $type = "pascal";
	  } else {
	    $type = "unknown";
	  }
	};
        return $type;
      }

   }
  # If we were expecting a script, warn about that.
  if ($warning_from_first_line) {print "$warning_from_first_line\n";}
  # Don't know what it is, so report "unknown".
  return "unknown";
}




sub convert_h_files {
 # Determine if the ".h" files we saw are C, OBJC, C++, or a mixture (!)
 # Usually ".hpp" files are C++, but if we didn't see any C++ files then
 # it probably isn't.  This handles situations like pine; its has a file
 # /usr/src/redhat/BUILD/pine4.21/pine/osdep/diskquot.hpp
 # where the ".hpp" is for HP, not C++.  (Of course, we completely miss
 # the other files in that pine directory because they have truly bizarre
 # extensions, but there's no easy way to handle such nonstandard things).

 if (!defined($lang_list_files{"h"})) { return; }

 my $saw_ansic = defined($lang_list_files{"ansic"});
 my $saw_cpp   = defined($lang_list_files{"cpp"});
 my $saw_objc  = defined($lang_list_files{"objc"});
 my $confidence;

 $lang_list_files{"h"}->close();

 open(H_LIST, "<${dir}/h_list.dat") ||  die "Can't reopen h_list\n";

 if ($saw_ansic && (!$saw_cpp) && (!$saw_objc)) {
     # Only C, let's assume .h files are too
    while (defined($_ = <H_LIST>)) { chomp; force_record_file_type($_, "c"); };
 } elsif ($saw_cpp && (!$saw_ansic) && (!$saw_objc)) {  # Only C++
    while (defined($_ = <H_LIST>)) { chomp; force_record_file_type($_, "cpp"); };
 } elsif ($saw_objc && (!$saw_ansic) && (!$saw_cpp)) {  # Only Obj-C
    while (defined($_ = <H_LIST>)) { chomp; force_record_file_type($_, "objc"); };
 } else {
   # Ugh, we have a mixture. Let's try to determine what we have, using
   # various heuristics (looking for a matching name in the directory,
   # reading the file contents, the contents in the directory, etc.)
   # When all else fails, assume C.
   while (defined($_=<H_LIST>)) {
      chomp;
      next if (!$_);
      # print "DEBUG: H file $_\n";

      $h_file = $_;
      $cpp2_equivalent =
            $cpp3_equivalent = $cpp4_equivalent = $objc_equivalent = $_;
      $ansic_equivalent = $cpp_equivalent = $_;
      $ansic_equivalent =~ s/h$/c/;
      $cpp_equivalent   =~ s/h$/C/;
      $cpp2_equivalent  =~ s/h$/cpp/;
      $cpp3_equivalent  =~ s/h$/cxx/;
      $cpp4_equivalent  =~ s/h$/cc/;
      $objc_equivalent   =~ s/h$/m/;
      if (m!\.hpp$!) { force_record_file_type($h_file, "cpp"); }
      elsif ( (-s $cpp2_equivalent) ||
              (-s $cpp3_equivalent) || (-s $cpp4_equivalent))
              { force_record_file_type($h_file, "cpp"); }
         # Note: linuxconf has many ".m" files that match .h files,
         # but the ".m" files are straight C and _NOT_ objective-C.
         # The following test handles cases like this:
      elsif ($saw_objc && (-s $objc_equivalent) &&
              &really_is_objc($objc_equivalent))
              { &force_record_file_type($h_file, "objc"); }
      elsif (( -s $ansic_equivalent) && (! -s $cpp_equivalent))
             { force_record_file_type($h_file, "c"); }
      elsif ((-s $cpp_equivalent) && (! -s $ansic_equivalent))
               { force_record_file_type($h_file, "cpp"); }
      else {
         $confidence = &looks_like_cpp($h_file);
         if ($confidence == 2)
              { &force_record_file_type($h_file, "cpp"); }
         else {
           $files_in_dir = &examine_dir($h_file);
           if ($files_in_dir eq "cpp")
              { &force_record_file_type($h_file, "cpp"); }
           elsif ($files_in_dir eq "objc")
              { &force_record_file_type($h_file, "objc"); }
           elsif ($confidence == 1)
              { &force_record_file_type($h_file, "cpp"); }
           elsif ($h_file =~ m![a-z][0-9]*\.H$!)
              # Mixed-case filename, .H extension.
              { &force_record_file_type($h_file, "cpp"); }
           else  # We're clueless.  Let's guess C.
              { &force_record_file_type($h_file, "c"); };
          }
      }
   }
 }  # Done handling ".h" files.
 close(H_LIST);
}


