Documentation/sphinx/parse-headers.pl - linux - Git at Google

 #!/usr/bin/perl
 use strict;
 use Text::Tabs;
 use Getopt::Long;
 use Pod::Usage;

 my $debug;
 my $help;
 my $man;

 GetOptions(
 	"debug" => \$debug,
 	'help|?' => \$help,
 	man => \$man
 ) or pod2usage(2);

 pod2usage(1) if $help;
 pod2usage(-exitstatus => 0, -verbose => 2) if $man;
 pod2usage(2) if (scalar @ARGV < 2 || scalar @ARGV > 3);

 my ($file_in, $file_out, $file_exceptions) = @ARGV;

 my $data;
 my %ioctls;
 my %defines;
 my %typedefs;
 my %enums;
 my %enum_symbols;
 my %structs;

 require Data::Dumper if ($debug);

 #
 # read the file and get identifiers
 #

 my $is_enum = 0;
 my $is_comment = 0;
 open IN, $file_in or die "Can't open $file_in";
 while (<IN>) {
 	$data .= $_;

 	my $ln = $_;
 	if (!$is_comment) {
 		$ln =~ s,/\*.*(\*/),,g;

 		$is_comment = 1 if ($ln =~ s,/\*.*,,);
 	} else {
 		if ($ln =~ s,^(.*\*/),,) {
 			$is_comment = 0;
 		} else {
 			next;
 		}
 	}

 	if ($is_enum && $ln =~ m/^\s*([_\w][\w\d_]+)\s*[\,=]?/) {
 		my $s = $1;
 		my $n = $1;
 		$n =~ tr/A-Z/a-z/;
 		$n =~ tr/_/-/;

 		$enum_symbols{$s} =  "\\ :ref:`$s <$n>`\\ ";

 		$is_enum = 0 if ($is_enum && m/\}/);
 		next;
 	}
 	$is_enum = 0 if ($is_enum && m/\}/);

 	if ($ln =~ m/^\s*#\s*define\s+([_\w][\w\d_]+)\s+_IO/) {
 		my $s = $1;
 		my $n = $1;
 		$n =~ tr/A-Z/a-z/;

 		$ioctls{$s} = "\\ :ref:`$s <$n>`\\ ";
 		next;
 	}

 	if ($ln =~ m/^\s*#\s*define\s+([_\w][\w\d_]+)\s+/) {
 		my $s = $1;
 		my $n = $1;
 		$n =~ tr/A-Z/a-z/;
 		$n =~ tr/_/-/;

 		$defines{$s} = "\\ :ref:`$s <$n>`\\ ";
 		next;
 	}

 	if ($ln =~ m/^\s*typedef\s+([_\w][\w\d_]+)\s+(.*)\s+([_\w][\w\d_]+);/) {
 		my $s = $2;
 		my $n = $3;

 		$typedefs{$n} = "\\ :c:type:`$n <$s>`\\ ";
 		next;
 	}
 	if ($ln =~ m/^\s*enum\s+([_\w][\w\d_]+)\s+\{/
 	    || $ln =~ m/^\s*enum\s+([_\w][\w\d_]+)$/
 	    || $ln =~ m/^\s*typedef\s*enum\s+([_\w][\w\d_]+)\s+\{/
 	    || $ln =~ m/^\s*typedef\s*enum\s+([_\w][\w\d_]+)$/) {
 		my $s = $1;

 		$enums{$s} =  "enum :c:type:`$s`\\ ";

 		$is_enum = $1;
 		next;
 	}
 	if ($ln =~ m/^\s*struct\s+([_\w][\w\d_]+)\s+\{/
 	    || $ln =~ m/^\s*struct\s+([[_\w][\w\d_]+)$/
 	    || $ln =~ m/^\s*typedef\s*struct\s+([_\w][\w\d_]+)\s+\{/
 	    || $ln =~ m/^\s*typedef\s*struct\s+([[_\w][\w\d_]+)$/
 	    ) {
 		my $s = $1;

 		$structs{$s} = "struct :c:type:`$s`\\ ";
 		next;
 	}
 }
 close IN;

