=head1 NAME
Mdoc - perl module to parse Mdoc macros
=head1 SYNOPSIS
use Mdoc qw(ns pp soff son stoggle mapwords);
See mdoc2man and mdoc2texi for code examples.
=head1 FUNCTIONS
=over 4
=item def_macro( NAME, CODE, [ raw => 1, greedy => 1, concat_until => '.Xx' ] )
Define new macro. The CODE reference will be called by call_macro(). You can
have two distinct definitions for and inline macro and for a standalone macro
(i. e. 'Pa' and '.Pa').
The CODE reference is passed a list of arguments and is expected to return list
of strings and control characters (see C<CONSTANTS>).
By default the surrouding "" from arguments to macros are removed, use C<raw>
to disable this.
Normaly CODE reference is passed all arguments up to next nested macro. Set
C<greedy> to to pass everything up to the end of the line.
If the concat_until is present, the line is concated until the .Xx macro is
found. For example the following macro definition
def_macro('.Oo', gen_encloser(qw([ ]), concat_until => '.Oc' }
def_macro('.Cm', sub { mapwords {'($_)'} @_ } }
and the following input
.Oo
.Cm foo |
.Cm bar |
.Oc
results in [(foo) | (bar)]
=item get_macro( NAME )
Returns a hash reference like:
{ run => CODE, raw => [1|0], greedy => [1|0] }
Where C<CODE> is the CODE reference used to define macro called C<NAME>
=item parse_line( INPUT, OUTPUT_CODE, PREPROCESS_CODE )
Parse a line from the C<INPUT> filehandle. If a macro was detected it returns a
list (MACRO_NAME, @MACRO_ARGS), otherwise it calls the C<OUTPUT_CODE>, giving
caller a chance to modify line before printing it. If C<PREPROCESS_CODE> is
defined it calls it prior to passing argument to a macro, giving caller a
chance to alter them. if EOF was reached undef is returned.
=item call_macro( MACRO, ARGS, ... )
Call macro C<MACRO> with C<ARGS>. The CODE reference for macro C<MACRO> is
called and for all the nested macros. Every called macro returns a list which
is appended to return value and returned when all nested macros are processed.
Use to_string() to produce a printable string from the list.
=item to_string ( LIST )
Processes C<LIST> returned from call_macro() and returns formatted string.
=item mapwords BLOCK ARRAY
This is like perl's map only it calls BLOCK only on elements which are not
punctuation or control characters.
=item space ( ['on'|'off] )
Turn spacing on or off. If called without argument it returns the current state.
=item gen_encloser ( START, END )
Helper function for generating macros that enclose their arguments.
gen_encloser(qw({ }));
returns
sub { '{', ns, @_, ns, pp('}')}
=item set_Bl_callback( CODE , DEFS )
This module implements the Bl/El macros for you. Using set_Bl_callback you can
provide a macro definition that should be executed on a .Bl call.
=item set_El_callback( CODE , DEFS )
This module implements the Bl/El macros for you. Using set_El_callback you can
provide a macro definition that should be executed on a .El call.
=item set_Re_callback( CODE )
The C<CODE> is called after a Rs/Re block is done. With a hash reference as a
parameter, describing the reference.
=back
=head1 CONSTANTS
=over 4
=item ns
Indicate 'no space' between to members of the list.
=item pp ( STRING )
The string is 'punctuation point'. It means that every punctuation
preceeding that element is put behind it.
=item soff
Turn spacing off.
=item son
Turn spacing on.
=item stoggle
Toogle spacing.
=item hs
Print space no matter spacing mode.
=back
=head1 TODO
* The concat_until only works with standalone macros. This means that
.Po blah Pc
will hang until .Pc in encountered.
* Provide default macros for Bd/Ed
* The reference implementation is uncomplete
=cut
package Mdoc;
use strict;
use warnings;
use List::Util qw(reduce);
use Text::ParseWords qw(quotewords);
use Carp;
use Exporter qw(import);
our @EXPORT_OK = qw(ns pp soff son stoggle hs mapwords gen_encloser nl);
use constant {
ns => ['nospace'],
soff => ['spaceoff'],
son => ['spaceon'],
stoggle => ['spacetoggle'],
hs => ['hardspace'],
};
sub pp {
my $c = shift;
return ['pp', $c ];
}
sub gen_encloser {
my ($o, $c) = @_;
return sub { ($o, ns, @_, ns, pp($c)) };
}
sub mapwords(&@) {
my ($f, @l) = @_;
my @res;
for my $el (@l) {
local $_ = $el;
push @res, $el =~ /^(?:[,\.\{\}\(\):;\[\]\|])$/ || ref $el eq 'ARRAY' ?
