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Ryujinx-GtkSharp/parser/Metadata.pm
Rachel Hestilow 6857128f07 2002-06-21 Rachel Hestilow <hestilow@ximian.com> 
* generator/ClassBase.cs: New base class for classes and interfaces.

	* generator/InterfaceGen.cs: Inherit from ClassBase, generate declarations.

	* generator/ObjectGen.cs: Move half of this into ClassBase.

	* generator/Method.cs: Turn all applicable Get/Set functions into .NET
	accessors. Remove redundant == overload and move into Equals, as
	it was confusing "!= null".

	* generator/Parameters.cs: Alter signature creation to accept "is_set"
	option, add support for variable arguments. Add properties "Count",
	"IsVarArgs", "VAType".

	* generator/Ctor.cs: Fixup for changes in Parameters (indenting,
	signature creation).

	* generator/Signal.cs: Support generating declarations.

	* generator/SymbolTable: Change GetObjectGen to GetClassGen.

	* glib/IWrapper.cs: Move "Handle" declaration to here, so
	both classes and interfaces can benefit from it.

	* glib/Object.cs: Inherit from IWrapper.cs

	* parser/Metadata.pm: Support attribute changes on constructors,
	methods, signals, and paramater lists.

	* parser/gapi2xml.pl: Parse init funcs for interfaces. Ignore "_"
	functions here.

	* parser/gapi_pp.pl: Remove boxed_type_register check, as it will
	be caught in the init funcs.

	* parser/Atk.metadata: Added.

	* parser/Gtk.metadata: Add all needed signal/method collision
	renames. Rename GtkEditable.Editable accessors to IsEditable,
	as .NET does not like accessors with the same name as their
	declaring type. Tag TreeStore constructor as varargs.

	* samples/ButtonApp.cs: s/EmitAdd/Add.

	* samples/Menu.cs: s/EmitAdd/Add, s/Activate/Activated.

