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Ryujinx-GtkSharp/generator/SymbolTable.cs
Rachel Hestilow c8d090f62f 2002-08-31 Rachel Hestilow <hestilow@ximian.com> 
Proper GList, GSList support. Read-only for now.

	* glue/list.c: Added.
	* glue/Makefile.am: Add list.c
	* glue/type.c: Add function gtksharp_is_object.

	* glib/ListBase.cs, List.cs: Added.
	* glib/SList.cs: Inherit from ListBase.
	* glib/Object.cs: Add static method "IsObject".

	* generator/Method.cs: Pass on element_type to constructor
	if specified.
	* generator/SymbolTable.cs: Move GList to manual types.

	* sample/GladeViewer.cs: Remove list hacks.

	* sources/Gnome.metadata: Specify element types for
	CanvasPathDef.Split and IconList.GetSelection. Rename
	CanvasPathDef *to methods to properly capitalized *To.
	* sources/Gtk.metadata: Hide Widget.ListAccelClosures until
	GClosure is handled properly.
	* sources/Pango.metadata: Added.

	* sample/test/TestToolbar.cs: Compile with recent delegate changes.

svn path=/trunk/gtk-sharp/; revision=7166
2002-09-01 04:46:38 +00:00

367 lines
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// GtkSharp.Generation.SymbolTable.cs - The Symbol Table Class.
//
// Author: Mike Kestner <mkestner@speakeasy.net>
//
// (c) 2001-2002 Mike Kestner
namespace GtkSharp.Generation {
using System;
using System.Collections;
public class SymbolTable {
private static Hashtable alias = new Hashtable ();
private static Hashtable complex_types = new Hashtable ();
private static Hashtable simple_types;
private static Hashtable manually_wrapped_types;
static SymbolTable ()
{
simple_types = new Hashtable ();
simple_types.Add ("void", "void");
simple_types.Add ("gboolean", "bool");
simple_types.Add ("gint", "int");
simple_types.Add ("guint", "uint");
simple_types.Add ("glong", "long");
simple_types.Add ("gshort", "short");
simple_types.Add ("gushort", "ushort");
simple_types.Add ("guint32", "uint");
simple_types.Add ("const-gchar", "string");
simple_types.Add ("const-char", "string");
simple_types.Add ("gchar", "string");
simple_types.Add ("GObject", "GLib.Object");
simple_types.Add ("gfloat", "float");
simple_types.Add ("gdouble", "double");
simple_types.Add ("gint8", "byte");
simple_types.Add ("guint8", "byte");
simple_types.Add ("gint16", "short");
simple_types.Add ("gint32", "int");
simple_types.Add ("guint16", "ushort");
simple_types.Add ("guint1", "bool");
simple_types.Add ("gpointer", "System.IntPtr");
simple_types.Add ("guchar", "byte");
simple_types.Add ("long", "long");
simple_types.Add ("gulong", "ulong");
simple_types.Add ("GQuark", "int");
simple_types.Add ("int", "int");
simple_types.Add ("char", "string");
simple_types.Add ("double", "double");
simple_types.Add ("float", "float");
simple_types.Add ("gunichar", "string");
simple_types.Add ("uint1", "bool");
simple_types.Add ("GPtrArray", "System.IntPtr[]");
simple_types.Add ("GType", "int");
simple_types.Add ("GError", "IntPtr");
// gsize is a system-specific typedef in glibconfig.h,
// but this should work for now
simple_types.Add ("gsize", "uint");
simple_types.Add ("gssize", "int");
simple_types.Add ("size_t", "int");
// FIXME: These ought to be handled properly.
simple_types.Add ("GMemChunk", "System.IntPtr");
simple_types.Add ("GTimeVal", "System.IntPtr");
simple_types.Add ("GClosure", "System.IntPtr");
simple_types.Add ("GArray", "System.IntPtr");
simple_types.Add ("GData", "System.IntPtr");
simple_types.Add ("GTypeModule", "GLib.Object");
simple_types.Add ("GHashTable", "System.IntPtr");
simple_types.Add ("va_list", "System.IntPtr");
simple_types.Add ("GParamSpec", "System.IntPtr");
simple_types.Add ("gconstpointer", "System.IntPtr");
manually_wrapped_types = new Hashtable ();
manually_wrapped_types.Add ("GSList", "GLib.SList");
manually_wrapped_types.Add ("GList", "GLib.List");
manually_wrapped_types.Add ("GValue", "GLib.Value");
}
public static void AddAlias (string name, string type)
{
type = type.TrimEnd(' ', '\t');
alias [name] = type;
}
public static void AddType (IGeneratable gen)
{
complex_types [gen.CName] = gen;
}
public static void AddSimpleType (string cname, string name)
{
simple_types.Add (cname, name);
}
public static void AddManualType (string cname, string name)
{
manually_wrapped_types.Add (cname, name);
}
public static int Count {
get
{
return complex_types.Count;
}
}
public static IEnumerable Generatables {
get {
return complex_types.Values;
}
}
private static string Trim(string type)
{
// HACK: If we don't detect this here, there is no
// way of indicating it in the symbol table