$el : $f->();
}
return @res;
}
my %macros;
###############################################################################
# Default macro definitions start
###############################################################################
def_macro('Xo', sub { @_ }, concat_until => '.Xc');
def_macro('.Ns', sub {ns, @_});
def_macro('Ns', sub {ns, @_});
{
my %reference;
def_macro('.Rs', sub { () } );
def_macro('.%A', sub {
if ($reference{authors}) {
$reference{authors} .= " and @_"
}
else {
$reference{authors} = "@_";
}
return ();
});
def_macro('.%T', sub { $reference{title} = "@_"; () } );
def_macro('.%O', sub { $reference{optional} = "@_"; () } );
sub set_Re_callback {
my ($sub) = @_;
croak 'Not a CODE reference' if not ref $sub eq 'CODE';
def_macro('.Re', sub {
my @ret = $sub->(\%reference);
%reference = (); @ret
});
return;
}
}
def_macro('.Bl', sub { die '.Bl - no list callback set' });
def_macro('.It', sub { die ".It called outside of list context - maybe near line $." });
def_macro('.El', sub { die '.El requires .Bl first' });
{
my $elcb = sub { () };
sub set_El_callback {
my ($sub) = @_;
croak 'Not a CODE reference' if ref $sub ne 'CODE';
$elcb = $sub;
return;
}
sub set_Bl_callback {
my ($blcb, %defs) = @_;
croak 'Not a CODE reference' if ref $blcb ne 'CODE';
def_macro('.Bl', sub {
my $orig_it = get_macro('.It');
my $orig_el = get_macro('.El');
my $orig_bl = get_macro('.Bl');
my $orig_elcb = $elcb;
# Restore previous .It and .El on each .El
def_macro('.El', sub {
def_macro('.El', delete $orig_el->{run}, %$orig_el);
def_macro('.It', delete $orig_it->{run}, %$orig_it);
def_macro('.Bl', delete $orig_bl->{run}, %$orig_bl);
my @ret = $elcb->(@_);
$elcb = $orig_elcb;
@ret
});
$blcb->(@_)
}, %defs);
return;
}
}
def_macro('.Sm', sub {
my ($arg) = @_;
if (defined $arg) {
space($arg);
} else {
space() eq 'off' ?
space('on') :
space('off');
}
()
} );
def_macro('Sm', do { my $off; sub {
my ($arg) = @_;
if (defined $arg && $arg =~ /^(on|off)$/) {
shift;
if ($arg eq 'off') { soff, @_; }
elsif ($arg eq 'on') { son, @_; }
}
else {
stoggle, @_;
}
}} );
###############################################################################
# Default macro definitions end
###############################################################################
sub def_macro {
croak 'Odd number of elements for hash argument <'.(scalar @_).'>' if @_%2;
my ($macro, $sub, %def) = @_;
croak 'Not a CODE reference' if ref $sub ne 'CODE';
$macros{ $macro } = {
run => $sub,
greedy => delete $def{greedy} || 0,
raw => delete $def{raw} || 0,
concat_until => delete $def{concat_until},
};
if ($macros{ $macro }{concat_until}) {
$macros{ $macros{ $macro }{concat_until} } = { run => sub { @_ } };
$macros{ $macro }{greedy} = 1;
}
return;
}
sub get_macro {
my ($macro) = @_;
croak "Macro <$macro> not defined" if not exists $macros{ $macro };
+{ %{ $macros{ $macro } } }
}
#TODO: document this
sub parse_opts {
my %args;
my $last;
for (@_) {
if ($_ =~ /^\\?-/) {
s/^\\?-//;
$args{$_} = 1;
$last = _unquote($_);
}
else {
$args{$last} = _unquote($_) if $last;
undef $last;
}
}
return %args;
}
sub _is_control {
my ($el, $expected) = @_;
if (defined $expected) {
ref $el eq 'ARRAY' and $el->[0] eq $expected;
}
else {
ref $el eq 'ARRAY';
}
}
{
my $sep = ' ';
sub to_string {
if (@_ > 0) {
# Handle punctunation
my ($in_brace, @punct) = '';
my @new = map {
if (/^([\[\(])$/) {
($in_brace = $1) =~ tr/([/)]/;
$_, ns
}
elsif (/^([\)\]])$/ && $in_brace eq $1) {
$in_brace = '';
ns, $_
}
elsif ($_ =~ /^[,\.;:\?\!\)\]]$/) {
push @punct, ns, $_;
();
}
elsif (_is_control($_, 'pp')) {
$_->[1]
}
elsif (_is_control($_)) {
$_
}
else {
splice (@punct), $_;
}
} @_;
push @new, @punct;
# Produce string out of an array dealing with the special control characters
# space('off') must but one character delayed
my ($no_space, $space_off) = 1;
my $res = '';
while (defined(my $el = shift @new)) {
if (_is_control($el, 'hardspace')) { $no_space = 1; $res .= ' ' }
elsif (_is_control($el, 'nospace')) { $no_space = 1; }
elsif (_is_control($el, 'spaceoff')) { $space_off = 1; }
elsif (_is_control($el, 'spaceon')) { space('on'); }
elsif (_is_control($el, 'spacetoggle')) { space() eq 'on' ?