 #
 # Handle multi-line typedefs
 #

 my @matches = ($data =~ m/typedef\s+struct\s+\S+?\s*\{[^\}]+\}\s*(\S+)\s*\;/g,
 	       $data =~ m/typedef\s+enum\s+\S+?\s*\{[^\}]+\}\s*(\S+)\s*\;/g,);
 foreach my $m (@matches) {
 	my $s = $m;

 	$typedefs{$s} = "\\ :c:type:`$s`\\ ";
 	next;
 }

 #
 # Handle exceptions, if any
 #

 my %def_reftype = (
 	"ioctl"   => ":ref",
 	"define"  => ":ref",
 	"symbol"  => ":ref",
 	"typedef" => ":c:type",
 	"enum"    => ":c:type",
 	"struct"  => ":c:type",
 );

 if ($file_exceptions) {
 	open IN, $file_exceptions or die "Can't read $file_exceptions";
 	while (<IN>) {
 		next if (m/^\s*$/ || m/^\s*#/);

 		# Parsers to ignore a symbol

 		if (m/^ignore\s+ioctl\s+(\S+)/) {
 			delete $ioctls{$1} if (exists($ioctls{$1}));
 			next;
 		}
 		if (m/^ignore\s+define\s+(\S+)/) {
 			delete $defines{$1} if (exists($defines{$1}));
 			next;
 		}
 		if (m/^ignore\s+typedef\s+(\S+)/) {
 			delete $typedefs{$1} if (exists($typedefs{$1}));
 			next;
 		}
 		if (m/^ignore\s+enum\s+(\S+)/) {
 			delete $enums{$1} if (exists($enums{$1}));
 			next;
 		}
 		if (m/^ignore\s+struct\s+(\S+)/) {
 			delete $structs{$1} if (exists($structs{$1}));
 			next;
 		}
 		if (m/^ignore\s+symbol\s+(\S+)/) {
 			delete $enum_symbols{$1} if (exists($enum_symbols{$1}));
 			next;
 		}

 		# Parsers to replace a symbol
 		my ($type, $old, $new, $reftype);

 		if (m/^replace\s+(\S+)\s+(\S+)\s+(\S+)/) {
 			$type = $1;
 			$old = $2;
 			$new = $3;
 		} else {
 			die "Can't parse $file_exceptions: $_";
 		}

 		if ($new =~ m/^\:c\:(data|func|macro|type)\:\`(.+)\`/) {
 			$reftype = ":c:$1";
 			$new = $2;
 		} elsif ($new =~ m/\:ref\:\`(.+)\`/) {
 			$reftype = ":ref";
 			$new = $1;
 		} else {
 			$reftype = $def_reftype{$type};
 		}
 		$new = "$reftype:`$old <$new>`";

 		if ($type eq "ioctl") {
 			$ioctls{$old} = $new if (exists($ioctls{$old}));
 			next;
 		}
 		if ($type eq "define") {
 			$defines{$old} = $new if (exists($defines{$old}));
 			next;
 		}
 		if ($type eq "symbol") {
 			$enum_symbols{$old} = $new if (exists($enum_symbols{$old}));
 			next;
 		}
 		if ($type eq "typedef") {
 			$typedefs{$old} = $new if (exists($typedefs{$old}));
 			next;
 		}
 		if ($type eq "enum") {
 			$enums{$old} = $new if (exists($enums{$old}));
 			next;
 		}
 		if ($type eq "struct") {
 			$structs{$old} = $new if (exists($structs{$old}));
 			next;
 		}

 		die "Can't parse $file_exceptions: $_";
 	}
 }

 if ($debug) {
 	print Data::Dumper->Dump([\%ioctls], [qw(*ioctls)]) if (%ioctls);
 	print Data::Dumper->Dump([\%typedefs], [qw(*typedefs)]) if (%typedefs);
 	print Data::Dumper->Dump([\%enums], [qw(*enums)]) if (%enums);
 	print Data::Dumper->Dump([\%structs], [qw(*structs)]) if (%structs);
 	print Data::Dumper->Dump([\%defines], [qw(*defines)]) if (%defines);
 	print Data::Dumper->Dump([\%enum_symbols], [qw(*enum_symbols)]) if (%enum_symbols);
 }

