GtkSharp/generator/ObjectGen.cs
Dan Winship d37d940eb8 * parser/gapi2xml.pl (parseInitFunc): handle interface properties
as well as class properties

	* gtk/gtk-api-2.4.raw: 
	* gtk/gtk-api-2.6.raw: Regen (adding properties to GtkFileChooser).

	* generator/Property.cs (GenerateDecl): new method to generate
	just a property declaration (for an interface).
	(Generate): Add an "implementor" arg as with Method.Generate.

	* generator/InterfaceGen.cs (Generate): Generate properties. Also,
	validate methods *before* checking if they should be ignored,
	since certain Method properties aren't set until Validate-time.

	* generator/*.cs: misc minor changes/reorg for the above.

svn path=/trunk/gtk-sharp/; revision=47563
2005-07-22 18:35:37 +00:00

409 lines
12 KiB
C#

// GtkSharp.Generation.ObjectGen.cs - The Object Generatable.
//
// Author: Mike Kestner <mkestner@ximian.com>
//
// Copyright (c) 2001-2003 Mike Kestner
// Copyright (c) 2003-2004 Novell, Inc.
//
// This program is free software; you can redistribute it and/or
// modify it under the terms of version 2 of the GNU General Public
// License as published by the Free Software Foundation.
//
// 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.
namespace GtkSharp.Generation {
using System;
using System.Collections;
using System.IO;
using System.Text;
using System.Xml;
public class ObjectGen : ObjectBase {
private ArrayList strings = new ArrayList();
private ArrayList vm_nodes = new ArrayList();
private Hashtable childprops = new Hashtable();
private static Hashtable dirs = new Hashtable ();
public ObjectGen (XmlElement ns, XmlElement elem) : base (ns, elem)
{
foreach (XmlNode node in elem.ChildNodes) {
string name;
if (!(node is XmlElement)) continue;
XmlElement member = (XmlElement) node;
switch (node.Name) {
case "callback":
Statistics.IgnoreCount++;
break;
case "virtual_method":
Statistics.IgnoreCount++;
break;
case "static-string":
strings.Add (node);
break;
case "childprop":
name = member.GetAttribute ("name");
while (childprops.ContainsKey (name))
name += "mangled";
childprops.Add (name, new ChildProperty (member, this));
break;
default:
if (!IsNodeNameHandled (node.Name))
Console.WriteLine ("Unexpected node " + node.Name + " in " + CName);
break;
}
}
}
private bool DisableVoidCtor {
get {
return Elem.HasAttribute ("disable_void_ctor");
}
}
private bool DisableGTypeCtor {
get {
return Elem.HasAttribute ("disable_gtype_ctor");
}
}
private class DirectoryInfo {
public string assembly_name;
public Hashtable objects;
public DirectoryInfo (string assembly_name) {
this.assembly_name = assembly_name;
objects = new Hashtable ();
}
}
private static DirectoryInfo GetDirectoryInfo (string dir, string assembly_name)
{
DirectoryInfo result;
if (dirs.ContainsKey (dir)) {
result = dirs [dir] as DirectoryInfo;
if (result.assembly_name != assembly_name) {
Console.WriteLine ("Can't put multiple assemblies in one directory.");
return null;
}
return result;
}
result = new DirectoryInfo (assembly_name);
dirs.Add (dir, result);
return result;
}
public override void Generate (GenerationInfo gen_info)
{
gen_info.CurrentType = Name;
string asm_name = gen_info.AssemblyName.Length == 0 ? NS.ToLower () + "-sharp" : gen_info.AssemblyName;
DirectoryInfo di = GetDirectoryInfo (gen_info.Dir, asm_name);
StreamWriter sw = gen_info.Writer = gen_info.OpenStream (Name);
sw.WriteLine ("namespace " + NS + " {");
sw.WriteLine ();
sw.WriteLine ("\tusing System;");
sw.WriteLine ("\tusing System.Collections;");
sw.WriteLine ("\tusing System.Runtime.InteropServices;");
sw.WriteLine ();
SymbolTable table = SymbolTable.Table;
sw.WriteLine ("#region Autogenerated code");
if (IsDeprecated)
sw.WriteLine ("\t[Obsolete]");
