#
#
#
package Glib::GenPod;
our $VERSION = '0.02';
use strict;
use warnings;
use Carp;
use File::Spec;
use Data::Dumper;
use POSIX qw(strftime);
use Glib;
use base 'Exporter';
our @EXPORT = qw(
add_types
xsdoc2pod
podify_properties
podify_values
podify_signals
podify_ancestors
podify_interfaces
podify_methods
);
our $COPYRIGHT = undef;
our $AUTHORS = 'Gtk2-Perl Team';
our $MAIN_MOD = undef;
our $YEAR = strftime "%Y", gmtime;
our ($xspods, $data);
=head1 NAME
Glib::GenPod - POD generation utilities for Glib-based modules
=head1 SYNOPSIS
use Glib::GenPod;
# use the defaults:
xsdoc2pod ($xsdocparse_output_file, $destination_dir);
# or take matters into your own hands
require $xsdocparse_output_file;
foreach my $package (sort keys %$data) {
print "=head1 NAME\n\n$package\n\n";
print "=head1 METHODS\n\n" . podify_methods ($package) . "\n\n";
}
=head1 DESCRIPTION
This module includes several utilities for creating pod for xs-based Perl
modules which build on the Glib module's foundations. The most important bits
are the logic to convert the data structures created by xsdocparse.pl to
describe xsubs and pods into method docs, with call signatures and argument
descriptions, and converting C type names into Perl type names. The rest of
the module is mostly boiler-plate code to format and pretty-print information
that may be queried from the Glib type system.
To make life easy for module maintainers, we also include a do-it-all function,
xsdoc2pod(), which does pretty much everything for you. All of the pieces it
uses are publically usable, so you can do whatever you like if you don't like
the default output.
=head1 DOCUMENTING THE XS FILES
All of the information used as input to the methods included here comes from
the XS files of your project, and is extracted by Glib::ParseXSDoc's
C<xsdocparse>. This function creates an file containing Perl code that may be
eval'd or require'd to recreate the parsed data structures, which are a list of
pods from the verbatim C portion of the XS file (the xs api docs), and a hash
of the remaining data, keyed by package name, and including the pods and xsubs
read from the rest of each XS file following the first MODULE line.
Several custom POD directives are recognized in the XSubs section. Note that
each one is sought as a paragraph starter, and must follow a C<=cut> directive.
=over
=item =for object Package::Name
All xsubs and pod from here until the next object directive or MODULE line
will be placed under the key 'I<Package::Name>' in xsdocparse's data
structure. Everything from this line to the next C<=cut> is included as a
description POD.
=item =for enum Package::Name
=item =for flags Package::Name
This causes xsdoc2pod to call C<podify_values> on I<Package::Name> when
writing the pod for the current package (as set by an object directive or
MODULE line). Any text in this paragraph, to the next C<=cut>, is included
in that section.
=item =for see_also L<some_thing_to_see>
Used to add extra see alsos onto the end of the parents, if any, for a given
object. Anything following the space behind see_also up to the end of the
line will be placed onto the list of "see also"s. There may be any number of
these in each package.
=item =for apidoc
=item =for apidoc Full::Symbol::name
Paragraphs of this type document xsubs, and are associated with the xsubs
by xsdocparse.pl. If the full symbol name is not included, the paragraph
must be attached to the xsub declaration (no blank lines between C<=cut> and
the xsub).
Within the apidoc PODs, we recognize a few special directives (the "for\s+"
is optional on these):
=over
=item =for signature ...
Override the generated call signature with the ... text. If you include
multiple signature directives, they will all be used. This is handy when
you want to change the return type or list different ways to invoke an
overloaded method, like this:
=for apidoc
=signature bool Class->foo
=signature ($thing, @other) = $object->foo ($it, $something)
Text in here is included in the generated documentation.
You can actually include signature and arg directives
at any point in this pod -- they are stripped after.
In fact, any pod is valid in here, until the =cut.
=cut
void foo (...)
PPCODE:
/* crazy code follows */
=item =for arg name (type) description
=item =for arg name description
The arg directive adds or overrides an argument description. The
description text is optional, as is the type specification (the part
in parentheses). The arg name does I<not> need to include a sigil,
as dollar signs will be added. FIXME what about @ for lists?
=back
Also, we honor a couple of "modifiers" on the =for apidoc line, following the
symbol name, if present:
=over
=item - __hide__
Do not document this xsub. This is handy in certain situations, e.g., for
private functions. DESTROY always has this turned on, for example.