$space_off = 1 :
space('on') }
else {
if ($no_space) {
$no_space = 0;
$res .= "$el"
}
else {
$res .= "$sep$el"
}
if ($space_off) { space('off'); $space_off = 0; }
}
}
$res
}
else {
'';
}
}
sub space {
my ($arg) = @_;
if (defined $arg && $arg =~ /^(on|off)$/) {
$sep = ' ' if $arg eq 'on';
$sep = '' if $arg eq 'off';
return;
}
else {
return $sep eq '' ? 'off' : 'on';
}
}
}
sub _unquote {
my @args = @_;
$_ =~ s/^"([^"]+)"$/$1/g for @args;
wantarray ? @args : $args[0];
}
sub call_macro {
my ($macro, @args) = @_;
my @ret;
my @newargs;
my $i = 0;
@args = _unquote(@args) if (!$macros{ $macro }{raw});
# Call any callable macros in the argument list
for (@args) {
if ($_ =~ /^[A-Z][a-z]+$/ && exists $macros{ $_ }) {
push @ret, call_macro($_, @args[$i+1 .. $#args]);
last;
} else {
if ($macros{ $macro }{greedy}) {
push @ret, $_;
}
else {
push @newargs, $_;
}
}
$i++;
}
if ($macros{ $macro }{concat_until}) {
my ($n_macro, @n_args) = ('');
while (1) {
die "EOF was reached and no $macros{ $macro }{concat_until} found"
if not defined $n_macro;
($n_macro, @n_args) = parse_line(undef, sub { push @ret, shift });
if ($n_macro eq $macros{ $macro }{concat_until}) {
push @ret, call_macro($n_macro, @n_args);
last;
}
else {
$n_macro =~ s/^\.//;
push @ret, call_macro($n_macro, @n_args) if exists $macros{ $n_macro };
}
}
}
if ($macros{ $macro }{greedy}) {
#print "MACROG $macro (", (join ', ', @ret), ")\n";
return $macros{ $macro }{run}->(@ret);
}
else {
#print "MACRO $macro (", (join ', ', @newargs), ")".(join ', ', @ret)."\n";
return $macros{ $macro }{run}->(@newargs), @ret;
}
}
{
my ($in_fh, $out_sub, $preprocess_sub);
sub parse_line {
$in_fh = $_[0] if defined $_[0] || !defined $in_fh;
$out_sub = $_[1] if defined $_[1] || !defined $out_sub;
$preprocess_sub = $_[2] if defined $_[2] || !defined $preprocess_sub;
croak 'out_sub not a CODE reference'
if not ref $out_sub eq 'CODE';
croak 'preprocess_sub not a CODE reference'
if defined $preprocess_sub && not ref $preprocess_sub eq 'CODE';
while (my $line = <$in_fh>) {
chomp $line;
if ($line =~ /^\.[A-z][a-z0-9]+/ || $line =~ /^\.%[A-Z]/ ||
$line =~ /^\.\\"/)
{
$line =~ s/ +/ /g;
my ($macro, @args) = quotewords(' ', 1, $line);
@args = grep { defined $_ } @args;
$preprocess_sub->(@args) if defined $preprocess_sub;
if ($macro && exists $macros{ $macro }) {
return ($macro, @args);
} else {
$out_sub->($line);
}
}
else {
$out_sub->($line);
}
}
return;
}
}
1;
__END__