sw.Write ("\tpublic {0} class " + Name, IsAbstract ? "abstract" : "");
string cs_parent = table.GetCSType(Elem.GetAttribute("parent"));
if (cs_parent != "") {
di.objects.Add (CName, QualifiedName);
sw.Write (" : " + cs_parent);
}
foreach (string iface in interfaces) {
if (Parent != null && Parent.Implements (iface))
continue;
sw.Write (", " + table.GetCSType (iface));
}
foreach (string iface in managed_interfaces) {
if (Parent != null && Parent.Implements (iface))
continue;
sw.Write (", " + iface);
}
sw.WriteLine (" {");
sw.WriteLine ();
GenCtors (gen_info);
GenProperties (gen_info, null);
GenFields (gen_info);
GenChildProperties (gen_info);
bool has_sigs = (sigs != null && sigs.Count > 0);
if (!has_sigs) {
foreach (string iface in interfaces) {
ClassBase igen = table.GetClassGen (iface);
if (igen != null && igen.Signals != null) {
has_sigs = true;
break;
}
}
}
if (has_sigs && Elem.HasAttribute("parent")) {
GenSignals (gen_info, null);
}
if (vm_nodes.Count > 0) {
if (gen_info.GlueEnabled) {
GenVirtualMethods (gen_info);
} else {
Statistics.VMIgnored = true;
Statistics.ThrottledCount += vm_nodes.Count;
}
}
GenMethods (gen_info, null, null);
if (interfaces.Count != 0) {
Hashtable all_methods = new Hashtable ();
Hashtable collisions = new Hashtable ();
foreach (string iface in interfaces) {
ClassBase igen = table.GetClassGen (iface);
foreach (Method m in igen.Methods.Values) {
if (all_methods.Contains (m.Name))
collisions[m.Name] = true;
else
all_methods[m.Name] = true;
}
}
foreach (string iface in interfaces) {
if (Parent != null && Parent.Implements (iface))
continue;
ClassBase igen = table.GetClassGen (iface);
igen.GenMethods (gen_info, collisions, this);
igen.GenProperties (gen_info, this);
igen.GenSignals (gen_info, this);
}
}
foreach (XmlElement str in strings) {
sw.Write ("\t\tpublic static string " + str.GetAttribute ("name"));
sw.WriteLine (" {\n\t\t\t get { return \"" + str.GetAttribute ("value") + "\"; }\n\t\t}");
}
if (cs_parent != String.Empty && GetExpected (CName) != QualifiedName) {
sw.WriteLine ();
sw.WriteLine ("\t\tstatic " + Name + " ()");
sw.WriteLine ("\t\t{");
sw.WriteLine ("\t\t\tGtkSharp." + Studlify (asm_name) + ".ObjectManager.Initialize ();");
sw.WriteLine ("\t\t}");
}
sw.WriteLine ("#endregion");
AppendCustom (sw, gen_info.CustomDir);
sw.WriteLine ("\t}");
sw.WriteLine ("}");
sw.Close ();
gen_info.Writer = null;
Statistics.ObjectCount++;
}
protected override void GenCtors (GenerationInfo gen_info)
{
if (!Elem.HasAttribute("parent"))
return;
gen_info.Writer.WriteLine("\t\t~" + Name + "()");
gen_info.Writer.WriteLine("\t\t{");
gen_info.Writer.WriteLine("\t\t\tDispose();");
gen_info.Writer.WriteLine("\t\t}");
gen_info.Writer.WriteLine();
if (!DisableGTypeCtor) {
gen_info.Writer.WriteLine("\t\t[Obsolete]");
gen_info.Writer.WriteLine("\t\tprotected " + Name + "(GLib.GType gtype) : base(gtype) {}");
}
gen_info.Writer.WriteLine("\t\tpublic " + Name + "(IntPtr raw) : base(raw) {}");
if (ctors.Count == 0 && !DisableVoidCtor) {
gen_info.Writer.WriteLine();
gen_info.Writer.WriteLine("\t\tprotected " + Name + "() : base(IntPtr.Zero)");
gen_info.Writer.WriteLine("\t\t{");
gen_info.Writer.WriteLine("\t\t\tCreateNativeObject (new string [0], new GLib.Value [0]);");
gen_info.Writer.WriteLine("\t\t}");
}
gen_info.Writer.WriteLine();
base.GenCtors (gen_info);
}
protected void GenChildProperties (GenerationInfo gen_info)
{
if (childprops.Count == 0)
return;
StreamWriter sw = gen_info.Writer;
ObjectGen child_ancestor = Parent as ObjectGen;
while (child_ancestor.CName != "GtkContainer" &&
child_ancestor.childprops.Count == 0)
child_ancestor = child_ancestor.Parent as ObjectGen;