if (type == "void*" || type == "const-void*") return "gpointer";
string trim_type = type.TrimEnd('*');
if (trim_type.StartsWith("const-")) return trim_type.Substring(6);
return trim_type;
}
private static string DeAlias (string type)
{
while (alias.ContainsKey(type))
type = (string) alias[type];
return type;
}
public static string FromNativeReturn(string c_type, string val)
{
return FromNative (c_type, val, true);
}
public static string FromNative(string c_type, string val)
{
return FromNative (c_type, val, false);
}
public static string FromNative(string c_type, string val, bool ret)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (simple_types.ContainsKey(c_type)) {
return val;
} else if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (ret)
return gen.FromNativeReturn(val);
else
return gen.FromNative(val);
} else if (manually_wrapped_types.ContainsKey(c_type)) {
string cs_type = (string) manually_wrapped_types[c_type];
return String.Format ("new {0} ({1})", cs_type, val);
} else {
return "";
}
}
public static string GetCSType(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (simple_types.ContainsKey(c_type)) {
return (string) simple_types[c_type];
} else if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
return gen.QualifiedName;
} else if (manually_wrapped_types.ContainsKey(c_type)) {
return (string) manually_wrapped_types[c_type];
} else {
return "";
}
}
public static string GetName(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (simple_types.ContainsKey(c_type) || manually_wrapped_types.ContainsKey(c_type)) {
string stype;
if (simple_types.ContainsKey(c_type))
stype = (string) simple_types[c_type];
else
stype = (string) manually_wrapped_types[c_type];
int dotidx = stype.IndexOf(".");
if (dotidx == -1) {
return stype;
} else {
return stype.Substring(dotidx+1);
}
} else if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
return gen.Name;
} else {
return "";
}
}
public static string GetMarshalReturnType(string c_type)
{
return GetMarshalType (c_type, true);
}
public static string GetMarshalType(string c_type)
{
return GetMarshalType (c_type, false);
}
public static string GetMarshalType(string c_type, bool ret)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (simple_types.ContainsKey(c_type)) {
return (string) simple_types[c_type];
} else if (manually_wrapped_types.ContainsKey(c_type)) {
return "IntPtr";
} else if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (ret)
return gen.MarshalReturnType;
else
return gen.MarshalType;
} else {
return "";
}
}
public static string CallByName(string c_type, string var_name)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (simple_types.ContainsKey(c_type)) {
return var_name;
} else if (manually_wrapped_types.ContainsKey(c_type)) {
return var_name + ".Handle";
} else if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
return gen.CallByName(var_name);
} else {
return "";
}
}
public static bool IsOpaque(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (gen is OpaqueGen) {
return true;
}
}
return false;
}
public static bool IsBoxed(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (gen is BoxedGen) {
return true;
}
}
return false;
}
public static bool IsStruct(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (gen is StructGen) {
return true;
}
}
return false;
}
public static bool IsEnum(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (gen is EnumGen) {
return true;
}
}
return false;
}
public static bool IsEnumFlags(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
EnumGen gen = complex_types[c_type] as EnumGen;
return (gen != null && gen.Elem.GetAttribute ("type") == "flags");
}
return false;
}
public static bool IsInterface(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (gen is InterfaceGen) {
return true;
}
}
return false;
}
public static ClassBase GetClassGen(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
return (complex_types[c_type] as ClassBase);
}
public static bool IsObject(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (gen is ObjectGen) {
return true;
}
}
return false;
}
public static bool IsCallback(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
if (complex_types.ContainsKey(c_type)) {
IGeneratable gen = (IGeneratable) complex_types[c_type];
if (gen is CallbackGen) {
return true;
}
}
return false;
}
public static bool IsManuallyWrapped(string c_type)
{
c_type = Trim(c_type);
c_type = DeAlias(c_type);
return manually_wrapped_types.ContainsKey(c_type);
}
}
}
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