GtkSharp/generator/Ctor.cs
Mike Kestner 460b3e5623 2003-10-04 Mike Kestner <mkestner@ximian.com>
* generator/AliasGen.cs : stub new Generate overload.
	* generator/BoxedGen.cs : implement new Generate overload.
	* generator/CallbackGen.cs (Generate):implement new overload.
	* generator/ClassBase.cs : implement new Generate overload and
	pass around the gen_info.
	* generator/ClassGen.cs : implement new Generate overload.
	* generator/Ctor.cs (Generate): s/sw/gen_info.
	* generator/EnumGen.cs : implement new Generate overload.
	* generator/GenBase.cs : expose NSElem, add gen_info param to
	AppendCustom. kill CreateWriter.
	(GenWrapper): add gen_info param and use it to open stream.
	* generator/GenerationInfo.cs : new class to pass around generation
	related information and perform tasks like opening streams.
	* generator/IGeneratable.cs : add Generate(gen_info) overload.
	* generator/InterfaceGen.cs : implement new Generate overload.
	* generator/ManualGen.cs : stub new Generate overload.
	* generator/Method.cs (Generate): accept gen_info. kill GenerateComments.
	* generator/ObjectGen.cs : implement new Generate overload.
	* generator/OpaqueGen.cs : implement new Generate overload.
	* generator/Parameters.cs (Initialize): s/sw/gen_info.
	* generator/Property.cs (Generate): accept gen_info.
	* generator/Signal.cs (Generate): accept gen_info.
	* generator/SimpleGen.cs : stub new Generate overload.
	* generator/StructBase.cs : s/sw/gen_info
	* generator/StructGen.cs : implement new Generate overload.

svn path=/trunk/gtk-sharp/; revision=18615
2003-10-05 00:20:17 +00:00

167 lines
4.3 KiB
C#

// GtkSharp.Generation.Ctor.cs - The Constructor Generation Class.
//
// Author: Mike Kestner <mkestner@speakeasy.net>
//
// (c) 2001-2002 Mike Kestner
namespace GtkSharp.Generation {
using System;
using System.Collections;
using System.IO;
using System.Xml;
public class Ctor {
private string libname;
private XmlElement elem;
private Parameters parms;
private bool preferred;
private String clashName = null;
private ClassBase container_type;
private bool force_static;
public bool Preferred {
get { return preferred; }
set { preferred = value; }
}
public bool ForceStatic {
get { return force_static; }
set { force_static = value; }
}
public Parameters Params {
get { return parms; }
}
public Ctor (string libname, XmlElement elem, ClassBase container_type) {
this.libname = libname;
this.elem = elem;
this.container_type = container_type;
XmlElement parms_elem = elem ["parameters"];
if (parms_elem != null)
parms = new Parameters (parms_elem, container_type.NS);
if (elem.HasAttribute ("preferred"))
preferred = true;
}
public bool Validate ()
{
if (parms != null) {
if (!parms.Validate ()) {
Console.Write("ctor ");
Statistics.ThrottledCount++;
return false;
}
parms.CreateSignature (false);
}
return true;
}
public void InitClashMap (Hashtable clash_map)
{
string sigtypes = (parms != null) ? parms.SignatureTypes : "";
if (clash_map.ContainsKey (sigtypes)) {
int num = (int) clash_map[sigtypes];
clash_map[sigtypes] = ++num;
}
else
clash_map[sigtypes] = 0;
}
public void Initialize (Hashtable clash_map)
{
string sig = "()";
string sigtypes = "";
if (parms != null) {
sig = "(" + parms.Signature + ")";
sigtypes = parms.SignatureTypes;
}
int clashes = (int) clash_map[sigtypes];
string cname = elem.GetAttribute("cname");
if (force_static || (clashes > 0 && !Preferred)) {
String mname = cname.Substring(cname.IndexOf("new"));
mname = mname.Substring(0,1).ToUpper() + mname.Substring(1);
int idx;
while ((idx = mname.IndexOf("_")) > 0) {
mname = mname.Substring(0, idx) + mname.Substring(idx+1, 1).ToUpper() + mname.Substring(idx+2);
}
clashName = mname + sig;
}
}
public void Generate (GenerationInfo gen_info)
{
StreamWriter sw = gen_info.Writer;
string sigtypes = "";
string sig = "()";
string call = "()";
string isig = "();";
if (parms != null) {
call = "(" + parms.CallString + ")";
sig = "(" + parms.Signature + ")";
isig = "(" + parms.ImportSig + ");";
sigtypes = parms.SignatureTypes;
}
string cname = elem.GetAttribute("cname");
string name = ((XmlElement)elem.ParentNode).GetAttribute("name");
string safety;
if (parms != null && parms.ThrowsException)
safety = "unsafe ";
else
safety = "";
sw.WriteLine("\t\t[DllImport(\"" + libname + "\")]");
sw.WriteLine("\t\tstatic extern " + safety + "IntPtr " + cname + isig);
sw.WriteLine();
if (clashName != null) {
string modifiers = "";
Ctor dup = null;
ObjectGen parent = (ObjectGen) container_type.Parent;
while (dup == null && parent != null) {
foreach (Ctor c in parent.Ctors) {
if (c.clashName == clashName) {
dup = c;
modifiers = "new ";
break;
}
}
parent = (ObjectGen) parent.Parent;
}
sw.WriteLine("\t\tpublic static " + safety + modifiers + name + " " + clashName);
sw.WriteLine("\t\t{");
if (parms != null)
parms.Initialize(gen_info, false, false, "");
sw.Write("\t\t\treturn ");
if (container_type is StructBase)
sw.Write ("{0}.New (", name);
else
sw.Write ("new {0} (", name);
sw.WriteLine (cname + call + ");");
} else {
sw.WriteLine("\t\tpublic " + safety + name + sig);
sw.WriteLine("\t\t{");
if (parms != null)
parms.Initialize(gen_info, false, false, "");
sw.WriteLine("\t\t\t{0} = {1}{2};", container_type.AssignToName, cname, call);
if (parms != null)
parms.HandleException (sw, "");
}
sw.WriteLine("\t\t}");
sw.WriteLine();
Statistics.CtorCount++;
}
}
}