 #
 # Align block
 #
 $data = expand($data);
 $data = "    " . $data;
 $data =~ s/\n/\n    /g;
 $data =~ s/\n\s+$/\n/g;
 $data =~ s/\n\s+\n/\n\n/g;

 #
 # Add escape codes for special characters
 #
 $data =~ s,([\_\`\*\<\>\&\\\\:\/\|\%\$\#\{\}\~\^]),\\$1,g;

 $data =~ s,DEPRECATED,**DEPRECATED**,g;

 #
 # Add references
 #

 my $start_delim = "[ \n\t\(\=\*\@]";
 my $end_delim = "(\\s|,|\\\\=|\\\\:|\\;|\\\)|\\}|\\{)";

 foreach my $r (keys %ioctls) {
 	my $s = $ioctls{$r};

 	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

 	print "$r -> $s\n" if ($debug);

 	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
 }

 foreach my $r (keys %defines) {
 	my $s = $defines{$r};

 	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

 	print "$r -> $s\n" if ($debug);

 	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
 }

 foreach my $r (keys %enum_symbols) {
 	my $s = $enum_symbols{$r};

 	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

 	print "$r -> $s\n" if ($debug);

 	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
 }

 foreach my $r (keys %enums) {
 	my $s = $enums{$r};

 	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

 	print "$r -> $s\n" if ($debug);

 	$data =~ s/enum\s+($r)$end_delim/$s$2/g;
 }

 foreach my $r (keys %structs) {
 	my $s = $structs{$r};

 	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

 	print "$r -> $s\n" if ($debug);

 	$data =~ s/struct\s+($r)$end_delim/$s$2/g;
 }

 foreach my $r (keys %typedefs) {
 	my $s = $typedefs{$r};

 	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

 	print "$r -> $s\n" if ($debug);
 	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
 }

 $data =~ s/\\ ([\n\s])/\1/g;

 #
 # Generate output file
 #

 my $title = $file_in;
 $title =~ s,.*/,,;

 open OUT, "> $file_out" or die "Can't open $file_out";
 print OUT ".. -*- coding: utf-8; mode: rst -*-\n\n";
 print OUT "$title\n";
 print OUT "=" x length($title);
 print OUT "\n\n.. parsed-literal::\n\n";
 print OUT $data;
 close OUT;

 __END__

 =head1 NAME

 parse_headers.pl - parse a C file, in order to identify functions, structs,
 enums and defines and create cross-references to a Sphinx book.

 =head1 SYNOPSIS

 B<parse_headers.pl> [<options>] <C_FILE> <OUT_FILE> [<EXCEPTIONS_FILE>]

 Where <options> can be: --debug, --help or --man.

 =head1 OPTIONS

 =over 8

 =item B<--debug>

 Put the script in verbose mode, useful for debugging.

 =item B<--help>

 Prints a brief help message and exits.

 =item B<--man>

 Prints the manual page and exits.

 =back

 =head1 DESCRIPTION

 Convert a C header or source file (C_FILE), into a ReStructured Text
 included via ..parsed-literal block with cross-references for the
 documentation files that describe the API. It accepts an optional
 EXCEPTIONS_FILE with describes what elements will be either ignored or
 be pointed to a non-default reference.

 The output is written at the (OUT_FILE).

 It is capable of identifying defines, functions, structs, typedefs,
 enums and enum symbols and create cross-references for all of them.
 It is also capable of distinguish #define used for specifying a Linux
 ioctl.

 The EXCEPTIONS_FILE contain two types of statements: B<ignore> or B<replace>.

 The syntax for the ignore tag is:

 =over 8

 ignore B<type> B<name>

 =back

 The B<ignore> means that it won't generate cross references for a
 B<name> symbol of type B<type>.

 The syntax for the replace tag is:

 =over 8

 replace B<type> B<name> B<new_value>

 =back

 The B<replace> means that it will generate cross references for a
 B<name> symbol of type B<type>, but, instead of using the default
 replacement rule, it will use B<new_value>.