sw.WriteLine ("\t\tpublic class " + Name + "Child : " + child_ancestor.NS + "." + child_ancestor.Name + "." + child_ancestor.Name + "Child {");
sw.WriteLine ("\t\t\tprotected internal " + Name + "Child (Gtk.Container parent, Gtk.Widget child) : base (parent, child) {}");
sw.WriteLine ("");
foreach (ChildProperty prop in childprops.Values) {
if (prop.Validate ())
prop.Generate (gen_info, "\t\t\t", null);
else
Console.WriteLine("in Object " + QualifiedName);
}
sw.WriteLine ("\t\t}");
sw.WriteLine ("");
sw.WriteLine ("\t\tpublic override Gtk.Container.ContainerChild this [Gtk.Widget child] {");
sw.WriteLine ("\t\t\tget {");
sw.WriteLine ("\t\t\t\treturn new " + Name + "Child (this, child);");
sw.WriteLine ("\t\t\t}");
sw.WriteLine ("\t\t}");
sw.WriteLine ("");
}
private void GenVMGlue (GenerationInfo gen_info, XmlElement elem)
{
StreamWriter sw = gen_info.GlueWriter;
string vm_name = elem.GetAttribute ("cname");
string method = gen_info.GluelibName + "_" + NS + Name + "_override_" + vm_name;
sw.WriteLine ();
sw.WriteLine ("void " + method + " (GType type, gpointer cb);");
sw.WriteLine ();
sw.WriteLine ("void");
sw.WriteLine (method + " (GType type, gpointer cb)");
sw.WriteLine ("{");
sw.WriteLine ("\t{0} *klass = ({0} *) g_type_class_peek (type);", NS + Name + "Class");
sw.WriteLine ("\tklass->" + vm_name + " = cb;");
sw.WriteLine ("}");
}
static bool vmhdrs_needed = true;
private void GenVirtualMethods (GenerationInfo gen_info)
{
if (vmhdrs_needed) {
gen_info.GlueWriter.WriteLine ("#include <glib-object.h>");
gen_info.GlueWriter.WriteLine ("#include \"vmglueheaders.h\"");
gen_info.GlueWriter.WriteLine ();
vmhdrs_needed = false;
}
foreach (XmlElement elem in vm_nodes) {
GenVMGlue (gen_info, elem);
}
}
/* Keep this in sync with the one in glib/GType.cs */
private static string GetExpected (string cname)
{
for (int i = 1; i < cname.Length; i++) {
if (Char.IsUpper (cname[i])) {
if (i == 1 && cname[0] == 'G')
return "GLib." + cname.Substring (1);
else
return cname.Substring (0, i) + "." + cname.Substring (i);
}
}
throw new ArgumentException ("cname doesn't follow the NamespaceType capitalization style: " + cname);
}
private static bool NeedsMap (Hashtable objs, string assembly_name)
{
foreach (string key in objs.Keys)
if (GetExpected (key) != ((string) objs[key]))
return true;
return false;
}
private static string Studlify (string name)
{
string result = "";
string[] subs = name.Split ('-');
foreach (string sub in subs)
result += Char.ToUpper (sub[0]) + sub.Substring (1);
return result;
}
public static void GenerateMappers ()
{
foreach (string dir in dirs.Keys) {
DirectoryInfo di = dirs[dir] as DirectoryInfo;
if (!NeedsMap (di.objects, di.assembly_name))
continue;
GenerationInfo gen_info = new GenerationInfo (dir, di.assembly_name);
GenerateMapper (di, gen_info);
}
}
private static void GenerateMapper (DirectoryInfo dir_info, GenerationInfo gen_info)
{
StreamWriter sw = gen_info.OpenStream ("ObjectManager");
sw.WriteLine ("namespace GtkSharp." + Studlify (dir_info.assembly_name) + " {");
sw.WriteLine ();
sw.WriteLine ("\tpublic class ObjectManager {");
sw.WriteLine ();
sw.WriteLine ("\t\tstatic bool initialized = false;");
sw.WriteLine ("\t\t// Call this method from the appropriate module init function.");
sw.WriteLine ("\t\tpublic static void Initialize ()");
sw.WriteLine ("\t\t{");
sw.WriteLine ("\t\t\tif (initialized)");
sw.WriteLine ("\t\t\t\treturn;");
sw.WriteLine ("");
sw.WriteLine ("\t\t\tinitialized = true;");
foreach (string key in dir_info.objects.Keys) {
if (GetExpected(key) != ((string) dir_info.objects[key]))
sw.WriteLine ("\t\t\tGLib.GType.Register ({0}.GType, typeof ({0}));", dir_info.objects [key]);
}
sw.WriteLine ("\t\t}");
sw.WriteLine ("\t}");
sw.WriteLine ("}");
sw.Close ();
}
}
}