svn path=/trunk/gtk-sharp/; revision=5394
2002-06-21 17:15:19 +00:00

225 lines
6.2 KiB
Perl
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#
# Metadata.pm: Adds additional properties to a GApi tree.
#
# Author: Rachel Hestilow <hestilow@ximian.com>
#
# <c> 2002 Rachel Hestilow
##############################################################
package Metadata;
use XML::LibXML;
sub new {
my $namespace = $_[1];
my $file = "$namespace.metadata";
my $self = {};
@{$self->{rules}} = ();
$self->{metadata} = $namespace;
bless $self;
$self->load ($file);
return $self;
}
sub parseClass {
my ($node, $classes) = @_;
my %methods = ();
my %signals = ();
my @attrs = $node->attributes;
my $class_name = $attrs[0]->value;
${$classes}{$class_name} = [\%methods, \%signals];
for ($method_node = $node->firstChild; $method_node != undef; $method_node = $method_node->nextSibling ()) {
if ($method_node->nodeName eq "method" or $method_node->nodeName eq "constructor") {
$methods{$method_node->firstChild->nodeValue} = 1;
} elsif ($method_node->nodeName eq "signal") {
$signals{$method_node->firstChild->nodeValue} = 1;
}
}
}
sub parseData {
my $node = $_[0];
my @data = ();
for ($data_node = $node->firstChild; $data_node != undef; $data_node = $data_node->nextSibling ()) {
next if $data_node->nodeName ne "attribute";
my @attrs = $data_node->attributes;
my $target = $attrs[0]->value;
my ($filter_level, $filter_value, $attr_name, $attr_value);
for ($attr_node = $data_node->firstChild; $attr_node != undef; $attr_node = $attr_node->nextSibling ()) {
if ($attr_node->nodeName eq "filter") {
my @filter_attrs = $attr_node->attributes;
$filter_level = $filter_attrs[0]->value;
$filter_value = $attr_node->firstChild->nodeValue;
} elsif ($attr_node->nodeName eq "name") {
$attr_name = $attr_node->firstChild->nodeValue;
} elsif ($attr_node->nodeName eq "value") {
$attr_value = $attr_node->firstChild->nodeValue;
}
}
my @data_attr = ("attribute", $target, "filter", $filter_level, $filter_value, $attr_name, $attr_value);
push @data, \@data_attr;
}
return @data;
}
sub load {
my ($self, $file) = @_;
my $parser = new XML::LibXML;
my $doc = $parser->parse_file($file);
my $root = $doc->documentElement;
for ($rule_node = $root->firstChild; $rule_node != undef; $rule_node = $rule_node->nextSibling ()) {
next if $rule_node->nodeName ne "rule";
my %classes = ();
my @data;
for ($node = $rule_node->firstChild; $node != undef; $node = $node->nextSibling ()) {
if ($node->nodeName eq "class") {
parseClass ($node, \%classes);
} elsif ($node->nodeName eq "data") {
@data = parseData ($node);
}
}
push @{$self->{rules}}, [\%classes, \@data];
}
}
sub fixupParams {
my ($method_node, $data_list_ref) = @_;
my ($params_node, $node);
foreach $data (@$data_list_ref) {
if ($$data[1] eq "method" or $$data[1] eq "signal") {
$method_node->setAttribute ($$data[5], $$data[6]);
next;
}
for ($node = $method_node->firstChild; $node; $node = $node->nextSibling ()) {
if ($node->nodeName eq "parameters") {
$params_node = $node;
last;
}
}
next if not $params_node;
if ($$data[1] eq "parameters") {
$params_node->setAttribute ($$data[5], $$data[6]);
next;
}
for ($node = $params_node->firstChild; $node; $node = $node->nextSibling ()) {
my $param_type;
foreach $attr ($node->attributes) {
if ($attr->name eq "type") {
$param_type = $attr->value;
last;
}
}
if ($param_type eq $$data[4]) {
$node->setAttribute ($$data[5], $$data[6]);
}
}
}
}
sub fixupNamespace {
my ($self, $ns_node) = @_;
my $node;
foreach $rule (@{$self->{rules}}) {
my ($classes_ref, $data_list_ref) = @$rule;
for ($node = $ns_node->firstChild; $node; $node = $node->nextSibling ()) {
next if not ($node->nodeName eq "object" or $node->nodeName eq "interface");
my $class, $methods_ref, $attr;
foreach $attr ($node->attributes) {
if ($attr->name eq "cname") {
$class = $attr->value;
last;
}
}
my %classes = %$classes_ref;
$methods_ref = $classes{$class}[0];
$signals_ref = $classes{$class}[1];
next if not ($methods_ref or $signals_ref);
for ($method_node = $node->firstChild; $method_node; $method_node = $method_node->nextSibling ()) {
next if not ($method_node->nodeName eq "method" or $method_node->nodeName eq "constructor");
my $method;
foreach $attr ($method_node->attributes) {
if (($attr->name eq "name" and $method_node->nodeName eq "method") or ($attr->name eq "cname" and $method_node->nodeName eq "constructor")) {
$method = $attr->value;
last;
}
}
next if not ${%$methods_ref}{$method};
fixupParams ($method_node, $data_list_ref);
}
for ($signal_node = $node->firstChild; $signal_node; $signal_node = $signal_node->nextSibling ()) {
next if $signal_node->nodeName ne "signal";
my $signal;
foreach $attr ($signal_node->attributes) {
if ($attr->name eq "name") {
$signal = $attr->value;
last;
}
}
next if not ${$signals_ref}{$signal};
fixupParams ($signal_node, $data_list_ref);
}
}
}
}
sub fixup {
my $doc = $_[0];
my ($api_node, $ns_node);
my $metadata = undef;
$api_node = $doc->documentElement;
return if not ($api_node and $api_node->nodeName eq "api");
for ($ns_node = $api_node->firstChild; $ns_node; $ns_node = $ns_node->nextSibling ()) {
next if $ns_node->nodeName ne "namespace";
next if not $ns_node->attributes;
my @attrs = $ns_node->attributes;
next if not @attrs;
my $namespace = $attrs[0]->value;
if (-f "$namespace.metadata") {
if (not ($metadata and $metadata->{namespace} eq $namespace)) {
$metadata = new Metadata ($namespace);
}
$metadata->fixupNamespace ($ns_node);
}
}
}
sub output {
my $self = $_[0];
$rule_num = 0;
foreach $rule (@{$self->{rules}}) {
print "Rule #$rule_num:\n";
my ($classes_ref, $data_list_ref) = @$rule;
my %classes = %$classes_ref;
my @data_list = @$data_list_ref;
foreach $class (keys (%classes)) {
print "\tClass $class:\n";
foreach $method (keys %{$classes{$class}}) {
print "\t\tMethod $method\n";
}
}
print "\tData:\n";
foreach $data (@data_list) {
printf "\t\tAdd an %s to all %s of %s %s: %s=%s\n",
$$data[0], $$data[1], $$data[3], $$data[4], $$data[5], $$data[6];
}
$rule_num++;
}
}
1;
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