 For both statements, B<type> can be either one of the following:

 =over 8

 =item B<ioctl>

 The ignore or replace statement will apply to ioctl definitions like:

 #define	VIDIOC_DBG_S_REGISTER 	 _IOW('V', 79, struct v4l2_dbg_register)

 =item B<define>

 The ignore or replace statement will apply to any other #define found
 at C_FILE.

 =item B<typedef>

 The ignore or replace statement will apply to typedef statements at C_FILE.

 =item B<struct>

 The ignore or replace statement will apply to the name of struct statements
 at C_FILE.

 =item B<enum>

 The ignore or replace statement will apply to the name of enum statements
 at C_FILE.

 =item B<symbol>

 The ignore or replace statement will apply to the name of enum statements
 at C_FILE.


 For replace statements, B<new_value> will automatically use :c:type:
 references for B<typedef>, B<enum> and B<struct> types. It will use :ref:
 for B<ioctl>, B<define> and B<symbol> types. The type of reference can
 also be explicitly defined at the replace statement.

 =back

 =head1 EXAMPLES

 ignore define _VIDEODEV2_H

 =over 8


 Ignore a #define _VIDEODEV2_H at the C_FILE.

 =back

 ignore symbol PRIVATE

 =over 8

 On a struct like:

 enum foo { BAR1, BAR2, PRIVATE };

 It won't generate cross-references for B<PRIVATE>.

 =back

 replace symbol BAR1 :c:type:`foo`
 replace symbol BAR2 :c:type:`foo`

 =over 8

 On a struct like:

 enum foo { BAR1, BAR2, PRIVATE };

 It will make the BAR1 and BAR2 enum symbols to cross reference the foo
 symbol at the C domain.

 =back

 =head1 BUGS

 Report bugs to Mauro Carvalho Chehab <mchehab@s-opensource.com>

 =head1 COPYRIGHT

 Copyright (c) 2016 by Mauro Carvalho Chehab <mchehab@s-opensource.com>.

 License GPLv2: GNU GPL version 2 <http://gnu.org/licenses/gpl.html>.

 This is free software: you are free to change and redistribute it.
 There is NO WARRANTY, to the extent permitted by law.

 =cut
	#!/usr/bin/perl
	use strict;
	use Text::Tabs;
	use Getopt::Long;
	use Pod::Usage;

	my $debug;
	my $help;
	my $man;

	GetOptions(
	"debug" => \$debug,
	'help\|?' => \$help,
	man => \$man
	) or pod2usage(2);

	pod2usage(1) if $help;
	pod2usage(-exitstatus => 0, -verbose => 2) if $man;
	pod2usage(2) if (scalar @ARGV < 2 \|\| scalar @ARGV > 3);

	my ($file_in, $file_out, $file_exceptions) = @ARGV;

	my $data;
	my %ioctls;
	my %defines;
	my %typedefs;
	my %enums;
	my %enum_symbols;
	my %structs;

	require Data::Dumper if ($debug);

	#
	# read the file and get identifiers
	#

	my $is_enum = 0;
	my $is_comment = 0;
	open IN, $file_in or die "Can't open $file_in";
	while (<IN>) {
	$data .= $_;

	my $ln = $_;
	if (!$is_comment) {
	$ln =~ s,/\.(\*/),,g;

	$is_comment = 1 if ($ln =~ s,/\.,,);
	} else {
	if ($ln =~ s,^(.\/),,) {
	$is_comment = 0;
	} else {
	next;
	}
	}

	if ($is_enum && $ln =~ m/^\s([_\w][\w\d_]+)\s[\,=]?/) {
	my $s = $1;
	my $n = $1;
	$n =~ tr/A-Z/a-z/;
	$n =~ tr/_/-/;

	$enum_symbols{$s} = "\\ :ref:`$s <$n>`\\ ";

	$is_enum = 0 if ($is_enum && m/\}/);
	next;
	}
	$is_enum = 0 if ($is_enum && m/\}/);

	if ($ln =~ m/^\s#\sdefine\s+([_\w][\w\d_]+)\s+_IO/) {
	my $s = $1;
	my $n = $1;
	$n =~ tr/A-Z/a-z/;

