--- a/Symbian3/PDK/Source/GUID-3799F0DA-B99C-55BB-B44F-63B971DF1865.dita	Thu Mar 11 15:24:26 2010 +0000
+++ b/Symbian3/PDK/Source/GUID-3799F0DA-B99C-55BB-B44F-63B971DF1865.dita	Thu Mar 11 18:02:22 2010 +0000
@@ -1,146 +1,146 @@
-<?xml version="1.0" encoding="utf-8"?>
-<!-- Copyright (c) 2007-2010 Nokia Corporation and/or its subsidiary(-ies) All rights reserved. -->
-<!-- This component and the accompanying materials are made available under the terms of the License 
-"Eclipse Public License v1.0" which accompanies this distribution, 
-and is available at the URL "http://www.eclipse.org/legal/epl-v10.html". -->
-<!-- Initial Contributors:
-    Nokia Corporation - initial contribution.
-Contributors: 
--->
-<!DOCTYPE task
-  PUBLIC "-//OASIS//DTD DITA Task//EN" "task.dtd">
-<task id="GUID-3799F0DA-B99C-55BB-B44F-63B971DF1865" xml:lang="en"><title>Cleanup
-Strategy Tutorial</title><shortdesc>This tutorial describes the cleanup strategy and provides details
-on alternative cleanup strategies. </shortdesc><prolog><metadata><keywords/></metadata></prolog><taskbody>
-<prereq><p>Before you start, you must: </p> <ul>
-<li id="GUID-18CD0776-EEA9-56AF-9E5F-E5101BB88643"><p> <b>Deafult cleanup
-strategies:</b> These are based on a template-based implementation of the
-strategy design pattern. </p> </li>
-<li id="GUID-598FF730-0C91-51C4-B9AA-16B74137BB6E"><p> <b>Alternative cleanup
-strategies:</b> These can be specified as an optional template parameter of
-the class templates for automatic resource management. </p> </li>
-</ul> </prereq>
-<context><p>Cleanup strategy is based on a template-based implementation of
-the Strategy design pattern. The strategy design pattern is one of the most
-popular, highly recommended design patterns. The vast majority of the competent
-C++ developers are already familiar with the strategy (Policy) design pattern
-and Policy-based design, which should improve the usability of these class
-templates. </p> <p>Each
-resource management class has a default cleanup strategy that is invoked when
-the managing object goes out of scope. It is however possible to define an
-alternative cleanup strategy when constructing the managing object. It is
-also possible to define a custom cleanup strategy using the <xref href="GUID-CE0F22BA-8789-3659-87C4-164EB5862B4C.dita"><apiname>DEFINE_CLEANUP_FUNCTION</apiname></xref> macro. </p> <p> <b>Note:</b> Although
-the examples below use LCleanedupX classes, the method for definfing how the
-object is cleaned up is equally applicable to LManagedX classes. </p> <p>An
-example code snippet is given below: </p> <codeblock id="GUID-DE45C250-C8C5-5210-B53C-D9256F00194B" xml:space="preserve">
-//Class definition of trivial R-Class
-class RSimple
-    {
-public:
-
-    RSimple(){iData = NULL;}
-
-    void Open(TInt aValue)
-        {
-        iData = new(ELeave) TInt(aValue);
-        }
-
-    //Cleanup function – frees resource
-    void Close()
-        {
-        delete iData;
-        iData = NULL;
-        }
-
-    //Cleanup function – frees resource
-    void Free()
-        {
-        delete iData;
-        iData = NULL;
-        }
-
-    //Cleanup function – frees resource
-    void ReleaseData()
-        {
-        delete iData;
-        iData = NULL;
-        }
-
-    //static cleanup function – frees aRSimple resources
-    static void Cleanup(TAny* aRSimple)
-        {
-        static_cast RSimple* (aRSimple)-&gt;Close();
-        }
-private:
-    Tint* iData;
-
-    };
-
-</codeblock> <p>The above RSimple class has three cleanup member functions,
-Close, Free and ReleaseData. </p> <p>Each resource management class has a
-default cleanup strategy that is invoked when the managing object goes out
-of scope. The default cleanup strategy is dependent on the managing type.
-Consider the example code snippet below: </p> <p> <b>Note:</b> Although the
-examples below use LManagedX classes, the method for defining a custom cleanup
-strategy is equally applicable to LCleanedupX classes. </p> <codeblock id="GUID-7D4F639F-3BEA-59CD-BA75-DF1C25175BA3" xml:space="preserve">
-class CTicker : public CBase
-    {
-public:
-    void Tick() { ++iTicks; }
-    void Tock() { ++iTocks; }
-
-    void Zap() { delete this; }
-
-public:
-    TInt iTicks;
-    TInt iTocks;
-    };
-
-
-class CManagedUserSinglePhase : public CBase
-    {
-public:
-    . . .
