GtkSharp/generator/Parameters.cs
Dan Winship eb4fdee774 Automatic memory management for opaque types [#49565]
* glib/Opaque.cs (Owned): new property saying whether or not gtk#
	owns the memory.
	(Opaque): Set Owned to true in the void ctor and false in the
	IntPtr one.
	(GetOpaque): add a new overload that can also create opaques, a la
	GLib.Object.GetObject.
	(Ref, Unref, Free): empty virtual methods to be overridden by
	subclasses.
	(set_Raw): Unref() and possibly Free() the old value, Ref() the
	new one.
	(~Opaque, Dispose): set Raw to IntPtr.Zero (triggering Free/Unref
	if needed)

	* parser/gapi2xml.pl (addReturnElem): if the method is named Copy
	and returns a pointer, set the "owned" attribute on the
	return-type.

	* */*-api.raw: Regen
	
	* generator/HandleBase.cs (FromNative): Add new
	FromNative/FromNativeReturn overloads that takes a "bool owned"
	param. Implement the 1-arg FromNative and FromNativeReturn in
	terms of that.

	* generator/ObjectBase.cs (FromNative): Implement HandleBase's new
	overload. Use the two-arg version of GLib.Object.GetObject when
	"owned" is true.

	* generator/OpaqueGen.cs (Generate): Pull out Ref, Unref, and
	Free/Destroy/Dispose methods and handle them specially by
	overriding Opaque.Ref, .Unref, and .Free appropriately. (If any
	of the methods are marked deprecated, output a deprecated
	do-nothing method as well, to save us from having to write all
	those deprecated methods by hand.)
	(FromNative): use GetOpaque, passing "owned".

	* generator/ReturnValue.cs (FromNative): if the value is a
	HandleBase, pass Owned to its FromNative().

	* generator/Parameters.cs (Owned): new property (for use on out
	params)
	(FromNative): Call FromNative() on the generatable, handling Owned
	in the case of HandleBase.

	* generator/ManagedCallString.cs:
	* generator/MethodBody.cs:
	* generator/Signal.cs: use param.FromNative() rather than
	param.Generatable.FromNative(), to get ownership right.

	* */*.metadata: Mark opaque ref/unref/free methods deprecated
	(except where we were hiding them before). Add "owned" attributes
	to return values and out params as needed.

	* pango/AttrIterator.custom (GetFont): work around a
	memory-management oddity of the underlying method.

	* pango/AttrFontDesc.cs (AttrFontDesc): copy the passed-in
	FontDescriptor, since the attribute will assume ownership of it.

	* gtk/TreeView.custom (GetPathAtPos): set the "owned" flag on the
	returned TreePaths.

	* gtk/TargetList.custom: Remove refcounting stuff, which is
	now handled automatically

	* gtk/NodeStore.cs (GetPath): clear the Owned flag on the created
	TreePath so that the underlying structure doesn't get freed when
	the function returns

	* gtkhtml/HTMLStream.custom (Destroy): hide this and then
	reimplement it by hand to keep OpaqueGen from using it in
	Dispose(), since calling it after an HTMLStream.Close() will
	result in a crash.