	$ioctls{$s} = "\\ :ref:`$s <$n>`\\ ";
	next;
	}

	if ($ln =~ m/^\s#\sdefine\s+([_\w][\w\d_]+)\s+/) {
	my $s = $1;
	my $n = $1;
	$n =~ tr/A-Z/a-z/;
	$n =~ tr/_/-/;

	$defines{$s} = "\\ :ref:`$s <$n>`\\ ";
	next;
	}

	if ($ln =~ m/^\stypedef\s+([_\w][\w\d_]+)\s+(.)\s+([_\w][\w\d_]+);/) {
	my $s = $2;
	my $n = $3;

	$typedefs{$n} = "\\ :c:type:`$n <$s>`\\ ";
	next;
	}
	if ($ln =~ m/^\s*enum\s+([_\w][\w\d_]+)\s+\{/
	\|\| $ln =~ m/^\s*enum\s+([_\w][\w\d_]+)$/
	\|\| $ln =~ m/^\stypedef\senum\s+([_\w][\w\d_]+)\s+\{/
	\|\| $ln =~ m/^\stypedef\senum\s+([_\w][\w\d_]+)$/) {
	my $s = $1;

	$enums{$s} = "enum :c:type:`$s`\\ ";

	$is_enum = $1;
	next;
	}
	if ($ln =~ m/^\s*struct\s+([_\w][\w\d_]+)\s+\{/
	\|\| $ln =~ m/^\s*struct\s+([[_\w][\w\d_]+)$/
	\|\| $ln =~ m/^\stypedef\sstruct\s+([_\w][\w\d_]+)\s+\{/
	\|\| $ln =~ m/^\stypedef\sstruct\s+([[_\w][\w\d_]+)$/
	) {
	my $s = $1;

	$structs{$s} = "struct :c:type:`$s`\\ ";
	next;
	}
	}
	close IN;

	#
	# Handle multi-line typedefs
	#

	my @matches = ($data =~ m/typedef\s+struct\s+\S+?\s\{[^\}]+\}\s(\S+)\s*\;/g,
	$data =~ m/typedef\s+enum\s+\S+?\s\{[^\}]+\}\s(\S+)\s*\;/g,);
	foreach my $m (@matches) {
	my $s = $m;

	$typedefs{$s} = "\\ :c:type:`$s`\\ ";
	next;
	}

	#
	# Handle exceptions, if any
	#

	my %def_reftype = (
	"ioctl" => ":ref",
	"define" => ":ref",
	"symbol" => ":ref",
	"typedef" => ":c:type",
	"enum" => ":c:type",
	"struct" => ":c:type",
	);

	if ($file_exceptions) {
	open IN, $file_exceptions or die "Can't read $file_exceptions";
	while (<IN>) {
	next if (m/^\s$/ \|\| m/^\s#/);

	# Parsers to ignore a symbol

	if (m/^ignore\s+ioctl\s+(\S+)/) {
	delete $ioctls{$1} if (exists($ioctls{$1}));
	next;
	}
	if (m/^ignore\s+define\s+(\S+)/) {
	delete $defines{$1} if (exists($defines{$1}));
	next;
	}
	if (m/^ignore\s+typedef\s+(\S+)/) {
	delete $typedefs{$1} if (exists($typedefs{$1}));
	next;
	}
	if (m/^ignore\s+enum\s+(\S+)/) {
	delete $enums{$1} if (exists($enums{$1}));
	next;
	}
	if (m/^ignore\s+struct\s+(\S+)/) {
	delete $structs{$1} if (exists($structs{$1}));
	next;
	}
	if (m/^ignore\s+symbol\s+(\S+)/) {
	delete $enum_symbols{$1} if (exists($enum_symbols{$1}));
	next;
	}