=item - __gerror__
This function or method can generate a Glib::Error exception.
=item - __function__
Generate a function-style signature for this xsub. The default is to
generate method-style signatures.
=back
(These are actually handled by Glib::ParseXSDoc, but we list them here
because, well, they're an important part of how you document the XS files.)
=back
=head1 FUNCTIONS
=over
=cut
=item xsdoc2pod ($datafile, $outdir='blib/lib', index=undef)
Given a I<$datafile> containing the output of xsdocparse.pl, create in
I<$outdir> a pod file for each package, containing everything we can think
of for that module. Output is controlled by the C<=for object> directives
and such in the source code.
If you don't want each package to create a separate pod file, then use
this function's code as a starting point for your own pretty-printer.
=cut
sub xsdoc2pod
{
my $datafile = shift();
my $outdir = shift() || 'blib/lib';
my $index = shift;
mkdir $outdir unless (-d $outdir);
die "usage: $0 datafile [outdir]\n"
unless defined $datafile;
require $datafile;
my @files = ();
my $pkgdata;
my $ret;
foreach my $package (sort { ($a->isa('Glib::Object') ? -1 : 1) }
keys %$data)
{
$pkgdata = $data->{$package};
my $pod = File::Spec->catfile ($outdir, split /::/, $package)
. '.pod';
my (undef, @dirs, undef) = File::Spec->splitpath ($pod);
mkdir_p (File::Spec->catdir (@dirs));
open POD, ">$pod" or die "can't open $pod for writing: $!\n";
select POD;
print STDERR "podifying $pod\n";
$package = $pkgdata->{object} if (exists $pkgdata->{object});
push @files, {
name => $package,
file => $pod,
blurb => $pkgdata->{blurb},
};
print "=head1 NAME\n\n$package";
print ' - '.$pkgdata->{blurb} if (exists ($pkgdata->{blurb}));
print "\n\n";
# pods , position
$ret = podify_pods ($pkgdata->{pods}, 'SYNOPSIS');
print "$ret\n\n" if ($ret);
$ret = podify_pods ($pkgdata->{pods}, 'DESCRIPTION');
print "$ret\n\n" if ($ret);
my $parents;
($ret, $parents) = podify_ancestors ($package);
print "=head1 HIERARCHY\n\n$ret" if ($ret);
$ret = podify_pods ($pkgdata->{pods}, 'post_hierarchy');
print "$ret\n\n" if ($ret);
$ret = podify_interfaces ($package);
print "=head1 INTERFACES\n\n$ret" if ($ret);
$ret = podify_pods ($pkgdata->{pods}, 'post_interfaces');
print "$ret\n\n" if ($ret);
$ret = podify_pods ($pkgdata->{pods});
print "$ret\n\n" if ($ret);
$ret = podify_methods ($package, $pkgdata->{xsubs});
print "\n=head1 METHODS\n\n$ret" if ($ret);
$ret = podify_pods ($pkgdata->{pods}, 'post_methods');
print "$ret\n\n" if ($ret);
$ret = podify_properties ($package);
print "\n=head1 PROPERTIES\n\n$ret" if ($ret);
$ret = podify_pods ($pkgdata->{pods}, 'post_properties');
print "$ret\n\n" if ($ret);
$ret = podify_signals ($package);
print "\n=head1 SIGNALS\n\n$ret" if ($ret);
$ret = podify_pods ($pkgdata->{pods}, 'post_signals');
print "$ret\n\n" if ($ret);
if ($pkgdata->{enums}) {
print "\n=head1 ENUMS AND FLAGS\n\n";
foreach my $ef (@{ $pkgdata->{enums} }) {
my $pod = $ef->{pod};
shift @{ $pod->{lines} };
pop @{ $pod->{lines} }
if $pod->{lines}[-1] =~ /^=cut/;
# the name may be a C name...
my $name = convert_type ($ef->{name});
my $type = UNIVERSAL::isa ($name, 'Glib::Flags')
? 'flags' : 'enum';
print "=head2 $type $name\n\n"
. join ("\n", @{$pod->{lines}}) . "\n\n"
. podify_values ($ef->{name}) . "\n";;
}
}
$ret = podify_pods ($pkgdata->{pods}, 'post_enums');
print "$ret\n\n" if ($ret);
$ret = podify_pods ($pkgdata->{pods}, 'SEE_ALSO');
if ($ret)
{
print "$ret\n\n";
}
else
{
# don't link to yourself
pop @$parents;