-
-    ~CManagedUserSinglePhase()
-        {
-        // The iTicker manager will automatically delete the CTicker
-        // The iTimer manager will automatically Close() the RTimer
-        }
-
-    . . .
-private:
-    // We have to use LManagedXxx for fields, not LCleanedupXxx
-    LManagedPtr CTicker iTicker;
-    LManagedHandle RTimer iTimer;
-    };
-</codeblock> <p>The default cleanup strategy for an LManagedPtr is to delete
-the pointer and this is the action taken in the destructor for CManagedUserSinglePhase. </p> <p>Alternate
-cleanup strategies are pre-defined in <filepath>emanaged.h</filepath> file.
-It is also possible to define a custom alternate cleanup strategy that can
-be passed as the second template parameter to the constructor of an LManagedX
-or LCleanedupX object. </p> <p>Although the examples below use LManagedX classes,
-the method for defining an alternate cleanup strategy is equally applicable
-to LCleanedupX classes. </p> <p>The default cleanup strategy is to call <xref href="GUID-91F3C4E0-5687-366D-9D50-D710E763F0CF.dita#GUID-91F3C4E0-5687-366D-9D50-D710E763F0CF/GUID-29E73AC7-D397-3237-ABF9-C93C0AD39543"><apiname>CTicker::Zap()</apiname></xref> function.
-It is possible however to define a custom alternate cleanup strategy as shown
-below: </p> <codeblock id="GUID-5B268C52-2708-50CF-8070-0896C8CE80C0" xml:space="preserve">
-// Defines a custom pointer cleanup policy that calls the Zap member
-template &lt;class T&gt;
-class TTickerZap 
-    {
-public:
-    static void Cleanup(T* aPtr)
-        {
-        // The general template/class scaffolding remains the same
-        // for all custom cleanups, just this cleanup body varies
-        aPtr-&gt;Zap();
-        test.Printf(_L("Zapped CTicker\n"));
-        }
-    };
-</codeblock> </context>
-</taskbody><related-links>
-<link href="GUID-B007634D-4D55-528A-8B85-6120C633AC8B.dita"><linktext>EUser High
-Level Overview</linktext></link>
-<link href="GUID-A18153C0-230C-51FB-9384-A48BB4E42F03.dita"><linktext>Clean-up
-Strategy</linktext></link>
+<?xml version="1.0" encoding="utf-8"?>
+<!-- Copyright (c) 2007-2010 Nokia Corporation and/or its subsidiary(-ies) All rights reserved. -->
+<!-- This component and the accompanying materials are made available under the terms of the License 
+"Eclipse Public License v1.0" which accompanies this distribution, 
+and is available at the URL "http://www.eclipse.org/legal/epl-v10.html". -->
+<!-- Initial Contributors:
+    Nokia Corporation - initial contribution.
+Contributors: 
+-->
+<!DOCTYPE task
+  PUBLIC "-//OASIS//DTD DITA Task//EN" "task.dtd">
+<task id="GUID-3799F0DA-B99C-55BB-B44F-63B971DF1865" xml:lang="en"><title>Cleanup
+Strategy Tutorial</title><shortdesc>This tutorial describes the cleanup strategy and provides details
+on alternative cleanup strategies. </shortdesc><prolog><metadata><keywords/></metadata></prolog><taskbody>
+<prereq><p>Before you start, you must: </p> <ul>
+<li id="GUID-18CD0776-EEA9-56AF-9E5F-E5101BB88643"><p> <b>Deafult cleanup
+strategies:</b> These are based on a template-based implementation of the
+strategy design pattern. </p> </li>
+<li id="GUID-598FF730-0C91-51C4-B9AA-16B74137BB6E"><p> <b>Alternative cleanup
+strategies:</b> These can be specified as an optional template parameter of
+the class templates for automatic resource management. </p> </li>
+</ul> </prereq>
+<context><p>Cleanup strategy is based on a template-based implementation of
+the Strategy design pattern. The strategy design pattern is one of the most
+popular, highly recommended design patterns. The vast majority of the competent
+C++ developers are already familiar with the strategy (Policy) design pattern
+and Policy-based design, which should improve the usability of these class
+templates. </p> <p>Each
+resource management class has a default cleanup strategy that is invoked when
+the managing object goes out of scope. It is however possible to define an
+alternative cleanup strategy when constructing the managing object. It is
+also possible to define a custom cleanup strategy using the <xref href="GUID-CE0F22BA-8789-3659-87C4-164EB5862B4C.dita"><apiname>DEFINE_CLEANUP_FUNCTION</apiname></xref> macro. </p> <p> <b>Note:</b> Although