	# Parsers to replace a symbol
	my ($type, $old, $new, $reftype);

	if (m/^replace\s+(\S+)\s+(\S+)\s+(\S+)/) {
	$type = $1;
	$old = $2;
	$new = $3;
	} else {
	die "Can't parse $file_exceptions: $_";
	}

	if ($new =~ m/^\:c\:(data\|func\|macro\|type)\:\`(.+)\`/) {
	$reftype = ":c:$1";
	$new = $2;
	} elsif ($new =~ m/\:ref\:\`(.+)\`/) {
	$reftype = ":ref";
	$new = $1;
	} else {
	$reftype = $def_reftype{$type};
	}
	$new = "$reftype:`$old <$new>`";

	if ($type eq "ioctl") {
	$ioctls{$old} = $new if (exists($ioctls{$old}));
	next;
	}
	if ($type eq "define") {
	$defines{$old} = $new if (exists($defines{$old}));
	next;
	}
	if ($type eq "symbol") {
	$enum_symbols{$old} = $new if (exists($enum_symbols{$old}));
	next;
	}
	if ($type eq "typedef") {
	$typedefs{$old} = $new if (exists($typedefs{$old}));
	next;
	}
	if ($type eq "enum") {
	$enums{$old} = $new if (exists($enums{$old}));
	next;
	}
	if ($type eq "struct") {
	$structs{$old} = $new if (exists($structs{$old}));
	next;
	}

	die "Can't parse $file_exceptions: $_";
	}
	}

	if ($debug) {
	print Data::Dumper->Dump([\%ioctls], [qw(*ioctls)]) if (%ioctls);
	print Data::Dumper->Dump([\%typedefs], [qw(*typedefs)]) if (%typedefs);
	print Data::Dumper->Dump([\%enums], [qw(*enums)]) if (%enums);
	print Data::Dumper->Dump([\%structs], [qw(*structs)]) if (%structs);
	print Data::Dumper->Dump([\%defines], [qw(*defines)]) if (%defines);
	print Data::Dumper->Dump([\%enum_symbols], [qw(*enum_symbols)]) if (%enum_symbols);
	}

	#
	# Align block
	#
	$data = expand($data);
	$data = " " . $data;
	$data =~ s/\n/\n /g;
	$data =~ s/\n\s+$/\n/g;
	$data =~ s/\n\s+\n/\n\n/g;

	#
	# Add escape codes for special characters
	#
	$data =~ s,([\_\`\*\<\>\&\\\\:\/\\|\%\$\#\{\}\~\^]),\\$1,g;

	$data =~ s,DEPRECATED,DEPRECATED,g;

	#
	# Add references
	#

	my $start_delim = "[ \n\t\(\=\*\@]";
	my $end_delim = "(\\s\|,\|\\\\=\|\\\\:\|\\;\|\\\)\|\\}\|\\{)";

	foreach my $r (keys %ioctls) {
	my $s = $ioctls{$r};

	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

	print "$r -> $s\n" if ($debug);

	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
	}

	foreach my $r (keys %defines) {
	my $s = $defines{$r};

	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

	print "$r -> $s\n" if ($debug);

	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
	}

	foreach my $r (keys %enum_symbols) {
	my $s = $enum_symbols{$r};

	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

	print "$r -> $s\n" if ($debug);

	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
	}

	foreach my $r (keys %enums) {
	my $s = $enums{$r};

	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

	print "$r -> $s\n" if ($debug);

	$data =~ s/enum\s+($r)$end_delim/$s$2/g;
	}

	foreach my $r (keys %structs) {
	my $s = $structs{$r};

	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

	print "$r -> $s\n" if ($debug);

	$data =~ s/struct\s+($r)$end_delim/$s$2/g;
	}

	foreach my $r (keys %typedefs) {
	my $s = $typedefs{$r};

	$r =~ s,([\_\`\*\<\>\&\\\\:\/]),\\\\$1,g;

	print "$r -> $s\n" if ($debug);
	$data =~ s/($start_delim)($r)$end_delim/$1$s$3/g;
	}

	$data =~ s/\\ ([\n\s])/\1/g;

	#
	# Generate output file
	#

	my $title = $file_in;
	$title =~ s,.*/,,;

	open OUT, "> $file_out" or die "Can't open $file_out";
	print OUT ".. -- coding: utf-8; mode: rst --\n\n";
	print OUT "$title\n";
	print OUT "=" x length($title);
	print OUT "\n\n.. parsed-literal::\n\n";
	print OUT $data;
	close OUT;

	__END__

	=head1 NAME

	parse_headers.pl - parse a C file, in order to identify functions, structs,
	enums and defines and create cross-references to a Sphinx book.