# link to the toplevel, if we can.
unshift @$parents, $MAIN_MOD if $MAIN_MOD;
$ret = podify_see_alsos (@$parents,
$pkgdata->{see_alsos}
? @{ $pkgdata->{see_alsos} }
: ());
print "\n=head1 SEE ALSO\n\n$ret" if ($ret);
}
$ret = podify_pods ($pkgdata->{pods}, 'COPYRIGHT');
if ($ret)
{
# copyright over-ridden
print "$ret\n\n"
}
else
{
# use normal copyright system
$ret = get_copyright ();
print "\n=head1 COPYRIGHT\n\n$ret" if ($ret);
}
print "\n=cut\n\n";
close POD;
}
if ($index) {
open INDEX, ">$index"
or die "can't open $index for writing: $!\b";
select INDEX;
foreach (sort {$a->{name} cmp $b->{name}} @files) {
print join("\t", $_->{file},
$_->{name},
$_->{blurb} ? $_->{blurb} : () ) . "\n";
}
close INDEX;
}
}
# more sensible names for the basic types
our %basic_types = (
# the perl wrappers for the GLib fundamentals
'Glib::Scalar' => 'scalar',
'Glib::String' => 'string',
'Glib::Int' => 'integer',
'Glib::Uint' => 'unsigned',
'Glib::Double' => 'double',
'Glib::Boolean' => 'boolean',
# sometimes we can get names that are already mapped...
# e.g., from =for arg lines. pass them unbothered.
scalar => 'scalar',
subroutine => 'subroutine',
integer => 'integer',
string => 'string',
# other C names which may sneak through
bool => 'boolean', # C++ keyword, but provided by the perl api
boolean => 'boolean',
int => 'integer',
char => 'integer',
uint => 'unsigned',
float => 'double',
double => 'double',
char => 'string',
unsigned => 'unsigned',
gboolean => 'boolean',
gint => 'integer',
gint8 => 'integer',
gint16 => 'integer',
gint32 => 'integer',
guint8 => 'unsigned',
guint16 => 'unsigned',
guint32 => 'unsigned',
gulong => 'unsigned',
gshort => 'integer',
guint => 'integer',
gushort => 'unsigned',
gfloat => 'double',
gdouble => 'double',
gchar => 'string',
SV => 'scalar',
UV => 'unsigned',
IV => 'integer',
CV => 'subroutine',
gchar_length => 'string',
FILE => 'file handle',
time_t => 'unix timestamp',
GPerlFilename => 'localized file name',
GPerlFilename_const => 'localized file name',
);
=item add_types (@filenames)
Parse the given I<@filenames> for entries to add to the C<%basic_types> used
for C type name to Perl package name mappings of types that are not registered
with the Glib type system. The file format is dead simple: blank lines are
ignored; /#.*$/ is stripped from each line as comments; the first token on
each line is considered to be a C type name, and the remaining tokens are the
description of that type. For example, a valid file may look like this:
# a couple of special types
FooBar Foo::Bar
Frob localized frobnicator
C type decorations such as "const" and "*" are implied (do not include them),
and the _ornull variant is handled for you.
=cut
sub add_types {
my @files = @_;
foreach my $f (@files) {
open IN, $f or die "can't open types file $f: $!\n";
my $n = 0;
while (<IN>) {
chomp;
s/#.*//;
next if m/^\s*$/;
my ($c_name, @bits) = split;
if (@bits) {
$basic_types{$c_name} = join ' ', @bits;
$n++;
} else {
warn "$f:$.: no description for $c_name\n"
}
}
print "loaded $n extra types from $f\n";
close IN;
}
}
=item $string = podify_properties ($packagename)
Pretty-print the object properties owned by the Glib::Object derivative
I<$packagename> and return the text as a string. Returns undef if there
are no properties or I<$package> is not a Glib::Object.