svn path=/trunk/gtk-sharp/; revision=47928
2005-08-02 18:45:21 +00:00

409 lines
8.2 KiB
C#

// GtkSharp.Generation.Parameters.cs - The Parameters Generation Class.
//
// Author: Mike Kestner <mkestner@speakeasy.net>
//
// Copyright (c) 2001-2003 Mike Kestner
// Copyright (c) 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.Xml;
public class Parameter {
private XmlElement elem;
public Parameter (XmlElement e)
{
elem = e;
}
public string CType {
get {
string type = elem.GetAttribute("type");
if (type == "void*")
type = "gpointer";
return type;
}
}
public string CSType {
get {
string cstype = SymbolTable.Table.GetCSType( elem.GetAttribute("type"));
if (cstype == "void")
cstype = "System.IntPtr";
if (IsArray) {
if (IsParams)
cstype = "params " + cstype;
cstype += "[]";
cstype = cstype.Replace ("ref ", "");
}
return cstype;
}
}
public IGeneratable Generatable {
get {
return SymbolTable.Table[CType];
}
}
public bool IsArray {
get {
return elem.HasAttribute("array");
}
}
public bool IsEllipsis {
get {
return elem.HasAttribute("ellipsis");
}
}
public bool IsCount {
get {
if (Name.StartsWith("n_"))
switch (CSType) {
case "int":
case "uint":
case "long":
case "ulong":
case "short":
case "ushort":
return true;
default:
return false;
}
else
return false;
}
}
public bool IsDestroyNotify {
get {
return CType == "GDestroyNotify";
}
}
public bool IsLength {
get {
if (Name.EndsWith("len") || Name.EndsWith("length"))
switch (CSType) {
case "int":
case "uint":
case "long":
case "ulong":
case "short":
case "ushort":
return true;
default:
return false;
}
else
return false;
}
}
public bool IsParams {
get {
return elem.HasAttribute("params");
}
}
public bool IsString {
get {
return (CSType == "string");
}
}
public bool IsUserData {
get {
return CSType == "IntPtr" && (Name.EndsWith ("data") || Name.EndsWith ("data_or_owner"));
}
}
public string MarshalType {
get {
string type = SymbolTable.Table.GetMarshalType( elem.GetAttribute("type"));
if (type == "void")
type = "System.IntPtr";
if (IsArray) {
type += "[]";
type = type.Replace ("ref ", "");
}
return type;
}
}
public string Name {
get {
return SymbolTable.Table.MangleName (elem.GetAttribute("name"));
}
}
public bool Owned {
get {
return elem.GetAttribute ("owned") == "true";
}
}
public string PropertyName {
get {
return elem.GetAttribute("property_name");
}
}
public string PassAs {
get {
if (elem.HasAttribute ("pass_as"))
return elem.GetAttribute ("pass_as");
if (IsArray || CSType.EndsWith ("IntPtr"))
return "";
if (CType.EndsWith ("*") && (Generatable is SimpleGen || Generatable is EnumGen))
return "out";
return "";
}
}
string scope;
public string Scope {
get {
if (scope == null)
scope = elem.GetAttribute ("scope");
return scope;
}
set {
scope = value;
}
}
public string CallByName (string call_parm_name)
{
string call_parm;
if (Generatable is CallbackGen)
call_parm = SymbolTable.Table.CallByName (CType, call_parm_name + "_wrapper");
else
call_parm = SymbolTable.Table.CallByName(CType, call_parm_name);
if (IsArray)
call_parm = call_parm.Replace ("ref ", "");
return call_parm;
}
public string FromNative (string var)
{
if (Generatable is HandleBase)
return ((HandleBase)Generatable).FromNative (var, Owned);
else
return Generatable.FromNative (var);
}
public string StudlyName {
get {
string name = elem.GetAttribute("name");
string[] segs = name.Split('_');
string studly = "";
foreach (string s in segs) {
if (s.Trim () == "")
continue;
studly += (s.Substring(0,1).ToUpper() + s.Substring(1));
}
return studly;
}
}
}
public class Parameters : IEnumerable {
ArrayList param_list = new ArrayList ();
public Parameters (XmlElement elem) {
if (elem == null)
return;
foreach (XmlNode node in elem.ChildNodes) {
XmlElement parm = node as XmlElement;
if (parm != null && parm.Name == "parameter")
param_list.Add (new Parameter (parm));
}
}
public int Count {
get {
return param_list.Count;
}
}
public int VisibleCount {
get {
int visible = 0;
foreach (Parameter p in this) {
if (!IsHidden (p))
visible++;
}
return visible;
}
}
public Parameter this [int idx] {
get {
return param_list [idx] as Parameter;
}
}
public bool IsHidden (Parameter p)
{
int idx = param_list.IndexOf (p);
if (idx > 0 && p.IsLength && this [idx - 1].IsString)
return true;
if (p.IsCount && ((idx > 0 && this [idx - 1].IsArray) ||
(idx < Count - 1 && this [idx + 1].IsArray)))
return true;
if (p.CType == "GError**")
return true;
if (HasCB || HideData) {
if (p.IsUserData && (idx == Count - 1))
return true;
if (p.IsUserData && idx > 0 &&
this [idx - 1].Generatable is CallbackGen)
return true;
if (p.IsDestroyNotify && (idx == Count - 1) &&
this [idx - 1].IsUserData)
return true;
}
return false;
}
bool has_cb;
public bool HasCB {
get { return has_cb; }
set { has_cb = value; }
}
bool hide_data;
public bool HideData {
get { return hide_data; }
set { hide_data = value; }
}
bool is_static;
public bool Static {
get { return is_static; }
set { is_static = value; }
}
bool cleared = false;
void Clear ()
{
cleared = true;
param_list.Clear ();
}
public IEnumerator GetEnumerator ()
{
return param_list.GetEnumerator ();
}
public bool Validate ()
{
if (cleared)
return false;
for (int i = 0; i < param_list.Count; i++) {
Parameter p = this [i];
if (p.IsEllipsis) {
Console.Write("Ellipsis parameter ");
Clear ();
return false;
}
if ((p.CSType == "") || (p.Name == "") ||
(p.MarshalType == "") || (SymbolTable.Table.CallByName(p.CType, p.Name) == "")) {
Console.Write("Name: " + p.Name + " Type: " + p.CType + " ");
Clear ();
return false;
}
if (p.Generatable is CallbackGen) {
has_cb = true;
if (i == Count - 3 &&
this [i + 1].IsUserData &&
this [i + 2].IsDestroyNotify)
p.Scope = "notified";
}
}
return true;
}
public bool IsAccessor {
get {
return VisibleCount == 1 && AccessorParam.PassAs == "out";
}
}
public Parameter AccessorParam {
get {
foreach (Parameter p in this) {
if (!IsHidden (p))
return p;
}
return null;
}
}
public string AccessorReturnType {
get {
Parameter p = AccessorParam;
if (p != null)
return p.CSType;
else
return null;
}
}
public string AccessorName {
get {
Parameter p = AccessorParam;
if (p != null)
return p.Name;
else
return null;
}
}
}
}