GtkSharp/generator/MethodBody.cs
Martin Willemoes Hansen c2d4c12e67 * generator/Method.cs: Methods which returns void and has a single out parameter
like void Foobar (..., out int baz, ...) are turned into the more .NET like
          signature int Foobar (...), this fixes bug 46392
        * generator/Signature.cs: Ditto
        * generator/MethodBody.cs: Ditto
        * gtk/ListStore.custom: Ditto
        * gtk/TextBuffer.custom: Ditto
        * gtk/TreeStore.custom: Ditto

svn path=/trunk/gtk-sharp/; revision=22126
2004-01-15 21:18:46 +00:00

192 lines
5.9 KiB
C#

// GtkSharp.Generation.MethodBody.cs - The MethodBody Generation Class.
//
// Author: Mike Kestner <mkestner@speakeasy.net>
//
// (c) 2001-2003 Mike Kestner, (c) 2003 Novell, Inc.
namespace GtkSharp.Generation {
using System;
using System.Collections;
using System.IO;
public class MethodBody {
Parameters parameters;
private string impl_ns;
public MethodBody (Parameters parms, string impl_ns) {
parameters = parms;
this.impl_ns = impl_ns;
}
private bool UsesHandle (IGeneratable igen)
{
return igen is ManualGen || igen is ObjectGen || igen is InterfaceGen || igen is OpaqueGen;
}
private string CastFromInt (string type)
{
return type != "int" ? "(" + type + ") " : "";
}
private string CallArrayLength (Parameter array, Parameter length)
{
string result = array.NullOk ? array.Name + " != null ? " : "";
result += CastFromInt (length.CSType) + array.Name + ".Length";
result += array.NullOk ? ": 0" : "";
return result;
}
public string GetCallString (bool is_set)
{
if (parameters == null)
return "";
string[] result = new string [parameters.Count];
for (int i = 0; i < parameters.Count; i++) {
Parameter p = parameters [i];
IGeneratable igen = p.Generatable;
if (p.IsCount) {
if (i > 0 && parameters [i - 1].IsArray) {
result[i] = CallArrayLength (parameters[i - 1], p);
continue;
} else if (i < parameters.Count - 1 && parameters [i + 1].IsArray) {
result[i] = CallArrayLength (parameters[i + 1], p);
continue;
}
} else if (i > 0 && parameters [i - 1].IsString && p.IsLength) {
result[i] = CastFromInt (p.CSType) + parameters [i - 1].Name + ".Length";
continue;
} else if (p.IsArray && p.MarshalType != p.CSType) {
result[i] = (is_set && i == 0 ? "native_value" : "native_" + p.Name);
continue;
}
string call_parm = p.CallByName (is_set && i == 0 ? "value" : p.Name);
if (p.CType == "GError**") {
result [i] += "out ";
} else if (p.PassAs != "") {
if (!p.MarshalType.EndsWith ("IntPtr"))
result [i] += p.PassAs + " ";
if (igen is EnumGen)
call_parm = p.Name + "_as_int";
else if (UsesHandle (igen) || p.CSType == "GLib.Value") {
call_parm = p.PassAs + " " + call_parm.Replace (".Handle", "_handle");
}
}
if (p.CType == "GError**") {
call_parm = call_parm.Replace (p.Name, "error");
} else if (p.IsUserData && !parameters.HideData && (i == parameters.Count - 1)) {
call_parm = "IntPtr.Zero";
}
result [i] += call_parm;
}
string call_string = String.Join (", ", result);
call_string = call_string.Replace ("out ref", "out");
call_string = call_string.Replace ("ref ref", "ref");
return call_string;
}
public void Initialize (GenerationInfo gen_info, bool is_get, bool is_set, string indent)
{
if (parameters == null)
return;
StreamWriter sw = gen_info.Writer;
for (int i = 0; i < parameters.Count; i++) {
Parameter p = parameters [i];
IGeneratable gen = p.Generatable;
string name = p.Name;
if (is_set)
name = "value";
if (is_get) {
sw.WriteLine (indent + "\t\t\t" + p.CSType + " " + name + ";");
if (gen is ObjectGen || gen is OpaqueGen || p.CSType == "GLib.Value")
sw.WriteLine(indent + "\t\t\t" + name + " = new " + p.CSType + "();");
}
if ((is_get || p.PassAs == "out") && (UsesHandle (gen) || p.CSType == "GLib.Value"))
sw.WriteLine(indent + "\t\t\tIntPtr " + name + "_handle;");
if (p.PassAs == "out" && gen is EnumGen)
sw.WriteLine(indent + "\t\t\tint " + name + "_as_int;");
if (p.IsArray && p.MarshalType != p.CSType) {
sw.WriteLine(indent + "\t\t\t{0}[] native_{1} = new {0} [{1}.Length];", p.MarshalType.TrimEnd('[', ']'), name);
sw.WriteLine(indent + "\t\t\tfor (int i = 0; i < {0}.Length; i++)", name);
sw.WriteLine(indent + "\t\t\t\tnative_{0} [i] = {1};", name, p.CallByName (name + "[i]"));
}
if (gen is CallbackGen) {
CallbackGen cbgen = gen as CallbackGen;
string wrapper = cbgen.GenWrapper(impl_ns, gen_info);
sw.WriteLine (indent + "\t\t\t{0} {1}_wrapper = null;", wrapper, name);
sw.Write (indent + "\t\t\t");
if (p.NullOk)
sw.Write ("if ({0} != null) ", name);
sw.WriteLine ("{1}_wrapper = new {0} ({1}, {2});", wrapper, p.Name, parameters.Static ? "null" : "this");
}
}
if (ThrowsException)
sw.WriteLine (indent + "\t\t\tIntPtr error = IntPtr.Zero;");
}
public void InitAccessor (StreamWriter sw, Signature sig, string indent)
{
sw.WriteLine (indent + "\t\t\t" + sig.AccessorType + " " + sig.AccessorName + ";");
}
public void Finish (StreamWriter sw, string indent)
{
if (parameters == null)
return;
for (int i = 0; i < parameters.Count; i++) {
Parameter p = parameters [i];
if (p.PassAs == "out" && p.Generatable is EnumGen) {
sw.WriteLine(indent + "\t\t\t" + p.Name + " = (" + p.CSType + ") " + p.Name + "_as_int;");
}
IGeneratable gen = p.Generatable;
if (p.PassAs == "out" && (UsesHandle (gen) || p.CSType == "GLib.Value"))
sw.WriteLine(indent + "\t\t\t" + p.Name + " = " + gen.FromNativeReturn (p.Name + "_handle") + ";");
}
}
public void FinishAccessor (StreamWriter sw, Signature sig, string indent)
{
sw.WriteLine (indent + "\t\t\treturn " + sig.AccessorName + ";");
}
public void HandleException (StreamWriter sw, string indent)
{
if (!ThrowsException)
return;
sw.WriteLine (indent + "\t\t\tif (error != IntPtr.Zero) throw new GLib.GException (error);");
}
public bool ThrowsException {
get {
if (parameters == null || parameters.Count < 1)
return false;
return parameters [parameters.Count - 1].CType == "GError**";
}
}
}
}