=cut
sub podify_properties {
my $package = shift;
my @properties;
eval { @properties = Glib::Object::list_properties($package); 1; };
return undef unless (@properties or not $@);
# we have a non-zero number of properties, but there may still be
# none for this particular class. keep a count of how many
# match this class, so we can return undef if there were none.
my $nmatch = 0;
my $str = "=over\n\n";
foreach my $p (sort { $a->{name} cmp $b->{name} } @properties) {
next unless $p->{owner_type} eq $package;
++$nmatch;
my $stat = join " / ", @{ $p->{flags} };
my $type = exists $basic_types{$p->{type}}
? $basic_types{$p->{type}}
: $p->{type};
$str .= "=item '$p->{name}' ($type : $stat)\n\n";
$str .= "$p->{descr}\n\n" if (exists ($p->{descr}));
}
$str .= "=back\n\n";
return $nmatch ? $str : undef;
}
=item $string = podify_values ($packagename)
List and pretty-print the values of the GEnum or GFlags type I<$packagename>,
and return the text as a string. Returns undef if I<$packagename> isn't an
enum or flags type.
=cut
sub podify_values {
my $package = shift;
my @values;
eval { @values = Glib::Type->list_values ($package); 1; };
return undef unless (@values or not $@);
return "=over\n\n"
. join ("\n\n", map { "=item * '$_->{nick}' / '$_->{name}'" } @values)
. "\n\n=back\n\n";
}
=item $string = podify_signals ($packagename)
Query, list, and pretty-print the signals associated with I<$packagename>.
Returns the text as a string, or undef if there are no signals or
I<$packagename> is not a Glib::Object derivative.
=cut
sub podify_signals {
my $str = undef;
eval {
my @sigs = Glib::Type->list_signals (shift);
return undef unless @sigs;
$str = "=over\n\n";
foreach (@sigs) {
$str .= '=item ';
$str .= convert_type ($_->{return_type}).' = '
if exists $_->{return_type};
$str .= "B<$_->{signal_name}> (";
$str .= join ', ', map { convert_type ($_) }
$_->{itype}, @{$_->{param_types}};
$str .= ")\n\n";
}
$str .= "=back\n\n";
};
return $str
}
=item $string = podify_pods ($pods, $position)
Helper function to allow specific placement of generic pod within the auto
generated pages. Pod sections starting out with =for posistion XXX, where XXX
is one of the following will be placed at a specified position. In the case of
pod that is to be placed after a particular section that doesn't exist, that
pod will be still be placed there.
This function is called at all of the specified points through out the process
of generating pod for a page. Any pod matching the I<position> passed will be
returned, undef if no matches were found. If I<position> is undef all pods
without sepcific postion information will be returned. I<pods> is a reference
to an array of pod hashes.
=over
=item * SYNOPSIS
After the NAME section
=item * DESCRIPTION
After the SYNOPSIS section.
=item * post_hierarchy
After the HIERARCHY section.
=item * post_interfaces
After the INTERFACE section.
=item * post_methods
After the METHODS section.
=item * post_properties
After the PROPERTIES section.
=item * post_signals
After the SIGNALS section.
=item * post_enums
After the ENUMS AND FLAGS section.
=item * SEE_ALSO
Replacing the autogenerated SEE ALSO section completely.
=item * COPYRIGHT
Replacing the autogenerated COPYRIGHT section completely.
=back
=cut
sub podify_pods
{
my $pods = shift;
my $position = shift;
my $ret = '';
if ($position)
{
foreach (@$pods)
{
$ret .= join ("\n", @{$_->{lines}})."\n\n"
if (exists ($_->{position}) and
$_->{position} eq $position);
}
}
else
{
foreach (@$pods)
{
$ret .= join ("\n", @{$_->{lines}})."\n\n"
unless ($_->{position});
}
}
return $ret ne '' ? $ret : undef;
}
=item $string = podify_ancestors ($packagename)
Pretty-prints the ancestry of I<$packagename> from the Glib type system's
point of view. This uses Glib::Type->list_ancestors; see that function's
docs for an explanation of why that's different from looking at @ISA.
Returns the new text as a string, or undef if I<$packagename> is not a
registered GType.
=cut
sub podify_ancestors {
my @anc;
eval { @anc = Glib::Type->list_ancestors (shift); 1; };
return undef unless (@anc or not $@);
my $parents = [ reverse @anc ];
my $depth = 0;
my $str = ' '.pop(@anc)."\n";
foreach (reverse @anc) {
$str .= " " . " "x$depth . "+----$_\n";
$depth++;
}
$str .= "\n";
return ($str, $parents);
}
=item $string = podify_interfaces ($packagename)
Pretty-print the list of GInterfaces that I<$packagename> implements.