+the examples below use LCleanedupX classes, the method for definfing how the
+object is cleaned up is equally applicable to LManagedX classes. </p> <p>An
+example code snippet is given below: </p> <codeblock id="GUID-DE45C250-C8C5-5210-B53C-D9256F00194B" xml:space="preserve">
+//Class definition of trivial R-Class
+class RSimple
+    {
+public:
+
+    RSimple(){iData = NULL;}
+
+    void Open(TInt aValue)
+        {
+        iData = new(ELeave) TInt(aValue);
+        }
+
+    //Cleanup function – frees resource
+    void Close()
+        {
+        delete iData;
+        iData = NULL;
+        }
+
+    //Cleanup function – frees resource
+    void Free()
+        {
+        delete iData;
+        iData = NULL;
+        }
+
+    //Cleanup function – frees resource
+    void ReleaseData()
+        {
+        delete iData;
+        iData = NULL;
+        }
+
+    //static cleanup function – frees aRSimple resources
+    static void Cleanup(TAny* aRSimple)
+        {
+        static_cast RSimple* (aRSimple)-&gt;Close();
+        }
+private:
+    Tint* iData;
+
+    };
+
+</codeblock> <p>The above RSimple class has three cleanup member functions,
+Close, Free and ReleaseData. </p> <p>Each resource management class has a
+default cleanup strategy that is invoked when the managing object goes out
+of scope. The default cleanup strategy is dependent on the managing type.
+Consider the example code snippet below: </p> <p> <b>Note:</b> Although the
+examples below use LManagedX classes, the method for defining a custom cleanup
+strategy is equally applicable to LCleanedupX classes. </p> <codeblock id="GUID-7D4F639F-3BEA-59CD-BA75-DF1C25175BA3" xml:space="preserve">
+class CTicker : public CBase
+    {
+public:
+    void Tick() { ++iTicks; }
+    void Tock() { ++iTocks; }
+
+    void Zap() { delete this; }
+
+public:
+    TInt iTicks;
+    TInt iTocks;
+    };
+
+
+class CManagedUserSinglePhase : public CBase
+    {
+public:
+    . . .
+
+    ~CManagedUserSinglePhase()
+        {
+        // The iTicker manager will automatically delete the CTicker
+        // The iTimer manager will automatically Close() the RTimer
+        }
+
+    . . .
+private:
+    // We have to use LManagedXxx for fields, not LCleanedupXxx
+    LManagedPtr CTicker iTicker;
+    LManagedHandle RTimer iTimer;
+    };
+</codeblock> <p>The default cleanup strategy for an LManagedPtr is to delete
+the pointer and this is the action taken in the destructor for CManagedUserSinglePhase. </p> <p>Alternate
+cleanup strategies are pre-defined in <filepath>emanaged.h</filepath> file.
+It is also possible to define a custom alternate cleanup strategy that can
+be passed as the second template parameter to the constructor of an LManagedX
+or LCleanedupX object. </p> <p>Although the examples below use LManagedX classes,
+the method for defining an alternate cleanup strategy is equally applicable
+to LCleanedupX classes. </p> <p>The default cleanup strategy is to call <xref href="GUID-91F3C4E0-5687-366D-9D50-D710E763F0CF.dita#GUID-91F3C4E0-5687-366D-9D50-D710E763F0CF/GUID-29E73AC7-D397-3237-ABF9-C93C0AD39543"><apiname>CTicker::Zap()</apiname></xref> function.
+It is possible however to define a custom alternate cleanup strategy as shown
+below: </p> <codeblock id="GUID-5B268C52-2708-50CF-8070-0896C8CE80C0" xml:space="preserve">
+// Defines a custom pointer cleanup policy that calls the Zap member
+template &lt;class T&gt;
+class TTickerZap 
+    {
+public:
+    static void Cleanup(T* aPtr)
+        {
+        // The general template/class scaffolding remains the same
+        // for all custom cleanups, just this cleanup body varies
+        aPtr-&gt;Zap();
+        test.Printf(_L("Zapped CTicker\n"));
+        }
+    };
+</codeblock> </context>
+</taskbody><related-links>
+<link href="GUID-B007634D-4D55-528A-8B85-6120C633AC8B.dita"><linktext>EUser High
+Level Overview</linktext></link>
+<link href="GUID-A18153C0-230C-51FB-9384-A48BB4E42F03.dita"><linktext>Clean-up
+Strategy</linktext></link>
 </related-links></task>
\ No newline at end of file