	=head1 SYNOPSIS

	B<parse_headers.pl> [<options>] <C_FILE> <OUT_FILE> [<EXCEPTIONS_FILE>]

	Where <options> can be: --debug, --help or --man.

	=head1 OPTIONS

	=over 8

	=item B<--debug>

	Put the script in verbose mode, useful for debugging.

	=item B<--help>

	Prints a brief help message and exits.

	=item B<--man>

	Prints the manual page and exits.

	=back

	=head1 DESCRIPTION

	Convert a C header or source file (C_FILE), into a ReStructured Text
	included via ..parsed-literal block with cross-references for the
	documentation files that describe the API. It accepts an optional
	EXCEPTIONS_FILE with describes what elements will be either ignored or
	be pointed to a non-default reference.

	The output is written at the (OUT_FILE).

	It is capable of identifying defines, functions, structs, typedefs,
	enums and enum symbols and create cross-references for all of them.
	It is also capable of distinguish #define used for specifying a Linux
	ioctl.

	The EXCEPTIONS_FILE contain two types of statements: B<ignore> or B<replace>.

	The syntax for the ignore tag is:

	=over 8

	ignore B<type> B<name>

	=back

	The B<ignore> means that it won't generate cross references for a
	B<name> symbol of type B<type>.

	The syntax for the replace tag is:

	=over 8

	replace B<type> B<name> B<new_value>

	=back

	The B<replace> means that it will generate cross references for a
	B<name> symbol of type B<type>, but, instead of using the default
	replacement rule, it will use B<new_value>.

	For both statements, B<type> can be either one of the following:

	=over 8

	=item B<ioctl>

	The ignore or replace statement will apply to ioctl definitions like:

	#define VIDIOC_DBG_S_REGISTER _IOW('V', 79, struct v4l2_dbg_register)

	=item B<define>

	The ignore or replace statement will apply to any other #define found
	at C_FILE.

	=item B<typedef>

	The ignore or replace statement will apply to typedef statements at C_FILE.

	=item B<struct>

	The ignore or replace statement will apply to the name of struct statements
	at C_FILE.

	=item B<enum>

	The ignore or replace statement will apply to the name of enum statements
	at C_FILE.

	=item B<symbol>

	The ignore or replace statement will apply to the name of enum statements
	at C_FILE.


	For replace statements, B<new_value> will automatically use :c:type:
	references for B<typedef>, B<enum> and B<struct> types. It will use :ref:
	for B<ioctl>, B<define> and B<symbol> types. The type of reference can
	also be explicitly defined at the replace statement.

	=back

	=head1 EXAMPLES

	ignore define _VIDEODEV2_H

	=over 8


	Ignore a #define _VIDEODEV2_H at the C_FILE.

	=back

	ignore symbol PRIVATE

	=over 8

	On a struct like:

	enum foo { BAR1, BAR2, PRIVATE };

	It won't generate cross-references for B<PRIVATE>.

	=back

	replace symbol BAR1 :c:type:`foo`
	replace symbol BAR2 :c:type:`foo`

	=over 8

	On a struct like:

	enum foo { BAR1, BAR2, PRIVATE };

	It will make the BAR1 and BAR2 enum symbols to cross reference the foo
	symbol at the C domain.

	=back

	=head1 BUGS

	Report bugs to Mauro Carvalho Chehab <mchehab@s-opensource.com>

	=head1 COPYRIGHT

	Copyright (c) 2016 by Mauro Carvalho Chehab <mchehab@s-opensource.com>.

	License GPLv2: GNU GPL version 2 <http://gnu.org/licenses/gpl.html>.

	This is free software: you are free to change and redistribute it.
	There is NO WARRANTY, to the extent permitted by law.

	=cut