Returns the text as a string, or undef if the type implements no interfaces.
=cut
sub podify_interfaces {
my @int;
eval { @int = Glib::Type->list_interfaces (shift); 1; };
return undef unless (@int or not defined ($@));
return ' '.join ("\n ", @int)."\n\n";
}
=item $string = podify_methods ($packagename)
Call C<xsub_to_pod> on all the xsubs under the key I<$packagename> in the
data extracted by xsdocparse.pl.
Returns the new text as a string, or undef if there are no xsubs in
I<$packagename>.
=cut
sub podify_methods
{
my $package = shift;
return undef unless $data->{$package};
my $xsubs = $data->{$package}{xsubs};
return undef unless $xsubs && @$xsubs;
# we will be re-using $package from here on out.
my $str = '';
my $nfound = 0;
my $nused = 0;
my $method;
# based on rm's initial thought and then code/ideas by Marc 'HE'
# Brockschmidt, and Peter Haworth
@$xsubs = sort {
my ($at, $bt);
for ($at=$a->{symname}, $bt=$b->{symname})
{
# remove prefixes
s/^.+:://;
# new's goto the front
s/^new/\x00/;
# group set's/get'ss
s/^(get|set)_(.+)/$2_$1/;
# put \<set\>'s with \<get\>'s
s/^(get|set)$/get_$1/;
}
# now actually do the sorting compare
$at cmp $bt;
} @$xsubs;
#$str .= "=over\n\n";
foreach (@$xsubs) {
# skip if the method is hidden
next if ($_->{hidden});
$_->{symname} =~ m/^(?:([\w:]+)::)?([\w]+)$/;
$package = $1 || $_->{package};
$method = $2;
# skip DESTROY altogether
next if $method eq 'DESTROY';
++$nfound;
# don't document it if we can't actually call it.
if ($package->can ($method)) {
$str .= xsub_to_pod ($_, '=head2');
++$nused;
} else {
# this print should only be temporary
print STDERR "missing: $package->$method\n";
}
}
#$str .= "=back\n\n";
if ($nused == 0) {
# no xsubs were used.
if ($nfound > 0) {
# but some were found and not used.
# say something to that effect.
print STDERR "No methods found for $package\n";
$str = "
Some methods defined for $package are not available in the particular
library versions against which this module was compiled.
";
} else {
# no methods found, nothing to say
$str = undef;
}
}
$str;
}
=item $string = podify_see_alsos (@entries)
Creates a list of links to be placed in the SEE ALSO section of the page.
Returns undef if nothing is in the input list.
=cut
sub podify_see_alsos
{
my @entries = @_;
return undef unless scalar @entries;
# create the see also list
join (', ',
map {
if (/^\s*L</) {
$_;
} else {
"L<$_>";
}
}
@entries)
. "\n";
}
=item $string = get_copyright
Returns a string that will/should be placed on each page. You can control
the text of this string by setting the package variable $COPYRIGHT to
whatever you like.
If $COPYRIGHT is not set, we will attempt to create one for you, using the
values of the variables $YEAR, $AUTHOR, and $MAIN_MOD. $YEAR defaults to
the current year, $AUTHORS defaults to 'The Gtk2-Perl Team', and $MAIN_MOD
defaults to empty. You want $MAIN_MOD to be set to the main module of your
extension for the SEE ALSO section, and on the assumption that a decent
license notice can be found in that module's doc, we point the reader there.
So, in general, you will want to specify at least one of these, so that you
don't credit your work to us under the LGPL.
To set $COPYRIGHT, $AUTHORS, and/or $MAIN_MOD do something similar to the
following in the first part of your postamble section in Makefile.PL. All of
the weird escaping is required because this is going through several levels of
variable expansion. All occurences of <br> in $COPYRIGHT are replaced with
newlines, to make it easier to put in a multi-line string.
POD_SET=\\\$\$Glib::GenPod::COPYRIGHT='Copyright 1999 team-foobar<br>LGPL';
Glib::MakeHelper::postamble_docs_full() does this sort of thing for you.
