// GtkSharp.Generation.SymbolTable.cs - The Symbol Table Class. // // Author: Mike Kestner // // (c) 2001-2003 Mike Kestner namespace GtkSharp.Generation { using System; using System.Collections; public class SymbolTable { static SymbolTable table = null; Hashtable alias = new Hashtable (); Hashtable types = new Hashtable (); public static SymbolTable Table { get { if (table == null) table = new SymbolTable (); return table; } } public SymbolTable () { Hashtable alias = new Hashtable (); Hashtable types = new Hashtable (); AddType (new SimpleGen ("void", "void")); AddType (new SimpleGen ("gboolean", "bool")); AddType (new SimpleGen ("gint", "int")); AddType (new SimpleGen ("guint", "uint")); AddType (new SimpleGen ("glong", "long")); AddType (new SimpleGen ("gshort", "short")); AddType (new SimpleGen ("gushort", "ushort")); AddType (new SimpleGen ("guint32", "uint")); AddType (new SimpleGen ("guint64", "ulong")); // Const returned strings must be generated // differently from memory-managed strings AddType (new ConstStringGen ("const-gchar")); AddType (new ConstStringGen ("const-xmlChar")); AddType (new ConstStringGen ("const-char")); AddType (new StringGen ("gchar")); AddType (new SimpleGen ("gfloat", "float")); AddType (new SimpleGen ("gdouble", "double")); AddType (new SimpleGen ("gint8", "sbyte")); AddType (new SimpleGen ("guint8", "byte")); AddType (new SimpleGen ("gint16", "short")); AddType (new SimpleGen ("gint32", "int")); AddType (new SimpleGen ("gint64", "long")); AddType (new SimpleGen ("guint16", "ushort")); AddType (new SimpleGen ("guint1", "bool")); AddType (new SimpleGen ("gpointer", "IntPtr")); AddType (new SimpleGen ("guchar", "byte")); AddType (new SimpleGen ("short", "short")); AddType (new SimpleGen ("long", "long")); AddType (new SimpleGen ("ulong", "ulong")); AddType (new SimpleGen ("gulong", "ulong")); AddType (new SimpleGen ("GQuark", "int")); AddType (new SimpleGen ("int", "int")); AddType (new StringGen ("char")); AddType (new SimpleGen ("double", "double")); AddType (new SimpleGen ("float", "float")); AddType (new StringGen ("gunichar")); AddType (new SimpleGen ("uint1", "bool")); AddType (new SimpleGen ("GC", "IntPtr")); AddType (new SimpleGen ("GPtrArray", "IntPtr[]")); AddType (new ManualGen ("GType", "GLib.GType", "Val")); AddType (new SimpleGen ("GError", "IntPtr")); // gsize is a system-specific typedef in glibconfig.h, // but this should work for now AddType (new SimpleGen ("gsize", "uint")); AddType (new SimpleGen ("gssize", "int")); AddType (new SimpleGen ("size_t", "int")); // FIXME: These ought to be handled properly. AddType (new SimpleGen ("GMemChunk", "IntPtr")); AddType (new SimpleGen ("GTimeVal", "IntPtr")); AddType (new SimpleGen ("GClosure", "IntPtr")); AddType (new SimpleGen ("GArray", "IntPtr")); AddType (new SimpleGen ("GData", "IntPtr")); AddType (new SimpleGen ("GTypeModule", "GLib.Object")); AddType (new SimpleGen ("GHashTable", "System.IntPtr")); AddType (new SimpleGen ("va_list", "IntPtr")); AddType (new SimpleGen ("GParamSpec", "IntPtr")); AddType (new SimpleGen ("gconstpointer", "IntPtr")); AddType (new ManualGen ("GSList", "GLib.SList")); AddType (new ManualGen ("GList", "GLib.List")); AddType (new ManualGen ("GValue", "GLib.Value")); AddType (new ManualGen ("GObject", "GLib.Object")); } public void AddType (IGeneratable gen) { types [gen.CName] = gen; } public void AddTypes (IGeneratable[] gens) { foreach (IGeneratable gen in gens) types [gen.CName] = gen; } public int Count { get { return types.Count; } } public IEnumerable Generatables { get { return types.Values; } } public IGeneratable this [string ctype] { get { return DeAlias (ctype) as IGeneratable; } } private 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('*'); // HACK: Similar to above, but for const strings if (trim_type == "const-gchar" || trim_type == "const-char" || trim_type == "const-xmlChar") return trim_type; if (trim_type.StartsWith("const-")) return trim_type.Substring(6); return trim_type; } private object DeAlias (string type) { type = Trim (type); while (types [type] is AliasGen) { IGeneratable igen = types [type] as AliasGen; types [type] = types [igen.Name]; type = igen.Name; } return types [type]; } public string FromNativeReturn(string c_type, string val) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.FromNativeReturn (val); } public string ToNativeReturn(string c_type, string val) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.ToNativeReturn (val); } public string FromNative(string c_type, string val) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.FromNative (val); } public string GetCSType(string c_type) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.QualifiedName; } public string GetName(string c_type) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.Name; } public string GetMarshalReturnType(string c_type) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.MarshalReturnType; } public string GetMarshalType(string c_type) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.MarshalType; } public string CallByName(string c_type, string var_name) { IGeneratable gen = this[c_type]; if (gen == null) return ""; return gen.CallByName(var_name); } public bool IsOpaque(string c_type) { if (this[c_type] is OpaqueGen) return true; return false; } public bool IsBoxed(string c_type) { if (this[c_type] is BoxedGen) return true; return false; } public bool IsStruct(string c_type) { if (this[c_type] is StructGen) return true; return false; } public bool IsEnum(string c_type) { if (this[c_type] is EnumGen) return true; return false; } public bool IsEnumFlags(string c_type) { EnumGen gen = this [c_type] as EnumGen; return (gen != null && gen.Elem.GetAttribute ("type") == "flags"); } public bool IsInterface(string c_type) { if (this[c_type] is InterfaceGen) return true; return false; } public ClassBase GetClassGen(string c_type) { return this[c_type] as ClassBase; } public bool IsObject(string c_type) { if (this[c_type] is ObjectGen) return true; return false; } public bool IsCallback(string c_type) { if (this[c_type] is CallbackGen) return true; return false; } public bool IsManuallyWrapped(string c_type) { if (this[c_type] is ManualGen) return true; return false; } public string MangleName(string name) { switch (name) { case "string": return "str1ng"; case "event": return "evnt"; case "null": return "is_null"; case "object": return "objekt"; case "params": return "parms"; case "ref": return "reference"; case "in": return "in_param"; case "out": return "out_param"; case "fixed": return "mfixed"; case "byte": return "_byte"; case "new": return "_new"; case "base": return "_base"; case "lock": return "_lock"; case "callback": return "cb"; default: break; } return name; } } }