# MAIN PROGRAM STARTS HERE.

# Handle options.
while (($#ARGV >= 0) && ($ARGV[0] =~ m/^--/)) {
  $duplicates_okay = 1 if ($ARGV[0] =~ m/^--duplicates$/); # Count duplicates.
  $crossdups_okay = 1 if ($ARGV[0] =~ m/^--crossdups$/);   # Count crossdups.
  $autogen_okay = 1 if ($ARGV[0] =~ m/^--autogen$/);       # Count autogen.
  $noisy = 1 if ($ARGV[0] =~ m/^--verbose$/);              # Verbose output.
  if ($ARGV[0] =~ m/^--duplistfile$/) {   # File to get/record dups.
    shift;
    $duplistfile = $ARGV[0];
  }
  last if ($ARGV[0] =~ m/^--$/);
  shift;
}

if ($#ARGV < 0) {
 print "Error: No directory names given.\n";
 exit(1);
}

if ($duplistfile) {
 if (-e $duplistfile) {
   open(DUPLIST, "<$duplistfile") || die "Can't open $duplistfile";
   while (defined($_ = <DUPLIST>)) {
     chomp;
     ($digest, $filename) = split(/ /, $_, 2);
     if (defined($digest) && defined($filename)) {
       $previous_files{$digest} = $filename;
     }
   }
   close(DUPLIST);
 }
 open(DUPLIST, ">>$duplistfile") || die "Can't open for writing $duplistfile";
}


while ( $dir = shift ) {

 if (! -d "$dir") {
   print "Skipping non-directory $dir\n";
   next;
 }

 if ($examined_directories{$dir}) {
   print "Skipping already-examined directory $dir\n";
   next;
 }
 $examined_directories{$dir} = 1;

 if (! open(FILELIST, "<${dir}/filelist")) {
   print "Skipping directory $dir; it doesn't contain a file 'filelist'\n";
   next;
 }

 if (-r "${dir}/all-physical.sloc") {
   # Skip already-analyzed directories; if it's been analyzed, we've already
   # broken them down.
   next;
 }

 if ($crossdups_okay) {   # Cross-dups okay; forget the hash of previous files.
   %previous_files = ();
 }

 # insert blank lines, in case we need to recover from a midway crash
 if ($duplistfile) {
   print DUPLIST "\n";
 }


 $dup_count = 0;
 
 while (defined($_ = <FILELIST>)) {
   chomp;
   $file = $_;
   next if (!defined($file) || ($file eq ""));
   if ($file =~ m/\n/) {
     print STDERR "WARNING! File name contains embedded newline; it'll be IGNORED.\n";
     print STDERR "Filename is: $file\n";
     next;
   }
   $file_type = &get_file_type($file);
   if ($file_type) {
     &record_file_type($file, $file_type);
   } else {
     print STDERR "WARNING! No file type selected for $file\n";
   }
 }

 # Done with straightline processing.  Now we need to determine if
 # the ".h" files we saw are C, OBJC, C++, or a mixture (!)
 &convert_h_files();


 # Done processing the directory.  Close up shop so we're
 # ready for the next directory.

 close(FILELIST);
 close_lang_lists();
 reopen("");   # Close code file.

 if ($dup_count > 50) {
  print "Warning: in $dir, number of duplicates=$dup_count\n";
 }

}