=cut
sub get_copyright
{
my $str = $COPYRIGHT;
if (! $str) {
# construct a default.
$str = "\nCopyright (C) $YEAR $AUTHORS\n\n";
$str .= "This software is licensed under the LGPL;"
. " see $MAIN_MOD for a full notice.\n"
if $MAIN_MOD;
}
# a way to make returns
$str =~ s/<br>/\n/g;
return $str."\n";
}
sub preprocess_pod
{
my $pod = shift;
foreach (@{$pod->{lines}})
{
# =for include filename
# =for include !cmd
if (/^=for\s+include\s+(!)?(.*)$/)
{
if ($1)
{
chomp($_ = `$2`);
}
else
{
if (open INC, "<$2")
{
local $/ = undef;
$_ = <INC>;
}
else
{
carp "\n\nunable to open $2 for inclusion, at ".
$_->{filename}.':'.$_->{line};
}
}
}
}
}
=back
=head2 Helpers
=over
=item $perl_type = convert_type ($ctypestring)
Convert a C type name to a Perl type name.
Uses %Glib::GenPod::basic_types to look for some known basic types,
and uses Glib::Type->package_from_cname to look up the registered
package corresponding to a C type name. If no suitable mapping can
be found, this just returns the input string.
=cut
sub convert_type {
my $typestr = shift;
$typestr =~ /^\s* # leading space
(?:const\s+)? # maybe a const
([:\w]+) # the name
(\s*\*)? # maybe a star
\s*$/x; # trailing space
my $ctype = $1 || '!!';
# variant type
$ctype =~ s/(?:_(ornull|own|copy|own_ornull|noinc))$//;
my $variant = $1 || "";
my $perl_type;
if (exists $basic_types{$ctype}) {
$perl_type = $basic_types{$ctype};
} elsif ($ctype =~ m/::/) {
# :: is not valid in GLib type names, so there's no point
# in asking the GLib type system if it knows this name,
# because it's probably already a perl type name.
$perl_type = $ctype;
} else {
eval
{
$perl_type = Glib::Type->package_from_cname ($ctype);
1;
} or do {
# this warning will have something to do with the
# package not being registered, a fact which will
# of interest to a person documenting or developing
# the documented module, but not to us developing
# the documentation generator. thus, this warning
# doesn't need a line number attribution.
# let's strip that...
$@ =~ s/\s*at (.*) line \d+\.$/./;
warn "$@";
# ... and fall back gracefully.
$perl_type = $ctype;
}
}
if ($variant && $variant =~ m/ornull/) {
$perl_type .= " or undef";
}
$perl_type
}
=item $string = xsub_to_pod ($xsub, $sigprefix='')
Convert an xsub hash into a string of pod describing it. Includes the
call signature, argument listing, and description, honoring special
switches in the description pod (arg and signature overrides).
=cut
sub xsub_to_pod {
my $xsub = shift;
my $sigprefix = shift || '';
my $alias = $xsub->{symname};
my $str;
# ensure that if there's pod for this xsub, we have it now.
# this should probably happen somewhere outside of this function,
# but, eh...
my @podlines = ();
if (defined $xsub->{pod}) {
@podlines = @{ $xsub->{pod}{lines} };
}
# look for annotations in the pod lines.
# stuff in the pods overrides whatever we'd generate.
my @signatures = ();
if (@podlines) {
# since we're modifying the list while traversing
# it, go back to front.
for (my $i = $#podlines ; $i >= 0 ; $i--) {
if ($podlines[$i] =~ s/^=(for\s+)?signature\s+//) {
unshift @signatures, $podlines[$i];
splice @podlines, $i, 1;
} elsif ($podlines[$i] =~ /^=(?:for\s+)?arg\s+
(\$?[\w.]+) # arg name
(?:\s*\(([^)]*)\))? # type
\s*
(.*)$/x) { # desc
# this is a little convoluted, because we
# need to ensure that the args array and
# hash exist before using them. we may be
# getting an =arg command on something that
# doesn't list this name in the xsub
# declaration.
$xsub->{args} = [] if not exists $xsub->{args};
my ($a, undef) =
grep { $_->{name} eq $1 }
@{ $xsub->{args} };
$a = {}, push @{$xsub->{args}}, $a
if not defined $a;
$a->{name} = $1 if not defined $a->{name};
$a->{desc} = $3;
if ($2) {
if ($2 =~ m/^_*hide_*$/i) {
$a->{hide}++;
} else {
$a->{type} = $2;
}
}
# "just eat it! eat it! get yourself and
# egg and beat it!" -- weird al
splice @podlines, $i, 1;
}
}
}
#
# the call signature(s).
#
push @signatures, compile_signature ($xsub)
unless @signatures;
foreach (@signatures) {
s/>(\w+)/>B<$1>/;
$str .= "$sigprefix $_\n\n";
}
$str .= "=over\n\n";
#
# list all the arg types.
#
my @args;
@args = @{ $xsub->{args} } if ($xsub->{args});
shift @args unless $xsub->{function};
$str .= "=over\n\n" if @args;
foreach my $a (@args) {
my $type;
next if $a->{hide};
if ($a->{name} eq '...') {
$type = 'list';
} else {
if (not defined $a->{type}) {
warn "$alias: no type defined for arg"
. " \$$a->{name}\n";
$type = "(unknown)";
} else {
$type = convert_arg_type ($a->{type});
}
}
$str .= "=item * "
. fixup_arg_name ($a->{name})
. " ($type) "
. ($a->{desc} ? $a->{desc} : "")
. "\n\n";
}
$str .= "=back\n\n" if @args;
if (@podlines) {
shift @podlines;
pop @podlines;
$str .= join("\n", @podlines)."\n\n";
}
$str .= "May croak with a L<Glib::Error> in \$@ on failure.\n\n"
if ($xsub->{gerror});
$str .= "=back\n\n";
$str
}
=item $string = compile_signature ($xsub)
Given an xsub hash, return a string with the call signature for that
xsub.
=cut
sub compile_signature {
my $xsub = shift;
my @args;
@args = @{ $xsub->{args} } if ($xsub->{args});
my $call;
if ($xsub->{function}) {
$call = $xsub->{symname};
} else {
# find the method's short name
my $method = $xsub->{symname};
$method =~ s/^(.*):://;
my $package = $1 || $xsub->{package};
# methods always eat the first arg as the instance.
my $instance = shift @args;
my $obj = defined ($instance->{type})
? '$'.$instance->{name}
: $package;
$call = "$obj\-E<gt>$method";
}
# compile the arg list string
my $argstr = join ", ", map {
fixup_arg_name ($_->{name})
. (defined $_->{default}
? '='.fixup_default ($_->{default})
: '')
} @args;
# compile the return list string
my @outlist = map { $_->{name} } @{ $xsub->{outlist} };
if (defined $xsub->{return_type}) {
my @retnames = map { convert_return_type_to_name ($_) }
@{ $xsub->{return_type} };
unshift @outlist, @retnames;
}
my $retstr = @outlist
? (@outlist > 1
? "(".join (", ", @outlist).")"
: $outlist[0]
)." = "
: (defined $xsub->{codetype} and
$xsub->{codetype} eq 'PPCODE'
? 'list = '
: ''
);
"$retstr$call ".($argstr ? "($argstr)" : "");
}
=item $string = fixup_arg_name ($name)
Prepend a $ to anything that's not the literal ellipsis string '...'.
=cut
sub fixup_arg_name {
my $name = shift;
my $sigil = $name eq '...' ? '' : '$';
return $sigil.$name;
}
=item fixup_default
Mangle default parameter values from C to Perl values. Mostly, this
does NULL => undef.
=cut
sub fixup_default {
my $value = shift;
return (defined ($value)
? ($value eq 'NULL' ? 'undef' : $value)
: '');
}
=item convert_arg_type
C type to Perl type conversion for argument types.
=cut
sub convert_arg_type { convert_type (@_) }
=item convert_return_type_to_name
C type to Perl type conversion suitable for return types.
=cut
sub convert_return_type_to_name {
my $type = convert_type (@_);
if ($type =~ s/^.*:://) {
$type = lc $type;
}
return $type;
}
sub mkdir_p {
my $path = shift;
my @dirs = File::Spec->splitdir ($path);
my $p = shift @dirs;
do {
mkdir $p or die "can't create dir $p: $!\n" unless -d $p;
$p = File::Spec->catdir ($p, shift @dirs);
} while (@dirs);
}
1;
__END__
=back
=head1 SEE ALSO
L<Glib::ParseXSDoc>
=head1 AUTHORS
muppet bashed out the xsub signature generation in a few hours on a wednesday
night when band practice was cancelled at the last minute; he and ross
mcfarland hacked this module together via irc and email over the next few days.
=head1 COPYRIGHT AND LICENSE
Copyright (C) 2003-2004 by the gtk2-perl team
This library is free software; you can redistribute it and/or modify
it under the terms of the Lesser General Public License (LGPL). For
more information, see http://www.fsf.org/licenses/lgpl.txt
=cut